*============================================== *OPAMP5 pinout: +IN, -IN, +V, -V, OUT *Copyright (c) 1996 MicroCode Engineering, Inc. *All Rights Reserved * *See other copyright notices at end of file. *============================================== *OPAMP5 *IDEAL Sngl OpAmp OpenLoopGain=100k pkg:DIP8 3,2,7,4,6 .SUBCKT OPAMP5 1 2 3 4 5 RIN 3 4 1G EGAIN 5 0 1 2 1E5 R1 1 2 1k .ENDS OPAMP5 *==================================================== *LF347 *Quad WideBW JFET OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LF347 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*14.15E6 - I(VC)*10E6 + I(VE)*10E6 + + I(VLP)*10E6 - I(VLN)*10E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 1.59E-9 ISS 3 10 DC 195.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 50 RO2 7 99 25 RP 3 4 15E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=25E-12 BETA=235.1E-6 VTO=-1) .ENDS LF347 *==================================================== *LF351 *Sngl WideBW JFET OpAmp pkg:DIP8 3,2,7,4,6. pkg:CAN8 3,2,7,4,6. .SUBCKT LF351 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*28.29E6 - I(VC)*30E6 + I(VE)*30E6 + + I(VLP)*30E6 - I(VLN)*30E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 1.59E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 50 RO2 7 99 25 RP 3 4 15E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=12.5E-12 BETA=250.1E-6 VTO=-1) .ENDS LF351 *==================================================== *LF353 *Dual WideBW JFET OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LF353 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*28.29E6 - I(VC)*30E6 + I(VE)*30E6 + + I(VLP)*30E6 - I(VLN)*30E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 1.59E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 50 RO2 7 99 11.62 RP 3 4 15E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=12.5E-12 BETA=250.1E-6 VTO=-1) .ENDS LF353 *==================================================== *LF411C *Sngl LoOffset LoDrift JFET OpAmp pkg:DIP8 3,2,8,4,6. pkg:CAN8 3,2,8,4,6. .SUBCKT LF411C 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*28.29E6 - I(VC)*30E6 + I(VE)*30E6 + + I(VLP)*30E6 - I(VLN)*30E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 1.59E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 50 RO2 7 99 25 RP 3 4 15E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=12.5E-12 BETA=250.1E-6 VTO=-1) .ENDS LF411C *==================================================== *LF412C *Dual LoOffset LoDrift JFET OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LF412C 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*28.29E6 - I(VC)*30E6 + I(VE)*30E6 + + I(VLP)*30E6 - I(VLN)*30E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 1.59E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 50 RO2 7 99 25 RP 3 4 15E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=12.5E-12 BETA=250.1E-6 VTO=-1) .ENDS LF412C *==================================================== *LF441 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl LoPwr JFET OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF441 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 200 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS LF441 *==================================================== *LF442 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoPwr JFET OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LF442 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 200 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS LF442 *==================================================== *LF444 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad LoPwr JFET OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LF444 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 200 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS LF444 *==================================================== *LM11 OPERATIONAL AMPLIFIER *"MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LM11 1 2 3 4 5 C1 11 12 12.59E-12 C2 6 7 28.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 65.29E6 +-70E6 70E6 70E6 -70E6 GA 6 0 11 12 122.5E-6 GCM 0 6 10 99 38.74E-12 IEE 10 4 DC 6.900E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 8.162E3 RC2 3 12 8.162E3 RE1 13 10 660.9 RE2 14 10 660.9 REE 10 99 28.99E6 RO1 8 5 41 RO2 7 99 41 RP 3 4 102.4E3 VB 9 0 DC 0 VC 3 53 DC 2.65 VE 54 4 DC 2.65 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=202.9E3) .ENDS LM11 *==================================================== *LM307 *Sngl GenPurpose OpAmp pkg:DIP8 3,2,7,4,6. pkg:CAN8 3,2,7,4,6. .SUBCKT LM307 1 2 3 4 5 C1 11 12 8.887E-12 C2 6 7 30E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*42.44E6 - I(VC)*40E6 + I(VE)*40E6 + + I(VLP)*40E6 - I(VLN)*40E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 3.352E-9 IEE 10 4 DC 15.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 3 11 5.305E3 RC2 3 12 5.305E3 RE1 13 10 1.839E3 RE2 14 10 1.839E3 REE 10 99 13.21E6 RO1 8 5 50 RO2 7 99 25 RP 3 4 16.81E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL QX NPN(IS=800E-18 BF=107.1) .ENDS LM307 *==================================================== *LM318 *Sngl Precision HiSpeed OpAmp pkg:DIP8 3,2,7,4,6. pkg:CAN8 3,2,7,4,6. .SUBCKT LM318 1 2 3 4 5 C1 11 12 8.5E-12 C2 6 7 25E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*1.697E6 - I(VC)*2E6 + I(VE)*2E6 + + I(VLP)*2E6 - I(VLN)*2E6 GA 6 0 11 12 2.474E-3 GCM 0 6 10 99 13.25E-9 IEE 10 4 DC 1.75E-3 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 3 11 424.4 RC2 3 12 424.4 RE1 13 10 394.7 RE2 14 10 394.7 REE 10 99 114.3E3 RO1 8 5 50 RO2 7 99 50 RP 3 4 9.231E3 VB 9 0 DC 0 VC 3 53 DC 2.7 VE 54 4 DC 2.7 VLIM 7 8 DC 0 VLP 91 0 DC 21 VLN 0 92 DC 21 .MODEL DX D(IS=800E-18) .MODEL QX NPN(IS=800E-18 BF=5.833E3) .ENDS LM318 *==================================================== *LM324 *Quad LoPwr SnglSup OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LM324 1 2 3 4 5 C1 11 12 5.544E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*15.91E6 - I(VC)*20E6 + I(VE)*20E6 + + I(VLP)*20E6 - I(VLN)*20E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 7.067E-9 IEE 3 10 DC 10.04E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 4 11 7.957E3 RC2 4 12 7.957E3 RE1 13 10 2.773E3 RE2 14 10 2.773E3 REE 10 99 19.92E6 RO1 8 5 50 RO2 7 99 50 RP 3 4 30.31E3 VB 9 0 DC 0 VC 3 53 DC 2.1 VE 54 4 DC .6 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800E-18) .MODEL QX PNP(IS=800E-18 BF=250) .ENDS LM324 *==================================================== *LM348 *Quad 741 OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LM348 1 2 3 4 5 C1 11 12 9.461E-12 C2 6 7 30E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 256.2E-6 GCM 0 6 10 99 4.023E-9 IEE 10 4 DC 15.06E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 3 11 4.42E3 RC2 3 12 4.42E3 RE1 13 10 968 RE2 14 10 968 REE 10 99 13.28E6 RO1 8 5 150 RO2 7 99 150 RP 3 4 51.28E3 VB 9 0 DC 0 VC 3 53 DC 3.6 VE 54 4 DC 3.6 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL QX NPN(IS=800E-18 BF=250) .ENDS LM348 *==================================================== *LM358 *Dual LoPwr, HiGain, SnglSup OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LM358 1 2 3 4 5 C1 11 12 5.544E-12 C2 6 7 20.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) 3 0 4 0 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 15.91E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 7.067E-9 IEE 3 10 DC 10.04E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 7.957E3 RC2 4 12 7.957E3 RE1 13 10 2.773E3 RE2 14 10 2.773E3 REE 10 99 19.92E6 RO1 8 5 50 RO2 7 99 50 RP 3 4 30.31E3 VB 9 0 DC 0 VC 3 53 DC 2.100 VE 54 4 DC .6 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=250) .ENDS LM358 *==================================================== *LM833 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoNoise Audio OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LM833 1 2 3 4 5 C1 11 12 3.501E-12 C2 6 7 10.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 + -30E6 30E6 30E6 -30E6 GA 6 0 11 12 565.5E-6 GCM 0 6 10 99 5.655E-9 ISS 10 4 DC 70.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 3 11 1.768E3 RD2 3 12 1.768E3 RO1 8 5 10 RO2 7 99 20 RP 3 4 29.03E3 RSS 10 99 2.857E6 VB 9 0 DC 0 VC 3 53 DC .9 VE 54 4 DC .4 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=150.0E-9 BETA=4.568E-3 + VTO=-1) .ENDS LM833 *==================================================== *LM2902 *Quad LoPwr SnglSup OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LM2902 1 2 3 4 5 C1 11 12 2.000E-12 C2 6 7 6.000E-12 CEE 10 99 388.6E-15 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BEGND 99 0 V=0.5*V(3)+0.5*V(4) BFB 7 99 I=4.823E+7*I(VB)-5E+7*I(VC)+5E+7*I(VE)+5E+7*I(VLP)-5E+7*I(VLN) GA 6 0 11 12 41.47E-6 GCM 0 6 10 99 414.7E-12 IEE 3 10 DC 2.543E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 24.11E3 RC2 4 12 24.11E3 RE1 13 10 3.043E3 RE2 14 10 3.043E3 REE 10 99 78.65E6 RO1 8 5 50 RO2 7 99 25 RP 3 4 37.62E3 VB 9 0 DC 0 VC 3 53 DC 1.800 VE 54 4 DC .88 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=32.03) .ENDS LM2902 *==================================================== *LM2904 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT OpAmp .SUBCKT LM2904 1 2 3 4 5 C1 11 12 3.000E-12 C2 6 7 6.000E-12 CEE 10 99 388.6E-15 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 48.23E6 + -50E6 50E6 50E6 -50E6 GA 6 0 11 12 41.47E-6 GCM 0 6 10 99 414.7E-12 IEE 3 10 DC 2.543E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 24.11E3 RC2 4 12 24.11E3 RE1 13 10 3.043E3 RE2 14 10 3.043E3 REE 10 99 78.65E6 RO1 8 5 50 RO2 7 99 25 RP 3 4 37.62E3 VB 9 0 DC 0 VC 3 53 DC 1.800 VE 54 4 DC .88 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=32.03) .ENDS LM2904 *==================================================== *LM3900 MCE-DM 2-22-95 *Quad SnglSup OpAmp pkg:DIP14 (A:1,6,14,7,5)(B:2,3,14,7,4)(C:13,8,14,7,9)(D:12,11,14,7,10) .SUBCKT LM3900 4 3 7 10 9 Is1 9 10 1.3mA Is2 7 5 200uA Q1 7 5 9 NMOD Q2 6 3 10 NMOD Q3 3 4 10 NMOD Q4 8 6 5 PMOD Q5 10 6 8 PMOD D1 4 0 DMOD C1 10 6 0.01uF .MODEL DMOD D(IS=800E-18) .MODEL PMOD PNP(IS=800E-18 BF=250) .MODEL NMOD NPN(IS=800E-18 BF=250) .ENDS LM3900 *==================================================== *MC1458 *Dual 741 OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC1458 1 2 3 4 5 C1 11 12 4.664E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*10.61E6 - I(VC)*10E6 + I(VE)*10E6 + + I(VLP)*10E6 - I(VLN)*10E6 GA 6 0 11 12 137.7E-6 GCM 0 6 10 99 2.574E-9 IEE 10 4 DC 10.16E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 3 11 7.957E3 RC2 3 12 7.957E3 RE1 13 10 2.74E3 RE2 14 10 2.74E3 REE 10 99 19.69E6 RO1 8 5 150 RO2 7 99 150 RP 3 4 18.11E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL QX NPN(IS=800E-18 BF=62.5) .ENDS MC1458 *==================================================== *MC1536 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT OpAmp .SUBCKT MC1536 1 2 3 4 5 C1 11 12 18.00E-12 C2 6 7 28.50E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 +-3E6 3E6 3E6 -3E6 GA 6 0 11 12 377.0E-6 GCM 0 6 10 99 1.192E-9 IEE 10 4 DC 60.02E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 2.653E3 RC2 3 12 2.653E3 RE1 13 10 1.790E3 RE2 14 10 1.790E3 REE 10 99 3.332E6 RO1 8 5 500 RO2 7 99 500 RP 3 4 26.17E3 VB 9 0 DC 0 VC 3 53 DC 5.740 VE 54 4 DC 5.740 VLIM 7 8 DC 0 VLP 91 0 DC 17 VLN 0 92 DC 17 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=3.750E3) .ENDS MC1536 *==================================================== *MC1747 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT OpAmp .SUBCKT MC1747 1 2 3 4 5 C1 11 12 10.50E-12 C2 6 7 31.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 23.81E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 224.0E-6 GCM 0 6 10 99 7.083E-9 IEE 10 4 DC 15.66E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 4.464E3 RC2 3 12 4.464E3 RE1 13 10 1.116E3 RE2 14 10 1.116E3 REE 10 99 12.77E6 RO1 8 5 37.50 RO2 7 99 37.50 RP 3 4 18.17E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=96.87) .ENDS MC1747 *==================================================== *MC3403 *Quad LoPwr SnglSup OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC3403 1 2 3 4 5 C1 11 12 7.544E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*42.44E6 - I(VC)*40E6 + I(VE)*40E6 + + I(VLP)*40E6 - I(VLN)*40E6 GA 6 0 11 12 130.7E-6 GCM 0 6 10 99 2.235E-9 IEE 3 10 DC 12.4E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 4 11 7.957E3 RC2 4 12 7.957E3 RE1 13 10 3.529E3 RE2 14 10 3.529E3 REE 10 99 16.13E6 RO1 8 5 37.5 RO2 7 99 37.5 RP 3 4 43.62E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL QX PNP(IS=800E-18 BF=30) .ENDS MC3403 *==================================================== *MC3458 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoPwr OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC3458 1 2 3 4 5 C1 11 12 5.750E-12 C2 6 7 12.50E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 45.39E6 + -50E6 50E6 50E6 -50E6 GA 6 0 11 12 117.5E-6 GCM 0 6 10 99 3.716E-9 IEE 3 10 DC 7.000E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 8.511E3 RC2 4 12 8.511E3 RE1 13 10 634.9 RE2 14 10 634.9 REE 10 99 28.57E6 RO1 8 5 37.50 RO2 7 99 37.50 RP 3 4 18.83E3 VB 9 0 DC 0 VC 3 53 DC 2.740 VE 54 4 DC 2.740 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=16.50) .ENDS MC3458 *==================================================== *MC4558 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual WideBW OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC4558 1 2 3 4 5 C1 11 12 4.201E-12 C2 6 7 13.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 16.58E6 + -20E6 20E6 20E6 -20E6 GA 6 0 11 12 301.6E-6 GCM 0 6 10 99 9.537E-9 IEE 3 10 DC 19.68E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.316E3 RC2 4 12 3.316E3 RE1 13 10 615.9 RE2 14 10 615.9 REE 10 99 10.32E6 RO1 8 5 40 RO2 7 99 40 RP 3 4 13.15E3 VB 9 0 DC 0 VC 3 53 DC 2.600 VE 54 4 DC 2.600 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=109.1) .ENDS MC4558 *==================================================== *MC4741 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad 741 OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC4741 1 2 3 4 5 * C1 11 12 10.50E-12 C2 6 7 31.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 24.60E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 216.8E-6 GCM 0 6 10 99 6.855E-9 IEE 10 4 DC 15.16E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 4.613E3 RC2 3 12 4.613E3 RE1 13 10 1.152E3 RE2 14 10 1.152E3 REE 10 99 13.19E6 RO1 8 5 37.50 RO2 7 99 37.50 RP 3 4 12.94E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=93.75) .ENDS MC4741 *==================================================== *MC33071 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT MC33071 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 8.000E-12 CEE 10 99 1.231E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 8.842E6 + -9E6 9E6 9E6 -9E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 3.550E-9 IEE 3 10 DC 120.2E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.979E3 RC2 4 12 3.979E3 RE1 13 10 3.542E3 RE2 14 10 3.542E3 REE 10 99 1.664E6 RO1 8 5 30 RO2 7 99 45 RP 3 4 34.09E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC .3 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=600) .ENDS MC33071 *==================================================== *MC33072 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CREATED USING PARTS RELEASE 4.05 *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33072 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 8.000E-12 CEE 10 99 1.231E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 8.842E6 + -9E6 9E6 9E6 -9E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 3.550E-9 IEE 3 10 DC 120.2E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.979E3 RC2 4 12 3.979E3 RE1 13 10 3.542E3 RE2 14 10 3.542E3 REE 10 99 1.664E6 RO1 8 5 30 RO2 7 99 45 RP 3 4 34.09E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC .3 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=600) .ENDS MC33072 *==================================================== *MC33074 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33074 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 8.000E-12 CEE 10 99 1.231E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 8.842E6 + -9E6 9E6 9E6 -9E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 3.550E-9 IEE 3 10 DC 120.2E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.979E3 RC2 4 12 3.979E3 RE1 13 10 3.542E3 RE2 14 10 3.542E3 REE 10 99 1.664E6 RO1 8 5 30 RO2 7 99 45 RP 3 4 34.09E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC .3 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=600) .ENDS MC33074 *==================================================== *MC33076 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual HiIout LoPwr LoNoise OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33076 1 2 3 4 5 C1 11 12 30.302E-12 C2 6 7 18.00E-12 DC 500 53 DX DE 54 500 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 20.21E6 + -20E6 20E6 20E6 -20E6 GA 6 0 11 12 395.8E-6 GCM 0 6 10 99 627.4E-12 IEE 10 4 DC 47.16E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 2.526E3 RC2 3 12 2.526E3 RE1 13 10 1.410E3 RE2 14 10 1.410E3 REE 10 99 4.241E6 RO1 8 500 25 RO2 7 99 25 RP 3 4 13.93E3 VB 9 0 DC 0 VC 3 53 DC .92 VE 54 4 DC .86 VLIM 7 8 DC 0 VLP 91 0 DC 250 VLN 0 92 DC 250 EVCS1 800 500 8 500 1.0 EVCS2 500 820 810 500 1.0 RVS1 800 810 75 CVS 810 500 500P RVS2 820 5 50 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=130) .ENDS MC33076 *==================================================== *MC33077 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoNoise OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33077 1 2 3 4 5 C1 11 12 3.851E-12 C2 6 7 9.50E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 42.87E6 + -40E6 40E6 40E6 -40E6 GA 6 0 11 12 541.9E-6 GCM 0 6 10 99 2.421E-9 IEE 3 10 DC 104.1E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 1.845E3 RC2 4 12 1.845E3 RE1 13 10 1.338E3 RE2 14 10 1.338E3 REE 10 99 1.922E6 RO1 8 5 18 RO2 7 99 18 RP 3 4 8.833E3 VB 9 0 DC 0 VC 3 53 DC 2.0 VE 54 4 DC 1.5 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=178.4) .ENDS MC33077 *==================================================== *MC33078 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoNoise OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33078 1 2 3 4 5 C1 11 12 3.501E-12 C2 6 7 10.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 + -30E6 30E6 30E6 -30E6 GA 6 0 11 12 565.5E-6 GCM 0 6 10 99 5.655E-9 ISS 10 4 DC 70.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 3 11 1.768E3 RD2 3 12 1.768E3 RO1 8 5 10 RO2 7 99 20 RP 3 4 29.03E3 RSS 10 99 2.857E6 VB 9 0 DC 0 VC 3 53 DC .9 VE 54 4 DC .4 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=150.0E-9 BETA=4.568E-3 + VTO=-1) .ENDS MC33078 *==================================================== *MC33079 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad LoNoise OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33079 1 2 3 4 5 C1 11 12 3.501E-12 C2 6 7 10.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 + -30E6 30E6 30E6 -30E6 GA 6 0 11 12 565.5E-6 GCM 0 6 10 99 5.655E-9 ISS 10 4 DC 70.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 3 11 1.768E3 RD2 3 12 1.768E3 RO1 8 5 10 RO2 7 99 20 RP 3 4 29.03E3 RSS 10 99 2.857E6 VB 9 0 DC 0 VC 3 53 DC .9 VE 54 4 DC .4 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=150.0E-9 BETA=4.568E-3 + VTO=-1) .ENDS MC33079 *==================================================== *MC33171 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl LoPwr SnglSup OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT MC33171 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 5.500E-12 CEE 10 99 4.976E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 89.31E6 + -90E6 90E6 90E6 -90E6 GA 6 0 11 12 62.20E-6 GCM 0 6 10 99 1.967E-9 IEE 3 10 DC 22.04E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 16.08E3 RC2 4 12 16.08E3 RE1 13 10 13.70E3 RE2 14 10 13.70E3 REE 10 99 9.074E6 RO1 8 5 110 RO2 7 99 90 RP 3 4 291.3E3 VB 9 0 DC 0 VC 3 53 DC .8 VE 54 4 DC .8 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=550) .ENDS MC33171 *==================================================== *MC33172 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoPwr SnglSup OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33172 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 5.500E-12 CEE 10 99 4.976E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 89.31E6 + -90E6 90E6 90E6 -90E6 GA 6 0 11 12 62.20E-6 GCM 0 6 10 99 1.967E-9 IEE 3 10 DC 22.04E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 16.08E3 RC2 4 12 16.08E3 RE1 13 10 13.70E3 RE2 14 10 13.70E3 REE 10 99 9.074E6 RO1 8 5 110 RO2 7 99 90 RP 3 4 291.3E3 VB 9 0 DC 0 VC 3 53 DC .8 VE 54 4 DC .8 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=550) .ENDS MC33172 *==================================================== *MC33174 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad LoPwr SnglSup OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33174 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 5.500E-12 CEE 10 99 4.976E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 89.31E6 + -90E6 90E6 90E6 -90E6 GA 6 0 11 12 62.20E-6 GCM 0 6 10 99 1.967E-9 IEE 3 10 DC 22.04E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 16.08E3 RC2 4 12 16.08E3 RE1 13 10 13.70E3 RE2 14 10 13.70E3 REE 10 99 9.074E6 RO1 8 5 110 RO2 7 99 90 RP 3 4 291.3E3 VB 9 0 DC 0 VC 3 53 DC .8 VE 54 4 DC .8 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=550) .ENDS MC33174 *==================================================== *MC33178 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual HiIout LoPwr LoNoise OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33178 1 2 3 4 5 C1 11 12 8.660E-12 C2 6 7 15.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 17.68E6 + -20E6 20E6 20E6 -20E6 GA 6 0 11 12 282.7E-6 GCM 0 6 10 99 894.1E-12 IEE 3 10 DC 30.20E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.537E3 RC2 4 12 3.537E3 RE1 13 10 1.800E3 RE2 14 10 1.800E3 REE 10 99 6.623E6 RO1 8 5 60 RO2 7 99 40 RP 3 4 164.5E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 100 VLN 0 92 DC 100 DESD1 1 3 DX DESD2 2 3 DX .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=150) .ENDS MC33178 *==================================================== *MC33179 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad HiIout LoPwr LoNoise OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33179 1 2 3 4 5 C1 11 12 2.887E-12 C2 6 7 2.500E-12 CEE 10 99 31.03E-15 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 84.88E6 + -80E6 80E6 80E6 -80E6 GA 6 0 11 12 47.12E-6 GCM 0 6 10 99 149.0E-12 IEE 10 4 DC 5.293E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 21.22E3 RC2 3 12 21.22E3 RE1 13 10 10.66E3 RE2 14 10 10.66E3 REE 10 99 37.78E6 RO1 8 5 50 RO2 7 99 50 RP 3 4 33.53E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 80 VLN 0 92 DC 80 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=26.01) .ENDS MC33179 *==================================================== *MC33181 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl LoPwr HiSlewRt WideBW OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT MC33181 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 100 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1.66 VE 54 4 DC 1.66 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS MC33181 *==================================================== *MC33182 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoPwr HiSlewRt WideBW OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33182 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 100 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1.66 VE 54 4 DC 1.66 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS MC33182 *==================================================== *MC33184 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad LoPwr HiSlewRt WideBW OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33184 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 100 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1.66 VE 54 4 DC 1.66 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS MC33184 *==================================================== *MC33204 RAIL-TO-RAIL OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad Rail-to-Rail OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33204 1 2 3 4 5 C1 11 12 8.160E-12 C1P 111 112 4.160E-12 C2 6 7 35.00E-12 DB1 2 1 DX DB2 1 2 DX DC 5 53 DX DCC1 1 3 DX DCC2 2 3 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX DIEE 104 4 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 5.167E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 483.8E-6 GAP 6 0 111 112 483.8E-6 GCM 0 6 10 99 15.30E-9 GCMP 0 6 110 99 15.30E-9 HLIM 90 0 VLIM 1K IEEP 3 110 DC 35.16E-6 Q1 11 2 13 QX Q1P 111 2 113 QP Q2 12 1 14 QX Q2P 112 1 114 QP QIEE 10 104 4 QX QT 104 103 110 QP R2 6 9 100.0E3 R2P 6 9 100.0E3 RC1 3 11 2.067E3 RC1P 4 111 2.067E3 RC2 3 12 2.067E3 RC2P 4 112 2.067E3 RE1 13 10 556.3 RE1P 113 110 516.3 RE2 14 10 556.3 RE2P 114 110 516.3 REE 10 99 5.688E6 REEP 110 99 5.688E6 RO1 8 5 100 RO2 7 99 100 RP 3 4 5.780E3 VB 9 0 DC 0 VC 3 53 DC .7951 VE 54 4 DC .7951 VLIM 7 8 DC 0 VT 103 4 DC 700M VLP 91 0 DC 80 VLN 0 92 DC 80 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=218.8) .MODEL QP PNP(IS=800.0E-18 BF=218.8) .ENDS MC33204 *==================================================== *MC33272 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual SnglSup HiSlewRt LoOffset OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33272 1 2 3 4 5 C1 11 12 2.451E-12 C2 6 7 6.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 12.63E6 + -10E6 10E6 10E6 -10E6 GA 6 0 11 12 263.9E-6 GCM 0 6 10 99 8.345E-9 IEE 3 10 DC 67.12E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.789E3 RC2 4 12 3.789E3 RE1 13 10 2.984E3 RE2 14 10 2.984E3 REE 10 99 2.980E6 RO1 8 5 30 RO2 7 99 30 RP 3 4 14.40E3 VB 9 0 DC 0 VC 3 53 DC 1.700 VE 54 4 DC 1.700 VLIM 7 8 DC 0 VLP 91 0 DC 37 VLN 0 92 DC 37 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=107.3) .ENDS MC33272 *==================================================== *MC33274 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad SnglSup HiSlewRt LoOffset OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33274 1 2 3 4 5 C1 11 12 2.451E-12 C2 6 7 6.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 12.63E6 + -10E6 10E6 10E6 -10E6 GA 6 0 11 12 263.9E-6 GCM 0 6 10 99 8.345E-9 IEE 3 10 DC 67.12E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 3.789E3 RC2 4 12 3.789E3 RE1 13 10 2.984E3 RE2 14 10 2.984E3 REE 10 99 2.980E6 RO1 8 5 30 RO2 7 99 30 RP 3 4 14.40E3 VB 9 0 DC 0 VC 3 53 DC 1.700 VE 54 4 DC 1.700 VLIM 7 8 DC 0 VLP 91 0 DC 37 VLN 0 92 DC 37 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=107.3) .ENDS MC33274 *==================================================== *MC33282 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual LoOffset HiSlewRt WideBW OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT MC33282 1 2 3 4 5 C1 11 12 4.767E-12 C2 6 7 8.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 14.47E6 +-10E6 10E6 10E6 -10E6 GA 6 0 11 12 276.5E-6 GCM 0 6 10 99 8.742E-9 ISS 3 10 DC 120.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.617E3 RD2 4 12 3.617E3 RO1 8 5 50 RO2 7 99 50 RP 3 4 13.95E3 RSS 10 99 1.667E6 VB 9 0 DC 0 VC 3 53 DC 1.300 VE 54 4 DC 1.100 VLIM 7 8 DC 0 VLP 91 0 DC 21 VLN 0 92 DC 21 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=15.00E-12 BETA=636.9E-6 + VTO=-1) .ENDS MC33282 *==================================================== *MC33284 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad LoOffset HiSlewRt WideBW OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC33284 1 2 3 4 5 C1 11 12 4.767E-12 C2 6 7 8.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 14.47E6 +-10E6 10E6 10E6 -10E6 GA 6 0 11 12 276.5E-6 GCM 0 6 10 99 8.742E-9 ISS 3 10 DC 120.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.617E3 RD2 4 12 3.617E3 RO1 8 5 50 RO2 7 99 50 RP 3 4 13.95E3 RSS 10 99 1.667E6 VB 9 0 DC 0 VC 3 53 DC 1.300 VE 54 4 DC 1.100 VLIM 7 8 DC 0 VLP 91 0 DC 21 VLN 0 92 DC 21 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=15.00E-12 BETA=636.9E-6 + VTO=-1) .ENDS MC33284 *==================================================== *MC34001 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Sngl JFETInput OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT MC34001 1 2 3 4 5 C1 11 12 2.887E-12 C2 6 7 10.50E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 10.94E6 + -10E6 10E6 10E6 -10E6 GA 6 0 11 12 241.9E-6 GCM 0 6 10 99 2.419E-9 ISS 3 10 DC 130.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 4.134E3 RD2 4 12 4.134E3 RO1 8 5 40 RO2 7 99 40 RP 3 4 21.43E3 RSS 10 99 1.538E6 VB 9 0 DC 0 VC 3 53 DC 2.67 VE 54 4 DC 2.67 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=25.00E-12 BETA=450.1E-6 + VTO=-1) .ENDS MC34001 *==================================================== *MC34084 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad HiSlewRt WideBW OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC34084 1 2 3 4 5 C1 11 12 1.751E-12 C2 6 7 5.500E-12 CSS 10 99 1.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 9.095E6 + -9E6 9E6 9E6 -9E6 GA 6 0 11 12 245.0E-6 GCM 0 6 10 99 9.755E-9 ISS 3 10 DC 150.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 4.081E3 RD2 4 12 4.081E3 RO1 8 5 30 RO2 7 99 30 RP 3 4 12.00E3 RSS 10 99 1.333E6 VB 9 0 DC 0 VC 3 53 DC 1.975 VE 54 4 DC 1.575 VLIM 7 8 DC 0 VLP 91 0 DC 31 VLN 0 92 DC 31 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=30.00E-12 BETA=400.3E-6 + VTO=-1) .ENDS MC34084 *==================================================== *MC34184 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Quad LoPwr HiSlewRt WideBW OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT MC34184 1 2 3 4 5 C1 11 12 1.061E-12 C2 6 7 5.000E-12 CSS 10 99 4.000E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 4.775E6 + -5E6 5E6 5E6 -5E6 GA 6 0 11 12 125.7E-6 GCM 0 6 10 99 6.298E-9 ISS 3 10 DC 90.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 7.958E3 RD2 4 12 7.958E3 RO1 8 5 100 RO2 7 99 100 RP 3 4 285.7E3 RSS 10 99 2.222E6 VB 9 0 DC 0 VC 3 53 DC 1.66 VE 54 4 DC 1.66 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=1.500E-12 BETA=175.5E-6 + VTO=-1) .ENDS MC34184 *==================================================== *TCA0372 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT *CONNECTIONS: 1=+In, 2=-In, 3=+V, 4=-V, 5=Out *MOT Dual Power OpAmp pkg:DIP16 (A:7,8,2,4,1)(B:6,5,2,4,3). pkg:DIP16 (A:9,10,1,13,16)(B:8,7,1,4,2). .SUBCKT TCA0372 1 2 3 4 5 C1 11 12 2.469E-12 C2 6 7 28.00E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 10.33E6 + -10E6 10E6 10E6 -10E6 GA 6 0 11 12 193.5E-6 GCM 0 6 10 99 6.120E-9 IEE 3 10 DC 39.40E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 5.167E3 RC2 4 12 5.167E3 RE1 13 10 3.828E3 RE2 14 10 3.828E3 REE 10 99 5.076E6 RO1 8 5 50 RO2 7 99 50 RP 3 4 4.310E3 VB 9 0 DC 0 VC 3 53 DC 1.40 VE 54 4 DC 1.40 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=196) .ENDS TCA0372 *==================================================== *TL022C *Dual LoPwr OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT TL022C 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*1.697E6 - I(VC)*2E6 + I(VE)*2E6 + + I(VLP)*2E6 - I(VLN)*2E6 GA 6 0 11 12 47.13E-6 GCM 0 6 10 99 6.657E-9 IEE 3 10 DC 7.7E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 4 11 21.22E3 RC2 4 12 21.22E3 RE1 13 10 13.95E3 RE2 14 10 13.95E3 REE 10 99 25.97E6 RO1 8 5 125 RO2 7 99 125 RP 3 4 245.1E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 6 VLN 0 92 DC 6 .MODEL DX D(IS=800E-18) .MODEL QX PNP(IS=800E-18 BF=37.5) .ENDS TL022C *==================================================== *TL031 *Sngl LoPwr LoOffset OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT TL031 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 CSS 10 99 11.38E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*936.5E3 - I(VC)*900E3 + I(VE)*900E3 + + I(VLP)*900E3 - I(VLN)*900E3 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 2.257E-9 ISS 3 10 DC 76.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 8.841E3 RD2 4 12 8.841E3 RO1 8 5 135 RO2 7 99 135 RP 3 4 138.5E3 RSS 10 99 2.614E6 VB 9 0 DC 0 VC 3 53 DC 1.7 VE 54 4 DC 1.8 VLIM 7 8 DC 0 VLP 91 0 DC 8 VLN 0 92 DC 8 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=1E-12 BETA=140E-6 VTO=-1) .ENDS TL031 *==================================================== *TL032 *Dual LoPwr LoOffset OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT TL032 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 CSS 10 99 11.38E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*936.5E3 - I(VC)*900E3 + I(VE)*900E3 + + I(VLP)*900E3 - I(VLN)*900E3 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 2.257E-9 ISS 3 10 DC 76.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 8.841E3 RD2 4 12 8.841E3 RO1 8 5 135 RO2 7 99 135 RP 3 4 138.5E3 RSS 10 99 2.614E6 VB 9 0 DC 0 VC 3 53 DC 1.7 VE 54 4 DC 1.8 VLIM 7 8 DC 0 VLP 91 0 DC 8 VLN 0 92 DC 8 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=1E-12 BETA=140E-6 VTO=-1) .ENDS TL032 *==================================================== *TL034 *Quad LoPwr LoOffset OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT TL034 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 CSS 10 99 11.38E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*936.5E3 - I(VC)*900E3 + I(VE)*900E3 + + I(VLP)*900E3 - I(VLN)*900E3 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 2.257E-9 ISS 3 10 DC 76.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 8.841E3 RD2 4 12 8.841E3 RO1 8 5 135 RO2 7 99 135 RP 3 4 138.5E3 RSS 10 99 2.614E6 VB 9 0 DC 0 VC 3 53 DC 1.7 VE 54 4 DC 1.8 VLIM 7 8 DC 0 VLP 91 0 DC 8 VLN 0 92 DC 8 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=1E-12 BETA=140E-6 VTO=-1) .ENDS TL034 *==================================================== *TL044C *OpAmp .SUBCKT TL044C 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*1.697E6 - I(VC)*2E6 + I(VE)*2E6 + + I(VLP)*2E6 - I(VLN)*2E6 GA 6 0 11 12 47.13E-6 GCM 0 6 10 99 6.657E-9 IEE 3 10 DC 7.7E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 4 11 21.22E3 RC2 4 12 21.22E3 RE1 13 10 13.95E3 RE2 14 10 13.95E3 REE 10 99 25.97E6 RO1 8 5 125 RO2 7 99 125 RP 3 4 245.1E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 6 VLN 0 92 DC 6 .MODEL DX D(IS=800E-18) .MODEL QX PNP(IS=800E-18 BF=37.5) .ENDS TL044C *==================================================== *TL051 *Sngl Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT TL051 1 2 3 4 5 C1 11 12 3.988E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*2.875E6 - I(VC)*3E6 + I(VE)*3E6 + + I(VLP)*3E6 - I(VLN)*3E6 GA 6 0 11 12 292.2E-6 GCM 0 6 10 99 6.542E-9 ISS 3 10 DC 300E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.422E3 RD2 4 12 3.422E3 RO1 8 5 125 RO2 7 99 125 RP 3 4 11.11E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3.7 VLIM 7 8 DC 0 VLP 91 0 DC 28 VLN 0 92 DC 28 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=185.2E-6 VTO=-1) .ENDS TL051 *==================================================== *TL052 *Dual Precison OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT TL052 1 2 3 4 5 C1 11 12 3.988E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*2.875E6 - I(VC)*3E6 + I(VE)*3E6 + + I(VLP)*3E6 - I(VLN)*3E6 GA 6 0 11 12 292.2E-6 GCM 0 6 10 99 6.542E-9 ISS 3 10 DC 300E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.422E3 RD2 4 12 3.422E3 RO1 8 5 125 RO2 7 99 125 RP 3 4 11.11E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3.7 VLIM 7 8 DC 0 VLP 91 0 DC 28 VLN 0 92 DC 28 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=185.2E-6 VTO=-1) .ENDS TL052 *==================================================== *TL054 *Quad Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT TL054 1 2 3 4 5 C1 11 12 3.988E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*2.875E6 - I(VC)*3E6 + I(VE)*3E6 + + I(VLP)*3E6 - I(VLN)*3E6 GA 6 0 11 12 292.2E-6 GCM 0 6 10 99 6.542E-9 ISS 3 10 DC 300E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.422E3 RD2 4 12 3.422E3 RO1 8 5 125 RO2 7 99 125 RP 3 4 11.11E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3.7 VLIM 7 8 DC 0 VLP 91 0 DC 28 VLN 0 92 DC 28 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=185.2E-6 VTO=-1) .ENDS TL054 *==================================================== *TL061 *Sngl LoPwr JFETinput OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT TL061 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*318.3E3 - I(VC)*300E3 + I(VE)*300E3 + + I(VLP)*300E3 - I(VLN)*300E3 GA 6 0 11 12 94.26E-6 GCM 0 6 10 99 1.607E-9 ISS 3 10 DC 52.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 10.61E3 RD2 4 12 10.61E3 RO1 8 5 200 RO2 7 99 200 RP 3 4 150E3 RSS 10 99 3.81E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 15 VLN 0 92 DC 15 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=100.5E-6 VTO=-1) .ENDS TL061 *==================================================== *TL062 *Dual LoPwr JFETInput OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT TL062 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*318.3E3 - I(VC)*300E3 + I(VE)*300E3 + + I(VLP)*300E3 - I(VLN)*300E3 GA 6 0 11 12 94.26E-6 GCM 0 6 10 99 1.607E-9 ISS 3 10 DC 52.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 10.61E3 RD2 4 12 10.61E3 RO1 8 5 200 RO2 7 99 200 RP 3 4 150E3 RSS 10 99 3.81E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 15 VLN 0 92 DC 15 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=100.5E-6 VTO=-1) .ENDS TL062 *==================================================== *TL064 *Quad LoPwr JFETInput OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT TL064 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*318.3E3 - I(VC)*300E3 + I(VE)*300E3 + + I(VLP)*300E3 - I(VLN)*300E3 GA 6 0 11 12 94.26E-6 GCM 0 6 10 99 1.607E-9 ISS 3 10 DC 52.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 10.61E3 RD2 4 12 10.61E3 RO1 8 5 200 RO2 7 99 200 RP 3 4 150E3 RSS 10 99 3.81E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 15 VLN 0 92 DC 15 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=100.5E-6 VTO=-1) .ENDS TL064 *==================================================== *TL066 *OpAmp .SUBCKT TL066 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*318.3E3 - I(VC)*300E3 + I(VE)*300E3 + + I(VLP)*300E3 - I(VLN)*300E3 GA 6 0 11 12 94.26E-6 GCM 0 6 10 99 1.171E-8 ISS 3 10 DC 52.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 10.61E3 RD2 4 12 10.61E3 RO1 8 5 200 RO2 7 99 200 RP 3 4 150E3 RSS 10 99 3.81E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 15 VLN 0 92 DC 15 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=100.5E-6 VTO=-1) .ENDS TL066 *==================================================== *TL071 *Sngl LoNoise JFETInput OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT TL071 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL071 *==================================================== *TL072 *Dual LoNoise JFETInput OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT TL072 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL072 *==================================================== *TL074 *Quad LoNoise JFETInput OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT TL074 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL074 *==================================================== *TL075 *OpAmp .SUBCKT TL075 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL075 *==================================================== *TL081 *Sngl WideBW JFETInput OpAmp pkg:DIP8 3,2,7,4,6. .SUBCKT TL081 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL081 *==================================================== *TL082 *Dual WideBW JFETInput OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT TL082 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL082 *==================================================== *TL083 *OpAmp .SUBCKT TL083 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL083 *==================================================== *TL084 *Quad JFETInput OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT TL084 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL084 *==================================================== *TL085 *OpAmp .SUBCKT TL085 1 2 3 4 5 C1 11 12 3.498E-12 C2 6 7 15E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*4.715E6 - I(VC)*5E6 + I(VE)*5E6 + + I(VLP)*5E6 - I(VLN)*5E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 8.942E-9 ISS 3 10 DC 195E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 150 RO2 7 99 150 RP 3 4 2.143E3 RSS 10 99 1.026E6 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=270.1E-6 VTO=-1) .ENDS TL085 *==================================================== *TL087 *OpAmp .SUBCKT TL087 1 2 3 4 5 C1 11 12 3.887E-12 C2 6 7 12E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*6.189E6 - I(VC)*6E6 + I(VE)*6E6 + + I(VLP)*6E6 - I(VLN)*6E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 3.56E-9 ISS 3 10 DC 270E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 60 RO2 7 99 60 RP 3 4 11.54E3 RSS 10 99 740.7E3 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=165.3E-6 VTO=-1) .ENDS TL087 *==================================================== *TL088 *OpAmp .SUBCKT TL088 1 2 3 4 5 C1 11 12 3.887E-12 C2 6 7 12E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*6.189E6 - I(VC)*6E6 + I(VE)*6E6 + + I(VLP)*6E6 - I(VLN)*6E6 GA 6 0 11 12 282.8E-6 GCM 0 6 10 99 3.56E-9 ISS 3 10 DC 270E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100E3 RD1 4 11 3.536E3 RD2 4 12 3.536E3 RO1 8 5 60 RO2 7 99 60 RP 3 4 11.54E3 RSS 10 99 740.7E3 VB 9 0 DC 0 VC 3 53 DC 2.2 VE 54 4 DC 2.2 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL JX PJF(IS=15E-12 BETA=165.3E-6 VTO=-1) .ENDS TL088 *==================================================== *TL321 *OpAmp .SUBCKT TL321 1 2 3 4 5 C1 11 12 4.664E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*15.91E6 - I(VC)*20E6 + I(VE)*20E6 + + I(VLP)*20E6 - I(VLN)*20E6 GA 6 0 11 12 132.7E-6 GCM 0 6 10 99 3.974E-9 IEE 3 10 DC 10.09E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 4 11 7.957E3 RC2 4 12 7.957E3 RE1 13 10 2.759E3 RE2 14 10 2.759E3 REE 10 99 19.82E6 RO1 8 5 50 RO2 7 99 50 RP 3 4 15.08E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC .6 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800E-18) .MODEL QX PNP(IS=800E-18 BF=111.1) .ENDS TL321 *==================================================== *TL322 *OpAmp .SUBCKT TL322 1 2 3 4 5 C1 11 12 7.544E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*42.44E6 - I(VC)*40E6 + I(VE)*40E6 + + I(VLP)*40E6 - I(VLN)*40E6 GA 6 0 11 12 130.7E-6 GCM 0 6 10 99 2.235E-9 IEE 3 10 DC 12.4E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 4 11 7.957E3 RC2 4 12 7.957E3 RE1 13 10 3.529E3 RE2 14 10 3.529E3 REE 10 99 16.13E6 RO1 8 5 37.5 RO2 7 99 37.5 RP 3 4 43.62E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 .MODEL DX D(IS=800E-18) .MODEL QX PNP(IS=800E-18 BF=30) .ENDS TL322 *==================================================== *uA741 *Sngl GenPurpose OpAmp pkg:DIP8 3,2,7,4,6. pkg:CAN8 3,2,7,4,6. .SUBCKT UA741 1 2 3 4 5 C1 11 12 4.664E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*10.61E6 - I(VC)*10E6 + I(VE)*10E6 + + I(VLP)*10E6 - I(VLN)*10E6 GA 6 0 11 12 137.7E-6 GCM 0 6 10 99 2.574E-9 IEE 10 4 DC 10.16E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 3 11 7.957E3 RC2 3 12 7.957E3 RE1 13 10 2.74E3 RE2 14 10 2.74E3 REE 10 99 19.69E6 RO1 8 5 150 RO2 7 99 150 RP 3 4 18.11E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL QX NPN(IS=800E-18 BF=62.5) .ENDS UA741 *==================================================== *uA747 *Dual GenPurpose OpAmp pkg:DIP14 (A:2,1,13,4,12)(B:6,7,9,4,10) .SUBCKT UA747 1 2 3 4 5 C1 11 12 4.664E-12 C2 6 7 20E-12 DC 5 53 DX DE 54 5 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX BGND 99 0 V=V(3)*.5 + V(4)*.5 BB 7 99 I=I(VB)*10.61E6 - I(VC)*10E6 + I(VE)*10E6 + + I(VLP)*10E6 - I(VLN)*10E6 GA 6 0 11 12 137.7E-6 GCM 0 6 10 99 2.574E-9 IEE 10 4 DC 10.16E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100E3 RC1 3 11 7.957E3 RC2 3 12 7.957E3 RE1 13 10 2.74E3 RE2 14 10 2.74E3 REE 10 99 19.69E6 RO1 8 5 150 RO2 7 99 150 RP 3 4 18.11E3 VB 9 0 DC 0 VC 3 53 DC 2.6 VE 54 4 DC 2.6 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800E-18) .MODEL QX NPN(IS=800E-18 BF=62.5) .ENDS UA747 *==================================================== * CLC402 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Low Gain Monolithic Current Feedback Op Amp * with Fast 14-bit Settling (.0025% in 25nS) and Low Power. * * Version 1, Rev. B, Date 03-25-94, by KEB * * Connections: Non-Inverting Input * | Inverting * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Sngl LoGain Fast14bitSettling OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC402 3 2 7 4 6 * * BIAS CIRCUITRY * R1 7 10 1.50K V1 10 4 3.00 G1 7 15 POLY(2) 7 10 7 15 0 114.0U 5.50U C1 15 0 853F G2 17 4 POLY(1) 7 10 0 119U C3 17 0 692F * * INPUT STAGE * E1 3 16 POLY(2) 30 0 31 0 -1.10M 1.35 1.35 G3 16 0 POLY(2) 34 0 35 0 0 24.9M 24.9M C2 16 0 1.50P D1 15 16 DZ D2 16 17 DZ Q3 21 15 2 QINN Q4 22 17 2 QINP C4 2 0 1.30P G4 21 0 POLY(4) 32 0 33 0 2 4 2 7 0 13.5M 13.5M -2.50U 0.50U * * GAIN STAGE * V2 7 20 1.96 R2 20 21 263 V4 7 24 1.82 D3 25 24 DX G5 7 25 POLY(1) 20 21 0 8.442M C6 27 21 1.20P C8 27 0 699F G7 7 27 POLY(1) 20 21 0 8.382M * R3 22 23 248 V3 23 4 1.81 D4 26 25 DX V5 26 4 1.58 G6 25 4 POLY(1) 22 23 0 9.122M C7 28 22 1.20P C9 28 0 339F G8 28 4 POLY(1) 22 23 0 9.222M * * OUTPUT STAGE * R4 25 0 756K C5 25 0 3.25P Q5 4 25 27 QOUTP1 Q6 7 25 28 QOUTN1 Q7 7 27 29 QOUTN2 Q8 4 28 29 QOUTP2 R5 29 6 5.00 C10 6 0 1.50P * * NOISE BLOCKS * I1 31 30 DC 846U D5 30 0 DN1 D6 0 31 DN1 * I2 33 32 DC 846U D7 32 0 DN2 D8 0 33 DN2 * I3 35 34 DC 846U D9 34 0 DN1 D10 0 35 DN1 * * MODELS * .MODEL DN1 D IS=0.166F RS=15.2 KF=100F AF=1.00 .MODEL DN2 D IS=0.166F RS=15.2 KF=155F AF=1.00 .MODEL DX D TT=100N .MODEL DZ D IS=9.13E-17 * .MODEL QINN NPN + IS =1.660E-16 BF =3.239E+02 NF =1.000E+00 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =2.790E+01 IRB=0.000E+00 RBM=1.506E+01 + RC =2.645E+01 CJE=1.688E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =9.906E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.710E-01 TR =4.212E-10 CJS=1.258E-12 + VJS=5.723E-01 MJS=0.000E+01 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =9.386E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.462E-02 ISE=1.308E-16 NE =1.197E+00 BR =3.956E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.547E-01 ISC=6.787E-19 + NC =1.700E+00 RB =1.536E+01 IRB=0.000E+00 RBM=3.403E+00 + RC =1.857E+01 CJE=7.030E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.875E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.635E-01 PTF=0.000E+00 CJC=6.172E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.702E-01 TR =1.069E-09 CJS=1.028E-12 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.880E-15 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.203E-01 ISE=2.620E-16 NE =1.197E+00 BR =3.971E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.513E-01 ISC=1.348E-18 + NC =1.700E+00 RB =107.6E+00 IRB=0.000E+00 RBM=101.6E+00 + RC =1.227E+00 CJE=1.408E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.871E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.330E-01 PTF=0.000E+00 CJC=1.224E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.726E-01 TR =7.776E-10 CJS=1.931E-12 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QINP PNP + IS =1.660E-16 BF =7.165E+01 NF =1.000E+00 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =2.876E+01 IRB=0.000E+00 RBM=7.568E+00 + RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =1.589E-10 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.710E-01 TR =7.500E-11 CJS=1.030E-12 + VJS=6.691E-01 MJS=0.000E+00 FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =5.693E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=8.328E-02 ISE=2.824E-15 NE =1.366E+00 BR =1.923E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=5.848E-01 ISC=1.586E-17 + NC =1.634E+00 RB =6.498E+00 IRB=0.000E+00 RBM=1.710E+00 + RC =1.767E+01 CJE=7.030E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.090E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=2.250E-01 PTF=0.000E+00 CJC=9.776E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.709E-01 TR =1.450E-10 CJS=1.637E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =1.158E-15 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=1.694E-01 ISE=5.742E-15 NE =1.366E+00 BR =1.953E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.189E+00 ISC=3.173E-17 + NC =1.634E+00 RB =103.2E+00 IRB=0.000E+00 RBM=100.5E+00 + RC =8.267E+00 CJE=1.430E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.090E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.575E-01 PTF=0.000E+00 CJC=2.083E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.631E-01 TR =1.150E-10 CJS=3.993E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .ENDS CLC402 *==================================================== * CLC404 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Wide band Monolithic Current Feedback Op Amp * with High Slew Rate. * * Version 1, Rev. A, Date 04-09-92, By KEB * * Connections: Non-Inverting Input * | Inverting Input * | | +Vcc * | | | -Vcc * | | | | Output * | | | | | *COM Sngl WideBW HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC404 3 2 7 4 6 * * DC BIAS MIRROR * R1 7 4 18.2K R2 7 9 271 C1 9 0 1.25P C2 10 0 263F R3 10 4 335 * G1 7 11 POLY(2) 7 9 7 4 0 3.02M 21.5U C3 11 0 648F * G2 14 4 POLY(1) 10 4 0 2.76M C4 14 0 554F * * INPUT VOLTAGE BUFFER * E1 3 17 POLY(1) 35 0 2.0M 1.48 C6 17 0 1.00P * R7 17 15 50.0 Q1 10 15 12 QINP R4 12 11 38.9 R8 17 16 50.0 Q2 9 16 13 QINN R5 13 14 33.7 * G3 2 0 POLY(1) 36 0 0 8.14M C10 2 0 2.48P * R11 2 22 37.6 Q3 21 18 22 QINN R6 11 18 50.0 * R12 2 23 38.4 Q4 24 19 23 QINP R9 14 19 50.0 * * CURRENT MIRROR GAIN BLOCKS * R10 7 20 640 V1 20 21 2.55 C5 21 0 1.30P C8 21 28 274F G4 7 28 POLY(1) 7 20 0 4.30M R15 7 28 102K C13 28 0 641F D1 28 26 DX V3 7 26 1.50 G6 7 30 POLY(1) 7 20 0 2.74M C15 30 0 676F * R13 25 4 640 V2 24 25 2.51 C7 24 0 648F C12 24 29 160F G5 29 4 POLY(1) 25 4 0 4.50M R16 29 4 761K C14 29 0 312F D2 27 29 DX V4 27 4 1.50 G7 31 4 POLY(1) 25 4 0 6.74M C16 31 0 330F * * OUTPUT STAGE AND COMPENSATION CAPACITORS * R14 28 29 40.0 Q5 4 29 30 QOUTP1 Q6 7 28 31 QOUTN1 * C9 21 33 390F C11 24 33 390F C17 33 0 5.00P R19 33 6 10 * R17 30 32 50.0 Q7 7 32 33 QOUTN2 * R18 31 34 50.0 Q8 4 34 33 QOUTP2 * * NOISE BLOCKS * R20 35 0 122 R21 35 0 122 * R22 36 0 122 R23 36 0 122 * * MODELS * .MODEL DX D TT=200N * .MODEL QINN NPN + IS =1.660E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =6.796E+01 IRB=0.000E+00 RBM=1.506E+01 + RE =5.613E-01 RC =2.645E+01 CJE=1.588E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.386E-01 TR =4.212E-10 CJS=3.938E-13 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =3.954E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=4.590E-02 ISE=5.512E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=7.392E-02 ISC=3.087E-19 + NC =1.700E+00 RB =3.645E+01 IRB=0.000E+00 RBM=8.077E+00 + RE =3.010E-01 RC =2.702E+01 CJE=2.962E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.904E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=1.110E-01 PTF=0.000E+00 CJC=2.846E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.562E-01 TR =5.832E-10 CJS=5.015E-13 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.898E-15 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.203E-01 ISE=2.645E-16 NE =1.197E+00 BR =3.956E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.547E-01 ISC=1.378E-18 + NC =1.700E+00 RB =7.592E+00 IRB=0.000E+00 RBM=1.683E+00 + RE =6.271E-02 RC =1.227E+01 CJE=1.422E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.875E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.330E-01 PTF=0.000E+00 CJC=1.254E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.702E-01 TR =7.776E-10 CJS=1.931E-12 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QINP PNP + IS =1.660E-16 BF =7.165E+01 NF =1.000E+00 VAF=2.000E+01 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =2.876E+01 IRB=0.000E+00 RBM=7.568E+00 + RE =6.118E-01 RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.385E-01 TR =7.500E-11 CJS=7.417E-13 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =2.399E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=3.509E-02 ISE=1.190E-15 NE =1.366E+00 BR =1.900E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=2.464E-01 ISC=6.745E-18 + NC =1.634E+00 RB =1.542E+01 IRB=0.000E+00 RBM=4.059E+00 + RE =3.281E-01 RC =4.174E+01 CJE=2.962E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.107E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=9.481E-02 PTF=0.000E+00 CJC=4.508E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.562E-01 TR =9.500E-11 CJS=1.045E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =1.158E-15 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=1.694E-01 ISE=5.742E-15 NE =1.366E+00 BR =1.923E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.189E+00 ISC=3.240E-17 + NC =1.634E+00 RB =3.162E+00 IRB=0.000E+00 RBM=8.410E-01 + RE =6.797E-02 RC =8.267E+00 CJE=1.430E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.090E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.575E-01 PTF=0.000E+00 CJC=2.083E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.631E-01 TR =1.150E-10 CJS=3.993E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .ENDS CLC404 *==================================================== * CLC406 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Wide band Low Cost, Low Power Monolithic * Current Feedback Op Amp. * * Version 1, Rev. C, Date 07-08-94, by KEB * * Connections: Non-Inverting Input * | Inverting * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Sngl LoPwr WideBW OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC406 3 2 7 4 6 * * BIAS BLOCK * G1 7 10 POLY(1) 7 14 123U 1.674M C2 10 0 644F C3 10 14 143F R1 7 14 524 * G3 16 4 POLY(1) 13 4 0 1.649M C5 16 0 551F C4 13 16 84.0F R2 13 4 532 * * INPUT STAGE * C1 3 0 1.00P E1 3 12 POLY(2) 50 0 51 0 -1.50M 1.00 1.00 G2 12 0 POLY(2) 52 0 53 0 0 1.00M 1.00M * D1 10 11 DX Q1 13 12 11 QINP Q2 14 12 15 QINN D2 15 16 DX * G4 21 0 POLY(2) 54 0 55 0 -14.0U 1.00M 1.00M Q3 21 10 22 QINN D3 22 2 DX C6 2 0 2.07P D4 2 23 DX Q4 24 16 23 QINP * * GAIN STAGE * R3 7 20 591 V1 20 21 1.96 C7 21 31 131F G5 7 31 POLY(2) 7 20 7 31 0 3.881M 7.32U V3 7 30 1.96 D5 31 30 DOR G7 7 40 POLY(1) 7 20 0 4.633M C10 21 40 217F C11 40 0 475F C14 21 6 300F * R4 25 4 589 V2 24 25 2.05 C9 24 31 76.6F G6 31 4 POLY(2) 25 4 31 4 0 3.997M 1.05U V4 32 4 2.44 D6 32 31 DOR G8 42 4 POLY(1) 25 4 0 2.229M C12 24 42 139F C13 42 0 634F C16 24 6 300F * * OUTPUT STAGE * C8 31 0 474F Q5 4 31 40 QOUTP1 Q6 7 31 41 QOUTN1 0.67 D7 41 42 DX 1.88 Q7 7 31 43 QOUTN1 0.33 Q8 4 42 43 QOUTP1 0.50 * Q9 7 40 6 QOUTN2 C15 6 0 2.50P Q10 4 43 6 QOUTP2 * * NOISE BLOCKS * I1 51 50 DC 121U D8 50 0 DN1 D9 0 51 DN1 * I2 53 52 DC 413U D10 52 0 DN2 D11 0 53 DN2 * I3 55 54 DC 14.3U D12 54 0 DN3 D13 0 55 DN3 * * MODELS * .MODEL DN1 D IS=0.166F KF=4.48F AF=1.00 .MODEL DN2 D IS=0.166F KF=82.4F AF=1.00 .MODEL DN3 D IS=0.166F KF=47.6F AF=1.00 .MODEL DOR D TT=100N .MODEL DX D IS=0.165F RS=583M CJO=159F M=495M VJ=797M TT=25.5P * .MODEL QINN NPN + IS =1.652E-16 BF =3.239E+02 NF =1.000E+00 VAF=4.229E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =1.180E+02 IRB=0.000E+00 RBM=6.506E+01 + RE =5.613E-01 RC =2.645E+01 CJE=1.588E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=8.61E-01 TR =4.212E-10 CJS=1.136E-12 + VJS=5.723E-01 MJS=0.000E+00 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =7.822E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=9.079E-02 ISE=1.090E-16 NE =1.197E+00 BR =3.960E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.462E-01 ISC=5.656E-19 + NC =1.700E+00 RB =1.843E+01 IRB=0.000E+00 RBM=4.083E+00 + RE =1.522E-01 RC =6.141E+00 CJE=5.858E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.874E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.196E-01 PTF=0.000E+00 CJC=5.143E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.71E-01 TR =1.069E-09 CJS=8.567E-13 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.880E-15 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.182E-01 ISE=2.620E-16 NE =1.197E+00 BR =3.971E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.513E-01 ISC=1.348E-18 + NC =1.700E+00 RB =3.267E+01 IRB=0.000E+00 RBM=2.670E+01 + RE =1.006E+01 RC =3.738E+00 CJE=1.408E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.871E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.278E-01 PTF=0.000E+00 CJC=1.224E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=9.27E-01 TR =1.296E-09 CJS=1.496E-12 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QINP PNP + IS =1.652E-16 BF =7.165E+01 NF =1.000E+00 VAF=1.720E+01 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =7.876E+01 IRB=0.000E+00 RBM=5.757E+01 + RE =6.118E-01 RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=8.61E-01 TR =1.096E-09 CJS=1.136E-12 + VJS=6.691E-01 MJS=0.000E+00 FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =4.744E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=6.940E-02 ISE=2.353E-15 NE =1.366E+00 BR =1.948E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=4.873E-01 ISC=1.322E-17 + NC =1.634E+00 RB =7.797E+00 IRB=0.000E+00 RBM=2.052E+00 + RE =1.659E-01 RC =1.037E+01 CJE=5.858E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.073E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=1.875E-01 PTF=0.000E+00 CJC=8.147E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.71E-01 TR =2.119E-09 CJS=1.364E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =1.140E-15 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=1.668E-01 ISE=5.655E-15 NE =1.366E+00 BR =1.953E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.171E+00 ISC=3.173E-17 + NC =1.634E+00 RB =2.825E+01 IRB=0.000E+00 RBM=2.585E+01 + RE =1.006E+01 RC =6.213E+00 CJE=1.408E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.070E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.506E-01 PTF=0.000E+00 CJC=1.939E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=9.27E-01 TR =2.704E-09 CJS=2.351E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .ENDS CLC406 *==================================================== * CLC409 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Very Wide band, Low Distortion Monolithic * Current Feedback Op Amp. * * Version 1, Rev. A, Date 04-09-92, By RRS * * Connections: Non-Inverting Input * | Inverting Input * | | +Vcc * | | | -Vcc * | | | | Output * | | | | | *COM Sngl VeryWideBW LoDisto OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC409 3 2 7 4 6 * * DC BIAS MIRROR * R1 7 4 28K R2 7 9 271 R3 10 4 335 * G1 7 11 POLY(2) 7 9 7 4 0 3.15M 21.5U C3 11 0 128F * G2 14 4 POLY(1) 10 4 0 2.95M C4 14 0 104F * * INPUT VOLTAGE BUFFER * E1 3 17 POLY(1) 35 0 1.0M 1.673 C6 17 0 1.00P * Q1 10 17 12 QINP D3 11 12 DY Q2 9 17 13 QINN D4 13 14 DY * G3 2 0 POLY(1) 36 0 0 9.282M C10 2 0 2.9P * D5 22 2 DY Q3 21 11 22 QINN D6 2 23 DY Q4 24 14 23 QINP * * CURRENT MIRROR GAIN BLOCKS * R10 7 20 640 V1 20 21 1.9 C8 21 28 294F G4 7 28 POLY(1) 7 20 0 4.3M R15 7 28 102K C13 28 0 641F D1 28 26 DX V3 7 26 1.65 G6 7 30 POLY(1) 7 20 0 2.74M C15 30 0 676F * R13 25 4 640 V2 24 25 1.85 C12 24 29 294F G5 29 4 POLY(1) 25 4 0 4.5M R16 29 4 761K C14 29 0 312F D2 27 29 DX V4 27 4 1.55 G7 31 4 POLY(1) 25 4 0 6.74M C16 31 0 330F * * OUTPUT STAGE AND COMPENSATION CAPACITORS * R14 28 29 45.0 Q5 4 29 30 QOUTP1 Q6 7 28 31 QOUTN1 * C9 21 33 .935P C11 24 33 .935P C17 33 0 4.00P R19 33 6 10 * Q7 7 30 33 QOUTN2 Q8 4 31 33 QOUTP2 * * NOISE BLOCKS * R20 35 0 122 R21 35 0 122 * R22 36 0 122 R23 36 0 122 * * MODELS * .MODEL DX D TT=200N .MODEL DY D IS=0.166F * .MODEL QINN NPN + IS =0.166f BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =118 IRB=0.000E+00 RBM=65.1 + RC =2.645E+01 CJE=1.632E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=589m TR =4.212E-10 CJS=629f + MJS=0 KF =2.000E-12 AF =1.000E+00 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =3.954E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=4.590E-02 ISE=5.512E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=7.392E-02 ISC=3.087E-19 + NC =1.700E+00 RB =3.645E+01 IRB=0.000E+00 RBM=8.077E+00 + RE =3.010E-01 RC =2.702E+01 CJE=2.962E-13 + MJE=4.950E-01 TF =1.904E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=1.110E-01 PTF=0.000E+00 CJC=2.846E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.562E-01 TR =5.832E-10 CJS=5.015E-13 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =9.386E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=1.089E-01 ISE=1.308E-16 NE =1.197E+00 BR =3.956E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=7.392E-02 ISC=1.378E-18 + NC =1.700E+00 RB =65.4 IRB=0.000E+00 RBM=1.683E+00 + RC =1.857E+01 CJE=7.030E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.875E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.635E-01 PTF=0.000E+00 CJC=6.172E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=860m TR =1.069E-09 CJS=1.028E-12 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QINP PNP + IS =0.166f BF =7.165E+01 NF =1.000E+00 VAF=2.000E+01 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =78.8 IRB=0.000E+00 RBM=57.6 + RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=741m TR =7.500E-11 CJS=515f + MJS=0 KF =2.000E-12 AF =1.000E+00 FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =2.399E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=3.509E-02 ISE=1.190E-15 NE =1.366E+00 BR =1.900E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=2.464E-01 ISC=6.745E-18 + NC =1.634E+00 RB =1.542E+01 IRB=0.000E+00 RBM=4.059E+00 + RC =4.174E+01 CJE=2.962E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.107E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=9.481E-02 PTF=0.000E+00 CJC=4.508E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.562E-01 TR =9.500E-11 CJS=1.045E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =5.693E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=8.328E-02 ISE=5.742E-15 NE =1.366E+00 BR =1.923E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=5.848E-01 ISC=1.586E-17 + NC =1.634E+00 RB =56.5 IRB=0.000E+00 RBM=51.7 + RC =1.767E+00 CJE=7.030E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.073E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=2.250E-01 PTF=0.000E+00 CJC=9.776E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=923m TR =1.450E-10 CJS=1.637E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .ENDS CLC409 *==================================================== * CLC412 Macromodel Net List--- Subcircuit Format (MMD.06) * * This is a Wideband, Low Cost, Low Power Dual Monolithic * Current Feedback Op Amp. * * Version 1, Rev. A, Date 07-13-94, by KEB * * Connections: Non-Inverting Input * | Inverting * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Dual WideB Video OpAmp pkg:DIP8 (A:3,2,7,4,1)(B:5,6,8,4,7) .SUBCKT CLC412 3 2 8 4 1 * * BIAS BLOCK * G1 8 10 POLY(1) 8 14 123U 1.674M C2 10 0 644F C3 10 14 143F R1 8 14 524 * G3 16 4 POLY(1) 13 4 0 1.649M C5 16 0 551F C4 13 16 84.0F R2 13 4 532 * * INPUT STAGE * C1 3 0 1.00P E1 3 12 POLY(2) 50 0 51 0 -1.50M 1.00 1.00 G2 12 0 POLY(2) 52 0 53 0 0 1.00M 1.00M * D1 10 11 DX Q1 13 12 11 QINP Q2 14 12 15 QINN D2 15 16 DX * G4 21 0 POLY(2) 54 0 55 0 -14.0U 1.00M 1.00M Q3 21 10 22 QINN D3 22 2 DX C6 2 3 500F C7 2 0 1.72P D4 2 23 DX Q4 24 16 23 QINP * * GAIN STAGE * R3 8 20 591 V1 20 21 1.96 C8 21 31 131F G5 8 31 POLY(2) 8 20 8 31 0 3.881M 3.66U V3 8 30 1.96 D5 31 30 DOR G7 8 40 POLY(1) 8 20 0 4.633M C11 21 40 217F C12 40 0 475F C15 21 1 450F * R4 25 4 589 V2 24 25 2.05 C10 24 31 76.6F G6 31 4 POLY(2) 25 4 31 4 0 3.997M 525N V4 32 4 2.44 D6 32 31 DOR G8 42 4 POLY(1) 25 4 0 2.229M C13 24 42 139F C14 42 0 634F C17 24 1 450F * * OUTPUT STAGE * C9 31 0 474F Q5 4 31 40 QOUTP1 Q6 8 31 41 QOUTN1 0.67 D7 41 42 DX 1.88 Q7 8 31 43 QOUTN1 0.33 Q8 4 42 43 QOUTP1 0.50 * Q9 8 40 1 QOUTN2 C16 1 0 2.50P Q10 4 43 1 QOUTP2 * * NOISE BLOCKS * I1 51 50 DC 91.0U D8 50 0 DN1 D9 0 51 DN1 * I2 53 52 DC 413U D10 52 0 DN2 D11 0 53 DN2 * I3 55 54 DC 14.3U D12 54 0 DN3 D13 0 55 DN3 * * MODELS * .MODEL DN1 D IS=0.166F KF=4.48F AF=1.00 .MODEL DN2 D IS=0.166F KF=82.4F AF=1.00 .MODEL DN3 D IS=0.166F KF=47.6F AF=1.00 .MODEL DOR D TT=100N .MODEL DX D IS=0.165F RS=583M CJO=159F M=495M VJ=797M TT=25.5P * .MODEL QINN NPN + IS =1.652E-16 BF =3.239E+02 NF =1.000E+00 VAF=4.229E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =1.180E+02 IRB=0.000E+00 RBM=6.506E+01 + RE =5.613E-01 RC =2.645E+01 CJE=1.588E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=8.61E-01 TR =4.212E-10 CJS=1.136E-12 + VJS=5.723E-01 MJS=0.000E+00 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =7.822E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=9.079E-02 ISE=1.090E-16 NE =1.197E+00 BR =3.960E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.462E-01 ISC=5.656E-19 + NC =1.700E+00 RB =1.843E+01 IRB=0.000E+00 RBM=4.083E+00 + RE =1.522E-01 RC =6.141E+00 CJE=5.858E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.874E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.196E-01 PTF=0.000E+00 CJC=5.143E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.71E-01 TR =1.069E-09 CJS=8.567E-13 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.880E-15 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.182E-01 ISE=2.620E-16 NE =1.197E+00 BR =3.971E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.513E-01 ISC=1.348E-18 + NC =1.700E+00 RB =3.267E+01 IRB=0.000E+00 RBM=2.670E+01 + RE =1.006E+01 RC =3.738E+00 CJE=1.408E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.871E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.278E-01 PTF=0.000E+00 CJC=1.224E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=9.27E-01 TR =1.296E-09 CJS=1.496E-12 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QINP PNP + IS =1.652E-16 BF =7.165E+01 NF =1.000E+00 VAF=1.720E+01 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =7.876E+01 IRB=0.000E+00 RBM=5.757E+01 + RE =6.118E-01 RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=8.61E-01 TR =1.096E-09 CJS=1.136E-12 + VJS=6.691E-01 MJS=0.000E+00 FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =4.744E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=6.940E-02 ISE=2.353E-15 NE =1.366E+00 BR =1.948E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=4.873E-01 ISC=1.322E-17 + NC =1.634E+00 RB =7.797E+00 IRB=0.000E+00 RBM=2.052E+00 + RE =1.659E-01 RC =1.037E+01 CJE=5.858E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.073E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=1.875E-01 PTF=0.000E+00 CJC=8.147E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.71E-01 TR =2.119E-09 CJS=1.364E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =1.140E-15 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=1.668E-01 ISE=5.655E-15 NE =1.366E+00 BR =1.953E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.171E+00 ISC=3.173E-17 + NC =1.634E+00 RB =2.825E+01 IRB=0.000E+00 RBM=2.585E+01 + RE =1.006E+01 RC =6.213E+00 CJE=1.408E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.070E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.506E-01 PTF=0.000E+00 CJC=1.939E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=9.27E-01 TR =2.704E-09 CJS=2.351E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .ENDS CLC412 *==================================================== * CLC414 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Quad Low Power Monolithic Current Feedback Op Amp. * * Version 1, Rev. B, Date 06-09-92, By RRS * * Connections: Non-Inverting Input * | Inverting Input * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Quad LoPwr OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT CLC414 3 2 7 4 6 * * DC BIAS MIRROR * R1 7 9 630 R2 15 4 648 G1 7 13 POLY(1) 7 9 94U .4115M C2 13 0 554F G2 12 4 POLY(1) 15 4 0 2.010M C1 12 0 648F * * INPUT VOLTAGE BUFFER * E1 3 10 POLY(1) 33 0 0 1.82 C0 10 0 1.75P Q1 9 10 11 QINN D1 11 12 DY Q2 15 10 14 QINP D2 13 14 DY G3 2 0 POLY(1) 34 0 0 10.50M C3 2 0 2.57P * Q3 17 13 18 QINN D3 18 2 DY Q4 20 12 19 QINP D4 2 19 DY * * CURRENT MIRROR GAIN BLOCKS * R3 7 16 938 V1 16 17 2.043 C4 17 23 195F G4 7 23 POLY(1) 7 16 0 2.4355M D5 23 22 DX V3 7 22 2.3 G7 7 28 POLY(1) 7 16 0 1.5708M C10 28 0 375F * R4 21 4 919 V2 20 21 2.006 C8 20 23 114F G5 23 4 POLY(1) 21 4 0 2.5739M D6 24 23 DX V4 24 4 2.3 G6 26 4 POLY(1) 21 4 0 1.6463M C9 26 0 534F * * OUTPUT STAGE AND COMPENSATION CAPACITORS * C6 23 0 1250F R5 23 0 969K C5 17 6 150F Q5 7 23 27 QOUTN1 0.333 Q6 4 26 27 QOUTP2 F1 7 23 POLY(1) V5 0 0.992 R6 23 25 154 V5 25 26 1.345 Q7 7 28 30 QOUTN1 Q8 4 23 30 QOUTP1 F2 23 4 POLY(1) V6 0 0.992 R7 29 23 154 V6 28 29 1.3844 C11 6 0 1.0P R8 6 31 10.0 Q9 7 30 31 QOUTN2 R9 6 32 10.0 Q10 4 27 32 QOUTP3 * * NOISE BLOCKS * R10 33 0 122 R11 33 0 122 R12 34 0 122 R13 34 0 122 * * MODELS * .MODEL DX D TT=10N .MODEL DY D IS=0.166F * .MODEL QINN NPN + IS =0.166f BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =118 IRB=0.000E+00 RBM=65.1 + RC =2.645E+01 CJE=1.588E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=589m TR =4.212E-10 CJS=529f + MJS=0 KF =2.000E-12 AF =1.000E+00 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =7.822E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=9.079E-02 ISE=1.090E-16 NE =1.197E+00 BR =3.960E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.462E-01 ISC=5.656E-19 + NC =1.700E+00 RB =1.843E+01 IRB=0.000E+00 RBM=4.083E+00 + RE =1.522E-01 RC =6.141E+00 CJE=5.858E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.874E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.196E-01 PTF=0.000E+00 CJC=5.143E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.709E-01 TR =1.069E-09 CJS=8.567E-13 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.880E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.182E-02 ISE=2.620E-16 NE =1.197E+00 BR =3.971E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.513E-01 ISC=1.348E-19 + NC =1.700E+00 RB =65.4 IRB=0.000E+00 RBM=1.699E+00 + RC =3.738E+01 CJE=1.408E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.871E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.278E-01 PTF=0.000E+00 CJC=1.224E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=860m TR =1.269E-09 CJS=1.496E-12 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QINP PNP + IS =0.166f BF =7.165E+01 NF =1.000E+00 VAF=2.000E+01 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =78.8 IRB=0.000E+00 RBM=57.56E+00 + RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=741m TR =7.500E-11 CJS=515f + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =4.744E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=6.940E-02 ISE=2.353E-15 NE =1.366E+00 BR =1.948E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=4.873E-01 ISC=1.322E-17 + NC =1.634E+00 RB =7.797E+00 IRB=0.000E+00 RBM=2.052E+00 + RC =1.037E+01 CJE=5.858E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.073E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=1.875E-01 PTF=0.000E+00 CJC=8.147E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.709E-01 TR =1.450E-10 CJS=1.364E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =2.399E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=3.509E-02 ISE=1.190E-15 NE =1.366E+00 BR =1.900E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=2.464E-01 ISC=6.745E-18 + NC =1.634E+00 RB =56.5 IRB=0.000E+00 RBM=51.7 + RC =1.649E+01 CJE=2.962E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.107E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=9.481E-02 PTF=0.000E+00 CJC=4.508E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=923m TR =9.500E-11 CJS=1.045E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP3 PNP + IS =1.140E-15 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=1.668E-01 ISE=5.655E-15 NE =1.366E+00 BR =1.953E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.171E+00 ISC=3.173E-17 + NC =1.634E+00 RB =3.245E+00 IRB=0.000E+00 RBM=8.539E-01 + RE =6.902E-02 RC =6.213E+00 CJE=1.408E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.070E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.506E-01 PTF=0.000E+00 CJC=1.939E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.726E-01 TR =1.850E-10 CJS=2.351E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .ENDS CLC414 *==================================================== * CLC415 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Quad Wideband Monolithic Current Feedback Op Amp. * * Version 1, Rev. A, Date 05-22-92, By RRS * * Connections: Non-Inverting Input * | Inverting Input * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Quad WideBW OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT CLC415 3 2 7 4 6 * * DC BIAS MIRROR * R1 7 9 524 R2 15 4 532 * G1 7 13 POLY(1) 7 9 93.4U 1.674M C2 13 0 644F * G2 12 4 POLY(1) 15 4 0 1.649M C1 12 0 551F * * INPUT VOLTAGE BUFFER * E1 3 10 POLY(1) 33 0 0 2.58 C0 10 0 1.00P * Q1 9 10 11 QINN D1 11 12 DY Q2 15 10 14 QINP D2 13 14 DY * G3 2 0 POLY(1) 34 0 0 9.55M C3 2 0 1.125P * Q3 17 13 18 QINN D3 18 2 DY * Q4 20 12 19 QINP D4 2 19 DY * * CURRENT MIRROR GAIN BLOCKS * R3 7 16 591 V1 16 17 2.054 C4 17 23 100F G4 7 23 POLY(1) 7 16 0 3.881M D5 23 22 DX V3 7 22 2.644 G7 7 28 POLY(1) 7 16 0 1.80M C10 28 0 375F * R4 21 4 589 V2 20 21 2.044 C8 20 23 50.6F G5 23 4 POLY(1) 21 4 0 3.997M D6 24 23 DX V4 24 4 2.702 G6 26 4 POLY(1) 21 4 0 1.80M C9 26 0 534F * * OUTPUT STAGE AND COMPENSATION CAPACITORS * C6 23 0 1250F R5 23 0 269K C5 17 6 85F C7 20 6 85F * Q5 7 23 27 QOUTN1 0.333 Q6 4 26 27 QOUTP2 F1 7 23 POLY(1) V5 0 0.993 R6 23 25 137 V5 25 26 1.4578 * Q7 7 28 30 QOUTN1 Q8 4 23 30 QOUTP1 F2 23 4 POLY(1) V6 0 0.993 R7 29 23 137 V6 28 29 1.4543 * C11 6 0 1.0P * R8 6 31 10.0 Q9 7 30 31 QOUTN2 R9 6 32 10.0 Q10 4 27 32 QOUTP3 * * NOISE BLOCKS * R10 33 0 122 R11 33 0 122 * R12 34 0 122 R13 34 0 122 * * MODELS * .MODEL DX D TT=10N .MODEL DY D IS=0.166F * .MODEL QINN NPN + IS =0.166f BF =3.239E+02 NF =1.000E+00 VAF=8.857E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =118 IRB=0.000E+00 RBM=65.1 + RC =2.645E+01 CJE=1.588E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=589m TR =4.212E-10 CJS=629f + MJS=0 KF =2.000E-12 AF =1.000E+00 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =7.822E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=9.079E-02 ISE=1.090E-16 NE =1.197E+00 BR =3.960E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.462E-01 ISC=5.656E-19 + NC =1.700E+00 RB =1.843E+01 IRB=0.000E+00 RBM=4.083E+00 + RE =1.522E-01 RC =6.141E+00 CJE=5.858E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.874E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.196E-01 PTF=0.000E+00 CJC=5.143E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.709E-01 TR =1.069E-09 CJS=8.567E-13 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.880E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.182E-02 ISE=2.620E-16 NE =1.197E+00 BR =3.971E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.513E-01 ISC=1.348E-19 + NC =1.700E+00 RB =65.4 IRB=0.000E+00 RBM=1.699E+00 + RC =3.738E+01 CJE=1.408E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.871E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.278E-01 PTF=0.000E+00 CJC=1.224E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=860m TR =1.269E-09 CJS=1.496E-12 + VJS=5.723E-01 MJS=4.105E-01 KF =2.000E-12 AF =1.000E+00 + FC =9.765E-01 * .MODEL QINP PNP + IS =0.166f BF =7.165E+01 NF =1.000E+00 VAF=1.800E+01 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =78.8 IRB=0.000E+00 RBM=57.56E+00 + RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=741m TR =7.500E-11 CJS=515f + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =4.744E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=6.940E-02 ISE=2.353E-15 NE =1.366E+00 BR =1.948E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=4.873E-01 ISC=1.322E-17 + NC =1.634E+00 RB =7.797E+00 IRB=0.000E+00 RBM=2.052E+00 + RC =1.037E+01 CJE=5.858E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.073E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=1.875E-01 PTF=0.000E+00 CJC=8.147E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.709E-01 TR =1.450E-10 CJS=1.364E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =2.399E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=3.509E-02 ISE=1.190E-15 NE =1.366E+00 BR =1.900E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=2.464E-01 ISC=6.745E-18 + NC =1.634E+00 RB =56.5 IRB=0.000E+00 RBM=51.7 + RC =1.649E+01 CJE=2.962E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.107E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=9.481E-02 PTF=0.000E+00 CJC=4.508E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=923m TR =9.500E-11 CJS=1.045E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP3 PNP + IS =1.140E-15 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=1.668E-01 ISE=5.655E-15 NE =1.366E+00 BR =1.953E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.171E+00 ISC=3.173E-17 + NC =1.634E+00 RB =3.245E+00 IRB=0.000E+00 RBM=8.539E-01 + RE =6.902E-02 RC =6.213E+00 CJE=1.408E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.070E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.506E-01 PTF=0.000E+00 CJC=1.939E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.726E-01 TR =1.850E-10 CJS=2.351E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =2.000E-12 AF =1.000E+00 + FC =8.803E-01 * .ENDS CLC415 *==================================================== * CLC420 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a High Speed, Unity Gain Stable Monolithic Voltage * Feedback Op Amp. * * Version 1, Rev. A, Date 07-29-92, By KEB * * Connections: Non-Inverting * | Inverting * | | +Vcc * | | | -Vcc * | | | | Output * | | | | | *COM Sngl HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC420 3 2 7 4 6 * * INVERTING BUFFER * R1 7 10 318 R2 11 4 214 G1 7 12 POLY(2) 7 4 7 10 -58.71U 19.57U 3.145M C1 12 0 481F Q1 11 2 12 QINP C3 2 0 500F Q2 10 2 13 QINN C2 13 0 247F G2 13 4 POLY(2) 7 4 11 4 -16.66U 5.554U 2.921M * R3 7 14 433 V1 14 15 1.62 Q3 15 12 16 QINN R5 16 21 150 Q4 17 13 16 QINP V2 17 18 1.57 R4 18 4 433 * * NON-INVERTING BUFFER * R6 7 19 437 V3 19 20 1.64 Q5 20 24 21 QINN Q6 22 26 21 QINP V4 22 23 1.62 R7 23 4 437 G3 7 24 POLY(2) 7 4 7 27 -59.29U 19.43U 3.145M C5 24 0 481F Q7 28 25 24 QINP C4 25 0 500F Q8 27 25 26 QINN C6 26 0 247F G4 26 4 POLY(2) 7 4 28 4 -17.09U 5.697U 2.921M R8 7 27 318 E1 3 25 POLY(1) 40 0 500U 2.49 G5 3 0 POLY(1) 41 0 180N 262U R9 28 4 214 * * CURRENT MIRROR GAIN BLOCKS * V5 7 29 2.10 D1 31 29 DX C7 20 31 431F C8 20 6 1.80P C9 22 6 1.80P C10 22 31 476F D2 30 31 DX V6 30 4 2.10 G6 7 31 POLY(1) 7 19 0 6.865M R10 31 0 167K C11 31 0 475F G7 31 4 POLY(1) 23 4 0 6.865M G8 7 32 POLY(1) 7 19 0 2.288M C12 32 0 1.5P G9 35 4 POLY(1) 23 4 0 2.288M C13 35 0 1.5P * * OUTPUT STAGE * D3 32 33 DY Q9 4 31 33 QOUTP1 Q10 7 31 34 QOUTN1 D4 34 35 DY Q11 7 32 36 QOUTN1 Q12 4 31 36 QOUTP1 Q13 7 31 37 QOUTN1 Q14 4 35 37 QOUTP1 Q15 7 36 38 QOUTN2 R11 38 6 10.0 C14 6 0 3.20P R12 6 39 10.0 Q16 4 37 39 QOUTP2 * * NOISE BLOCKS * R13 40 0 122 R14 40 0 122 R15 41 0 122 R16 41 0 122 * * MODELS * .Model DX D TT=200N .Model DY D IS=0.395F .Model DZ D IS=0.240F * .MODEL QINN NPN + IS =0.166F BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.462E-02 ISE=2.956E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.964E-02 ISC=1.835E-19 + NC =1.700E+00 RB =118 IRB=0.000E+00 RBM=65.1 + RC =2.645E+01 CJE=1.632E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.948E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.955E-02 PTF=0.000E+00 CJC=1.720E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=589M TR =4.212E-10 CJS=629F + MJS=0 KF =1.00P AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =3.954E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=4.590E-02 ISE=5.512E-17 NE =1.197E+00 BR =3.719E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=7.392E-02 ISC=3.087E-19 + NC =1.700E+00 RB =3.645E+01 IRB=0.000E+00 RBM=8.077E+00 + RC =2.702E+01 CJE=2.962E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.904E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=1.110E-01 PTF=0.000E+00 CJC=2.846E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.562E-01 TR =5.832E-10 CJS=5.015E-13 + VJS=5.723E-01 MJS=4.105E-01 KF =1.00P AF =1.000E+00 + FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =9.386E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=1.089E-01 ISE=1.308E-16 NE =1.197E+00 BR =3.960E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.754E-01 ISC=6.787E-19 + NC =1.700E+00 RB =15.4 IRB=0.000E+00 RBM=3.4 + RC =1.857E+01 CJE=7.030E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.874E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=2.635E-01 PTF=0.000E+00 CJC=6.172E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=171M TR =1.069E-09 CJS=1.028E-12 + VJS=5.723E-01 MJS=4.105E-01 KF =1.00P AF =1.000E+00 + FC =9.765E-01 * .MODEL QINP PNP + IS =0.166F BF =7.165E+01 NF =1.000E+00 VAF=20.0 + IKF=1.882E-02 ISE=6.380E-16 NE =1.366E+00 BR =1.833E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.321E-01 ISC=3.666E-18 + NC =1.634E+00 RB =78.8 IRB=0.000E+00 RBM=57.6 + RC =3.739E+01 CJE=1.588E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.156E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=5.084E-02 PTF=0.000E+00 CJC=2.725E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=741M TR =7.500E-11 CJS=515F + MJS=0 KF =1.00P AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =2.399E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=3.509E-02 ISE=1.190E-15 NE =1.366E+00 BR =1.900E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=2.464E-01 ISC=6.745E-18 + NC =1.634E+00 RB =1.542E+01 IRB=0.000E+00 RBM=4.059E+00 + RC =4.174E+01 CJE=2.962E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.107E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=9.481E-02 PTF=0.000E+00 CJC=4.508E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.562E-01 TR =9.500E-11 CJS=1.045E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =1.00P AF =1.000E+00 + FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =5.693E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=8.328E-02 ISE=2.824E-15 NE =1.366E+00 BR =1.948E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=5.848E-01 ISC=1.586E-17 + NC =1.634E+00 RB =6.5 IRB=0.000E+00 RBM=1.7 + RC =1.767E+01 CJE=7.030E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.073E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=2.250E-01 PTF=0.000E+00 CJC=9.776E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=171M TR =1.450E-10 CJS=1.637E-12 + VJS=6.691E-01 MJS=3.950E-01 KF =1.00P AF =1.000E+00 + FC =8.803E-01 * .ENDS CLC420 *==================================================== * CLC428 Macromodel Net List--- Subcircuit Format (MMD.06) * * This is an Ultra Low Noise, Wideband, Dual Monolithic Voltage * Feedback Op Amp * * Version 1, Rev. A, Date 05-23-94, by KEB * * Connections: Non-Inverting Input * | Inverting * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Dual LoNoise WideB VoltageFB OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT CLC428 3 2 8 4 1 * * BIAS CIRCUITRY * G1 8 4 POLY(1) 8 4 -1.35M 15.0U * G2 8 10 POLY(2) 8 4 8 10 538U 7.00U 1.39U C1 10 0 800F G7 8 25 POLY(2) 8 4 8 25 538U 7.00U 1.39U C4 25 0 800F * G4 11 4 POLY(2) 8 4 11 4 1.09M 20.0U 400N C3 11 0 400F G9 27 4 POLY(2) 8 4 27 4 1.09M 20.0U 400N C6 27 0 400F * * INPUT STAGE * C2 2 0 1.00P G3 2 0 POLY(2) 40 0 41 0 0 1.00M 1.00M Q1 4 2 10 QINP1 Q2 8 2 11 QINN1 V1 8 12 DC 1.00 Q3 12 10 13 QINN1 Q4 14 11 13 QINP1 V2 14 4 DC 1.00 * R1 13 22 33.3 * Q5 21 25 22 QINN2 Q6 23 27 22 QINP2 Q7 8 26 27 QINN2 Q8 4 26 25 QINP2 G8 26 0 POLY(2) 42 0 43 0 0 1.00M 1.00M E1 3 26 POLY(2) 44 0 45 0 -600U 1.00 1.00 C5 3 0 1.00P * * GAIN STAGE * D1 8 20 DY G5 20 21 POLY(1) 20 21 0 1.00 R2 8 21 450 V3 8 30 DC 1.75 D3 31 30 DX C7 8 31 6.00P G10 8 31 POLY(3) 8 31 8 21 20 21 0 574N 2.22M 250M 0 4.78U 538U C8 21 33 400F G12 8 33 POLY(1) 8 21 0 2.22M C11 33 0 800F * G6 23 24 POLY(1) 23 24 0 1.00 D2 24 4 DY R3 23 4 450 D4 32 31 DX V4 32 4 DC 1.75 C10 31 4 6.00P G11 31 4 POLY(3) 31 4 23 4 23 24 0 1.33U 2.22M 250M 0 11.1U 1.25M C9 23 34 800F G13 34 4 POLY(1) 23 4 0 8.00M C13 34 0 400F * * OUTPUT STAGE * C12 31 0 1.00P Q9 4 31 33 QOUTP1 2.00 Q10 8 31 34 QOUTN1 2.00 Q11 8 33 1 QOUTN2 C14 1 0 1.00P Q12 4 34 1 QOUTP2 D5 31 1 DY D6 1 31 DY * * NOISE BLOCKS * I1 41 40 DC 356U D7 40 0 DN1 D8 0 41 DN1 * I2 43 42 DC 459U D9 42 0 DN2 D10 0 43 DN2 * I3 45 44 DC 198U D11 44 0 DN3 D12 0 45 DN3 * * MODELS * .MODEL DN1 D IS=0.166F KF=61.0F AF=1.00 .MODEL DN2 D IS=0.166F KF=74.0F AF=1.00 .MODEL DN3 D IS=0.166F KF=1.52F AF=1.00 .MODEL DX D TT=100N .MODEL DY D IS=4.11E-16 RS=1.00 .MODEL DZ D IS=3.07E-17 RS=1.00 * .MODEL QINN1 NPN + IS =5.800E-16 BF =3.239E+02 NF =1.000E+00 VAF=4.229E+01 + IKF=6.700E-02 ISE=8.000E-17 NE =1.197E+00 BR =4.003E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.000E-01 ISC=4.000E-19 + NC =1.700E+00 RB =1.843E+01 IRB=0.000E+00 RBM=4.083E+00 + RE =2.100E-01 RC =1.000E+01 CJE=4.300E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.862E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=1.651E-01 PTF=0.000E+00 CJC=3.500E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.778E-01 TR =7.000E-10 CJS=1.600E-12 + VJS=5.723E-01 MJS=0.000E+00 FC =9.765E-01 * .MODEL QINN2 NPN + IS =5.800E-16 BF =2.939E+02 NF =1.000E+00 VAF=3.279E+01 + IKF=6.700E-02 ISE=8.000E-17 NE =1.197E+00 BR =4.003E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=1.000E-01 ISC=4.000E-19 + NC =1.700E+00 RB =1.843E+01 IRB=0.000E+00 RBM=4.083E+00 + RE =2.100E-01 RC =1.000E+01 CJE=4.300E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.862E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=1.651E-01 PTF=0.000E+00 CJC=3.500E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.778E-01 TR =7.000E-10 CJS=1.600E-12 + VJS=5.723E-01 MJS=0.000E+00 FC =9.765E-01 * .MODEL QOUTN1 NPN + IS =3.954E-16 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=4.590E-02 ISE=5.512E-17 NE =1.197E+00 BR =3.957E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=7.392E-02 ISC=2.867E-19 + NC =1.700E+00 RB =3.645E+01 IRB=0.000E+00 RBM=8.077E+00 + RE =3.010E-01 RC =2.438E+01 CJE=2.962E-13 VJE=7.973E-01 + MJE=4.950E-01 TF =1.875E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=1.110E-01 PTF=0.000E+00 CJC=2.608E-13 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.704E-01 TR =5.832E-10 CJS=4.115E-13 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QOUTN2 NPN + IS =1.880E-15 BF =3.239E+02 NF =1.000E+00 VAF=8.457E+01 + IKF=2.182E-01 ISE=2.620E-16 NE =1.197E+00 BR =4.090E+01 + NR =1.000E+00 VAR=1.696E+00 IKR=3.513E-01 ISC=1.229E-18 + NC =1.700E+00 RB =7.668E+00 IRB=0.000E+00 RBM=1.699E+00 + RE =5.063E+00 RC =3.371E+00 CJE=1.408E-12 VJE=7.973E-01 + MJE=4.950E-01 TF =1.838E-11 XTF=1.873E+01 VTF=2.825E+00 + ITF=5.278E-01 PTF=0.000E+00 CJC=1.095E-12 VJC=8.046E-01 + MJC=4.931E-01 XCJC=1.930E-01 TR =1.296E-09 CJS=1.217E-12 + VJS=5.723E-01 MJS=4.105E-01 FC =9.765E-01 * .MODEL QINP1 PNP + IS =3.500E-16 BF =7.165E+01 NF =1.000E+00 VAF=1.720E+01 + IKF=4.120E-02 ISE=1.750E-15 NE =1.366E+00 BR =1.970E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=3.600E-01 ISC=9.877E-18 + NC =1.634E+00 RB =7.797E+00 IRB=0.000E+00 RBM=1.915E+00 + RE =2.260E-01 RC =1.500E+01 CJE=4.300E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.032E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=1.374E-01 PTF=0.000E+00 CJC=5.600E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.778E-01 TR =1.605E-09 CJS=1.600E-12 + VJS=6.691E-01 MJS=0.000E+00 FC =8.803E-01 * .MODEL QINP2 PNP + IS =3.500E-16 BF =6.565E+01 NF =1.000E+00 VAF=1.370E+01 + IKF=4.120E-02 ISE=1.750E-15 NE =1.366E+00 BR =1.970E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=3.600E-01 ISC=9.877E-18 + NC =1.634E+00 RB =7.797E+00 IRB=0.000E+00 RBM=1.915E+00 + RE =2.260E-01 RC =1.500E+01 CJE=4.300E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.032E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=1.374E-01 PTF=0.000E+00 CJC=5.600E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.778E-01 TR =1.605E-09 CJS=1.600E-12 + VJS=6.691E-01 MJS=0.000E+00 FC =8.803E-01 * .MODEL QOUTP1 PNP + IS =2.399E-16 BF =7.165E+01 NF =1.000E+00 VAF=3.439E+01 + IKF=3.509E-02 ISE=1.190E-15 NE =1.366E+00 BR =1.946E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=2.464E-01 ISC=6.685E-18 + NC =1.634E+00 RB =1.542E+01 IRB=0.000E+00 RBM=3.788E+00 + RE =3.281E-01 RC =1.420E+01 CJE=2.962E-13 VJE=7.975E-01 + MJE=5.000E-01 TF =3.051E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=9.481E-02 PTF=0.000E+00 CJC=4.131E-13 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.704E-01 TR =1.388E-09 CJS=9.092E-13 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .MODEL QOUTP2 PNP + IS =1.140E-15 BF =1.401E+02 NF =1.000E+00 VAF=3.439E+01 + IKF=1.668E-01 ISE=5.655E-15 NE =1.366E+00 BR =2.009E+01 + NR =1.000E+00 VAR=1.805E+00 IKR=1.171E+00 ISC=3.141E-17 + NC =1.634E+00 RB =3.245E+00 IRB=0.000E+00 RBM=7.970E-01 + RE =5.069E+00 RC =5.381E+00 CJE=1.408E-12 VJE=7.975E-01 + MJE=5.000E-01 TF =3.013E-11 XTF=5.386E+00 VTF=2.713E+00 + ITF=4.506E-01 PTF=0.000E+00 CJC=1.734E-12 VJC=7.130E-01 + MJC=4.200E-01 XCJC=1.929E-01 TR =2.704E-09 CJS=2.020E-12 + VJS=6.691E-01 MJS=3.950E-01 FC =8.803E-01 * .ENDS CLC428 *==================================================== * CLC432 Macromodel Net List--- Subcircuit Format (MMD.06) * * This is a Dual Wideband Monolithic Current Feedback * Op Amp with High Slew Rate * * Version 1, Rev. A, Date 07-05-94, by KEB * * Connections: Non-Inverting Input * | Inverting * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Dual WideB HiSlewRt CurrentFB OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT CLC432 3 2 8 4 1 * * BIAS BLOCK * G1 8 4 POLY(1) 8 4 370U 1.00U G2 8 10 POLY(2) 8 14 8 10 38.3U 2.70M 70.2N C1 10 0 822F C2 10 14 368F G4 16 4 POLY(2) 13 4 16 4 38.3U 2.70M 18.4N C5 13 16 493F C6 16 0 608F * * INPUT STAGE * C3 3 1 320F C4 3 0 1.00P E1 3 12 POLY(2) 40 0 41 0 0 1.00 1.00 G3 12 0 POLY(2) 42 0 43 0 0 1.00M 1.00M * D1 10 11 DX 3.00 Q1 13 12 11 QINP R9 13 4 325 * R2 8 14 350 Q2 14 12 15 QINN D2 15 16 DX 3.00 * G5 21 0 POLY(2) 44 0 45 0 0 1.00M 1.00M Q3 21 10 22 QINN R4 10 22 100K D3 22 2 DX 3.00 C7 1 2 260F C8 2 0 3.00P D4 2 23 DX 3.00 R5 23 16 100K Q4 24 16 23 QINP * * GAIN STAGE * R3 8 20 600 V1 20 21 1.30 V3 8 30 1.50 D5 31 30 DOR G6 8 31 POLY(2) 8 20 8 31 0 5.00M 318N C9 21 31 387F G8 8 33 POLY(1) 8 20 0 8.33M C12 21 33 387F C13 33 0 780F C16 21 1 850F * R6 25 4 600 V2 24 25 1.30 V4 32 4 1.50 D6 32 31 DOR G7 31 4 POLY(2) 25 4 31 4 0 5.00M 125N C11 24 31 305F G9 34 4 POLY(1) 25 4 0 8.33M C14 24 34 305F C15 34 0 353F C18 24 1 850F * * OUTPUT STAGE * C10 31 0 1.11P Q5 4 31 33 QOUTP1 Q6 8 31 34 QOUTN1 D7 31 1 DX 4.00 D8 1 31 DX 4.00 Q7 8 33 1 QOUTN2 Q8 4 34 1 QOUTP2 2.00 C22 1 0 1.98P * * NOISE BLOCKS * I1 41 40 DC 69.1U D9 40 0 DN1 D10 0 41 DN1 * I2 43 42 DC 186U D11 42 0 DN2 D12 0 43 DN2 * I3 45 44 DC 6.15U D13 44 0 DN3 D14 0 45 DN3 * * MODELS * .MODEL DN1 D IS=0.166F KF=4.48F AF=1.00 .MODEL DN2 D IS=0.166F KF=27.4F AF=1.00 .MODEL DN3 D IS=0.166F KF=23.6F AF=1.00 .MODEL DOR D TT=10.0U .MODEL DX D IS=0.269F RS=5.28 CJO=242F M=287M VJ=653M TT=515P * .MODEL QINN NPN + IS =8.063E-16 BF =2.053E+02 NF =1.000E+00 VAF=1.640E+02 + IKF=1.893E-02 ISE=3.099E-16 NE =1.263E+00 BR =4.649E-01 + NR =1.000E+00 VAR=2.335E+00 IKR=6.594E-03 ISC=0.000E+00 + NC =2.000E+00 RB =7.917E+01 IRB=0.000E+00 RBM=2.917E+01 + RE =1.131E+00 RC =3.294E+01 CJE=7.284E-13 VJE=6.534E-01 + MJE=2.873E-01 TF =5.140E-10 XTF=2.472E+01 VTF=1.959E+00 + ITF=7.287E-02 PTF=0.000E+00 CJC=7.387E-13 VJC=6.669E-01 + MJC=4.051E-01 XCJC=2.603E-01 TR =1.550E-09 CJS=2.438E-12 + VJS=5.253E-01 MJS=0.000E+00 FC =9.476E-01 * .MODEL QOUTN1 NPN + IS =3.495E-15 BF =2.053E+02 NF =1.000E+00 VAF=3.281E+02 + IKF=9.466E-02 ISE=1.550E-15 NE =1.263E+00 BR =6.484E-01 + NR =1.000E+00 VAR=2.335E+00 IKR=3.297E-02 ISC=0.000E+00 + NC =2.000E+00 RB =1.083E+01 IRB=0.000E+00 RBM=8.333E-01 + RE =2.261E-01 RC =1.249E+01 CJE=3.642E-12 VJE=6.534E-01 + MJE=2.873E-01 TF =5.131E-10 XTF=2.472E+01 VTF=1.959E+00 + ITF=3.644E-01 PTF=0.000E+00 CJC=2.697E-12 VJC=6.669E-01 + MJC=4.051E-01 XCJC=3.565E-01 TR =3.410E-09 CJS=1.823E-12 + VJS=5.253E-01 MJS=3.708E-01 FC =9.476E-01 * .MODEL QOUTN2 NPN + IS =4.660E-15 BF =2.053E+02 NF =1.000E+00 VAF=3.281E+02 + IKF=1.262E-01 ISE=2.066E-15 NE =1.263E+00 BR =6.767E-01 + NR =1.000E+00 VAR=2.335E+00 IKR=4.396E-02 ISC=0.000E+00 + NC =2.000E+00 RB =8.125E+00 IRB=0.000E+00 RBM=6.250E-01 + RE =5.170E+00 RC =1.253E+01 CJE=4.856E-12 VJE=6.534E-01 + MJE=2.873E-01 TF =5.130E-10 XTF=2.472E+01 VTF=1.959E+00 + ITF=4.858E-01 PTF=0.000E+00 CJC=3.455E-12 VJC=6.669E-01 + MJC=4.051E-01 XCJC=3.710E-01 TR =4.340E-09 CJS=2.759E-12 + VJS=5.253E-01 MJS=3.708E-01 FC =9.476E-01 * .MODEL QINP PNP + IS =8.063E-16 BF =2.138E+02 NF =1.000E+00 VAF=4.838E+01 + IKF=8.733E-03 ISE=7.173E-14 NE =1.839E+00 BR =2.373E+00 + NR =1.000E+00 VAR=2.006E+00 IKR=6.327E-02 ISC=0.000E+00 + NC =2.000E+00 RB =7.110E+01 IRB=0.000E+00 RBM=2.909E+01 + RE =2.742E+00 RC =8.235E+01 CJE=5.652E-13 VJE=6.800E-01 + MJE=3.426E-01 TF =5.120E-10 XTF=2.558E+01 VTF=1.996E+00 + ITF=4.905E-02 PTF=0.000E+00 CJC=1.194E-12 VJC=6.664E-01 + MJC=4.898E-01 XCJC=2.218E-01 TR =4.250E-09 CJS=2.438E-12 + VJS=5.763E-01 MJS=0.000E+00 FC =9.147E-01 * .MODEL QOUTP1 PNP + IS =4.650E-15 BF =2.138E+02 NF =1.000E+00 VAF=9.675E+01 + IKF=4.367E-02 ISE=3.586E-13 NE =1.839E+00 BR =3.319E+00 + NR =1.000E+00 VAR=2.006E+00 IKR=3.164E-01 ISC=0.000E+00 + NC =2.000E+00 RB =9.220E+00 IRB=0.000E+00 RBM=8.183E-01 + RE =5.484E-01 RC =3.158E+01 CJE=2.826E-12 VJE=6.800E-01 + MJE=3.426E-01 TF =5.107E-10 XTF=2.558E+01 VTF=1.996E+00 + ITF=2.452E-01 PTF=0.000E+00 CJC=4.358E-12 VJC=6.664E-01 + MJC=4.898E-01 XCJC=3.039E-01 TR =6.375E-09 CJS=3.939E-12 + VJS=5.763E-01 MJS=3.679E-01 FC =9.147E-01 * .MODEL QOUTP2 PNP + IS =6.200E-15 BF =2.138E+02 NF =1.000E+00 VAF=9.675E+01 + IKF=5.822E-02 ISE=4.782E-13 NE =1.839E+00 BR =3.473E+00 + NR =1.000E+00 VAR=2.006E+00 IKR=4.218E-01 ISC=0.000E+00 + NC =2.000E+00 RB =6.915E+00 IRB=0.000E+00 RBM=6.138E-01 + RE =1.041E+01 RC =2.792E+01 CJE=3.768E-12 VJE=6.800E-01 + MJE=3.426E-01 TF =5.105E-10 XTF=2.558E+01 VTF=1.996E+00 + ITF=3.270E-01 PTF=0.000E+00 CJC=5.573E-12 VJC=6.664E-01 + MJC=4.898E-01 XCJC=3.169E-01 TR =7.438E-09 CJS=5.887E-12 + VJS=5.763E-01 MJS=3.679E-01 FC =9.147E-01 * .ENDS CLC432 *==================================================== * CLC440 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a High-Speed, Low-Power, Monolithic * Voltage Feedback Op Amp * * Version 1, Rev. A, Date 05-05-95, by KEB * * Connections: Non-Inverting Input * | Inverting Input * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM Sngl HiSpeed LoPwr OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC440 3 2 7 4 6 * * BIAS BLOCK * C1 7 0 1.00P R1 7 10 1.00MEG V1 10 4 3.00 C2 4 0 1.00P * R2 7 20 100 C4 20 22 47.3F G2 7 22 POLY(3) 7 10 7 20 7 22 0 40.7U 5.00M 100N C5 22 0 250F * G3 21 4 POLY(3) 7 10 23 4 21 4 0 40.7U 5.00M 532N C7 21 0 10.1F R3 23 4 100 C6 21 23 40.4F * R9 7 46 100 C9 46 44 47.3F G4 7 44 POLY(3) 7 10 7 46 7 44 0 40.7U 5.00M 6.88U C8 44 0 250F * G5 47 4 POLY(3) 7 10 45 4 47 4 0 40.7U 5.00M 532N C17 47 0 10.1F R10 45 4 100 C16 47 45 40.4F * * INPUT STAGE * G1 2 0 POLY(2) 62 0 63 0 0 1.00M 1.00M C3 2 0 1.00P Q1 20 2 21 QINN 2 Q2 23 2 22 QINP 2 Q3 25 22 30 QINN Q4 26 21 30 QINP * E1 30 31 POLY(2) 60 0 61 0 -1.50M 1.00 1.00 R6 31 32 100 * Q5 41 44 32 QINN Q6 42 47 32 QINP Q7 45 3 44 QINP 2 Q8 46 3 47 QINN 2 C18 3 0 1.00P G6 3 0 POLY(2) 64 0 65 0 20.0N 1.00M 1.00M * * GAIN STAGE * R4 7 24 800 V2 24 25 1.90 R7 7 40 800 V4 40 41 1.90 C10 41 51 125F C11 41 56 74.2F C12 41 6 1.13P V6 7 50 2.50 D1 51 50 DOR G7 7 51 POLY(2) 7 40 7 51 0 3.75M 2.36U G9 7 56 POLY(1) 7 40 0 1.67M C20 56 0 360F * V3 26 27 1.90 R5 27 4 800 V5 42 43 1.90 R8 43 4 800 C13 42 6 1.13P C14 42 54 63.1F C15 42 51 62.9F D2 52 51 DOR V7 52 4 2.50 G8 51 4 POLY(2) 43 4 51 4 0 3.75M 367N G10 54 4 POLY(1) 43 4 0 1.67M C21 54 0 360F * * OUTPUT STAGE * C19 51 0 675F Q9 7 51 53 QOUTN1 0.5 D3 53 54 DQ Q10 7 51 55 QOUTN1 0.5 Q11 4 54 55 QOUTP1 * D4 56 57 DQ Q12 4 51 57 QOUTP1 0.5 Q14 7 56 58 QOUTN1 Q13 4 51 58 QOUTP1 0.5 * Q15 7 58 6 QOUTN2 Q16 4 55 6 QOUTP2 C22 6 0 1.00P * * NOISE SOURCES * I1 61 60 DC 86.5U D5 60 0 DN1 D6 0 61 DN1 * I2 63 62 DC 225U D7 62 0 DN2 D8 0 63 DN2 * I3 65 64 DC 225U D9 64 0 DN2 D10 0 65 DN2 * * MODELS * .MODEL DN1 D IS=0.174F KF=2.50F AF=1.00 .MODEL DN2 D IS=0.174F KF=50.0F AF=1.00 .MODEL DOR D TT=100N .MODEL DQ D IS=0.174F RS=1.95 CJO=99.3F M=495M VJ=897M TT=12.3P * .MODEL QINN NPN + IS =1.740E-16 BF =2.727E+02 NF =1.000E+00 VAF=5.578E+01 + IKF=3.078E-02 ISE=4.926E-14 NE =2.000E+00 BR =9.799E-01 + NR =1.000E+00 VAR=1.389E+00 IKR=6.752E-02 ISC=1.184E-14 + NC =1.313E+00 RB =1.139E+02 IRB=0.000E+00 RBM=8.026E+01 + RE =2.354E+00 RC =2.046E+01 CJE=9.931E-14 VJE=8.974E-01 + MJE=4.950E-01 TF =1.152E-11 XTF=2.849E+01 VTF=2.081E+00 + ITF=2.408E-01 PTF=0.000E+00 CJC=1.250E-13 VJC=6.666E-01 + MJC=4.509E-01 XCJC=7.50E-02 TR =1.560E-10 CJS=8.194E-13 + VJS=5.286E-01 MJS=0.000E+00 KF =0.000E+00 AF =1.000E+00 + FC =9.500E-01 * .MODEL QOUTN1 NPN + IS =2.859E-16 BF =2.727E+02 NF =1.000E+00 VAF=5.578E+01 + IKF=4.941E-02 ISE=7.907E-14 NE =2.000E+00 BR =9.799E-01 + NR =1.000E+00 VAR=1.389E+00 IKR=1.084E-01 ISC=1.589E-14 + NC =1.313E+00 RB =3.983E+01 IRB=0.000E+00 RBM=1.885E+01 + RE =1.467E+00 RC =2.249E+01 CJE=1.594E-13 VJE=8.974E-01 + MJE=4.950E-01 TF =1.115E-10 XTF=2.849E+01 VTF=2.081E+00 + ITF=3.866E-01 PTF=0.000E+00 CJC=1.668E-13 VJC=6.666E-01 + MJC=4.509E-01 XCJC=9.01E-02 TR =5.200E-11 CJS=3.435E-14 + VJS=5.286E-01 MJS=4.389E-01 KF =0.000E+00 AF =1.000E+00 + FC =9.500E-01 * .MODEL QOUTN2 NPN + IS =2.550E-15 BF =2.727E+02 NF =1.000E+00 VAF=5.578E+01 + IKF=4.407E-01 ISE=7.052E-13 NE =2.000E+00 BR =9.799E-01 + NR =1.000E+00 VAR=1.389E+00 IKR=9.666E-01 ISC=1.122E-13 + NC =1.313E+00 RB =4.466E+00 IRB=0.000E+00 RBM=2.113E+00 + RE =8.410E+00 RC =3.031E+00 CJE=1.422E-12 VJE=8.974E-01 + MJE=4.950E-01 TF =1.152E-11 XTF=2.849E+01 VTF=2.081E+00 + ITF=3.448E+00 PTF=0.000E+00 CJC=1.168E-12 VJC=6.666E-01 + MJC=4.509E-01 XCJC=1.15E-01 TR =2.600E-10 CJS=9.550E-14 + VJS=5.286E-01 MJS=4.389E-01 KF =0.000E+00 AF =1.000E+00 + FC =9.500E-01 * .MODEL QINP PNP + IS =1.740E-16 BF =1.996E+02 NF =1.000E+00 VAF=5.058E+01 + IKF=1.847E-01 ISE=2.671E-15 NE =1.459E+00 BR =6.252E+01 + NR =1.000E+00 VAR=1.044E+00 IKR=8.262E-02 ISC=2.353E-15 + NC =1.722E+00 RB =9.091E+01 IRB=0.000E+00 RBM=6.751E+01 + RE =1.544E+00 RC =7.147E+01 CJE=9.931E-14 VJE=7.320E-01 + MJE=4.930E-01 TF =1.303E-11 XTF=3.500E+01 VTF=3.259E+00 + ITF=2.180E-01 PTF=0.000E+00 CJC=1.493E-13 VJC=7.743E-01 + MJC=5.000E-01 XCJC=7.50E-02 TR =2.731E-10 CJS=8.194E-13 + VJS=9.058E-01 MJS=0.000E+00 KF =0.000E+00 AF =1.000E+00 + FC =8.500E-01 * .MODEL QOUTP1 PNP + IS =2.727E-16 BF =1.996E+02 NF =1.000E+00 VAF=5.058E+01 + IKF=2.965E-01 ISE=4.288E-15 NE =1.459E+00 BR =6.252E+01 + NR =1.000E+00 VAR=1.044E+00 IKR=1.326E-01 ISC=3.350E-15 + NC =1.722E+00 RB =2.549E+01 IRB=0.000E+00 RBM=1.091E+01 + RE =9.621E-01 RC =9.107E+01 CJE=1.594E-13 VJE=7.320E-01 + MJE=4.930E-01 TF =1.303E-11 XTF=3.500E+01 VTF=3.259E+00 + ITF=3.500E-01 PTF=0.000E+00 CJC=1.993E-13 VJC=7.743E-01 + MJC=5.000E-01 XCJC=9.02E-02 TR =2.731E-10 CJS=8.896E-13 + VJS=9.058E-01 MJS=4.931E-01 KF =0.000E+00 AF =1.000E+00 + FC =8.500E-01 * .MODEL QOUTP2 PNP + IS =2.432E-15 BF =1.996E+02 NF =1.000E+00 VAF=5.058E+01 + IKF=2.645E+00 ISE=3.824E-14 NE =1.459E+00 BR =6.252E+01 + NR =1.000E+00 VAR=1.044E+00 IKR=1.183E+00 ISC=2.584E-14 + NC =1.722E+00 RB =2.857E+00 IRB=0.000E+00 RBM=1.223E+00 + RE =8.410E+00 RC =1.365E+01 CJE=1.422E-12 VJE=7.320E-01 + MJE=4.930E-01 TF =1.303E-11 XTF=3.500E+01 VTF=3.259E+00 + ITF=3.122E+00 PTF=0.000E+00 CJC=1.395E-12 VJC=7.743E-01 + MJC=5.000E-01 XCJC=1.15E-01 TR =5.269E-10 CJS=4.482E-12 + VJS=9.058E-01 MJS=4.931E-01 KF =0.000E+00 AF =1.000E+00 + FC =8.500E-01 * .ENDS CLC440 *==================================================== * CLC449 Macromodel Net List--- Subcircuit Format (MMD.06) * Comlinear Corporation * * This is a Ultra-High-Speed, Monolithic, * Current Feedback Op Amp * * Version 1, Rev. A, Date 06-27-95, by KEB * * Connections: Non-Inverting Input * | Inverting Input * | | +Vcc * | | | -Vee * | | | | Output * | | | | | *COM 1.2GHz UltraHiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT CLC449 3 2 7 4 6 * ** EXAMPLE CIRCUIT USED IN TESTING THIS MACROMODEL ** ** vcc 7 0 dc 5.00 * supplies ** vee 4 0 dc -5.00 ** ** vin 10 0 dc 0 ac 2 * input source ** rs 10 11 50 ** ** rin 11 0 50 * input termination ** ** rg 0 12 250 * Rg ** crg 0 12 200f ** lrg 12 13 5.00n ** ** rf 13 14 250 * Rf ** crf 13 14 200f ** lrf 14 15 5.00n ** ** rl 15 16 100 * Rload (including output termination) ** crl 15 16 200f ** lrl 16 0 5.00n ** ** vibn 11 3 dc 0 * CLC449 and sources to monitor bias currents ** vibi 13 2 dc 0 ** xp 3 2 6 7 4 CLC449 ** vob 15 6 dc 0 ** ** The Capacitors and Inductors (Crg,Lrg,Crf,Lrf,Crl,Lrl) have been ** included to model the high frequency parasitics of Rl,Rg, and Rf. * * PACKAGE/BOARD PARASITICS * L1 7 10 1.00N C1 10 0 1.00P L2 3 11 1.00N C3 11 0 1.00P L3 12 4 1.00N C5 12 0 1.00P L4 33 2 1.00N C15 33 0 1.00P L5 51 6 1.00N C23 51 0 1.00P * C2 11 51 80F C14 33 51 80F C8 22 33 120F C4 11 12 120F C22 51 10 120F * * BIAS STAGE * G2 10 20 POLY(3) 10 12 10 24 10 20 -85.7U 28.6U 2.59M 1.98U R1 10 24 300 C6 24 20 56F C7 20 0 723F * R2 23 12 300 G3 26 12 POLY(3) 10 12 23 12 26 12 -85.7U 28.6U 2.45M 301N C9 23 26 56F C10 26 0 723F * * INPUT STAGE * G1 11 0 POLY(2) 62 0 63 0 -1.20U 1.00M 1.00M E1 11 22 POLY(2) 60 0 61 0 700U 1.00 1.00 * D1 20 21 DQ Q1 23 22 21 10 QINP Q2 24 22 25 12 QINN D2 25 26 DQ * G4 31 0 POLY(2) 64 0 65 0 -11.5U 1.00M 1.00M Q3 31 20 32 12 QINN D3 32 33 DQ D4 33 34 DQ Q4 35 26 34 10 QINP * * GAIN STAGE * R3 10 30 450 V1 30 31 1.50 C11 31 41 108F C12 31 43 112F C13 31 50 350F V3 10 40 2.30 D5 41 40 DOR G5 10 41 POLY(2) 10 30 10 41 0 6.67M 7.45U G7 10 43 POLY(1) 10 30 0 7.52M C20 43 0 442F * R4 36 12 450 V2 35 36 1.50 C16 35 52 350F C17 35 44 83F C18 35 41 86F V4 42 12 2.30 D6 42 41 DOR G6 41 12 POLY(2) 36 12 41 12 0 6.67M 7.45U C21 44 0 14F G8 44 12 POLY(1) 36 12 0 7.52M * C19 41 0 750F * * OUTPUT STAGE * Q5 12 41 43 10 QOUTP1 Q6 10 41 44 12 QOUTN1 Q7 10 43 50 12 QOUTN2 R5 50 51 10.0 R6 51 52 10.0 Q8 12 44 52 10 QOUTP2 * * NOISE SOURCES * I1 61 60 DC 241U D7 60 0 DN1 D8 0 61 DN1 * I2 63 62 DC 84.6U D9 62 0 DN2 D10 0 63 DN2 * I3 65 64 DC 4.87U D11 64 0 DN3 D12 0 65 DN3 * * MODELS * .MODEL DN1 D IS=0.279F KF=4.50F AF=1.00 .MODEL DN2 D IS=0.279F KF=95.0F AF=1.00 .MODEL DN3 D IS=0.279F KF=50.0F AF=1.00 .MODEL DOR D IS=0.279F TT=50N .MODEL DQ D IS=0.279F RS=1.21 CJO=159F M=495M VJ=810M TT=12.3P * .MODEL QINN NPN + IS =2.276E-16 BF =2.727E+02 NF =1.000E+00 VAF=1.859E+01 + IKF=4.941E-02 ISE=7.907E-14 NE =2.000E+00 BR =9.799E-01 + NR =1.000E+00 VAR=1.389E+00 IKR=1.084E-01 ISC=1.589E-14 + NC =1.313E+00 RB =8.983E+01 IRB=0.000E+00 RBM=6.885E+01 + RE =1.467E+00 RC =2.249E+01 CJE=1.594E-13 VJE=8.974E-01 + MJE=4.950E-01 TF =1.152E-11 XTF=2.849E+01 VTF=2.081E+00 + ITF=3.866E-01 PTF=0.000E+00 CJC=1.668E-13 VJC=6.666E-01 + MJC=4.509E-01 XCJC=9.01E-02 TR =1.520E-10 CJS=1.233E-13 + VJS=5.286E-01 MJS=0.000E+00 XTB=1.377E+00 EG =1.184E+00 + XTI=2.000E+00 KF =0.000E+00 AF =1.000E+00 FC =9.500E-01 * .MODEL QOUTN1 NPN + IS =6.399E-16 BF =2.727E+02 NF =1.000E+00 VAF=5.578E+01 + IKF=1.106E-01 ISE=1.769E-13 NE =2.000E+00 BR =9.799E-01 + NR =1.000E+00 VAR=1.389E+00 IKR=2.425E-01 ISC=3.076E-14 + NC =1.313E+00 RB =1.780E+01 IRB=0.000E+00 RBM=8.423E+00 + RE =6.553E-01 RC =4.128E+00 CJE=3.567E-13 VJE=8.974E-01 + MJE=4.950E-01 TF =1.152E-11 XTF=2.849E+01 VTF=2.081E+00 + ITF=8.651E-01 PTF=0.000E+00 CJC=3.212E-13 VJC=6.666E-01 + MJC=4.509E-01 XCJC=1.05E-01 TR =1.840E-10 CJS=4.937E-14 + VJS=5.286E-01 MJS=4.389E-01 XTB=1.377E+00 EG =1.184E+00 + XTI=2.000E+00 KF =0.000E+00 AF =1.000E+00 FC =9.500E-01 * .MODEL QOUTN2 NPN + IS =2.550E-15 BF =2.727E+02 NF =1.000E+00 VAF=5.578E+01 + IKF=4.407E-01 ISE=7.052E-13 NE =2.000E+00 BR =9.799E-01 + NR =1.000E+00 VAR=1.389E+00 IKR=9.666E-01 ISC=1.122E-13 + NC =1.313E+00 RB =5.447E+01 IRB=0.000E+00 RBM=5.211E+01 + RE =1.644E-01 RC =3.031E+00 CJE=1.422E-12 VJE=8.974E-01 + MJE=4.950E-01 TF =1.152E-11 XTF=2.849E+01 VTF=2.081E+00 + ITF=3.448E+00 PTF=0.000E+00 CJC=1.168E-12 VJC=6.666E-01 + MJC=4.509E-01 XCJC=1.15E-01 TR =2.600E-10 CJS=9.550E-14 + VJS=5.286E-01 MJS=4.389E-01 XTB=1.377E+00 EG =1.184E+00 + XTI=2.000E+00 KF =0.000E+00 AF =1.000E+00 FC =9.500E-01 * .MODEL QINP PNP + IS =3.425E-16 BF =1.996E+02 NF =1.000E+00 VAF=1.689E+01 + IKF=2.965E-01 ISE=4.288E-15 NE =1.459E+00 BR =6.252E+01 + NR =1.000E+00 VAR=1.044E+00 IKR=1.326E-01 ISC=3.350E-15 + NC =1.722E+00 RB =7.549E+01 IRB=0.000E+00 RBM=6.091E+01 + RE =9.621E-01 RC =9.107E+01 CJE=1.594E-13 VJE=7.320E-01 + MJE=4.930E-01 TF =1.303E-11 XTF=3.500E+01 VTF=3.259E+00 + ITF=3.500E-01 PTF=0.000E+00 CJC=1.993E-13 VJC=7.743E-01 + MJC=5.000E-01 XCJC=9.02E-02 TR =2.731E-10 CJS=1.233E-13 + VJS=9.058E-01 MJS=0.000E+00 XTB=1.732E+00 EG =1.184E+00 + XTI=2.000E+00 KF =0.000E+00 AF =1.000E+00 FC =8.500E-01 * .MODEL QOUTP1 PNP + IS =6.102E-16 BF =1.996E+02 NF =1.000E+00 VAF=5.058E+01 + IKF=6.636E-01 ISE=9.595E-15 NE =1.459E+00 BR =6.252E+01 + NR =1.000E+00 VAR=1.044E+00 IKR=2.968E-01 ISC=6.840E-15 + NC =1.722E+00 RB =1.139E+01 IRB=0.000E+00 RBM=4.876E+00 + RE =4.299E-01 RC =1.169E+01 CJE=3.567E-13 VJE=7.320E-01 + MJE=4.930E-01 TF =1.303E-11 XTF=3.500E+01 VTF=3.259E+00 + ITF=7.832E-01 PTF=0.000E+00 CJC=3.838E-13 VJC=7.743E-01 + MJC=5.000E-01 XCJC=1.05E-01 TR =3.423E-10 CJS=1.609E-12 + VJS=9.058E-01 MJS=4.931E-01 XTB=1.732E+00 EG =1.184E+00 + XTI=2.000E+00 KF =0.000E+00 AF =1.000E+00 FC =8.500E-01 * .MODEL QOUTP2 PNP + IS =2.432E-15 BF =1.996E+02 NF =1.000E+00 VAF=5.058E+01 + IKF=2.645E+00 ISE=3.824E-14 NE =1.459E+00 BR =6.252E+01 + NR =1.000E+00 VAR=1.044E+00 IKR=1.183E+00 ISC=2.584E-14 + NC =1.722E+00 RB =5.286E+01 IRB=0.000E+00 RBM=5.122E+01 + RE =1.079E-01 RC =1.365E+01 CJE=1.422E-12 VJE=7.320E-01 + MJE=4.930E-01 TF =1.303E-11 XTF=3.500E+01 VTF=3.259E+00 + ITF=3.122E+00 PTF=0.000E+00 CJC=1.395E-12 VJC=7.743E-01 + MJC=5.000E-01 XCJC=1.15E-01 TR =5.269E-10 CJS=4.482E-12 + VJS=9.058E-01 MJS=4.931E-01 XTB=1.732E+00 EG =1.184E+00 + XTI=2.000E+00 KF =0.000E+00 AF =1.000E+00 FC =8.500E-01 * .ENDS CLC449 *==================================================== * HA-2500 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2500 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl Precision HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2500 1 2 4 5 3 .MODEL DP D IS=1E-14 N=15.486 .MODEL DN D IS=1E-14 N=15.486 .MODEL DV D IS=2.7631E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=1.0 .MODEL DX D IS=1E-20 N=30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 2E-03 I1 8 0 1.9E-07 FA 2 0 VN 1.053E-01 DP 6 8 DP DN 7 8 DN FP 9 0 VP 4.053E03 FN 0 9 VN 4.053E03 GC 0 9 8 0 5.4413E-08 GPP 9 0 4 0 3.0598E-08 GPN 9 0 5 0 5.4413E-08 IRX 0 9 -9.3646E-09 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 1.0613E02 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 3.184E01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 6.5577E02 CC 14 15 2.2E-11 GOL 15 0 14 0 4.3777E02 RD 15 0 90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 2.9 1.0 IH 4 0 4.5E-03 IL 0 5 4.5E-03 GPS 18 0 15 3 0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -9.1757E-01 1.9137 RO 15 3 10.0 .ENDS HA2500 *==================================================== * HA-2502 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2502 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl Precision HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2502 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+15.486 .MODEL DN D IS=1E-14 N=+15.486 .MODEL DV D IS=2.2105E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 4E-03 I1 8 0 2.3E-07 FA 2 0 VN 1.7391E-01 DP 6 8 DP DN 7 8 DN FP 9 0 VP 3.3478E+03 FN 0 9 VN 3.3478E+03 GC 0 9 8 0 9.6761E-08 GPP 9 0 4 0 9.6761E-08 GPN 9 0 5 0 9.6761E-08 IRX 0 9 6.2593E-07 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 1.0613E+02 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 3.184E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 6.5577E+02 CC 14 15 2.2E-11 GOL 15 0 14 0 3.5021E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 5.0E-03 IL 0 5 5.0E-03 GPS 18 0 15 3 0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -9.0119E-01 +1.8974 RO 15 3 +10.0 .ENDS HA2502 *==================================================== * HA-2510 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2510 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2510 1 2 4 5 3 .MODEL DP D IS=1E-14 N=1.8454E+01 .MODEL DN D IS=1.1818E-14 N=1.8454E+01 .MODEL DV D IS=2.1552E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 4E-03 I1 8 0 2.0727E-07 FA 2 0 VN -6.4777E-02 DP 6 8 DP DN 7 8 DN FP 9 0 VP 6.8991E+03 FN 0 9 VN 5.8377E+03 GC 0 9 8 0 7.7732E-08 GPP 9 0 4 0 7.7732E-08 GPN 9 0 5 0 7.7732E-08 IRX 0 9 5.9217E-07 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 5.3067E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 3.98E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 6.5577E+02 CC 14 15 2.2E-11 GOL 15 0 14 0 1.8386E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 4.5E-03 IL 0 5 4.5E-03 GPS 18 0 15 3 0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.9933E-01 +1.8955 RO 15 3 +10.0 .ENDS HA2510 *==================================================== * HA-2512 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2512 MacroModel * Rev: 9-17-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2512 1 2 4 5 3 .MODEL DP D IS=1E-14 N=1.8454E+01 .MODEL DN D IS=1.1818E-14 N=1.8454E+01 .MODEL DV D IS=1.7242E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 5E-03 I1 8 0 2.5091E-07 FA 2 0 VN -6.689E-03 DP 6 8 DP DN 7 8 DN FP 9 0 VP 5.6993E+03 FN 0 9 VN 4.8225E+03 GC 0 9 8 0 1.3823E-07 GPP 9 0 4 0 1.3823E-07 GPN 9 0 5 0 1.3823E-07 IRX 0 9 1.0656E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 5.307E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 3.98E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 6.5577E+02 CC 14 15 2.2E-11 GOL 15 0 14 0 1.4709E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 5.0E-03 IL 0 5 5.0E-03 GPS 18 0 15 3 0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.8295E-01 +1.8792 RO 15 3 +10.0 .ENDS HA2512 *==================================================== * HA-2520 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2520 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2520 1 2 4 5 3 .MODEL DP D IS=1E-14 N=1.7943E+01 .MODEL DN D IS=1.0714E-14 N=1.7943E+01 .MODEL DV D IS=1.9894E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 4E-03 I1 8 0 1.9679E-07 FA 2 0 VN 3.1579E-02 DP 6 8 DP DN 7 8 DN FP 9 0 VP 1.6769E+04 FN 0 9 VN 1.5652E+04 GC 0 9 8 0 1.9433E-07 GPP 9 0 4 0 1.9433E-07 GPN 9 0 5 0 1.9433E-07 IRX 0 9 1.4394E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 3.184E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 2.653E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 1.99E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 6.5577E+02 CC 16 17 2.2E-11 GOL 17 0 16 0 7.3545E+01 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 4.5E-03 IL 0 5 4.5E-03 GPS 20 0 17 3 0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.9345E-01 +1.8897 RO 17 3 +10.0 .ENDS HA2520 *==================================================== * HA-2522 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2522 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl HiSlewRt OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2522 1 2 4 5 3 .MODEL DP D IS=1E-14 N=1.4220E+01 .MODEL DN D IS=1.0909E-14 N=1.4220E+01 .MODEL DV D IS=1.1671E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 5E-03 I1 8 0 2.4045E-07 FA 2 0 VN 7.6087E-02 DP 6 8 DP DN 7 8 DN FP 9 0 VP 1.0979E+04 FN 0 9 VN 1.0064E+04 GC 0 9 8 0 3.4558E-07 GPP 9 0 4 0 3.4558E-07 GPN 9 0 5 0 3.4558E-07 IRX 0 9 2.0527E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 3.184E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 2.653E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 1.99E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 6.5577E+02 CC 16 17 2.2E-11 GOL 17 0 16 0 5.3933E+01 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 5.0E-03 IL 0 5 5.0E-03 GPS 20 0 17 3 0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.5430E-01 +1.8506 RO 17 3 +10.0 .ENDS HA2522 *==================================================== * HA-2539 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA2539 MACRO-MODEL * * Rev: 8/8/91 * By: J. Coutreau * NODE 3 -> +IN, NODE 4 -> -IN * NODE 20 -> +Vs, NODE 21 -> -Vs, NODE 16 -> OUTPUT * *HAR Sngl VeryHiSlewRt WideBW OpAmp pkg:DIP14 1,14,19,3,8 .SUBCKT HA2539 3 4 20 21 16 * * INPUT STAGE * CN1 4 0 1E-12 LN 4 40 5E-9 RN 40 41 30 RCN 41 0 10E6 IBN 41 0 10E-6 CN2 41 0 0.5E-12 CP1 3 0 1E-12 LP 3 30 5E-9 RP 30 31 30 RCP 31 0 10E6 IBP 31 0 8E-6 CP2 31 0 0.5E-12 RDF 41 42 43E3 VOF 42 31 2E-3 * * SLEW LIMITING * ED 1 0 42 41 10 RDA 1 33 75 CDA 33 0 7E-12 RDB 33 2 75 CDB 2 0 3E-12 D1 2 5 DM OFF D2 6 2 DM OFF .MODEL DM D (IS=1E-9 BV=40 IBV=50E-6) VCP 5 0 1.2 VCN 0 6 1.2 * * COMPENSATION * GA 0 7 2 0 1.43E-3 RH 7 0 1.3E6 CH 7 0 1.5E-12 RC 7 8 600 CC 8 0 2.2E-12 * * POLES * EP 9 0 8 0 1 RPA 9 10 75 CPA 10 0 7E-12 RPB 10 11 50 CPB 11 0 3E-12 * * OUTPUT STAGE * EO 12 0 11 0 1 RO 12 13 25 LO 13 16 5E-9 CO 16 0 1E-12 * * POWER SUPPLY CURRENT * IPS 20 21 20E-3 .ENDS HA2539 *==================================================== * HA2540 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA2540 MACRO-MODEL * * Rev: 8/8/91 * By: J. Coutreau * NODE 3 -> +IN, NODE 4 -> -IN * NODE 20 -> +Vs, NODE 21 -> -Vs, NODE 16 -> OUTPUT *HAR Sngl FastSettl WideBW OpAmp pkg:DIP14 5,4,11,6,10 .SUBCKT HA2540 3 4 20 21 16 * * INPUT STAGE * CN1 4 0 1E-12 LN 4 40 5E-9 RN 40 41 30 RCN 41 0 10E6 IBN 41 0 10E-6 CN2 41 0 0.5E-12 CP1 3 0 1E-12 LP 3 30 5E-9 RP 30 31 30 RCP 31 0 10E6 IBP 31 0 8E-6 CP2 31 0 0.5E-12 RDF 41 42 43E3 VOF 42 31 2E-3 * * SLEW LIMITING * ED 1 0 42 41 10 RDA 1 33 75 CDA 33 0 7E-12 RDB 33 2 75 CDB 2 0 3E-12 D1 2 5 DM OFF D2 6 2 DM OFF .MODEL DM D (IS=1E-9 BV=40 IBV=50E-6) VCP 5 0 1.2 VCN 0 6 1.2 * * COMPENSATION * GA 0 7 2 0 1.43E-3 RH 7 0 1.3E6 CH 7 0 5.5E-12 RC 7 8 600 CC 8 0 2.2E-12 * * POLES * EP 9 0 8 0 1 RPA 9 10 75 CPA 10 0 7E-12 RPB 10 11 50 CPB 11 0 3E-12 * * OUTPUT STAGE * EO 12 0 11 0 1 RO 12 13 25 LO 13 16 5E-9 CO 16 0 1E-12 * * POWER SUPPLY CURRENT * IPS 20 21 20E-3 .ENDS HA2540 *==================================================== * HA-2541 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2541 MACRO-MODEL * * Rev: 8/8/91 D.L. Youngblood & R.S. Vogelsong * pinout changed to conform to "standard" * * Pinout: +In -In Vcc Vee Vout * *HAR Sngl FastSettl WideBW UnityGainStab OpAmp pkg:DIP14 5,4,11,6,10 .SUBCKT HA2541 6 7 9 10 8 .MODEL DP D IS=1E-14 N=1.5563E+01 .MODEL DN D IS=8.4545E-15 N=1.5563E+01 .MODEL DV D IS=1E-14 N=.5 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=5.8815E-01 .MODEL DIO2 D IS=1E-14 N=20 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 4.1349E-04 * DN 13 1 DN FA 7 0 VIO 1.0286E-03 I1 1 0 2.4536E-05 C1 1 0 6.8088E-16 IC=-8.4003E+00 FP 4 0 VP 2.2865E+02 FN 0 4 VIO 2.7045E+02 GC 0 4 1 0 2.4042E-07 ICO 0 4 2.0195E-6 GPP 0 4 9 48 1.011E-07 GPN 0 4 49 10 3.858E-07 RT 4 0 1.0 VPP 48 0 1.5E+01 RPP 48 0 1K VPN 0 49 1.5E+01 RPN 0 49 1K * * General Poles * EP1 15 0 4 0 1.0 RP1 15 16 1.10345E+01 CP1 16 0 1.0E-10 EP2 17 0 16 0 1.0 RP2 17 18 7.6525E+00 CP2 18 0 1.0E-10 EP3 19 0 18 0 1.0 RP3 19 20 6.5466E+00 CP3 20 0 1.0E-10 EP4 21 0 20 0 1.0 RP4 21 22 5.7505E+00 CP4 22 0 1.0E-10 EP5 24 0 22 0 1.0 RP5 24 25 3.1289E+00 CP5 25 0 1.0E-10 * * General Zeroes * GZ1 0 30 25 0 6.2407E-04 VZ01 30 31 0.0 RHZ1 31 32 1.6024E+03 LZ1 32 0 1.0E-6 GZ2 0 33 30 0 5.0672E-04 VZ02 33 34 0.0 RHZ2 34 35 1.9735E+03 LZ2 35 0 1.0E-6 * * Complex Zero * ECZ 42 0 33 0 1.0 VCZ 42 43 0.0 CC2Z 43 0 6.9559E-13 RBIG2 43 0 1.0E+7 FCZ 0 38 VCZ 1.0 LCZ 38 39 1.0E-6 CC1Z 39 40 6.9559E-13 RHCZ 40 0 5.9231E+02 RBIG1 38 0 1.0E+7 * * Complex Pole * ECP 45 0 38 0 1.0 RCP 45 46 5.7687E+02 LCP 46 47 6.4195E-07 CCPX 47 0 1.0E-12 * * Gain/Output Stage * * For Level 1 model, change node 47 on source "G2" to 4, * add a capacitor from node 4 to node 0 of the value 2.926E-9, * and comment out all poles and zeros * G2 0 2 47 0 1.0 * R2 2 0 1.4769E+05 D2A 2 0 DIO2 D2B 0 2 DIO2 CC 2 3 2.2E-11 GOL 3 0 2 0 4.7231E+01 RD 3 0 5.0000E-01 DH 3 5 DV DL 50 3 DV VH 9 5 4.2171 VL 50 10 2.03 IH 9 0 3.0573E-02 IL 0 10 3.0600E-02 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -7.350E+00 RO 54 8 1.5000E+00 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS HA2541 *==================================================== * HA-2542 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2542 Macro Model * * Rev: 08/8/91 DL Youngblood * pinout changed to conform to "standard" * * pinout: +In -In Vcc Vee Vout * *HAR Sngl HiSlewRt WideBW HiIOut OpAmp pkg:DIP14 5,4,11,6,10 .SUBCKT HA2542 6 7 9 10 8 .MODEL DP D IS=1E-14 N=2.1665E+01 .MODEL DN D IS=7.9827E-15 N=2.1665E+01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=4.0513E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" respresents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 -1.4927E-03 * DN 13 1 DN FA 7 0 VIO 2.1680E-03 I1 1 0 3.2477E-05 C1 1 0 3.6662E-15 IC=-1.1864E+01 FP 4 0 VP 4.2604E+02 FN 0 4 VIO 5.3371E+02 GPP 0 4 9 14 3.3536E-07 GPN 0 4 15 10 1.0362E-06 RT 4 0 1.0 VPP 14 0 1.5E+01 RPP 14 0 1K VPN 0 15 1.5E+01 RPN 0 15 1K GC 0 4 1 0 1.3823E-07 ICO 0 4 1.6400E-6 * * General Poles * EP1 16 0 4 0 1.0 RP1 16 17 5.5760 CP1 17 0 1.0E-10 EP2 18 0 17 0 1.0 RP2 18 19 4.5425 CP2 19 0 1.0E-10 EP3 20 0 19 0 1.0 RP3 20 21 4.5425 CP3 21 0 1.0E-10 EP4 22 0 21 0 1.0 RP4 22 23 4.1259 CP4 23 0 1.0E-10 EP5 24 0 23 0 1.0 RP5 24 25 4.1259 CP5 25 0 1.0E-10 * * General Zeros * GZ1 0 30 25 0 1.9502E-04 VZ01 30 31 0.0 HZ1 31 32 VZ01 5.1276E+03 LZ1 32 0 1.0E-6 * * Complex Zero * ECZ 42 0 30 0 1.0 VCZ 42 43 0.0 CC2Z 43 0 5.6373E-12 RBIG2 43 0 1.0E+7 FCZ 0 38 VCZ 1.0 LCZ 38 39 1E-6 CC1Z 39 40 5.6373E-12 RHCZ 40 0 2.2457E+02 RBIG1 38 0 1.0E+7 * * Complex Pole * ECP 45 0 38 0 1.0 RCP 45 46 1.4226E+03 LCP 46 47 6.5375E-06 CCPX 47 0 1.0E-12 * * Gain / Output Stage * * For Level 1 model, change node 47 on source "G2" to 4, * add a capacitor from node 4 to node 0 of the value 3.282E-9, * and comment out all poles and zeros * G2 0 2 47 0 1.0 * R2 2 0 2.3239E+05 CC 2 3 2.2E-11 GOL 3 0 2 0 +7.3741 RD 3 0 8.3965E-01 DH 3 5 DV DL 48 3 DV VH 9 5 4.2525 VL 48 10 2.6057 IH 9 0 3.2170E-02 IL 0 10 3.2206E-02 D1 3 51 D1 D2 51 3 D2 EX1 51 0 POLY 2 3 0 3 8 0 1 -6.3352E-01 RO 52 8 +3.37 VIS 3 52 0 FI 0 53 VIS 1 DIP 53 54 DV DIN 56 55 DV VIP 54 56 0 VIN 55 53 0 RI 56 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS HA2542 *==================================================== * HA-2544 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2544 MACRO MODEL * Rev: 4/19/91 D L Youngblood * * * Pinout +in -in vcc vee vout * *HAR Sngl Video OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2544 6 7 9 10 8 .MODEL DP D IS=1E-14 N=1.384E+01 .MODEL DN D IS=9.7533E-15 N=1.384E+01 .MODEL DV D IS=6.2773E-16 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=5.0E-01 * * Input Stage * VP 6 11 0 DP 11 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 12 -2.7757E-04 * DN 12 1 DN FA 7 0 VIO 1.0636E-02 I1 1 0 1.6994E-05 C1 1 0 1.4933E-15 IC=-7.3159 FP 4 0 VP 2.1354E+02 FN 0 4 VIO 2.1894E+02 GPP 0 4 9 13 4.9937E-07 GPN 0 4 14 10 2.6098E-07 RT 4 0 1 VPP 13 0 1.5E+01 RPP 13 0 1K VPN 0 14 1.5E+01 RPN 0 14 1K GC 0 4 1 0 7.1701E-11 ICO 0 4 5.2461E-10 * * General Poles * EP1 17 0 4 0 1 RP1 17 18 2.1953E+01 CP1 18 0 1.0E-10 EP2 20 0 18 0 1 RP2 20 21 +7.2843 CP2 21 0 1.0E-10 EP3 22 0 21 0 1 RP3 22 23 +4.8433 CP3 23 0 1.0E-10 EP4 24 0 23 0 1 RP4 24 25 +2.2283 CP4 25 0 1.0E-10 EP5 26 0 25 0 1 RP5 26 27 +1.9908 CP5 27 0 1.0E-10 EP6 28 0 27 0 1 RP6 28 29 +1.6526 CP6 29 0 1.0E-10 * * General Zero * GZ1 0 32 29 0 1.4448E-03 VZ01 32 33 0.0 HZ3 33 34 VZ01 6.9216E+02 LZ1 34 0 1.0E-6 * * Gain / Output Stage * *For a Level 1 model, change node 32 on source "G2" to 4, * add a capacitor from node 4 to node 0 of the value 1.69E-9, * and comment out all general poles and zeros * G2 0 2 32 0 1 * R2 2 0 1.7546E+05 CC 2 3 2.2E-11 GOL 3 0 2 0 7.8868E-02 RD 3 0 9.1695E+01 DH 3 5 DV DL 40 3 DV VH 9 5 3.7914 VL 40 10 1.9075 IH 9 0 1.0591E-02 IL 0 10 1.0608E-02 D1 3 43 D1 D2 43 3 D2 EX1 43 0 POLY 2 3 0 3 8 0 1 -1.2895E-01 RO 44 8 2.7421E+01 VIS 3 44 0 FI 0 45 VIS 1 DIP 45 46 DV DIN 48 47 DV VIP 46 48 0 VIN 47 45 0 RI 48 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS HA2544 *==================================================== * HA-2548 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2548 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout: +In -In Vcc Vee Out * *HAR Sngl Precision HiSlewRt WideB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2548 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.594 .MODEL DN D IS=9.9E-15 N=+2.594 .MODEL DV D IS=1.2434E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 3.0E-04 I1 8 0 3.4825E-08 FA 2 0 VN 8.7590E-01 DP 6 8 DP DN 7 8 DN C1 8 0 3.4825E-18 IC=-9.5807E-01 FP 9 0 VP 6.3173E+04 FN 0 9 VN 6.3811E+04 GC 0 9 8 0 +0.0 GPP 9 0 4 0 5.8855E-07 GPN 9 0 5 0 5.2455E-07 IRX 0 9 9.6006E-07 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 1.9900E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 1.7689E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 1.0613E+01 CP3 15 0 1E-10 EP4 16 0 15 0 1.0 RP4 16 17 +5.3067 CP4 17 0 1E-10 * * Output Stage G2 0 18 17 0 1.0 R2 18 0 6.5577E+02 CC 18 19 2.2000E-11 GOL 19 0 18 0 6.8949E+03 RD 19 0 4.0000E+01 DH 19 20 DV DL 21 19 DV ECC 20 0 POLY 1 4 0 -3.7000 1.0 EEE 21 0 POLY 1 5 0 +3.4000 1.0 IH 4 0 1.4000E-02 IL 0 5 1.4000E-02 GPS 22 0 19 3 0.99999999E-01 DPH 4 22 DX DPL 22 5 DX D1 19 23 D1 D2 23 19 D2 EX1 23 0 POLY 2 19 0 3 0 0.0 -2.8159E-01 +1.279 RO 19 3 +10.0 .ENDS HA2548 *==================================================== * HA-2600 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2600 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl WideB HiZ OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2600 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.5417 .MODEL DN D IS=1.1428E-14 N=+1.5417 .MODEL DV D IS=1.7684E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 5E-04 I1 8 0 1.0714E-09 FA 2 0 VN +1.625 DP 6 8 DP DN 7 8 DN FP 9 0 VP 1.6427E+05 FN 0 9 VN 1.4373E+05 GC 0 9 8 0 6.5568E-08 GPP 9 0 4 0 6.5568E-08 GPN 9 0 5 0 1.16599E-07 IRX 0 9 -7.3735E-07 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 6.368E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 4.5486E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 6.5577E+02 CC 14 15 2.2E-11 GOL 15 0 14 0 1.2257E+03 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 3.0E-03 IL 0 5 3.0E-03 GPS 18 0 15 3 0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.8481E-01 +1.881 RO 15 3 +10.0 .ENDS HA2600 *==================================================== * HA-2602 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2602 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl WideB HiZ OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2602 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.1563 .MODEL DN D IS=1.1428E-14 N=+1.1563 .MODEL DV D IS=1.061E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 2E-03 I1 8 0 5.3571E-09 FA 2 0 VN +1.625 DP 6 8 DP DN 7 8 DN FP 9 0 VP 3.2853E+04 FN 0 9 VN 2.8747E+04 GC 0 9 8 0 1.5546E-07 GPP 9 0 4 0 4.9162E-08 GPN 9 0 5 0 1.5546E-07 IRX 0 9 -1.5371E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 6.368E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 4.5483E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 6.5577E+02 CC 14 15 2.2E-11 GOL 15 0 14 0 7.3545E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 3.5E-03 IL 0 5 3.5E-03 GPS 18 0 15 3 0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.4731E-01 +1.8436 RO 15 3 +10.0 .ENDS HA2602 *==================================================== * HA-2620 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2620 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl VeryWideB Uncomp OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2620 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.355 .MODEL DN D IS=1E-14 N=+1.355 .MODEL DV D IS=1.4506E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 5E-04 I1 8 0 1.0E-09 FA 2 0 VN +2.0 DP 6 8 DP DN 7 8 DN FP 9 0 VP 7.7E+05 FN 0 9 VN 7.7E+05 GC 0 9 8 0 3.497E-07 GPP 9 0 4 0 3.497E-07 GPN 9 0 5 0 6.2186E-07 IRX 0 9 -3.9507E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 3.98E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 2.653E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 2.2743E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 6.5577E+02 CC 16 17 2.2E-11 GOL 17 0 16 0 2.2983E+02 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 3.0E-03 IL 0 5 3.0E-03 GPS 20 0 17 3 0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.7027E-01 +1.8665 RO 17 3 +10.0 .ENDS HA2620 *==================================================== * HA-2622 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2622 MacroModel * Rev: 8-01-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl VeryWideB Uncomp OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2622 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.355 .MODEL DN D IS=1E-14 N=+1.355 .MODEL DV D IS=1.2572E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 3E-03 I1 8 0 5.0E-09 FA 2 0 VN +2.0 DP 6 8 DP DN 7 8 DN FP 9 0 VP 1.54E+05 FN 0 9 VN 1.54E+05 GC 0 9 8 0 6.2189E-07 GPP 9 0 4 0 6.2186E-07 GPN 9 0 5 0 1.1058E-06 IRX 0 9 -6.9906E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 3.98E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 2.6533E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 2.2743E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 6.5577E+02 CC 16 17 2.2E-11 GOL 17 0 16 0 1.9918E+02 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 3.5E-03 IL 0 5 3.5E-03 GPS 20 0 17 3 0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.5976E-01 +1.856 RO 17 3 +10.0 .ENDS HA2622 *==================================================== * HA-2839 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2839 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl VeryHiSlewRt WideB OpAmp pkg:DIP14 1,14,10,3,8 .SUBCKT HA2839 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.2390 .MODEL DN D IS=7.7455E-15 N=+2.2390 .MODEL DV D IS=3.8601E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 2.0E-03 I1 8 0 -1.2954E-05 FA 2 0 VN 1.1421E-01 DP 8 6 DP DN 8 7 DN C1 8 0 9.5209E-16 IC=-1.1741 FP 9 0 VP 7.6253E+02 FN 0 9 VN 9.8448E+02 GC 0 9 8 0 9.6761E-06 GPP 9 0 4 0 9.6761E-06 GPN 9 0 5 0 9.6761E-06 IRX 0 9 1.1360E-05 RT 9 0 1.0 * * Poles and Zeros EZZ 10 0 9 0 1.0 VZZ 10 11 0.0 CZZ 11 0 1E-12 RZZ 11 0 1E+07 FCZ 0 12 VZZ 1.0 RCZ 12 13 +4.5471 LCZ 13 14 5.1694E-08 CCZ 14 0 1E-12 RXZ 14 0 1E+07 EP1 15 0 12 0 1.0 RP1 15 16 +6.0716 RZ1 16 17 -1.7689 CP1 17 0 1E-10 EP2 18 0 16 0 1.0 RP2 18 19 +4.1895 CP2 19 0 1E-10 EP3 20 0 19 0 1.0 RP3 20 21 +4.0821 CP3 21 0 1E-10 * * Output Stage G2 0 22 21 0 1.0 R2 22 0 6.5577E+02 CC 22 23 2.2000E-11 GOL 23 0 22 0 4.7673E+03 RD 23 0 1.0000E-01 DH 23 24 DV DL 25 23 DV ECC 24 0 POLY 1 4 0 -3.65 1.0 EEE 25 0 POLY 1 5 0 +3.73 1.0 IH 4 0 1.6527E-02 IL 0 5 1.6513E-02 GPS 26 0 23 3 3.5842E-02 DPH 4 26 DX DPL 26 5 DX D1 23 27 D1 D2 27 23 D2 EX1 27 0 POLY 2 23 0 3 0 0.0 7.1396E-01 2.8445E-01 RO 23 3 2.7900E+01 .ENDS HA2839 *==================================================== * HA-2840 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2840 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR Sngl VeryHiSlewRt WideB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2840 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.239 .MODEL DN D IS=7.7455E-15 N=+2.239 .MODEL DV D IS=3.8601E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 1.9E-03 I1 8 0 -1.2954E-05 FA 2 0 VN 1.1421E-01 DP 8 6 DP DN 8 7 DN C1 8 0 9.5209E-16 IC=-1.1741 FP 9 0 VP 7.6253E+02 FN 0 9 VN 9.8448E+02 GC 0 9 8 0 9.6761E-06 GPP 9 0 4 0 9.6761E-06 GPN 9 0 5 0 9.6761E-06 IRX 0 9 1.1360E-05 RT 9 0 1.0 * * Poles and Zeros EZZ 10 0 9 0 1.0 VZZ 10 11 0.0 CZZ 11 0 1E-12 RZZ 11 0 1E+07 FCZ 0 12 VZZ 1.0 RCZ 12 13 +4.5471 LCZ 13 14 5.1694E-08 CCZ 14 0 1E-12 RXZ 14 0 1E+07 EP1 15 0 12 0 1.0 RP1 15 16 +6.0716 RZ1 16 17 -1.7689 CP1 17 0 1E-10 EP2 18 0 16 0 1.0 RP2 18 19 +4.1895 CP2 19 0 1E-10 EP3 20 0 19 0 1.0 RP3 20 21 +4.0821 CP3 21 0 1E-10 * * Output Stage G2 0 22 21 0 1.0 R2 22 0 6.5577E+02 CC 22 23 2.2000E-11 GOL 23 0 22 0 4.7673E+03 RD 23 0 1.0000E-01 DH 23 24 DV DL 25 23 DV ECC 24 0 POLY 1 4 0 -3.65 1.0 EEE 25 0 POLY 1 5 0 +3.73 1.0 IH 4 0 1.6527E-02 IL 0 5 1.6513E-02 GPS 26 0 23 3 3.5842E-02 DPH 4 26 DX DPL 26 5 DX D1 23 27 D1 D2 27 23 D2 EX1 27 0 POLY 2 23 0 3 0 0.0 7.1396E-01 2.8445E-01 RO 23 3 +27.9 .ENDS HA2840 *==================================================== * HA-2841 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2841 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout: +In -In Vcc Vee Out * *HAR Sngl WideB FastSettl UniGainStab OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2841 1 2 4 5 3 .MODEL DP D IS=1E-14 N=1.7623E+01 .MODEL DN D IS=7.7329E-15 N=1.7623E+01 .MODEL DV D IS=1.0269E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=9.8971E-01 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 1.30E-03 I1 8 0 7.9798E-06 FA 2 0 VN 5.8055E-01 DP 6 8 DP DN 7 8 DN C1 8 0 3.1293E-15 IC=-9.02199 FP 9 0 VP 7.0303E+02 FN 0 9 VN 9.0914E+02 GC 0 9 8 0 4.4083E-07 GPP 9 0 4 0 4.4814E-07 GPN 9 0 5 0 4.3562E-07 IRX 0 9 4.16498E-06 RT 9 0 1.0 * * Poles and Zeros ECP 10 0 9 0 1.0 RCP 10 11 8.8417E+02 LCP 11 12 3.1272E-06 CCP 12 13 1E-12 RXP 12 13 1E+07 VCP 13 0 0.0 FCZ 0 14 VCP 1.0 RCZ 14 15 7.7951E+02 LCZ 15 16 2.6374E-06 CCZ 16 0 1E-12 RXZ 16 0 1E+07 EP1 17 0 14 0 1.0 RP1 17 18 +3.184 CP1 18 0 1E-10 EP2 19 0 18 0 1.0 RP2 19 20 +3.0615 CP2 20 0 1E-10 EP3 21 0 20 0 1.0 RP3 21 22 +2.6533 CP3 22 0 1E-10 * * Output Stage G2 0 23 22 0 1.0 R2 23 0 6.5577E+02 CC 23 24 2.2000E-11 GOL 24 0 23 0 2.2332E+01 RD 24 0 2.7100E+02 DH 24 25 DV DL 26 24 DV ECC 25 0 POLY 1 4 0 -3.7708 1.0 EEE 26 0 POLY 1 5 0 +2.7237 1.0 IH 4 0 9.79497E-03 IL 0 5 9.8050E-03 GPS 27 0 24 3 4.0000E-02 DPH 4 27 DX DPL 27 5 DX D1 24 28 D1 D2 28 24 D2 EX1 28 0 POLY 2 24 0 3 0 0.0 5.9483E-01 3.9758E-01 RO 24 3 +25.0 .ENDS HA2841 *==================================================== * HA-2842 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2842 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout: +In -In Vcc Vee Out * *HAR Sngl WideB HiSlewRt HiIOut Video OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2842 1 2 4 5 3 .MODEL DP D IS=1E-14 N=1.5939E+01 .MODEL DN D IS=1.1539E-14 N=1.5939E+01 .MODEL DV D IS=1.3801E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 1.0E-03 I1 8 0 9.9631E-06 FA 2 0 VN 5.3943E-02 DP 6 8 DP DN 7 8 DN C1 8 0 1.0454E-15 IC=-8.17099 FP 9 0 VP 9.0106E+02 FN 0 9 VN 7.8085E+02 GC 0 9 8 0 7.2049E-07 GPP 9 0 4 0 9.6184E-07 GPN 9 0 5 0 6.8126E-07 IRX 0 9 1.0096E-05 RT 9 0 1.0 * * Poles and Zeros ECP 10 0 9 0 1.0 RCP 10 11 1.0268E+03 LCP 11 12 2.9287E-06 CCP 12 13 1E-12 RXP 12 13 1E+07 VCP 13 0 0.0 FCZ 0 14 VCP 1.0 RCZ 14 15 7.9575E+02 LCZ 15 16 2.5330E-06 CCZ 16 0 1E-12 RXZ 16 0 1E+07 EP1 17 0 14 0 1.0 RP1 17 18 +4.088 CP1 18 0 1E-10 EP2 19 0 18 0 1.0 RP2 19 20 +3.5349 CP2 20 0 1E-10 EP3 21 0 20 0 1.0 RP3 21 22 +3.2774 CP3 22 0 1E-10 EP4 23 0 22 0 1.0 RP4 23 24 +3.2774 CP4 24 0 1E-10 * * Output Stage G2 0 25 24 0 1.0 R2 25 0 6.5577E+02 CC 25 26 2.2000E-11 GOL 26 0 25 0 1.8755E+03 RD 26 0 +2.2218 DH 26 27 DV DL 28 26 DV ECC 27 0 POLY 1 4 0 -3.0167 1.0 EEE 28 0 POLY 1 5 0 +1.9207 1.0 IH 4 0 1.4180E-02 IL 0 5 1.4191E-02 GPS 29 0 26 3 1.1325E-01 DPH 4 29 DX DPL 29 5 DX D1 26 30 D1 D2 30 26 D2 EX1 30 0 POLY 2 26 0 3 0 0.0 4.4070E-01 5.5831E-01 RO 26 3 +8.83013 .ENDS HA2842 *==================================================== * HA-2850 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-2850 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout: +In -In Vcc Vee Out * *HAR Sngl WideB HiSlewRt LoPwr OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA2850 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.3872 .MODEL DN D IS=1.3117E-14 N=+2.3872 .MODEL DV D IS=1.6146E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 5.9E-04 I1 8 0 -4.8904E-06 FA 2 0 VN -2.856998E-01 DP 8 6 DP DN 8 7 DN C1 8 0 1.0981E-17 IC=-1.1758 FP 9 0 VP 2.0034E+03 FN 0 9 VN 1.5279E+03 GC 0 9 8 0 2.7311E-06 GPP 9 0 4 0 3.4326E-06 GPN 9 0 5 0 3.8529E-06 IRX 0 9 -3.0927E-06 RT 9 0 1.0 * * Poles and Zeros EZZ 10 0 9 0 1.0 VZZ 10 11 0.0 CZZ 11 0 1E-12 RZZ 11 0 1E+07 FCZ 0 12 VZZ 1.0 RCZ 12 13 1.7407E+01 LCZ 13 14 6.1841E-08 CCZ 14 0 1E-12 RXZ 14 0 1E+07 EP1 15 0 12 0 1.0 RP1 15 16 +7.2967 RZ1 16 17 -1.99 CP1 17 0 1E-10 EP2 18 0 16 0 1.0 RP2 18 19 +4.5486 CP2 19 0 1E-10 EP3 20 0 19 0 1.0 RP3 20 21 +3.98 CP3 21 0 1E-10 * * Output Stage G2 0 22 21 0 1.0 R2 22 0 6.5577E+02 CC 22 23 2.2000E-11 GOL 23 0 22 0 2.0104E+03 RD 23 0 6.07E-01 DH 23 24 DV DL 25 23 DV ECC 24 0 POLY 1 4 0 -2.4167 1.0 EEE 25 0 POLY 1 5 0 +2.5203 1.0 IH 4 0 7.5422E-03 IL 0 5 7.5382E-03 GPS 26 0 23 3 2.6302E-02 DPH 4 26 DX DPL 26 5 DX D1 23 27 D1 D2 27 23 D2 EX1 27 0 POLY 2 23 0 3 0 0.0 7.8568E-01 2.1269E-01 RO 23 3 3.80195E+01 .ENDS HA2850 *==================================================== * HA-5004 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5004 MACROMODEL * * REV: 8/8/91 * V. Hibner & S. Jost * * Pinout: +In=1 -In=7 Vcc=15 Vee=14 Vout=13 * *HAR Sngl 100MHz CurrentFB Amp pkg:DIP14 11,12,5,13,2 .SUBCKT HA5004 1 7 15 14 13 * * Input stage * CP 1 0 1E-12 LP 1 2 5E-9 RP 2 3 20 RP1 3 0 3E6 IBP 3 0 3E-6 VIO 0 4 3E-3 EN 5 4 3 0 .9905 IBN 5 0 12E-6 RN1 5 0 12E6 RN 5 6 13 LN 6 7 5E-9 CN 7 0 1E-12 * * Transimpedance gain stage * FZ 0 8 VIO 1 RZ 8 0 120E3 CZ 8 0 6.4E-12 * * General Pole * EP2 9 0 8 0 1 RP2 9 10 1.35E3 CP2 10 0 1E-12 * * Output stage * EO 11 0 10 0 1 RO 11 12 10 LO 12 13 5E-9 CO 13 0 1E-12 * * Power Supply Current * IPS 15 14 12E-3 .ENDS HA5004 *==================================================== * HA-5020 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5020 MacroModel * Rev: 9-09-91 DW Riemer * * Pinout: +In -In Vcc Vee Out * *HAR Sngl 100MHz CurrenFB Video Amp pkg:DIP8 3,2,7,4,6 .SUBCKT HA5020 2 3 17 18 1 * * + Input Stage with two poles * CP 2 0 1E-12 IBP 2 0 2E-06 RP 2 0 20E+06 EP1 8 0 2 0 1 RP1 8 6 1500 CP1 6 0 1E-12 EP2 12 0 6 0 1 RP2 12 4 2000 CP2 4 0 1E-12 * - Input Stage CN 0 3 1E-12 IBN 3 0 1E-05 RN 3 14 75 VIO 15 14 1E-03 EN 15 0 4 0 0.999 * Gain Stage FTI 0 10 VIO 1 RTA 10 9 4000 RT 9 0 2.746E+06 CZ 9 0 2E-12 * Poles EP3 11 0 10 0 1 RP3 11 5 3000 CP3 5 0 1E-12 EP4 13 0 5 0 1 RP4 13 7 3000 CP4 7 0 1E-12 * Output Stage EO 16 0 7 0 1 RO 16 1 3 CO 1 0 2E-12 * Power Supply Current ISS 17 18 8E-03 .ENDS HA5020 *==================================================== * HA-5101 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5101 MACRO MODEL * * D.L. Youngblood * Rev: 8/8/91 * * Pinout: +In -In Vcc Vee Out * *HAR Sngl LoNoise HiPerformance OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA5101 6 7 9 10 8 .MODEL DP D IS=1E-14 N=2.8162E+00 .MODEL DN D IS=8.9762E-15 N=2.8162E+00 .MODEL DV D IS=3.0966E-14 N=.2 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=1.0841E+00 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 1.5987E-04 * DN 13 1 DN FA 7 0 VIO 3.5294E-01 I1 1 0 1.6130E-07 C1 1 0 8.8812E-16 IC=-1.1545E+00 FP 4 0 VP 1.4025E+03 FN 0 4 VIO 1.5625E+03 GPP 0 4 9 14 8.0498E-10 GPN 0 4 15 10 3.8511E-09 RT 4 0 1.0 VPP 14 0 1.50E+01 RPP 14 0 1K VPN 0 15 1.50E+01 RPN 0 15 1K GC 0 4 1 0 1.6475E-08 IRX 0 4 -2.667E-08 * * General Poles * EP1 16 0 4 0 1.0 RP1 16 17 9.0176E+01 CP1 17 0 1.0E-10 EP2 18 0 17 0 1.0 RP2 18 19 1.2731E+01 CP2 19 0 1.0E-10 EP3 20 0 19 0 1.0 RP3 20 21 1.2731E+01 CP3 21 0 1.0E-10 EP4 22 0 21 0 1.0 RP4 22 23 1.1385E+01 CP4 23 0 1.0E-10 EP5 24 0 23 0 1.0 RP5 24 25 6.4181E+00 CP5 25 0 1.0E-10 * * General Zeros * GZ1 0 30 25 0 2.7671E-03 VZ01 30 31 0.0 HZ1 31 32 VZ01 3.6139E+02 LZ1 32 0 1.0E-6 GZ2 0 33 30 0 -1.0055E-03 VZ02 33 34 0.0 HZ2 34 35 VZ02 -9.9455E+02 LZ2 35 0 1.0E-6 GZ3 0 36 33 0 -6.9434E-04 VZ03 36 37 0.0 HZ3 37 38 VZ03 -1.4402E+03 LZ3 38 0 1.0E-6 * * Complex Zero * EZZ 39 0 36 0 1.0 VZZ 39 40 0.0 CZZ 40 0 1.0E-12 RZZ 40 0 1.0E+7 FCZ 0 41 VZZ 1.0 RCZ 41 42 3.8073E+03 LCZ 42 43 7.0771E-06 CCZ 43 0 1.0E-12 RXZ 43 0 1.0E+7 * * Gain / Output Stage * G2 0 2 41 0 1.0 R2 2 0 2.7509E+06 CC 2 3 2.20E-11 GOL 3 0 2 0 3.9807E-2 RD 3 0 5.9935E+02 DH 3 5 DV DL 50 3 DV VH 9 5 -1.187E+00 VL 50 10 1.333E+00 IH 9 0 3.50E-03 IL 0 10 3.50E-03 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -2.7887E-01 RO 54 8 4.2754E+01 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS HA5101 *==================================================== * HA-5102 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5102 Macro Model * * Rev: 8/8/91 DL Youngblood * The schematic for this rev is the same as 11/03/89. The subcircuit * call is different and only 1 amp is present. * pinout changed to conform to "standard" * * pinout: +In -In Vcc Vee Vout * * Actual chip Icc/Iee will have 2 amplifiers + 1mA * *HAR Dual LoNoise HiPerformance OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT HA5102 6 7 9 10 8 .MODEL DP D IS=1E-14 N=9.6204E-01 .MODEL DN D IS=1.0012E-14 N=9.6204E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 2.2845E-04 * DN 13 1 DN FA 7 0 VIO 9.7559E-02 I1 1 0 5.1342E-08 C1 1 0 2.6360E-16 IC=-3.6478E-01 FP 4 0 VP 9.7214E+02 FN 0 4 VIO 9.7098E+02 GC 0 4 1 0 1.0090E-08 GPP 0 4 9 46 9.9726E-10 GPN 0 4 47 10 1.4492E-08 RT 4 0 1.0 VPP 46 0 1.5E+01 RPP 46 0 1K VPN 0 47 1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 4.5768E+01 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 2.4966E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 1.8702E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 1.4508E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 1.2762E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 1.4852E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 6.7333E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 8.5174E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 1.1741E+02 LZ2 29 0 1.0E-6 GZ3 0 30 27 0 2.0450E-03 VZ03 30 31 0.0 HZ3 31 32 VZ03 4.8900E+02 LZ3 32 0 1.0E-6 GZ4 0 33 30 0 1.6037E-03 VZ04 33 34 0.0 HZ4 34 35 VZ04 6.2354E+02 LZ4 35 0 1.0E-6 * * Complex Pole * ECP 43 0 33 0 1.0 RCP 43 44 2.4045E+04 LCP 44 45 1.4988E-04 CCPX 45 0 1.0E-12 * * Gain/Output Stage * G2 0 2 45 0 1.0 R2 2 0 8.9835E+05 CC 2 3 2.2000E-11 GOL 3 0 2 0 6.1330E+01 RD 3 0 4.6980E+00 DH 3 5 DV DL 48 3 DV VH 9 5 1.607 VL 48 10 1.5986 IH 9 0 1.0E-03 IL 0 10 1.0E-03 D1 3 51 D1 D2 51 3 D2 EX1 51 0 POLY 2 3 0 3 8 0 1 -4.0840E-01 RO 52 8 1.0611E+02 VIS 3 52 0 FI 0 53 VIS 1 DIP 53 54 DV DIN 56 55 DV VIP 54 56 0 VIN 55 53 0 RI 56 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS HA5102 *==================================================== * HA-5104 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5104 Macro Model * * Rev: 8/8/91 DL Youngblood * The schematic for this rev is the same as 11/03/89. The subcircuit * call is different and only 1 amp is present * pinout changed to conform to "standard" * * pinout: +In -In Vcc Vee Vout * * Actual chip Icc/Iee will have 4 amplifiers + 1mA * *HAR Quad LoNoise HiPerformance OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT HA5104 6 7 9 10 8 .MODEL DP D IS=1E-14 N=9.6204E-01 .MODEL DN D IS=1.0012E-14 N=9.6204E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 2.2845E-04 * DN 13 1 DN FA 7 0 VIO 9.7559E-02 I1 1 0 5.1342E-08 C1 1 0 2.6360E-16 IC=-3.6478E-01 FP 4 0 VP 9.7214E+02 FN 0 4 VIO 9.7098E+02 GC 0 4 1 0 1.0090E-08 GPP 0 4 9 46 9.9726E-10 GPN 0 4 47 10 1.4492E-08 RT 4 0 1.0 VPP 46 0 1.5E+01 RPP 46 0 1K VPN 0 47 1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 4.5768E+01 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 2.4966E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 1.8702E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 1.4508E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 1.2762E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 1.4852E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 6.7333E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 8.5174E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 1.1741E+02 LZ2 29 0 1.0E-6 GZ3 0 30 27 0 2.0450E-03 VZ03 30 31 0.0 HZ3 31 32 VZ03 4.8900E+02 LZ3 32 0 1.0E-6 GZ4 0 33 30 0 1.6037E-03 VZ04 33 34 0.0 HZ4 34 35 VZ04 6.2354E+02 LZ4 35 0 1.0E-6 * * Complex Pole * ECP 43 0 33 0 1.0 RCP 43 44 2.4045E+04 LCP 44 45 1.4988E-04 CCPX 45 0 1.0E-12 * * Gain/Output Stage * G2 0 2 45 0 1.0 R2 2 0 8.9835E+05 CC 2 3 2.2000E-11 GOL 3 0 2 0 6.1330E+01 RD 3 0 4.6980E+00 DH 3 5 DV DL 48 3 DV VH 9 5 1.607 VL 48 10 1.5986 IH 9 0 1.0E-03 IL 0 10 1.0E-03 D1 3 51 D1 D2 51 3 D2 EX1 51 0 POLY 2 3 0 3 8 0 1 -4.0840E-01 RO 52 8 1.0611E+02 VIS 3 52 0 FI 0 53 VIS 1 DIP 53 54 DV DIN 56 55 DV VIP 54 56 0 VIN 55 53 0 RI 56 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS HA5104 *==================================================== * HA-5112 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5112 Macro Model * * Rev: 8/8/91 DLYoungblood * The schematic for this rev is the same as 11/03/89 * The subcircuit call is different and only 1 amp is present * Actual chip Icc/Iee will have 2 amplifiers + 1mA * pinout changed to conform to "standard" * * Pinout: +In -In Vcc Vee Vout * *HAR Dual LoNoise HiPerformance OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT HA5112 6 7 9 10 8 .MODEL DP D IS=1E-14 N=7.4847E-01 .MODEL DN D IS=8.9347E-15 N=7.4847E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 2.2845E-04 * DN 13 1 DN FA 7 0 VIO 9.7559E-02 I1 1 0 4.8579E-08 C1 1 0 3.7600E-16 IC=-2.8380E-01 FP 4 0 VP 6.4861E+03 FN 0 4 VIO 7.2595E+03 GC 0 4 1 0 8.6533E-08 GPP 0 4 9 46 8.5523E-09 GPN 0 4 47 10 1.2428E-07 RT 4 0 1.0 VPP 46 0 1.5E+01 RPP 46 0 1K VPN 0 47 1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 1.5422E+02 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 4.6010E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 2.4832E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 1.4510E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 1.1908E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 1.5909E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 6.2857E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 4.0668E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 2.4589E+02 LZ2 29 0 1.0E-6 * * Complex Zero * GCZ 0 30 27 0 1.0 LCZ 30 31 1.0E-6 CC1Z 31 32 1.1755E-11 HCZ 32 33 VCZ1 4.4739E+02 VCZ1 33 0 0.0 RBIG1 30 0 1.0E+7 ECZ 34 0 30 0 1.0 VCZ2 34 35 0.0 CC2Z 35 0 1.1755E-11 RBIG2 35 0 1.0E+7 FC1Z 0 36 VCZ2 1.0 RCZ 36 0 1.0 * * Complex Pole * ECP 37 0 36 0 1.0 RCP 37 38 7.9230E+03 LCP 38 39 4.4779E-05 CCPX 39 0 1.0E-12 * * Gain/Output Stage * G2 0 2 39 0 1.0 R2 2 0 1.0475E+05 CC 2 3 2.2000E-11 GOL 3 0 2 0 6.3619E+01 RD 3 0 4.5290E+00 DH 3 5 DV DL 50 3 DV VH 9 5 1.607 VL 50 10 1.5986 IH 9 0 1.0E-3 IL 0 10 1.0E-03 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -4.0500E-01 RO 54 8 1.0628E+02 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS HA5112 *==================================================== * HA-5114 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5114 Macro Model * * Rev: 8/8/91 DLYoungblood * The schematic for this rev is the same as 11/03/89 * The subcircuit call is different and only 1 amp is present * Actual chip Icc/Iee will have 4 amplifiers + 1mA * pinout changed to conform to "standard" * * Pinout: +In -In Vcc Vee Vout * * Actual chip Icc/Iee will have 4 amplifiers + 1mA * *HAR Quad LoNoise HiPerformance OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT HA5114 6 7 9 10 8 .MODEL DP D IS=1E-14 N=7.4847E-01 .MODEL DN D IS=8.9347E-15 N=7.4847E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 2.2845E-04 * DN 13 1 DN FA 7 0 VIO 9.7559E-02 I1 1 0 4.8579E-08 C1 1 0 3.7600E-16 IC=-2.8380E-01 FP 4 0 VP 6.4861E+03 FN 0 4 VIO 7.2595E+03 GC 0 4 1 0 8.6533E-08 GPP 0 4 9 46 8.5523E-09 GPN 0 4 47 10 1.2428E-07 RT 4 0 1.0 VPP 46 0 1.5E+01 RPP 46 0 1K VPN 0 47 1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 1.5422E+02 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 4.6010E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 2.4832E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 1.4510E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 1.1908E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 1.5909E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 6.2857E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 4.0668E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 2.4589E+02 LZ2 29 0 1.0E-6 * * Complex Zero * GCZ 0 30 27 0 1.0 LCZ 30 31 1.0E-6 CC1Z 31 32 1.1755E-11 HCZ 32 33 VCZ1 4.4739E+02 VCZ1 33 0 0.0 RBIG1 30 0 1.0E+7 ECZ 34 0 30 0 1.0 VCZ2 34 35 0.0 CC2Z 35 0 1.1755E-11 RBIG2 35 0 1.0E+7 FC1Z 0 36 VCZ2 1.0 RCZ 36 0 1.0 * * Complex Pole * ECP 37 0 36 0 1.0 RCP 37 38 7.9230E+03 LCP 38 39 4.4779E-05 CCPX 39 0 1.0E-12 * * Gain/Output Stage * G2 0 2 39 0 1.0 R2 2 0 1.0475E+05 CC 2 3 2.2000E-11 GOL 3 0 2 0 6.3619E+01 RD 3 0 4.5290E+00 DH 3 5 DV DL 50 3 DV VH 9 5 1.607 VL 50 10 1.5986 IH 9 0 1.0E-3 IL 0 10 1.0E-03 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -4.0500E-01 RO 54 8 1.0628E+02 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS HA5114 *==================================================== * HA-5127 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5127 MacroModel * Rev: 02-04-92 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR UltraLoNoise Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA5127 1 2 4 5 3 .MODEL DP D IS=1E-14 N=6.6967E-01 .MODEL DN D IS=8.5E-15 N=6.6967E-01 .MODEL DV D IS=1.1746E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. * VP 1 6 0 VN 2 7 1.0E-05 I1 8 0 1.295E-08 FA 2 0 VN 1.857E+00 DP 6 8 DP DN 7 8 DN C1 8 0 1.9425E-16 IC=-2.3157E-01 FP 9 0 VP 1.6988E+04 FN 0 9 VN 1.9986E+04 GC 0 9 8 0 6.8734E-09 GPP 9 0 4 0 1.2291E-08 GPN 9 0 5 0 1.2291E-08 IRX 0 9 1.5917E-09 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 1.2736E+03 RZ1 11 12 3.184E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 2.388E+01 RZ2 14 15 +7.96 CP2 15 0 1E-10 EP3 16 0 14 0 1.0 RP3 16 17 1.0613E+01 CP3 17 0 1E-10 EP4 18 0 17 0 1.0 RP4 18 19 +3.184 CP4 19 0 1E-10 * * Output Stage G2 0 20 19 0 1.0 R2 20 0 6.5577E+02 CC 20 21 2.2E-11 GOL 21 0 20 0 6.5137E+03 RD 21 0 5.0809E+01 DH 21 22 DV DL 23 21 DV ECC 22 0 POLY 1 4 0 -2.7 1.0 EEE 23 0 POLY 1 5 0 +2.7 1.0 IH 4 0 3.5E-03 IL 0 5 3.5E-03 GPS 24 0 21 3 8.5427E-02 DPH 4 24 DX DPL 24 5 DX D1 21 25 D1 D2 25 21 D2 EX1 25 0 POLY 2 21 0 3 0 0.0 -7.2888E-01 +1.7248 RO 21 3 1.17059E+01 .ENDS HA5127 *==================================================== * HA-5137 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5137 MacroModel * Rev: 02-04-92 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR UltraLoNoise Precision WideB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA5137 1 2 4 5 3 .MODEL DP D IS=1E-14 N=6.6967E-01 .MODEL DN D IS=8.5E-15 N=6.6967E-01 .MODEL DV D IS=1.1746E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. * VP 1 6 0 VN 2 7 1.0E-05 I1 8 0 1.295E-08 FA 2 0 VN 1.8571E+00 DP 6 8 DP DN 7 8 DN C1 8 0 1.0792E-16 IC=-2.3157E-01 FP 9 0 VP 3.0579E+04 FN 0 9 VN 3.5975E+04 GC 0 9 8 0 1.2372E-08 GPP 9 0 4 0 2.2123E-08 GPN 9 0 5 0 2.2123E-08 IRX 0 9 2.865E-09 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 2.21E+02 RZ1 11 12 1.77E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 1.592E+01 CP2 14 0 1E-10 EP3 15 0 14 0 1.0 RP3 15 16 1.0613E+01 CP3 16 0 1E-10 EP4 17 0 16 0 1.0 RP4 17 18 +9.0971 CP4 18 0 1E-10 EP5 19 0 18 0 1.0 RP5 19 20 +7.96 CP5 20 0 1E-10 * * Output Stage G2 0 21 20 0 1.0 R2 21 0 6.5577E+02 CC 21 22 2.2E-11 GOL 22 0 21 0 3.6187E+03 RD 22 0 5.0809E+01 DH 22 23 DV DL 24 22 DV ECC 23 0 POLY 1 4 0 -2.7 1.0 EEE 24 0 POLY 1 5 0 +2.7 1.0 IH 4 0 3.5E-03 IL 0 5 3.5E-03 GPS 25 0 22 3 8.5427E-02 DPH 4 25 DX DPL 25 5 DX D1 22 26 D1 D2 26 22 D2 EX1 26 0 POLY 2 22 0 3 0 0.0 -7.2888E-01 +1.7249 RO 22 3 1.17059E+01 .ENDS HA5137 *==================================================== * HA-5147 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5147 MacroModel * Rev: 02-04-92 DW Riemer * * Pinout +In -In Vcc Vee Out * *HAR UltraLoNoise HiSlewRt WideB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA5147 1 2 4 5 3 .MODEL DP D IS=1E-14 N=6.3393E-01 .MODEL DN D IS=9.0E-15 N=6.3393E-01 .MODEL DV D IS=1.142E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. * VP 1 6 0 VN 2 7 1.0E-05 I1 8 0 1.33E-08 FA 2 0 VN 1.6984E+00 DP 6 8 DP DN 7 8 DN C1 8 0 3.8E-17 IC=-2.1921E-01 FP 9 0 VP 5.7895E+04 FN 0 9 VN 6.4327E+04 GC 0 9 8 0 2.4744E-08 GPP 9 0 4 0 4.4246E-08 GPN 9 0 5 0 4.4246E-08 IRX 0 9 5.4243E-09 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 2.388E+02 RZ1 11 12 1.592E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 1.592E+01 CP2 14 0 1E-10 EP3 15 0 14 0 1.0 RP3 15 16 1.1371E+01 CP3 16 0 1E-10 EP4 17 0 16 0 1.0 RP4 17 18 1.0613E+01 CP4 18 0 1E-10 EP5 19 0 18 0 1.0 RP5 19 20 +9.95 CP5 20 0 1E-10 * * Output Stage G2 0 21 20 0 1.0 R2 21 0 6.5577E+02 CC 21 22 2.2E-11 GOL 22 0 21 0 1.8093E+03 RD 22 0 5.0809E+01 DH 22 23 DV DL 24 22 DV ECC 23 0 POLY 1 4 0 -2.7 1.0 EEE 24 0 POLY 1 5 0 +2.7 1.0 IH 4 0 3.5E-03 IL 0 5 3.5E-03 GPS 25 0 22 3 8.5427E-02 DPH 4 25 DX DPL 25 5 DX D1 22 26 D1 D2 26 22 D2 EX1 26 0 POLY 2 22 0 3 0 0.0 -7.2711E-01 +1.7231 RO 22 3 1.17059E+01 .ENDS HA5147 *==================================================== * HA-5190 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5190 Macro-Model * * Rev: 8/8/91 * By: J. Coutreau * * +IN -> NODE 3, -IN -> NODE 4, OUTPUT-> NODE 16 * V+ SUPPLY-> NODE 2, V- SUPPLY-> NODE 1 * *HAR Sngl WideB FastSettl OpAmp pkg:DIP14 5,4,11,6,10 .SUBCKT HA5190 3 4 2 1 16 * * INPUT STAGE * LP 3 5 5E-9 RP 5 6 20 ECR 7 6 3 0 132E-6 IBP 7 0 6.7E-6 CBP 7 0 0.5E-12 LN 4 8 5E-9 RN 8 9 20 EPR 9 10 2 1 132E-6 IBN 10 0 8.3E-6 CBN 10 0 0.5E-12 RD 7 24 28.8E3 VOF 24 10 2E-3 * * SLEW LIMITING * ES 11 0 7 24 10 RS 11 12 100 CS 12 0 9E-12 D1 12 13 DM OFF D2 14 12 DM OFF .MODEL DM D (IS=1E-9 BV=40 IBV=50E-6) VCP 13 0 1.2 VCN 0 14 1.2 * * FREQUENCY RESPONSE * GA 0 15 12 0 1.43E-3 RH 15 0 2E6 CH 15 0 3E-12 CC1 15 0 6E-12 RC 15 25 1E3 CC2 25 0 1.8E-12 CC3 15 8 1.5E-12 * *POLES * EP 17 0 25 0 1 RPA 17 18 75 CPA 18 0 7E-12 RPB 18 19 75 CPB 19 0 7E-12 * *OUTPUT STAGE * EO 20 0 19 0 1 RO 20 21 25 LO 21 16 5E-9 CO 16 0 2E-12 * *POWER SUPPLY CURRENT * IPS 2 1 19E-3 * .ENDS HA5190 *==================================================== * HA-5221 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5221 MacroModel * Rev: 4-22-91 DW Riemer * * Pinout: +In -In Vcc Vee Out * *HAR Sngl WideB LoNoise Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT HA5221 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.0378 .MODEL DN D IS=8.5539E-15 N=+1.0378 .MODEL DV D IS=5.0027E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 3.0E-04 I1 8 0 6.0300E-08 FA 2 0 VN 7.0862E-01 DP 6 8 DP DN 7 8 DN C1 8 0 2.4249E-16 IC=-3.9979E-01 FP 9 0 VP 1.3609E+04 FN 0 9 VN 1.5909E+04 GC 0 9 8 0 5.2426E-07 GPP 9 0 4 0 4.6750E-07 GPN 9 0 5 0 5.2455E-07 IRX 0 9 -6.4606E-07 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 8.4769E+02 RZ1 11 12 2.8945E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 -2.1985E+01 RZ2 14 15 3.7905E+01 CP2 15 0 1E-10 EP3 16 0 14 0 1.0 RP3 16 17 1.0613E+01 CP3 17 0 1E-10 EP4 18 0 17 0 1.0 RP4 18 19 +9.0971 CP4 19 0 1E-10 EP5 20 0 19 0 1.0 RP5 20 21 +8.3789 CP5 21 0 1E-10 EP6 22 0 21 0 1.0 RP6 22 23 +7.96 CP6 23 0 1E-10 * * Output Stage G2 0 24 23 0 1.0 R2 24 0 6.5577E+02 CC 24 25 2.2E-11 GOL 25 0 24 0 7.4372E+03 RD 25 0 5.0809E+01 DH 25 26 DV DL 27 25 DV ECC 26 0 POLY 1 4 0 -2.5544 1.0 EEE 27 0 POLY 1 5 0 +2.3854 1.0 IH 4 0 9.0E-03 IL 0 5 9.0E-03 GPS 28 0 25 3 8.5427E-02 DPH 4 28 DX DPL 28 5 DX D1 25 29 D1 D2 29 25 D2 EX1 29 0 POLY 2 25 0 3 0 0.0 3.6309E-01 6.3542E-01 RO 25 3 1.1706E+01 .ENDS HA5221 *==================================================== * HA-5222 * COPYRIGHT (C) 1991 HARRIS CORPORATION * ALL RIGHTS RESERVED * * HA-5222 MacroModel * Rev: 4-22-91 DW Riemer * This model represents one of the two amplifiers available. * Actual ICC & IEE will be 2X that of this model. * * Pinout: +In -In Vcc Vee Out * *HAR Dual WideB LoNoise Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT HA5222 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.0378 .MODEL DN D IS=8.5539E-15 N=+1.0378 .MODEL DV D IS=5.0027E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 3.0E-04 I1 8 0 6.0300E-08 FA 2 0 VN 7.0862E-01 DP 6 8 DP DN 7 8 DN C1 8 0 2.4249E-16 IC=-3.9979E-01 FP 9 0 VP 1.3609E+04 FN 0 9 VN 1.5909E+04 GC 0 9 8 0 5.2426E-07 GPP 9 0 4 0 4.6750E-07 GPN 9 0 5 0 5.2455E-07 IRX 0 9 -6.4606E-07 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 8.4769E+02 RZ1 11 12 2.8945E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 -2.1985E+01 RZ2 14 15 3.7905E+01 CP2 15 0 1E-10 EP3 16 0 14 0 1.0 RP3 16 17 1.0613E+01 CP3 17 0 1E-10 EP4 18 0 17 0 1.0 RP4 18 19 +9.0971 CP4 19 0 1E-10 EP5 20 0 19 0 1.0 RP5 20 21 +8.3789 CP5 21 0 1E-10 EP6 22 0 21 0 1.0 RP6 22 23 +7.96 CP6 23 0 1E-10 * * Output Stage G2 0 24 23 0 1.0 R2 24 0 6.5577E+02 CC 24 25 2.2E-11 GOL 25 0 24 0 7.4372E+03 RD 25 0 5.0809E+01 DH 25 26 DV DL 27 25 DV ECC 26 0 POLY 1 4 0 -2.5544 1.0 EEE 27 0 POLY 1 5 0 +2.3854 1.0 IH 4 0 9.0E-03 IL 0 5 9.0E-03 GPS 28 0 25 3 8.5427E-02 DPH 4 28 DX DPL 28 5 DX D1 25 29 D1 D2 29 25 D2 EX1 29 0 POLY 2 25 0 3 0 0.0 3.6309E-01 6.3542E-01 RO 25 3 1.1706E+01 .ENDS HA5222 *==================================================== * LF155 * Linear Technology LF155 op amp model * Written: 05-10-1990 18:16:50 Type: PFET input, internal comp. * Typical specs: * Vos=2.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(low)=7.0E+00V/us, SR(high)=1.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin LoSupCurrent OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF155 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 2.1221E+03 RD2 40 90 2.1221E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 2.8000E-04 GOSIT 7 12 90 80 1.4000E-04 * INTERMEDIATE GCM 0 8 12 0 4.7124E-09 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 4.2768E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0124E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1403E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1403E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.7200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=3.9655E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=3.9655E-04 VTO=-9.980000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF155 * * - - - - - * FINI LF155 * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF155A * Linear Technology LF155A op amp model * Written: 05-10-1990 18:19:48 Type: PFET input, internal comp. * Typical specs: * Vos=1.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(low)=7.0E+00V/us, SR(high)=1.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin LoSupCurrent OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF155A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 2.1221E+03 RD2 40 90 2.1221E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 2.8000E-04 GOSIT 7 12 90 80 1.4000E-04 * INTERMEDIATE GCM 0 8 12 0 4.7124E-09 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 4.2768E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0124E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1403E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1403E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.7200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=3.9655E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=3.9655E-04 VTO=-9.990000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF155A * * - - - - - * FINI LF155A * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF156 * Linear Technology LF156 op amp model * Written: 05-10-1990 18:26:49 Type: PFET input, internal comp. * Typical specs: * Vos=2.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.2E+01V/us, SR(high)=2.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF156 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.8000E-04 GOSIT 7 12 90 80 2.4000E-04 * INTERMEDIATE GCM 0 8 12 0 9.4248E-09 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.8609E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0690E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1552E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1552E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.5200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=9.2528E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=9.2528E-04 VTO=-9.980000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF156 * * - - - - - * FINI LF156 * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LT156A * Linear Technology LF156A op amp model * Written: 05-10-1990 18:28:18 Type: PFET input, internal comp. * Typical specs: * Vos=1.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.2E+01V/us, SR(high)=2.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF156A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.8000E-04 GOSIT 7 12 90 80 2.4000E-04 * INTERMEDIATE GCM 0 8 12 0 9.4248E-09 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.8609E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0690E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1552E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1552E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.5200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=9.2528E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=9.2528E-04 VTO=-9.990000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF156A * * - - - - - * FINI LF156A * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF355 * Linear Technology LF355 op amp model * Written: 05-10-1990 18:12:34 Type: PFET input, internal comp. * Typical specs: * Vos=3.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(low)=6.0E+00V/us, SR(high)=1.2E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin LoSupCurrent OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF355 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 2.1221E+03 RD2 40 90 2.1221E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 2.4000E-04 GOSIT 7 12 90 80 1.2000E-04 * INTERMEDIATE GCM 0 8 12 0 4.7124E-09 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 4.2768E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.9963E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1360E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1360E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.7600E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=4.6264E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=4.6264E-04 VTO=-9.970000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF355 * * - - - - - * FINI LF355 * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF355A * Linear Technology LF355A op amp model * Written: 05-10-1990 18:14:53 Type: PFET input, internal comp. * Typical specs: * Vos=1.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(low)=7.0E+00V/us, SR(high)=1.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin LoSupCurrent OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF355A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 2.1221E+03 RD2 40 90 2.1221E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 2.8000E-04 GOSIT 7 12 90 80 1.4000E-04 * INTERMEDIATE GCM 0 8 12 0 4.7124E-09 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 4.2768E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0124E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1403E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1403E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.7200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=3.9655E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=3.9655E-04 VTO=-9.990000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF355A * * - - - - - * FINI LF355A * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF356 * Linear Technology LF356 op amp model * Written: 05-10-1990 18:23:43 Type: PFET input, internal comp. * Typical specs: * Vos=3.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.2E+01V/us, SR(high)=2.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF356 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.8000E-04 GOSIT 7 12 90 80 2.4000E-04 * INTERMEDIATE GCM 0 8 12 0 9.4248E-09 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.8609E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0690E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1552E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1552E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.5200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=9.2528E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=9.2528E-04 VTO=-9.970000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF356 * * - - - - - * FINI LF356 * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF356A * Linear Technology LF356A op amp model * Written: 05-10-1990 18:25:11 Type: PFET input, internal comp. * Typical specs: * Vos=1.0E-03, Ib=3.0E-11, Ios=3.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.2E+01V/us, SR(high)=2.4E+01V/us, Av=106.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl JFETin HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LF356A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.8000E-04 GOSIT 7 12 90 80 2.4000E-04 * INTERMEDIATE GCM 0 8 12 0 9.4248E-09 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.8609E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0690E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1552E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1552E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.5200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.1500E-11 BETA=9.2528E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.8500E-11 BETA=9.2528E-04 VTO=-9.990000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF356A * * - - - - - * FINI LF356A * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF412 * Linear Technology LF412 op amp model * Written: 05-10-1990 18:34:44 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-04, Ib=2.0E-11, Ios=1.5E-11, GBP=5.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.3E+01V/us, SR(high)=2.6E+01V/us, Av=108.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual JFETin Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LF412 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.6458E+02 RD2 40 90 9.6458E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.2000E-04 GOSIT 7 12 90 80 2.6000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0367E-08 GA 8 0 80 90 1.0367E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.4474E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0774E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1575E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1575E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.3800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.7500E-11 BETA=1.0335E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=1.2500E-11 BETA=1.0335E-03 VTO=-9.995000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF412 * * - - - - - * FINI LF412 * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LF412A * Linear Technology LF412A op amp model * Written: 05-10-1990 18:37:21 Type: PFET input, internal comp. * Typical specs: * Vos=3.0E-04, Ib=1.5E-11, Ios=1.0E-11, GBP=5.7E+06Hz, Phase mar.= 45 deg, * SR(low)=1.5E+01V/us, SR(high)=3.0E+01V/us, Av=110.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual JFETin Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LF412A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.3073E+02 RD2 40 90 9.3073E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 6.0000E-04 GOSIT 7 12 90 80 3.0000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0744E-08 GA 8 0 80 90 1.0744E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.9730E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0925E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1615E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1615E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.2000E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.0000E-11 BETA=9.6199E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=1.0000E-11 BETA=9.6199E-04 VTO=-9.997000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LF412A * * - - - - - * FINI LF412A * - - - - - * [OAMM VJ02 05/08/90] *==================================================== * LM107 * Linear Technology LM107 op amp model * Written: 08-23-1989 15:53:34 Type: Bipolar npn input, internal comp. * Typical specs: * Vos=7.0E-04, Ib=3.0E-08, Ios=1.5E-09, GBP=9.0E+05Hz, Phase mar.= 70 deg, * SR(+)=5.0E-01V/us, SR(-)=4.8E-01V/us, Av= 104 dB, CMMR= 96 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-30.0mA, Iq= 1800uA * * Connections: + - V+V-O *LTC Sngl GenPurpose OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LM107 3 2 7 4 6 * INPUT RC1 7 80 5.895E+03 RC2 7 90 5.895E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 C1 80 90 5.460E-12 RE1 10 12 2.438E+03 RE2 11 12 2.438E+03 IEE 12 4 1.506E-05 RE 12 0 1.328E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.689E-09 GA 8 0 80 90 1.696E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.401E+02 * OUTPUT RO1 1 6 3.333E+01 RO2 1 0 6.667E+01 RC 17 0 4.758E-05 GC 0 17 6 0 2.102E+04 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.808E+00 VE 14 4 1.808E+00 IP 7 4 1.785E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.439E+02) .MODEL QM2 NPN (IS=8.220E-16 BF=2.564E+02) .MODEL DM1 D (IS=3.337E-15) .MODEL DM2 D (IS=8.000E-16) .ENDS LM107 * * - - - - - * FINI LM107 * - - - - - * [OAMM VN1 8/89] *==================================================== * LM118 * Linear Technology LM118 op amp model * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * Typical specs: * Ref. LM118 data sheet, LTC 1990 databook p2-313 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LM118 3 2 7 4 6 * INPUT RC1 7 80 7.074E+02 RC2 7 90 7.074E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM1 * C1 80 91 300E-12 RXC1 91 90 1E3 CXC1 91 90 15E-12 C2 1 8 5.000E-12 * RB1 2 102 1.0000E+00 RB2 3 103 1.0000E+00 DDM1 102 104 DM2 VZ1 104 103 5.5 DDM2 103 105 DM2 VZ2 105 102 5.5 RE1 10 12 6.209E+02 RE2 11 12 6.209E+02 IEE 12 4 6.000E-04 RE 12 0 3.332E+05 CE 12 0 2.632E-13 * GCM 0 8 12 0 1.414E-08 GA 8 0 80 90 1.414E-03 R2 8 0 1.000E+05 GB 1 0 8 0 5.318E+01 RO2 1 0 7.4000E+01 * RS 1 6 1 ECL 18 0 1 6 3.172E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.6473 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.6473 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 4.400E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.4390E+03) .MODEL QM2 NPN (IS=8.6435E-16 BF=2.5641E+03) * .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LM118 * * - - - - - * FINI LM118 * - - - - - * *==================================================== * LT1001 * Linear Technology LT1001 op amp model (with calls for LT1001S8, LT1002) * Written: 10-16-1989 15:04:20 Type: Bipolar npn input, internal comp. * LT1001 updated from original model on 05-21-1990 * Typical specs: * Vos=1.80E-05, Ib=7.00E-10, Ios=4.00E-10, GBP=8.0E+05Hz, Phase mar.=60.0deg, * SR(+)=3.3E-01V/us, SR(-)=3.1E-01V/us, Av=118dB, CMMR=126dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-25.0mA, Iq=1600uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1001 3 2 7 4 6 * INPUT RC1 7 80 6.631E+03 RC2 7 90 6.631E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 8.660E-12 RE1 10 12 1.409E+03 RE2 11 12 1.409E+03 IEE 12 4 9.901E-06 RE 12 0 2.020E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 7.558E-11 GA 8 0 80 90 1.508E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.538E+03 * OUTPUT RO1 1 6 2.575E+01 RO2 1 0 3.425E+01 RC 17 0 4.228E-06 GC 0 17 6 0 2.365E+05 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.803E+00 VE 14 4 1.803E+00 IP 7 4 1.590E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=5.500E+03) .MODEL QM2 NPN (IS=8.006E-16 BF=9.900E+03) .MODEL DM1 D (IS=2.331E-08) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1001 * *==================================================== *LT1002 *LTC Dual Matched Precision OpAmp pkg:DIP14 (A:4,3,14,12,13)(B:11,10,7,5,6) .SUBCKT LT1002 3 2 7 4 6 X_LT1002 3 2 7 4 6 XLT1001 .ENDS LT1002 * *==================================================== *LT1001S8 *LTC Sngl Precision OpAmp pkg:SO-8 3,2,7,4,6 .SUBCKT LT1001S8 3 2 7 4 6 X_LT1001S8 3 2 7 4 6 XLT1001 .ENDS LT1001S8 * - - - - - * FINI LT1001 FAMILY * - - - - - * [OAMM VN01 9/89] *==================================================== * LT1001A * Linear Technology LT1001A op amp model (with calls for LT1002A) * Written: 10-16-1989 15:04:20 Type: Bipolar npn input, internal comp. * LT1001A updated from original model on 05-18-1990 * Typical specs: * Vos=1.00E-05, Ib=5.00E-10, Ios=3.00E-10, GBP=8.0E+05Hz, Phase mar.=60.0deg, * SR(+)=3.3E-01V/us, SR(-)=3.1E-01V/us, Av=118dB, CMMR=126dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-25.0mA, Iq=1600uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1001A 3 2 7 4 6 * INPUT RC1 7 80 6.631E+03 RC2 7 90 6.631E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 8.660E-12 RE1 10 12 1.409E+03 RE2 11 12 1.409E+03 IEE 12 4 9.901E-06 RE 12 0 2.020E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 7.558E-11 GA 8 0 80 90 1.508E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.538E+03 * OUTPUT RO1 1 6 2.575E+01 RO2 1 0 3.425E+01 RC 17 0 4.228E-06 GC 0 17 6 0 2.365E+05 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.803E+00 VE 14 4 1.803E+00 IP 7 4 1.590E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=7.692E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=1.429E+04) .MODEL DM1 D (IS=2.331E-08) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1001A * *==================================================== *LT1002A *LTC Dual Matched Precision OpAmp pkg:DIP14 (A:4,3,14,12,13)(B:11,10,7,5,6) .SUBCKT LT1002A 3 2 7 4 6 X_LT1002A 3 2 7 4 6 XLT1001A .ENDS LT1002A * * - - - - - * FINI LT1001A FAMILY * - - - - - * [OAMM VN01 9/89] *==================================================== * LT1006 * Linear Technology LT1006 op amp model * LT1006 updated from original model on 05-22-1990 * * Connections: + - V+V-O *LTC Sngl SnglSup Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1006 1 2 3 4 5 * C1 11 12 8.661E-12 C2 6 7 30.00E-12 DC 8 53 DX DE 54 8 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 225.7E-12 IEE 3 10 DC 12.03E-6 HLIM 90 0 VLIM 1K Q1 11 102 13 QM1 Q2 12 101 14 QM2 RB1 2 102 400 RB2 1 101 400 DCM1 105 102 DX DCM2 105 101 DX VCMC 105 4 DC 0.4 R2 6 9 100.0E3 RC1 4 11 8.841E3 RC2 4 12 8.841E3 RE1 13 10 4.519E3 RE2 14 10 4.519E3 REE 10 99 16.63E6 RO1 8 5 80 RO2 7 99 25 IP 3 4 328E-6 VB 9 0 DC 0 VC 3 53 DC 1.610 VE 54 4 DC .61 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QM1 PNP (IS=8.000E-16 BF=5.955E+02) .MODEL QM2 PNP (IS=8.009E-16 BF=6.045E+02) .ENDS LT1006 *==================================================== * LT1006A * Linear Technology LT1006A op amp model * LT1006A updated from original model on 05-18-1990 * * Connections: + - V+V-O *LTC Sngl SnglSup Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1006A 1 2 3 4 5 * C1 11 12 8.661E-12 C2 6 7 30.00E-12 DC 8 53 DX DE 54 8 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 225.7E-12 IEE 3 10 DC 12.03E-6 HLIM 90 0 VLIM 1K Q1 11 102 13 QM1 Q2 12 101 14 QM2 RB1 2 102 400 RB2 1 101 400 DCM1 105 102 DX DCM2 105 101 DX VCMC 105 4 DC 0.4 R2 6 9 100.0E3 RC1 4 11 8.841E3 RC2 4 12 8.841E3 RE1 13 10 4.519E3 RE2 14 10 4.519E3 REE 10 99 16.63E6 RO1 8 5 80 RO2 7 99 25 IP 3 4 328E-6 VB 9 0 DC 0 VC 3 53 DC 1.610 VE 54 4 DC .61 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QM1 PNP (IS=8.000E-16 BF=6.623E+02) .MODEL QM2 PNP (IS=8.006E-16 BF=6.711E+02) .ENDS LT1006A *==================================================== * LT1006S8 * Linear Technology LT1006S8 op amp model * LT1006S8 updated from original model on 05-21-1990 * * Connections: + - V+V-O *LTC Sngl SnglSup Precision OpAmp pkg:SMD8A 3,2,7,4,6 .SUBCKT LT1006S8 1 2 3 4 5 * C1 11 12 8.661E-12 C2 6 7 30.00E-12 DC 8 53 DX DE 54 8 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 225.7E-12 IEE 3 10 DC 12.03E-6 HLIM 90 0 VLIM 1K Q1 11 102 13 QM1 Q2 12 101 14 QM2 RB1 2 102 400 RB2 1 101 400 DCM1 105 102 DX DCM2 105 101 DX VCMC 105 4 DC 0.4 R2 6 9 100.0E3 RC1 4 11 8.841E3 RC2 4 12 8.841E3 RE1 13 10 4.519E3 RE2 14 10 4.519E3 REE 10 99 16.63E6 RO1 8 5 80 RO2 7 99 25 IP 3 4 328E-6 VB 9 0 DC 0 VC 3 53 DC 1.610 VE 54 4 DC .61 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QM1 PNP (IS=8.000E-16 BF=5.955E+02) .MODEL QM2 PNP (IS=8.025E-16 BF=6.045E+02) .ENDS LT1006S8 *==================================================== * LT1007 * Linear Technology LT1007 op amp model (with calls for LT1007CS) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * LT1007 updated from original model on 05-21-1990 * Typical specs: * Ref. LT1007 data sheet, LTC 1990 databook p2-57 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1007 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 50 CXC1 91 90 500E-12 C2 8 98 4.000E-12 RXC2 8 98 4.00K CXC2 1 98 27.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.7857E+03) .MODEL QM2 NPN (IS=8.0062E-16 BF=4.1667E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1007 * *==================================================== * LT1007CS *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:SMD16B 5,4,13,6,12 .SUBCKT LT1007CS 3 2 7 4 6 X_LT1007CS 3 2 7 4 6 XLT1007 .ENDS LT1007CS *==================================================== * LT1007A * Linear Technology LT1007A op amp model * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * LT1007A updated from original model on 05-21-1990 * Typical specs: * Ref. LT1007A data sheet, LTC 1990 databook p2-57 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1007A 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 50 CXC1 91 90 500E-12 C2 8 98 4.000E-12 RXC2 8 98 4.00K CXC2 1 98 27.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.778E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=5.769E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1007A *==================================================== * LT1012 * Linear Technology LT1012 op amp model (with calls for LT1024) * Written: 09-05-1989 16:53:38 Type: Bipolar npn input, internal comp. * Typical specs: * Vos=1.0E-05, Ib=3.0E-11, Ios=2.0E-11, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.0E-01V/us, SR(-)=1.9E-01V/us, Av= 126 dB, CMMR= 132 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-12.5mA, Iq= 380uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl pA uV LoNoise OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1012 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 DDM1 2 3 DM2 DDM2 3 2 DM2 C1 80 90 5.460E-12 RE1 10 12 2.246E+02 RE2 11 12 2.246E+02 IEE 12 4 6.000E-06 RE 12 0 3.333E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.841E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.960E+02 * OUTPUT RO1 1 6 1.000E+02 RO2 1 0 9.000E+02 RC 17 0 1.063E-04 GC 0 17 6 0 9.408E+03 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.785E+00 VE 14 4 1.785E+00 IP 7 4 3.740E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=7.500E+04) .MODEL QM2 NPN (IS=8.003E-16 BF=1.500E+05) .MODEL DM1 D (IS=1.179E-19) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1012 * *==================================================== * LT1024 *LTC Dual Matched pA uV LoNoise OpAmp pkg:DIP14 (A:4,3,14,12,13)(B:11,10,7,5,6) .SUBCKT LT1024 3 2 7 4 6 X_LT1024 3 2 7 4 6 XLT1012 .ENDS LT1024 *==================================================== * LT1012A * Linear Technology LT1012A op amp model (with calls for LT1024A) * Written: 09-05-1989 16:53:38 Type: Bipolar npn input, internal comp. * LT1012A updated from original model on 06-20-1990 * Typical specs: * Vos=8.0E-06, Ib=2.5E-11, Ios=1.5E-11, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.0E-01V/us, SR(-)=1.9E-01V/us, Av= 126 dB, CMMR= 132 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-12.5mA, Iq= 380uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl pA uV LoNoise OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1012A 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 DDM1 2 3 DM2 DDM2 3 2 DM2 C1 80 90 5.460E-12 RE1 10 12 2.246E+02 RE2 11 12 2.246E+02 IEE 12 4 6.000E-06 RE 12 0 3.333E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.841E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.960E+02 * OUTPUT RO1 1 6 1.000E+02 RO2 1 0 9.000E+02 RC 17 0 1.063E-04 GC 0 17 6 0 9.408E+03 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.785E+00 VE 14 4 1.785E+00 IP 7 4 3.740E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=9.231E+04) .MODEL QM2 NPN (IS=8.002E-16 BF=1.714E+05) .MODEL DM1 D (IS=1.179E-19) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1012A * *==================================================== * LT1024A *LTC Dual Matched pA uV LoNoise OpAmp pkg:DIP14 (A:4,3,14,12,13)(B:11,10,7,5,6) .SUBCKT LT1024A 3 2 7 4 6 X_LT1024A 3 2 7 4 6 XLT1012A .ENDS LT1024A *==================================================== * LT1012D * Linear Technology LT1012D op amp model * Written: 09-05-1989 16:53:38 Type: Bipolar npn input, internal comp. * LT1012D updated from original model on 06-20-1990 * Typical specs: * Vos=1.2E-05, Ib=3.0E-11, Ios=2.0E-11, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.0E-01V/us, SR(-)=1.9E-01V/us, Av= 126 dB, CMMR= 132 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-12.5mA, Iq= 380uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl pA uV LoNoise OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1012D 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 DDM1 2 3 DM2 DDM2 3 2 DM2 C1 80 90 5.460E-12 RE1 10 12 2.246E+02 RE2 11 12 2.246E+02 IEE 12 4 6.000E-06 RE 12 0 3.333E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.841E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.960E+02 * OUTPUT RO1 1 6 1.000E+02 RO2 1 0 9.000E+02 RC 17 0 1.063E-04 GC 0 17 6 0 9.408E+03 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.785E+00 VE 14 4 1.785E+00 IP 7 4 3.740E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=7.500E+04) .MODEL QM2 NPN (IS=8.004E-16 BF=1.500E+05) .MODEL DM1 D (IS=1.179E-19) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1012D *==================================================== * LT1012S8 * Linear Technology LT1012S8 op amp model * Written: 09-05-1989 16:53:38 Type: Bipolar npn input, internal comp. * LT1012S8 updated from original model on 06-20-1990 * Typical specs: * Vos=1.5E-05, Ib=8.0E-11, Ios=5.0E-11, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.0E-01V/us, SR(-)=1.9E-01V/us, Av= 126 dB, CMMR= 132 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-12.5mA, Iq= 380uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl pA uV LoNoise OpAmp pkg:SMD8A 3,2,7,4,6 .SUBCKT LT1012S8 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 DDM1 2 3 DM2 DDM2 3 2 DM2 C1 80 90 5.460E-12 RE1 10 12 2.246E+02 RE2 11 12 2.246E+02 IEE 12 4 6.000E-06 RE 12 0 3.333E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.841E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.960E+02 * OUTPUT RO1 1 6 1.000E+02 RO2 1 0 9.000E+02 RC 17 0 1.063E-04 GC 0 17 6 0 9.408E+03 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.785E+00 VE 14 4 1.785E+00 IP 7 4 3.740E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.857E+04) .MODEL QM2 NPN (IS=8.005E-16 BF=5.455E+04) .MODEL DM1 D (IS=1.179E-19) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1012S8 *==================================================== * LT1013 * Linear Technology LT1013 op amp model (with calls for LT1014) * May 1988: LT1013, LT1014 * Simultaneous release of LT1013/1014 via LTC design note, * and within MicroSim PSPICE v3.07 "OPNOM.LIB" wgj * LT1013 updated from original model on 05-22-1990 * *--------------------------------------------------------------- * This more complete macromodel has been adapted from the Parts * generated LT1013/LT1014 model. This version features closer * fidelity to the real part, with input common-mode clamping, and * compensated output clamping. It can be used for large signal * and/or single supply applications, where the inputs can * potentially be overdriven. Since it uses more active devices, * it may run more slowly than will a conventional macromodel. * * connections: non-inverting input * | inverting input * | | positive power supply * | | | negative power supply * | | | | output * | | | | | *LTC Dual SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1013 1 2 3 4 5 * C1 11 12 8.661E-12 C2 6 7 30.00E-12 DC 8 53 DX DE 54 8 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 225.7E-12 IEE 3 10 DC 12.03E-6 HLIM 90 0 VLIM 1K Q1 11 102 13 QM1 Q2 12 101 14 QM2 RB1 2 102 400 RB2 1 101 400 DCM1 105 102 DX DCM2 105 101 DX VCMC 105 4 DC 0.4 R2 6 9 100.0E3 RC1 4 11 8.841E3 RC2 4 12 8.841E3 RE1 13 10 4.519E3 RE2 14 10 4.519E3 REE 10 99 16.63E6 RO1 8 5 80 RO2 7 99 25 IP 3 4 328E-6 VB 9 0 DC 0 VC 3 53 DC 1.610 VE 54 4 DC .61 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QM1 PNP (IS=8.000E-16 BF=3.974E+02) .MODEL QM2 PNP (IS=8.019E-16 BF=4.027E+02) .ENDS LT1013 *==================================================== *LT1014 *--------------------------------------------------------------- * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | *LTC Quad SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1014 1 2 3 4 5 X_LT1014 1 2 3 4 5 XLT1013 .ENDS LT1014 *==================================================== * LT1013A * Linear Technology LT1013A op amp model (with calls for LT1014A) * LT1013A updated from original model on 05-18-1990 * * Connections: + - V+V-O *LTC Dual SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1013A 1 2 3 4 5 * C1 11 12 8.661E-12 C2 6 7 30.00E-12 DC 8 53 DX DE 54 8 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 225.7E-12 IEE 3 10 DC 12.03E-6 HLIM 90 0 VLIM 1K Q1 11 102 13 QM1 Q2 12 101 14 QM2 RB1 2 102 400 RB2 1 101 400 DCM1 105 102 DX DCM2 105 101 DX VCMC 105 4 DC 0.4 R2 6 9 100.0E3 RC1 4 11 8.841E3 RC2 4 12 8.841E3 RE1 13 10 4.519E3 RE2 14 10 4.519E3 REE 10 99 16.63E6 RO1 8 5 80 RO2 7 99 25 IP 3 4 328E-6 VB 9 0 DC 0 VC 3 53 DC 1.610 VE 54 4 DC .61 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QM1 PNP (IS=8.000E-16 BF=4.969E+02) .MODEL QM2 PNP (IS=8.012E-16 BF=5.031E+02) .ENDS LT1013A * *==================================================== * LT1014A * CONNECTIONS: + - V+V-O *LTC Quad SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1014A 1 2 3 4 5 X_LT1014A 1 2 3 4 5 XLT1013A .ENDS LT1014A *==================================================== * LT1013D * Linear Technology LT1013D op amp model (with calls for LT1014D) * LT1013D updated from original model on 05-18-1990 * * Connections: + - V+V-O *LTC Dual SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1013D 1 2 3 4 5 * C1 11 12 8.661E-12 C2 6 7 30.00E-12 DC 8 53 DX DE 54 8 DX DLP 90 91 DX DLN 92 90 DX DP 4 3 DX EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5 FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 113.1E-6 GCM 0 6 10 99 225.7E-12 IEE 3 10 DC 12.03E-6 HLIM 90 0 VLIM 1K Q1 11 102 13 QM1 Q2 12 101 14 QM2 RB1 2 102 400 RB2 1 101 400 DCM1 105 102 DX DCM2 105 101 DX VCMC 105 4 DC 0.4 R2 6 9 100.0E3 RC1 4 11 8.841E3 RC2 4 12 8.841E3 RE1 13 10 4.519E3 RE2 14 10 4.519E3 REE 10 99 16.63E6 RO1 8 5 80 RO2 7 99 25 IP 3 4 328E-6 VB 9 0 DC 0 VC 3 53 DC 1.610 VE 54 4 DC .61 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL QM1 PNP (IS=8.000E-16 BF=3.974E+02) .MODEL QM2 PNP (IS=8.062E-16 BF=4.027E+02) .ENDS LT1013D * *==================================================== * CONNECTIONS: + - V+V-O *LTC Quad SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1014D 1 2 3 4 5 * X_LT1014D 1 2 3 4 5 XLT1013D .ENDS LT1014D *==================================================== * LT1022 * Linear Technology LT1022 op amp model * Written: 05-10-1990 15:08:03 Type: PFET input, internal comp. * Typical specs: * Vos=1.0E-04, Ib=1.0E-11, Ios=2.0E-12, GBP=8.0E+06Hz, Phase mar.= 45 deg, * SR(low)=2.5E+01V/us, SR(high)=5.0E+01V/us, Av=112.0dB, CMRR= 92.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1022 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 6.6315E+02 RD2 40 90 6.6315E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 1.0000E-03 GOSIT 7 12 90 80 5.0000E-04 * INTERMEDIATE GCM 0 8 12 0 3.7878E-08 GA 8 0 80 90 1.5080E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 5.3878E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7891E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9759E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9759E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.2000E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.1000E-11 BETA=1.1370E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=9.0000E-12 BETA=1.1370E-03 VTO=-9.999000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1022 *==================================================== * LT1022A * Linear Technology LT1022A op amp model * Written: 05-10-1990 15:06:43 Type: PFET input, internal comp. * Typical specs: * Vos=8.0E-05, Ib=1.0E-11, Ios=2.0E-12, GBP=8.0E+06Hz, Phase mar.= 45 deg, * SR(low)=2.5E+01V/us, SR(high)=5.0E+01V/us, Av=112.0dB, CMRR= 94.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:CAN8 3,2,7,4,6 .SUBCKT LT1022A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 6.6315E+02 RD2 40 90 6.6315E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 1.0000E-03 GOSIT 7 12 90 80 5.0000E-04 * INTERMEDIATE GCM 0 8 12 0 3.0088E-08 GA 8 0 80 90 1.5080E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 5.3878E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7891E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9759E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9759E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.2000E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.1000E-11 BETA=1.1370E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=9.0000E-12 BETA=1.1370E-03 VTO=-9.999200E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1022A *==================================================== * LT1028 * Linear Technology LT1028 op amp model (with calls for LT1028CS) * Written: 11-28-1989 Type: Bipolar npn input, internal comp. * LT1028 updated from original model on 05-22-1990 * Typical specs: * Ref. LT1028 data sheet, LTC 1990 databook p2-161 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl UltraLoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1028 3 2 7 4 6 RC1 7 80 7.0736E+01 RC2 7 90 7.0736E+01 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 750E-12 RXC1 91 90 50 CXC1 91 90 400E-12 C2 1 98 30.000E-12 RXC2 98 8 1K CXC2 98 8 10.000E-12 * CIN 2 3 15E-12 RIN 2 3 2E4 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -4.4157E+01 RE2 11 12 -4.4157E+01 IEE 12 4 4.5006E-04 RE 12 0 4.4439E+05 CE 12 0 1.5789E-12 GCM 0 8 12 0 7.0854E-09 GA 8 0 80 90 1.4137E-02 R2 8 0 1.0000E+05 GB 1 0 8 0 2.6731E+02 RO2 1 0 7.9000E+01 * RS 1 6 1 ECL 18 0 1 6 2.7910E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.6394 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.6394 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 7.450E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=5.7692E+03) .MODEL QM2 NPN (IS=8.0062E-16 BF=1.0714E+04) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1028 * *==================================================== * LT1028CS *LTC Sngl UltraLoNoise HiSpeed Precision OpAmp pkg:SMD16B 5,4,13,6,12 .SUBCKT LT1028CS 3 2 7 4 6 X_LT1028CS 3 2 7 4 6 XLT1028 .ENDS LT1028CS *==================================================== * LT1028A * Linear Technology LT1028A op amp model * Written: 11-28-1989 Type: Bipolar npn input, internal comp. * LT1028A updated from original model on 05-22-1990 * Typical specs: * Ref. LT1028A data sheet, LTC 1990 databook p2-161 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl UltraLoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1028A 3 2 7 4 6 RC1 7 80 7.0736E+01 RC2 7 90 7.0736E+01 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 750E-12 RXC1 91 90 50 CXC1 91 90 400E-12 C2 1 98 30.000E-12 RXC2 98 8 1K CXC2 98 8 10.000E-12 * CIN 2 3 15E-12 RIN 2 3 2E4 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -4.4157E+01 RE2 11 12 -4.4157E+01 IEE 12 4 4.5006E-04 RE 12 0 4.4439E+05 CE 12 0 1.5789E-12 GCM 0 8 12 0 7.0854E-09 GA 8 0 80 90 1.4137E-02 R2 8 0 1.0000E+05 GB 1 0 8 0 2.6731E+02 RO2 1 0 7.9000E+01 * RS 1 6 1 ECL 18 0 1 6 2.7910E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.6394 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.6394 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 7.450E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=7.258E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=1.184E+04) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1028A *==================================================== * LT1037 * Linear Technology LT1037 op amp model (with calls for LT1037CS) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * LT1037 updated from original model on 05-21-1990 * Typical specs: * Ref. LT1037 data sheet, LTC 1990 databook p2-57 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1037 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 200 CXC1 91 90 200E-12 C2 8 98 1.000E-12 RXC2 8 98 10.00K CXC2 1 98 5.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.7857E+03) .MODEL QM2 NPN (IS=8.0062E-16 BF=4.1667E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1037 * *==================================================== * LT1037CS *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:SMD16B 5,4,13,6,12 .SUBCKT LT1037CS 3 2 7 4 6 X_LT1037CS 3 2 7 4 6 XLT1037 .ENDS LT1037CS *==================================================== * LT1037A * Linear Technology LT1037A op amp model * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * LT1037A updated from original model on 05-21-1990 * Typical specs: * Ref. LT1037A data sheet, LTC 1990 databook p2-57 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1037A 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 200 CXC1 91 90 200E-12 C2 8 98 1.000E-12 RXC2 8 98 10.00K CXC2 1 98 5.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.778E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=5.769E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1037A *==================================================== * LT1055 * Linear Technology LT1055 op amp model * Written: 05-10-1990 16:19:03 Type: PFET input, internal comp. * Typical specs: * Vos=1.2E-04, Ib=1.0E-11, Ios=2.0E-12, GBP=4.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.2E+01V/us, SR(high)=2.4E+01V/us, Av=112.0dB, CMRR= 98.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 3mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:CAN8 3,2,7,4,6 .SUBCKT LT1055 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.1789E+03 RD2 40 90 1.1789E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.8000E-04 GOSIT 7 12 90 80 2.4000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0679E-08 GA 8 0 80 90 8.4823E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 9.5783E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7241E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9552E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9552E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 2.3200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.1000E-11 BETA=7.4947E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=9.0000E-12 BETA=7.4947E-04 VTO=-9.998800E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1055 *==================================================== * LT1055A * Linear Technology LT1055A op amp model * Written: 05-10-1990 16:21:30 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-05, Ib=1.0E-11, Ios=2.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.3E+01V/us, SR(high)=2.6E+01V/us, Av=112.0dB, CMRR=100.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 3mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:CAN8 3,2,7,4,6 .SUBCKT LT1055A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.2000E-04 GOSIT 7 12 90 80 2.6000E-04 * INTERMEDIATE GCM 0 8 12 0 9.4248E-09 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 8.6205E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7312E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9575E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9575E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 2.2800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.1000E-11 BETA=8.5410E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=9.0000E-12 BETA=8.5410E-04 VTO=-9.999500E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1055A *==================================================== * LT1055S8 * Linear Technology LT1055S8 op amp model * Written: 05-10-1990 16:24:02 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-04, Ib=3.0E-11, Ios=5.0E-12, GBP=4.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.2E+01V/us, SR(high)=2.4E+01V/us, Av=112.0dB, CMRR= 98.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 3mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:SMD8A 3,2,7,4,6 .SUBCKT LT1055S8 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.1789E+03 RD2 40 90 1.1789E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.8000E-04 GOSIT 7 12 90 80 2.4000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0679E-08 GA 8 0 80 90 8.4823E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 9.5783E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7241E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9552E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9552E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 2.3200E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.2500E-11 BETA=7.4947E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.7500E-11 BETA=7.4947E-04 VTO=-9.995000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1055S8 *==================================================== * LT1056 * Linear Technology LT1056 op amp model * Written: 05-10-1990 16:35:45 Type: PFET input, internal comp. * Typical specs: * Vos=1.4E-04, Ib=1.0E-11, Ios=2.0E-12, GBP=5.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.4E+01V/us, SR(high)=2.8E+01V/us, Av=112.0dB, CMRR= 98.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:CAN8 3,2,7,4,6 .SUBCKT LT1056 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.6458E+02 RD2 40 90 9.6458E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.6000E-04 GOSIT 7 12 90 80 2.8000E-04 * INTERMEDIATE GCM 0 8 12 0 1.3052E-08 GA 8 0 80 90 1.0367E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 7.8368E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7377E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9595E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9595E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.4400E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.1000E-11 BETA=9.5964E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=9.0000E-12 BETA=9.5964E-04 VTO=-9.998600E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1056 *==================================================== * LT1056A * Linear Technology LT1056A op amp model * Written: 05-10-1990 16:37:17 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-05, Ib=1.0E-11, Ios=2.0E-12, GBP=6.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.6E+01V/us, SR(high)=3.2E+01V/us, Av=112.0dB, CMRR=100.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:CAN8 3,2,7,4,6 .SUBCKT LT1056A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 8.1618E+02 RD2 40 90 8.1618E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 6.4000E-04 GOSIT 7 12 90 80 3.2000E-04 * INTERMEDIATE GCM 0 8 12 0 1.2252E-08 GA 8 0 80 90 1.2252E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 6.6312E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7495E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9633E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9633E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.3600E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.1000E-11 BETA=1.1728E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=9.0000E-12 BETA=1.1728E-03 VTO=-9.999500E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1056A *==================================================== * LT1056S8 * Linear Technology LT1056S8 op amp model * Written: 05-10-1990 17:54:40 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-04, Ib=3.0E-11, Ios=5.0E-12, GBP=5.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.4E+01V/us, SR(high)=2.8E+01V/us, Av=112.0dB, CMRR= 98.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-30mA, Rout= 50ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpeed Precision JFET OpAmp pkg:SMD8A 3,2,7,4,6 .SUBCKT LT1056S8 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.6458E+02 RD2 40 90 9.6458E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.6000E-04 GOSIT 7 12 90 80 2.8000E-04 * INTERMEDIATE GCM 0 8 12 0 1.3052E-08 GA 8 0 80 90 1.0367E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 7.8368E+01 RO2 1 0 4.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7377E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9595E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9595E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.4400E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=3.2500E-11 BETA=9.5964E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=2.7500E-11 BETA=9.5964E-04 VTO=-9.995000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1056S8 *==================================================== * LT1057 * Linear Technology LT1057 op amp model (with calls for LT1058) * Written: 05-10-1990 17:58:23 Type: PFET input, internal comp. * Typical specs: * Vos=2.0E-04, Ib=7.0E-12, Ios=4.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.3E+01V/us, SR(high)=2.6E+01V/us, Av=110.0dB, CMRR= 98.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual HiSpeed Precision JFET OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1057 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.2000E-04 GOSIT 7 12 90 80 2.6000E-04 * INTERMEDIATE GCM 0 8 12 0 1.1865E-08 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.3892E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0774E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9575E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9575E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.1800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=9.0000E-12 BETA=8.5410E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=5.0000E-12 BETA=8.5410E-04 VTO=-9.998000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1057 * *==================================================== * LT1058 *LTC Quad HiSpeed Precision JFET OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1058 3 2 7 4 6 X_LT1058 3 2 7 4 6 XLT1057 .ENDS LT1058 *==================================================== * LT1057A * Linear Technology LT1057A op amp model (with calls for LT1058A) * Written: 05-10-1990 18:03:20 Type: PFET input, internal comp. * Typical specs: * Vos=1.5E-04, Ib=5.0E-12, Ios=3.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.4E+01V/us, SR(high)=2.8E+01V/us, Av=111.0dB, CMRR=100.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual HiSpeed Precision JFET OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1057A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.6000E-04 GOSIT 7 12 90 80 2.8000E-04 * INTERMEDIATE GCM 0 8 12 0 9.4248E-09 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.8027E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0852E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9595E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9595E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.0400E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=6.5000E-12 BETA=7.9309E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=3.5000E-12 BETA=7.9309E-04 VTO=-9.998500E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1057A * *==================================================== * LT1058A *LTC Quad HiSpeed Precision JFET OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1058A 3 2 7 4 6 X_LT1058A 3 2 7 4 6 XLT1057A .ENDS LT1058A *==================================================== * LT1057S * Linear Technology LT1057S op amp model * Written: 05-10-1990 18:05:04 Type: PFET input, internal comp. * Typical specs: * Vos=3.0E-04, Ib=1.0E-11, Ios=5.0E-12, GBP=5.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.3E+01V/us, SR(high)=2.6E+01V/us, Av=110.0dB, CMRR= 98.0dB, * Vsat(+)=1.8V, Vsat(-)=1.8V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual HiSpeed Precision JFET OpAmp pkg:SMD16B (A:5,4,14,6,3)(B:11,12,14,6,13) .SUBCKT LT1057S 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 1.0610E+03 RD2 40 90 1.0610E+03 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.2000E-04 GOSIT 7 12 90 80 2.6000E-04 * INTERMEDIATE GCM 0 8 12 0 1.1865E-08 GA 8 0 80 90 9.4248E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.3892E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0774E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.9575E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.9575E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.1800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=1.2500E-11 BETA=8.5410E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=7.5000E-12 BETA=8.5410E-04 VTO=-9.997000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1057S *==================================================== * LT1078 * Linear Technology LT1078 op amp model (with calls for LT1079, LT1077) * Written: 06-20-1990 13:27:10 Type: Bipolar pnp input, internal comp. * Typical specs: * Vos=4.0E-05, Ib=6.0E-09, Ios=5.0E-11, GBP=2.0E+05Hz, Phase mar.= 60 deg, * SR(-)=8.0E-02V/us, SR(+)=7.6E-02V/us, Av= 120 dB, CMMR= 108 dB, * Vsat(+)=0.70V, Vsat(-)=0.00V, Isc=+/-15.0mA, Iq= 45uA. * (input common mode clamp active) * * Connections: + - V+V-O *LTC Dual uPwr SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1078 3 2 7 4 6 * INPUT RC1 4 80 2.653E+04 RC2 4 90 2.653E+04 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 6.000E+02 RB2 3 103 6.000E+02 DCM1 105 102 DM2 DCM2 105 103 DM2 VCMC 105 4 4.000E-01 C1 80 90 8.660E-12 RE1 10 12 4.958E+03 RE2 11 12 4.958E+03 IEE 7 12 2.412E-06 RE 12 0 8.292E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 1.501E-10 GA 8 0 80 90 3.770E-05 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 2.449E+02 * OUTPUT RO1 1 110 1.000E+02 RO2A 1 0 1.083E+03 RO2B 6 110 8.170E+02 EC 17 0 110 0 1 D1 1 17 DM1 D2 17 1 DM1 D3 110 13 DM2 D4 14 110 DM2 D5 6 110 DM2 D6 110 6 DM2 VC 7 13 1.490E+00 VE 14 4 7.911E-01 IP 7 4 4.259E-05 DSUB 4 7 DM2 * MODELS .MODEL QM1 PNP (IS=8.000E-16 BF=1.992E+02) .MODEL QM2 PNP (IS=8.012E-16 BF=2.008E+02) .MODEL DM1 D (IS=3.718E-24) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1078 * *==================================================== * LT1079 *LTC Quad uPwr SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1079 3 2 7 4 6 X_LT1079 3 2 7 4 6 XLT1078 .ENDS LT1079 * *==================================================== * LT1077 *LTC Sngl uPwr SnglSup Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1077 3 2 7 4 6 X_LT1077 3 2 7 4 6 XLT1078 .ENDS LT1077 *==================================================== * LT1078A * Linear Technology LT1078A op amp model (with calls for LT1079A) * Written: 06-20-1990 13:27:10 Type: Bipolar pnp input, internal comp. * Typical specs: * Vos=3.0E-05, Ib=6.0E-09, Ios=5.0E-11, GBP=2.0E+05Hz, Phase mar.= 60 deg, * SR(-)=8.0E-02V/us, SR(+)=7.6E-02V/us, Av= 120 dB, CMMR= 108 dB, * Vsat(+)=0.70V, Vsat(-)=0.00V, Isc=+/-15.0mA, Iq= 45uA. * (input common mode clamp active) * * Connections: + - V+V-O *LTC Dual uPwr SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1078A 3 2 7 4 6 * INPUT RC1 4 80 2.653E+04 RC2 4 90 2.653E+04 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 6.000E+02 RB2 3 103 6.000E+02 DCM1 105 102 DM2 DCM2 105 103 DM2 VCMC 105 4 4.000E-01 C1 80 90 8.660E-12 RE1 10 12 4.958E+03 RE2 11 12 4.958E+03 IEE 7 12 2.412E-06 RE 12 0 8.292E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 1.501E-10 GA 8 0 80 90 3.770E-05 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 2.449E+02 * OUTPUT RO1 1 110 1.000E+02 RO2A 1 0 1.083E+03 RO2B 6 110 8.170E+02 EC 17 0 110 0 1 D1 1 17 DM1 D2 17 1 DM1 D3 110 13 DM2 D4 14 110 DM2 D5 6 110 DM2 D6 110 6 DM2 VC 7 13 1.490E+00 VE 14 4 7.911E-01 IP 7 4 4.259E-05 DSUB 4 7 DM2 * MODELS .MODEL QM1 PNP (IS=8.000E-16 BF=1.992E+02) .MODEL QM2 PNP (IS=8.009E-16 BF=2.008E+02) .MODEL DM1 D (IS=3.718E-24) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1078A * *==================================================== * LT1079A *LTC Quad uPwr SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1079A 3 2 7 4 6 X_LT1079A 3 2 7 4 6 XLT1078A .ENDS LT1079A *==================================================== * LT1097 * Linear Technology LT1097 op amp model * Written: 12-05-1989 Type: Bipolar npn input, internal comp. * Typical specs: * Vos=1.0E-05, Ib=5.0e-11, Ios=2.0E-11, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.0E-01V/us, SR(-)=1.9E-01V/us, Av= 126 dB, CMMR= 132 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-12.5mA, Iq= 380uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl LoCost LoPwr Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1097 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 DDM1 2 3 DM2 DDM2 3 2 DM2 C1 80 90 5.460E-12 RE1 10 12 2.246E+02 RE2 11 12 2.246E+02 IEE 12 4 6.000E-06 RE 12 0 3.333E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.841E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.960E+02 * OUTPUT RO1 1 6 1.000E+02 RO2 1 0 9.000E+02 RC 17 0 1.063E-04 GC 0 17 6 0 9.408E+03 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.785E+00 VE 14 4 1.785E+00 IP 7 4 3.740E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=5.000E+04) .MODEL QM2 NPN (IS=8.003E-16 BF=7.500E+05) .MODEL DM1 D (IS=1.179E-19) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1097 *==================================================== * LT1115 * Linear Technology LT1115 op amp model * Written: 11-28-1989 Type: Bipolar npn input, internal comp. * Typical specs: * Ref. LT1115 data sheet, LTC Dec 1989 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl UltraLoNoise LoDisto Audio OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1115 3 2 7 4 6 RC1 7 80 7.0736E+01 RC2 7 90 7.0736E+01 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 750E-12 RXC1 91 90 50 CXC1 91 90 400E-12 C2 1 98 30.000E-12 RXC2 98 8 1K CXC2 98 8 10.000E-12 * CIN 2 3 15E-12 RIN 2 3 2E4 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -4.4157E+01 RE2 11 12 -4.4157E+01 IEE 12 4 4.5006E-04 RE 12 0 4.4439E+05 CE 12 0 1.5789E-12 GCM 0 8 12 0 7.0854E-09 GA 8 0 80 90 1.4137E-02 R2 8 0 1.0000E+05 GB 1 0 8 0 2.6731E+02 RO2 1 0 7.9000E+01 * RS 1 6 1 ECL 18 0 1 6 2.7910E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.6394 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.6394 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 7.450E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=3.4615E+03) .MODEL QM2 NPN (IS=8.0155E-16 BF=6.4286E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT1115 *==================================================== * LT1122 * Linear Technology LT1122 op amp model * Written: 09-18-1990 10:15:55 Type: PFET input, internal comp. * Typical specs: * Vos=6.0E-04, Ib=2.7E-11, Ios=5.0E-12, GBP=1.5E+07Hz, Phase mar.= 57 deg, * SR(-)=7.5E+01V/us, SR(+)=7.5E+01V/us, Av=112.0dB, CMRR= 98.0dB, * Vsat(+)=2.5V, Vsat(-)=1.0V, Isc=+/-40mA, Rout= 40ohms, Iq= 7mA. * * Connections: + - V+V-O *LTC Sngl FastSettling JFET OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1122 3 2 7 4 6 * INPUT RD1 4 80 3.5368E+02 RD2 4 90 3.5368E+02 J1 80 2 12 JM1 J2 90 3 12 JM2 CIN 2 3 4.0000E-12 C1 80 90 9.7411E-12 ISS 7 12 2.2500E-03 * INTERMEDIATE GCM 0 8 12 0 3.5595E-08 GA 8 0 80 90 2.8274E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.6103E+01 RO2 1 0 3.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.3974E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.6997E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.1997E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.7500E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.9500E-11 BETA=1.7765E-03 VTO=-2.000000E+00) .MODEL JM2 PJF (IS=2.4500E-11 BETA=1.7765E-03 VTO=-1.999400E+00) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS LT1122 *==================================================== * LT1178 * Linear Technology LT1178 op amp model (with calls for LT1179) * Written: 06-20-1990 13:19:00 Type: Bipolar pnp input, internal comp. * Typical specs: * Vos=4.0E-05, Ib=3.0E-09, Ios=5.0E-11, GBP=6.0E+04Hz, Phase mar.= 60 deg, * SR(-)=2.5E-02V/us, SR(+)=2.4E-02V/us, Av= 117 dB, CMMR= 102 dB, * Vsat(+)=0.70V, Vsat(-)=0.00V, Isc=+/-10.0mA, Iq= 15uA. * (input common mode clamp active) * * Connections: + - V+V-O *LTC Dual 17uAMax SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1178 3 2 7 4 6 * INPUT RC1 4 80 8.842E+04 RC2 4 90 8.842E+04 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 6.000E+02 RB2 3 103 6.000E+02 DCM1 105 102 DM2 DCM2 105 103 DM2 VCMC 105 4 4.000E-01 C1 80 90 8.660E-12 RE1 10 12 1.933E+04 RE2 11 12 1.933E+04 IEE 7 12 7.560E-07 RE 12 0 2.646E+08 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 8.984E-11 GA 8 0 80 90 1.131E-05 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 5.780E+02 * OUTPUT RO1 1 110 1.000E+02 RO2A 1 0 1.083E+03 RO2B 6 110 8.170E+02 EC 17 0 110 0 1 D1 1 17 DM1 D2 17 1 DM1 D3 110 13 DM2 D4 14 110 DM2 D5 6 110 DM2 D6 110 6 DM2 VC 7 13 1.480E+00 VE 14 4 7.806E-01 IP 7 4 1.424E-05 DSUB 4 7 DM2 * MODELS .MODEL QM1 PNP (IS=8.000E-16 BF=1.240E+02) .MODEL QM2 PNP (IS=8.012E-16 BF=1.261E+02) .MODEL DM1 D (IS=6.881E-16) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1178 * *==================================================== *LT1179 *LTC Quad 17uAMax SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1179 3 2 7 4 6 X_LT1179 3 2 7 4 6 XLT1178 .ENDS LT1179 *==================================================== * LT1178A * Linear Technology LT1178A op amp model (with calls for LT1179A) * Written: 06-20-1990 13:19:00 Type: Bipolar pnp input, internal comp. * Typical specs: * Vos=3.0E-05, Ib=3.0E-09, Ios=5.0E-11, GBP=6.0E+04Hz, Phase mar.= 60 deg, * SR(-)=2.5E-02V/us, SR(+)=2.4E-02V/us, Av= 117 dB, CMMR= 102 dB, * Vsat(+)=0.70V, Vsat(-)=0.00V, Isc=+/-10.0mA, Iq= 15uA. * (input common mode clamp active) * * Connections: + - V+V-O *LTC Dual 17uAMax SnglSup Precision OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1178A 3 2 7 4 6 * INPUT RC1 4 80 8.842E+04 RC2 4 90 8.842E+04 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 6.000E+02 RB2 3 103 6.000E+02 DCM1 105 102 DM2 DCM2 105 103 DM2 VCMC 105 4 4.000E-01 C1 80 90 8.660E-12 RE1 10 12 1.933E+04 RE2 11 12 1.933E+04 IEE 7 12 7.560E-07 RE 12 0 2.646E+08 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 8.984E-11 GA 8 0 80 90 1.131E-05 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 5.780E+02 * OUTPUT RO1 1 110 1.000E+02 RO2A 1 0 1.083E+03 RO2B 6 110 8.170E+02 EC 17 0 110 0 1 D1 1 17 DM1 D2 17 1 DM1 D3 110 13 DM2 D4 14 110 DM2 D5 6 110 DM2 D6 110 6 DM2 VC 7 13 1.480E+00 VE 14 4 7.806E-01 IP 7 4 1.424E-05 DSUB 4 7 DM2 * MODELS .MODEL QM1 PNP (IS=8.000E-16 BF=1.240E+02) .MODEL QM2 PNP (IS=8.009E-16 BF=1.261E+02) .MODEL DM1 D (IS=6.881E-16) .MODEL DM2 D (IS=8.000E-16) .ENDS LT1178A * *==================================================== * LT1179A *LTC Quad 17uAMax SnglSup Precision OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1179A 3 2 7 4 6 X_LT1179A 3 2 7 4 6 XLT1178A .ENDS LT1179A *==================================================== * LT118A * Linear Technology LT118A op amp model (with calls for LT318A) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * LT118A updated from original model on 05-22-1990 * Typical specs: * Ref. LT118A/LT318A data sheet, LTC 1990 databook p2-311 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT118A 3 2 7 4 6 * INPUT RC1 7 80 7.074E+02 RC2 7 90 7.074E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM1 * C1 80 91 300E-12 RXC1 91 90 1E3 CXC1 91 90 15E-12 C2 1 8 5.000E-12 * RB1 2 102 1.0000E+00 RB2 3 103 1.0000E+00 DDM1 102 104 DM2 VZ1 104 103 5.5 DDM2 103 105 DM2 VZ2 105 102 5.5 RE1 10 12 6.209E+02 RE2 11 12 6.209E+02 IEE 12 4 6.000E-04 RE 12 0 3.332E+05 CE 12 0 2.632E-13 * GCM 0 8 12 0 1.414E-08 GA 8 0 80 90 1.414E-03 R2 8 0 1.000E+05 GB 1 0 8 0 5.318E+01 RO2 1 0 7.4000E+01 * RS 1 6 1 ECL 18 0 1 6 3.172E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.6473 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.6473 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 4.400E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.439E+03) .MODEL QM2 NPN (IS=8.157E-16 BF=2.564E+03) * .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS LT118A * *==================================================== * LT318A *LTC Sngl HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT318A 3 2 7 4 6 X_LT318A 3 2 7 4 6 XLT118A .ENDS LT318A *==================================================== * LT1190 * Linear Technology LT1190 op amp model * Written: 11-19-1992 10:39:56 Type: Bipolar NPN input, internal comp. * Typical specs: * Vos=3.0E-03, Ib=5.0E-07, Ios=2.0E-07, GBP=5.0E+07Hz, Phase mar.= 75 deg, * SR(-)=4.5E+02V/us, SR(+)=4.5E+02V/us, Av= 80.0dB, CMRR= 70.0dB, * Vsat(+)=1.000V, Vsat(-)=0.500V, Isc=+85/-%100mA, Rout= 3ohms, Iq=%32.00mA. * * Connections: + - V+V-O *LTC Sngl UltraHiSpeed SnglSup OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1190 3 2 7 4 6 * INPUT RC1 7 80 9.6458E+01 RC2 7 90 9.6458E+01 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.2000E-12 C1 80 90 4.0192E-12 ***** CXC1 80 80A 10PF RXR1 80A 90 500 ***** RE1 10 12 9.3801E+01 RE2 11 12 9.3801E+01 IEE 12 4 1.9501E-02 RE 12 0 1.0256E+04 * INTERMEDIATE GCM 0 8 12 0 3.2784E-06 GA 8 0 80 90 1.0367E-02 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 6.4305E+00 RO2 1 0 1.5000E+00 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.2338E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 1.8507E-01 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.6107E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.1107E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.2499E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.6250E+04) .MODEL QM2 NPN (IS=8.9844E-16 BF=2.4375E+04) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=2.1600E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1190 *==================================================== * LT1191 * Linear Technology LT1191 op amp model * Written: 11-19-1992 11:47:41 Type: Bipolar NPN input, internal comp. * Typical specs: * Vos=1.0E-03, Ib=5.0E-07, Ios=2.0E-07, GBP=9.0E+07Hz, Phase mar.= 45 deg, * SR(-)=4.5E+02V/us, SR(+)=4.5E+02V/us, Av= 86.0dB, CMRR= 75.0dB, * Vsat(+)=1.000V, Vsat(-)=0.500V, Isc=+85/-%100mA, Rout= 3ohms, Iq=%32.00mA. * * Connections: + - V+V-O *LTC Sngl UltraHiSpeed SnglSup OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1191 3 2 7 4 6 * INPUT RC1 7 80 5.3052E+01 RC2 7 90 5.3052E+01 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 1.5000E-11 ***** CXC1 80 80A 10PF RXR1 80A 90 250 ***** RE1 10 12 5.0177E+01 RE2 11 12 5.0177E+01 IEE 12 4 1.8001E-02 RE 12 0 1.1110E+04 * INTERMEDIATE GCM 0 8 12 0 3.3520E-06 GA 8 0 80 90 1.8850E-02 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 7.0568E+00 RO2 1 0 1.5000E+00 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.2296E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 1.8444E-01 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.6057E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.1057E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.3999E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.5000E+04) .MODEL QM2 NPN (IS=8.3155E-16 BF=2.2500E+04) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=2.1600E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1191 *==================================================== * LT1192 * Linear Technology LT1192 op amp model * Written: 11-19-1992 17:05:43 Type: Bipolar NPN input, internal comp. * Typical specs: * Vos=2.0E-04, Ib=5.0E-07, Ios=2.0E-07, GBP=3.5E+08Hz, Phase mar.= 45 deg, * SR(-)=4.5E+02V/us, SR(+)=4.5E+02V/us, Av= 92.0dB, CMRR= 85.0dB, * Vsat(+)=1.000V, Vsat(-)=0.500V, Isc=+85/-%100mA, Rout= 3ohms, Iq=%32.00mA. * * Connections: + - V+V-O *LTC Sngl UltraHiSpeed SnglSup OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1192 3 2 7 4 6 * INPUT RC1 7 80 1.1789E+01 RC2 7 90 1.1789E+01 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 1.8000E-12 C1 80 90 5.5981E-11 RE1 10 12 8.6552E+00 RE2 11 12 8.6552E+00 IEE 12 4 1.6501E-02 RE 12 0 1.2120E+04 * INTERMEDIATE GCM 0 8 12 0 4.7699E-06 GA 8 0 80 90 8.4823E-02 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.1289E+00 RO2 1 0 1.5000E+00 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.2252E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 1.8378E-01 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.6003E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.1003E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.5499E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.3750E+04) .MODEL QM2 NPN (IS=8.0621E-16 BF=2.0625E+04) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=2.1600E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1192 *==================================================== * LT1195 * Linear Technology LT1195 op amp model * Written: 12-04-1992 13:36:14 Type: Bipolar NPN input, internal comp. * Typical specs: * Vos=3.0E-03, Ib=5.0E-07, Ios=2.0E-07, GBP=5.0E+07Hz, Phase mar.= 60 deg, * SR(-)=1.65E+02V/us, SR(+)=1.65E+02V/us, Av= 77.5dB, CMRR= 85.0dB, * Vsat(+)=1.000V, Vsat(-)=0.500V, Isc=+35/-35mA, Rout= 10ohms, Iq=%12.00mA. * * Connections: + - V+V-O *LTC Sngl LoPwr HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1195 3 2 7 4 6 *****LT1195 FRONT END***** RL1A 7 1A 500 RL2A 7 5A 500 CRL 1A 5A 6PF RE1A 9A 10A 1200 RCM 9A 0 10MEG I1 9A 4 DC 260UA I2 10A 4 DC 260UA Q1A 1A 3 9A MOD1 Q2A 5A 2 10A MOD2 .MODEL MOD1 NPN BF=500 IS=1.00E-16 .MODEL MOD2 NPN BF=550 IS=1.04E-16 ************************** * INPUT RC1 7 80 7.5788E+01 RC2 7 90 7.5788E+01 Q1 80 1A 10 QM1 Q2 90 5A 11 QM2 CIN 2 3 2.000E-12 C1 80 90 20.981E-12 RE1 10 12 6.8885E+01 RE2 11 12 6.8885E+01 IEE 12 4 7.5010E-03 *RE 12 0 2.6663E+04 * INTERMEDIATE GCM 0 8 12 0 7.4199E-07 GA 8 0 80 90 1.3195E-02 R2 8 0 1.0000E+05 C2 1 800 2.0000E-11 RXC2 800 8 800 GB 1 0 8 0 6.3148E-01 RO2 1 0 9.0000E+00 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.8915E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 0.0000E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 2.5586E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 2.0586E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 4.4990E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=6.2500E+03) .MODEL QM2 NPN (IS=8.9844E-16 BF=9.3750E+03) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=2.1600E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1195 *==================================================== * LT1200 * Linear Technology LT1200 op amp model * Written: 01-14-1993 11:05:54 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=5.0E-04, Ib=5.0E-07, Ios=5.0E-08, GBP=1.1E+07Hz, Phase mar.= 45 deg, * SR(-)=5.0E+01V/us, SR(+)=5.0E+01V/us, Av= 76.0dB, CMRR=100.0dB, * Vsat(+)=1.000V, Vsat(-)=1.300V, Isc=+20/-20mA, Rout= 95ohms, Iq=1.00mA. * * Connections: + - V+V-O *LTC Sngl LoPwr HiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1200 3 2 7 4 6 * INPUT RC1 7 80 4.5214E+03 RC2 7 90 4.5214E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 2.35E-12 *INPUT POLE AT 75MHZ RE1 10 12 4.1723E+03 RE2 11 12 4.1723E+03 IEE 12 4 1.6100E-04 RE 12 0 1.2422E+06 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 31.6MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 2.76PF FROM 3.2PF * GB POLARITY REVERSED GB=1/RO2 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GN1,GP1,GC1,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 2.2117E-09 GA 8 0 90 80 2.2117E-04 R2 8 0 31.6E+06 C2 8 0 2.67E-12 *POLE AT 75MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 2.12E-15 *POLE AT 150MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 1.06E-15 *POLE AT 150MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 1.06E-15 *ZERO AT 13MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 12.2E-03 *POLE AT 200MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 .796E-15 *POLE AT 750MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 .212E-15 * GB 0 1 78 0 10.5E-03 RO2 1 0 9.5000E+01 RF 8 99 12E+03 CF 99 6 2.5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 4.5269E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 0.0000E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.4313E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 2.7313E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 8.3900E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.5238E+02) .MODEL QM2 NPN (IS=8.1562E-16 BF=1.6842E+02) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1200 *==================================================== * LT1201 * Linear Technology LT1201 op amp model * Written: 01-14-1993 11:05:54 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=5.0E-04, Ib=5.0E-07, Ios=5.0E-08, GBP=1.1E+07Hz, Phase mar.= 45 deg, * SR(-)=5.0E+01V/us, SR(+)=5.0E+01V/us, Av= 76.0dB, CMRR=100.0dB, * Vsat(+)=1.000V, Vsat(-)=1.300V, Isc=+20/-20mA, Rout= 95ohms, Iq=1.00mA. * * Connections: + - V+V-O *LTC Dual 1mA 12MHz 50V/us OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1201 3 2 7 4 6 * INPUT RC1 7 80 4.5214E+03 RC2 7 90 4.5214E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 2.35E-12 *INPUT POLE AT 75MHZ RE1 10 12 4.1723E+03 RE2 11 12 4.1723E+03 IEE 12 4 1.6100E-04 RE 12 0 1.2422E+06 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 31.6MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 2.76PF FROM 3.2PF * GB POLARITY REVERSED GB=1/RO2 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GN1,GP1,GC1,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 2.2117E-09 GA 8 0 90 80 2.2117E-04 R2 8 0 31.6E+06 C2 8 0 2.67E-12 *POLE AT 75MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 2.12E-15 *POLE AT 150MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 1.06E-15 *POLE AT 150MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 1.06E-15 *ZERO AT 13MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 12.2E-03 *POLE AT 200MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 .796E-15 *POLE AT 750MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 .212E-15 * GB 0 1 78 0 10.5E-03 RO2 1 0 9.5000E+01 RF 8 99 12E+03 CF 99 6 2.5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 4.5269E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 0.0000E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.4313E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 2.7313E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 8.3900E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.5238E+02) .MODEL QM2 NPN (IS=8.1562E-16 BF=1.6842E+02) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1201 *==================================================== * LT1217 * Linear Technology LT1217 op amp model * Written: 01-22-1993. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Sngl LoPwr 10MHz CurrentFB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1217 3 2 7 4 6 * Q2A 4 3 10 QP 0.5 Q3A 11 10 200 QN Q4A 11 11 7 QP Q5A 9 11 7 QP Q6A 12 11 7 QP Q7A 4 9 12 QP Q8A 7 12 13 QN 10 RSCA 13 6 8 IBA 7 10 DC 40U * Q2B 7 3 110 QN 0.5 Q3B 111 110 200 QP Q4B 111 111 4 QN * Q5B 9 111 4 QN Q6B 112 111 4 QN Q7B 7 9 112 QN Q8B 4 112 113 QP 10 RSCB 6 113 8 IBB 110 4 DC 40U * RC 2 200 16 R9 9 0 5MEG D1 9 6 DC D2 6 9 DC * .MODEL DC D * .MODEL QN NPN (IS=160E-18 BF=170 ISC=40E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=2.1P VJC=0.62 MJC=0.44 +TF=500P * .MODEL QP PNP (IS=165E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=2.1P VJC=0.62 MJC=0.44 +TF=500P * .ENDS LT1217 * **-------LT1217-------** *==================================================== * LT1220 * Linear Technology LT1220 op amp model * Written: 2-01-1993 15:24:16 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=5.0E-04, Ib=1.0E-07, Ios=1.0E-07, GBP=45E+06Hz, Phase mar.= 50 deg Av=1, * SR(-)=250V/us, SR(+)=250V/us, Av= 94dB, CMRR=114dB, * Vsat(+)=2.00V, Vsat(-)=2.50V, Isc=+40/-40mA, Rout=50ohms, Iq=8.00mA. * * Connections: + - V+V-O *LTC Sngl VeryHiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1220 3 2 7 4 6 * INPUT RC1 7 80 1E+03 RC2 7 90 1E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 0.265E-12 *INPUT POLE AT 300MHZ RE1 10 12 848 RE2 11 12 848 IEE 12 4 1E-03 RE 12 0 2.3E+05 CE 12 0 .75E-12 *CE ADDED TO GIVE ASSYMETRICAL SLEW FOR NON-INVERTING GAINS * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 50MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.11PF FROM 3.54PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 1.8E-09 GA 8 0 90 80 1.0E-3 R2 8 0 47.7E+06 C2 8 0 3.51E-12 *POLE AT 180MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 0.885E-15 *POLE AT 180MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.885E-15 *POLE AT 240MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.663E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 360MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 .443E-15 *POLE AT 360MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 .443E-15 * GB 0 1 78 0 20.4E-03 RO2 1 0 49 RF 8 99 3200 CF 99 6 5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.3987E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 5.9605E-08 D2 20 21 DM1 VOD2 21 18 5.9605E-08 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.4909E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.9909E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 7E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0E-16 BF=10E+03) .MODEL QM2 NPN (IS=8.19E-16 BF=3.33E+03) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1220 * * - - - - - * FINI LT1220 * - - - - - * *==================================================== * LT1221 * Linear Technology LT1221 op amp model * Written: 2-01-1993 10:25:47 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=3.0E-04, Ib=1.0E-07, Ios=1.0E-07, GBP=150E+06Hz, Phase mar.= 60 deg Av=4, * SR(-)=250V/us, SR(+)=250V/us, Av= 100dB, CMRR=114dB, * Vsat(+)=2.00V, Vsat(-)=2.50V, Isc=+40/-40mA, Rout=50ohms, Iq=8.00mA. * * Connections: + - V+V-O *LTC Sngl VeryHiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1221 3 2 7 4 6 * INPUT RC1 7 80 1E+03 RC2 7 90 1E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 0.265E-12 *INPUT POLE AT 300MHZ RE1 10 12 218 RE2 11 12 218 * RE1, RE2 REDUCED VS LT1220 TO REFLECT HIGHER GM IEE 12 4 1E-03 RE 12 0 2.3E+05 CE 12 0 2E-12 *CE ADDED TO GIVE ASSYMETRICAL SLEW FOR NON-INVERTING GAINS * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 30MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.11PF FROM 3.54PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 7.2E-09 GA 8 0 90 80 1.0E-3 R2 8 0 28.4E+06 C2 8 0 3.51E-12 *POLE AT 180MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 0.885E-15 *POLE AT 180MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.885E-15 *POLE AT 180MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.885E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 360MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 .443E-15 *POLE AT 360MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 .443E-15 * GB 0 1 78 0 20.4E-03 RO2 1 0 49 RF 8 99 3200 CF 99 6 5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.3987E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 5.9605E-08 D2 20 21 DM1 VOD2 21 18 5.9605E-08 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.4909E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.9909E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 7E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0E-16 BF=10E+03) .MODEL QM2 NPN (IS=8.1E-16 BF=3.33E+03) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1221 * * - - - - - * fini LT1221 * - - - - - * *==================================================== * LT1223 * Linear Technology LT1223 op amp model * Written: 12-08-1992. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Sngl 100MHz CurrentFB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1223 3 2 7 4 6 * Q2A 4 3 10 QP 0.5 Q3A 11 10 200 QN Q4A 11 11 7 QP Q5A 9 11 7 QP Q6A 12 11 7 QP Q7A 4 9 12 QP Q8A 7 12 13 QN 10 RSCA 13 6 8 IBA 7 10 DC 350U * Q2B 7 3 110 QN 0.5 Q3B 111 110 200 QP Q4B 111 111 4 QN * Q5B 9 111 4 QN Q6B 112 111 4 QN Q7B 7 9 112 QN Q8B 4 112 113 QP 10 RSCB 6 113 8 IBB 110 4 DC 350U * RC 2 200 16 R9 9 0 5MEG D1 9 6 DC D2 6 9 DC * .MODEL DC D * .MODEL QN NPN (IS=160E-18 BF=170 ISC=40E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 +TF=500P * .MODEL QP PNP (IS=165E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 +TF=500P * .ENDS LT1223 *==================================================== * LT1224 * Linear Technology LT1224 op amp model * Written: 12-09-1992 09:06:32 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=5.0E-04, Ib=4.0E-06, Ios=1.0E-07, GBP=4.5E+07Hz, Phase mar.= 50 deg, * SR(-)=4.0E+02V/us, SR(+)=4.0E+02V/us, Av= 77.0dB, CMRR=100.0dB, * Vsat(+)=1.300V, Vsat(-)=1.700V, Isc=+40/-40mA, Rout=50ohms, Iq=7.00mA. * * Connections: + - V+V-O *LTC Sngl VeryHiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1224 3 2 7 4 6 * INPUT RC1 7 80 9.9909E+02 RC2 7 90 9.9909E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 0.265E-12 *INPUT POLE AT 300MHZ RE1 10 12 9.5717E+02 RE2 11 12 9.5717E+02 IEE 12 4 1.4240E-03 RE 12 0 1.4045E+05 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 7MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.11PF FROM 3.54PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 1.0009E-08 GA 8 0 90 80 1.0009E-03 R2 8 0 7.35E+06 C2 8 0 3.11E-12 *POLE AT 300MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 120MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 1.33E-15 *POLE AT 300MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.53E-15 * GB 0 1 78 0 20.4E-03 RO2 1 0 49 RF 8 99 2400 CF 99 6 5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.3987E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 5.9605E-08 D2 20 21 DM1 VOD2 21 18 5.9605E-08 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.7909E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.1909E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 5.5760E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.7481E+02) .MODEL QM2 NPN (IS=8.1240E-16 BF=1.7924E+02) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1224 * * - - - - - * FINI LT1224 * - - - - - * [OAMM VN02 10/29/90] *==================================================== * LT1225 * Linear Technology LT1225 op amp model * Written: 1-26-1993 16:30:32 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=5.0E-04, Ib=4.0E-06, Ios=1.0E-07, GBP=150E+06Hz, Phase mar.= 58 deg, * SR(-)=4.0E+02V/us, SR(+)=4.0E+02V/us, Av= 87dB, CMRR=111dB, * Vsat(+)=1.300V, Vsat(-)=1.700V, Isc=+40/-40mA, Rout=50ohms, Iq=7.00mA. * * Connections: + - V+V-O *LTC Sngl VeryHiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1225 3 2 7 4 6 * INPUT RC1 7 80 9.9909E+02 RC2 7 90 9.9909E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 0.265E-12 *INPUT POLE AT 300MHZ RE1 10 12 263 RE2 11 12 263 * RE1, RE2 REDUCED VS LT1224 TO REFLECT HIGHER GM IEE 12 4 1.4240E-03 RE 12 0 1.4045E+05 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 7MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.11PF FROM 3.54PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 1.0009E-08 GA 8 0 90 80 1.0009E-3 R2 8 0 7.0E+06 C2 8 0 3.11E-12 *POLE AT 180MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 0.885E-15 *POLE AT 180MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.885E-15 *POLE AT 180MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.885E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 180MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 .885E-15 *POLE AT 180MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 .885E-15 * GB 0 1 78 0 20.4E-03 RO2 1 0 49 RF 8 99 2400 CF 99 6 5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.3987E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 5.9605E-08 D2 20 21 DM1 VOD2 21 18 5.9605E-08 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.7909E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.1909E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 5.5760E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.7481E+02) .MODEL QM2 NPN (IS=8.1240E-16 BF=1.7924E+02) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1225 * * - - - - - * fini LT1225 * - - - - - * *==================================================== * LT1226 * Linear Technology LT1226 op amp model * Written: 1-26-1993 16:05:17 Type: Bipolar NPN input, internal comp. * Modified by G.F. to add Cload compensation network and freq. shaping * Typical specs: * Vos=3.0E-04, Ib=4.0E-06, Ios=1.0E-07, GBP=1E+09Hz, Phase mar.= 50deg, * SR(-)=4.0E+02V/us, SR(+)=4.0E+02V/us, Av= 104dB, CMRR=103dB, * Vsat(+)=1.300V, Vsat(-)=1.700V, Isc=+40/-40mA, Rout=50ohms, Iq=7.00mA. * * Connections: + - V+V-O *LTC Sngl LoNoise VeryHiSpeed OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1226 3 2 7 4 6 * INPUT RC1 7 80 9.9909E+02 RC2 7 90 9.9909E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 C1 80 90 0.265E-12 *INPUT POLE AT 300MHZ RE1 10 12 7.5 RE2 11 12 7.5 * RE1, RE2 REDUCED VS LT1224 TO REFLECT HIGHER GM IEE 12 4 1.4240E-03 RE 12 0 1.4205E+05 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 6MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.11PF FROM 3.54PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 16.0009E-08 GA 8 0 90 80 1.0009E-3 R2 8 0 7.0E+06 C2 8 0 3.21E-12 *POLE AT 180MHZ GX1 0 28 8 0 1E-06 RX1 28 0 1E+06 CX1 28 0 0.885E-15 *POLE AT 180MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.885E-15 *POLE AT 180MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.885E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 150MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 1.06E-15 *POLE AT 150MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 1.06E-15 * GB 0 1 78 0 20.4E-03 RO2 1 0 49 RF 8 99 2400 CF 99 6 5E-12 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.3987E+01 GCL 8 0 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 5.9605E-08 D2 20 21 DM1 VOD2 21 18 5.9605E-08 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.7909E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.1909E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 5.5760E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=1.7481E+02) .MODEL QM2 NPN (IS=8.0930E-16 BF=1.7924E+02) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1226 * * - - - - - * fini LT1226 * - - - - - * *==================================================== * LT1227 * Linear Technology LT1227 op amp model * Written: 01-22-1993. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Sngl 140MHz Video CurrentFB OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1227 3 2 7 4 6 * Q2A 4 3 10 QPI 0.5 Q3A 11 10 200 QNI Q4A 11 11 7 QPI Q5A 9 11 7 QPI Q6A 12 11 7 QPI 2 Q7A 4 9 12 QPI Q8A 7 12 13 QNI 10 RSCA 13 6 12 IBA 7 10 DC 325U RBA 7 10 73K DIA 10 7 DCC 3 * Q2B 7 3 110 QNI 0.5 Q3B 111 110 200 QPI Q4B 111 111 4 QNI Q5B 9 111 4 QNI Q6B 112 111 4 QNI 2 Q7B 7 9 112 QNI Q8B 4 112 113 QPI 10 RSCB 6 113 12 IBB 110 4 DC 325U RBB 110 4 73K DIB 4 110 DCC 5 * CM1 7 11 10PF CM2 111 4 10PF * RIB 7 11 75K RC 2 200 75 R9 9 0 250K D1 9 6 DC D2 6 9 DC D3 9 7 DCC D4 4 9 DCC * .MODEL DC D .MODEL DCC D CJO=3PF VJ=0.62 M=0.44 * .MODEL QNI NPN TF=225P .MODEL QPI PNP TF=225P * .ENDS LT1227 *==================================================== * LT1229 * Linear Technology LT1229 op amp model * Written: 07-24-1992. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Dual 100MHz CurrentFB Amp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1229 3 2 7 4 6 * Q2A 4 3 10 QP 0.5 Q3A 11 10 200 QN Q4A 11 11 7 QP Q5A 9 11 7 QP Q6A 12 11 7 QP Q7A 4 9 12 QP Q8A 7 12 13 QN 10 RSCA 13 6 10 IBA 7 10 DC 300U * Q2B 7 3 110 QN 0.5 Q3B 111 110 200 QP Q4B 111 111 4 QN * Q5B 9 111 4 QN Q6B 112 111 4 QN Q7B 7 9 112 QN Q8B 4 112 113 QP 10 RSCB 6 113 10 IBB 110 4 DC 300U * RC 2 200 20 R9 9 0 201600 D1 9 6 DC D2 6 9 DC * .MODEL DC D * .MODEL QN NPN (IS=168E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 +TF=300P * .MODEL QP PNP (IS=230E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36 +TF=300P * .ENDS LT1229 *==================================================== * LT1230 * Linear Technology LT1230 op amp model * Written: 07-24-1992. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Quad 100MHz CurrentFB Amp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1230 3 2 7 4 6 * Q2A 4 3 10 QP 0.5 Q3A 11 10 200 QN Q4A 11 11 7 QP Q5A 9 11 7 QP Q6A 12 11 7 QP Q7A 4 9 12 QP Q8A 7 12 13 QN 10 RSCA 13 6 10 IBA 7 10 DC 300U * Q2B 7 3 110 QN 0.5 Q3B 111 110 200 QP Q4B 111 111 4 QN * Q5B 9 111 4 QN Q6B 112 111 4 QN Q7B 7 9 112 QN Q8B 4 112 113 QP 10 RSCB 6 113 10 IBB 110 4 DC 300U * RC 2 200 20 R9 9 0 201600 D1 9 6 DC D2 6 9 DC * .MODEL DC D * .MODEL QN NPN (IS=168E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 +TF=300P * .MODEL QP PNP (IS=230E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36 +TF=300P * .ENDS LT1230 *==================================================== * LT1252 * Linear Technology LT1252 op amp model * Written: 01-22-1993. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Sngl CurrentFB VideoAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1252 3 2 7 4 6 * Q2A 4 3 10 QPI 0.5 Q3A 11 10 200 QNI Q4A 11 11 7 QPI Q5A 9 11 7 QPI Q6A 12 11 7 QPI 2 Q7A 4 9 12 QPI Q8A 7 12 13 QNI 10 RSCA 13 6 12 IBA 7 10 DC 325U RBA 7 10 73K DIA 10 7 DCC 3 * Q2B 7 3 110 QNI 0.5 Q3B 111 110 200 QPI Q4B 111 111 4 QNI Q5B 9 111 4 QNI Q6B 112 111 4 QNI 2 Q7B 7 9 112 QNI Q8B 4 112 113 QPI 10 RSCB 6 113 12 IBB 110 4 DC 325U RBB 110 4 73K DIB 4 110 DCC 5 * CM1 7 11 10PF CM2 111 4 10PF * RIB 4 111 35K RC 2 200 75 R9 9 0 250K D1 9 6 DC D2 6 9 DC D3 9 7 DCC D4 4 9 DCC * .MODEL DC D .MODEL DCC D CJO=3PF VJ=0.62 M=0.44 * .MODEL QNI NPN TF=225P .MODEL QPI PNP TF=225P * .ENDS LT1252 *==================================================== * LT1253 * Linear Technology LT1253 op amp model * Written: 07-24-1992. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Dual CurrentFB VideoAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1253 3 2 7 4 6 * Q2A 4 3 10 QP 0.5 Q3A 11 10 200 QN Q4A 11 11 7 QP RIB 11 7 35K Q5A 9 11 7 QP Q6A 12 11 7 QP Q7A 4 9 12 QP Q8A 7 12 13 QN 10 RSCA 13 6 10 IBA 7 10 DC 300U * Q2B 7 3 110 QN 0.5 Q3B 111 110 200 QP Q4B 111 111 4 QN * Q5B 9 111 4 QN Q6B 112 111 4 QN Q7B 7 9 112 QN Q8B 4 112 113 QP 10 RSCB 6 113 10 IBB 110 4 DC 300U * RC 2 200 20 R9 9 0 201600 D1 9 6 DC D2 6 9 DC * .MODEL DC D * .MODEL QN NPN (IS=200E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 +TF=300P * .MODEL QP PNP (IS=170E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36 +TF=300P * .ENDS LT1253 *==================================================== * LT1254 * Linear Technology LT1254 op amp model * Written: 07-24-1992. Type: Current Feedback Amplifier * * Connections: + - V+V-O *LTC Quad CurrentFB VideoAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1254 3 2 7 4 6 * Q2A 4 3 10 QP 0.5 Q3A 11 10 200 QN Q4A 11 11 7 QP RIB 11 7 35K Q5A 9 11 7 QP Q6A 12 11 7 QP Q7A 4 9 12 QP Q8A 7 12 13 QN 10 RSCA 13 6 10 IBA 7 10 DC 300U * Q2B 7 3 110 QN 0.5 Q3B 111 110 200 QP Q4B 111 111 4 QN * Q5B 9 111 4 QN Q6B 112 111 4 QN Q7B 7 9 112 QN Q8B 4 112 113 QP 10 RSCB 6 113 10 IBB 110 4 DC 300U * RC 2 200 20 R9 9 0 201600 D1 9 6 DC D2 6 9 DC * .MODEL DC D * .MODEL QN NPN (IS=200E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 +TF=300P * * .MODEL QP PNP (IS=170E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100 +CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36 +TF=300P * .ENDS LT1254 *==================================================== * LT1259 * LINEAR TECHNOLOGY LT1259 OP AMP MODEL * WRITTEN: 03-14-94. TYPE: CURRENT FEEDBACK AMPLIFIER * *CONNECTIONS: + - V+ V- OUT *LTC Dual 130MHz CurrentFB Amp w/Shutdown pkg:DIP14 (A:2,1,12,10,13)(B:6,7,12,10,9) .SUBCKT LT1259 3 2 7 4 6 * Q2A 4 3 10 QPI 0.5 Q3A 11 10 200 QNI Q4A 11 11 7 QPI Q5A 9 11 7 QPI Q6A 12 11 7 QPI 2 Q7A 4 9 12 QPI Q8A 7 12 13 QNI 10 RSCA 13 6 12 IBA 7 10 DC 50UA RBA 7 10 73K DIA 10 7 DCC 2.0 * Q2B 7 3 110 QNI 0.5 Q3B 111 110 200 QPI Q4B 111 111 4 QNI Q5B 9 111 4 QNI Q6B 112 111 4 QNI 2 Q7B 7 9 112 QNI Q8B 4 112 113 QPI 10 RS 6 113 12 IBB 110 4 DC 50UA RBB 110 4 73K DIB 4 110 DCC 2.0 * CM1 7 11 1PF CM2 111 4 1PF * RIB 7 11 75K RC 2 200 75 R9 9 0 250K D1 9 6 DC D2 6 9 DC D3 9 7 DCC .55 D4 4 9 DCC .55 * .MODEL DC D .MODEL DCC D CJO=3PF VJ=0.62 M=0.44 * .MODEL QNI NPN TF=225PS .MODEL QPI PNP TF=225PS * .ENDS LT1259 *==================================================== * LT1260 * LINEAR TECHNOLOGY LT1260 OP AMP MODEL * WRITTEN: 03-14-94. TYPE: CURRENT FEEDBACK AMPLIFIER * *CONNECTIONS: + - V+ V- OUT *LTC Trpl 130MHz CurrentFB Amp w/Shutdown pkg:DIP16 (A:2,1,14,11,15)(B:7,8,14,11,10)(C:5,4,14,11,12) .SUBCKT LT1260 3 2 7 4 6 * Q2A 4 3 10 QPI 0.5 Q3A 11 10 200 QNI Q4A 11 11 7 QPI Q5A 9 11 7 QPI Q6A 12 11 7 QPI 2 Q7A 4 9 12 QPI Q8A 7 12 13 QNI 10 RSCA 13 6 12 IBA 7 10 DC 50UA RBA 7 10 73K DIA 10 7 DCC 2.0 * Q2B 7 3 110 QNI 0.5 Q3B 111 110 200 QPI Q4B 111 111 4 QNI Q5B 9 111 4 QNI Q6B 112 111 4 QNI 2 Q7B 7 9 112 QNI Q8B 4 112 113 QPI 10 RS 6 113 12 IBB 110 4 DC 50UA RBB 110 4 73K DIB 4 110 DCC 2.0 * CM1 7 11 1PF CM2 111 4 1PF * RIB 7 11 75K RC 2 200 75 R9 9 0 250K D1 9 6 DC D2 6 9 DC D3 9 7 DCC .55 D4 4 9 DCC .55 * .MODEL DC D .MODEL DCC D CJO=3PF VJ=0.62 M=0.44 * .MODEL QNI NPN TF=225PS .MODEL QPI PNP TF=225PS * .ENDS LT1260 *==================================================== * LT1354 * LINEAR TECHNOLOGY LT1354 OP AMP MODEL * WRITTEN: 07-08-1994 14:26:21 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=3.0E-04, IB=8.0E-08, IOS=2.0E-08, GBP=1.2E+07HZ, PHASE MAR.= 48 DEG, * SR(-)=4.0E+02V/US, SR(+)=4.0E+02V/US, AV= 83.5DB, CMRR= 97.0DB, * VSAT(+)=1.700V, VSAT(-)=1.700V, ISC=+40/-40MA, ROUT= 60OHMS, IQ=1.00MA. * * CONNECTIONS: + - V+V-O *LTC Sngl 12MHz 400V/us OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1354 3 2 7 4 6 * INPUT RC1 7 80 1.3263E+03 RC2 7 90 1.3263E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 75MHZ C1 80 90 0.8E-12 RE1 10 12 1.3133E+03 RE2 11 12 1.3133E+03 IEE 12 4 4.0002E-03 RE 12 0 4.9998E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 21.9MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 9.6PF FROM 10PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 1.0650E-08 GA 8 0 78 0 7.5398E-04 R2 8 0 21.9E+06 C2 8 0 9.6E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 75MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 2.12E-15 *POLE AT 75MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 2.12E-15 *POLE AT 75MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 2.12E-15 *ZERO AT 12.5MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 12.7E-03 *POLE AT 25MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 6.37E-15 *POLE AT 75MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 2.12E-15 * EB 1 0 8 0 1 RO2 1 6 5.000E+01 RF 8 99 2000 CF 99 6 7.5E-12 * OUTPUT ECL 18 1 6 1 0.375 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.2317E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.2317E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 -.3000E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.2222E+04) .MODEL QM2 NPN (IS=8.0847E-16 BF=2.8571E+04) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1354 *==================================================== * LT1355 * LINEAR TECHNOLOGY LT1355 OP AMP MODEL * WRITTEN: 07-08-1994 14:26:21 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=3.0E-04, IB=8.0E-08, IOS=2.0E-08, GBP=1.2E+07HZ, PHASE MAR.= 48 DEG, * SR(-)=4.0E+02V/US, SR(+)=4.0E+02V/US, AV= 83.5DB, CMRR= 97.0DB, * VSAT(+)=1.700V, VSAT(-)=1.700V, ISC=+40/-40MA, ROUT= 60OHMS, IQ=1.00MA. * * CONNECTIONS: + - V+V-O *LTC Dual 12MHz 400V/us OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1355 3 2 7 4 6 * INPUT RC1 7 80 1.3263E+03 RC2 7 90 1.3263E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 75MHZ C1 80 90 0.8E-12 RE1 10 12 1.3133E+03 RE2 11 12 1.3133E+03 IEE 12 4 4.0002E-03 RE 12 0 4.9998E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 21.9MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 9.6PF FROM 10PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 1.0650E-08 GA 8 0 78 0 7.5398E-04 R2 8 0 21.9E+06 C2 8 0 9.6E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 75MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 2.12E-15 *POLE AT 75MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 2.12E-15 *POLE AT 75MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 2.12E-15 *ZERO AT 12.5MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 12.7E-03 *POLE AT 25MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 6.37E-15 *POLE AT 75MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 2.12E-15 * EB 1 0 8 0 1 RO2 1 6 5.000E+01 RF 8 99 2000 CF 99 6 7.5E-12 * OUTPUT ECL 18 1 6 1 0.375 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.2317E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.2317E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 -.3000E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.2222E+04) .MODEL QM2 NPN (IS=8.0847E-16 BF=2.8571E+04) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1355 *==================================================== * LT1356 * LINEAR TECHNOLOGY LT1356 OP AMP MODEL * WRITTEN: 07-08-1994 14:26:21 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=3.0E-04, IB=8.0E-08, IOS=2.0E-08, GBP=1.2E+07HZ, PHASE MAR.= 48 DEG, * SR(-)=4.0E+02V/US, SR(+)=4.0E+02V/US, AV= 83.5DB, CMRR= 97.0DB, * VSAT(+)=1.700V, VSAT(-)=1.700V, ISC=+40/-40MA, ROUT= 60OHMS, IQ=1.00MA. * * CONNECTIONS: + - V+V-O *LTC Quad 12MHz 400V/us OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1356 3 2 7 4 6 * INPUT RC1 7 80 1.3263E+03 RC2 7 90 1.3263E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 75MHZ C1 80 90 0.8E-12 RE1 10 12 1.3133E+03 RE2 11 12 1.3133E+03 IEE 12 4 4.0002E-03 RE 12 0 4.9998E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 21.9MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 9.6PF FROM 10PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 1.0650E-08 GA 8 0 78 0 7.5398E-04 R2 8 0 21.9E+06 C2 8 0 9.6E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 75MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 2.12E-15 *POLE AT 75MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 2.12E-15 *POLE AT 75MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 2.12E-15 *ZERO AT 12.5MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 12.7E-03 *POLE AT 25MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 ŠCX5 68 0 6.37E-15 *POLE AT 75MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 2.12E-15 * EB 1 0 8 0 1 RO2 1 6 5.000E+01 RF 8 99 2000 CF 99 6 7.5E-12 * OUTPUT ECL 18 1 6 1 0.375 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.2317E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.2317E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 -.3000E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.2222E+04) .MODEL QM2 NPN (IS=8.0847E-16 BF=2.8571E+04) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1356 *==================================================== * LT1357 * LINEAR TECHNOLOGY LT1357 OP AMP MODEL * WRITTEN: 07-06-1994 15:43:09 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=2.0E-04, IB=1.2E-07, IOS=4.0E-08, GBP=2.5E+07HZ, PHASE MAR.= 46 DEG, * SR(-)=6.0E+02V/US, SR(+)=6.0E+02V/US, AV= 88.0DB, CMRR= 97.0DB, * VSAT(+)=1.700V, VSAT(-)=1.700V, ISC=+42/-42MA, ROUT= 45OHMS, IQ=2.00MA. * * CONNECTIONS: + - V+V-O *LTC Sngl 25MHz 600V/us OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1357 3 2 7 4 6 * INPUT RC1 7 80 6.3662E+02 RC2 7 90 6.3662E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 150MHZ C1 80 90 0.834E-12 RE1 10 12 6.2798E+02 RE2 11 12 6.2798E+02 IEE 12 4 6.0002E-03 RE 12 0 3.3332E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 17.4MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 9.6PF FROM 10PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 2.2188E-08 GA 8 0 78 0 1.5708E-03 R2 8 0 17.4E+06 C2 8 0 9.6E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 150MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 01.06E-15 *POLE AT 150MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 1.06E-15 *POLE AT 150MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 1.06E-15 *ZERO AT 30MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 5.31E-03 *POLE AT 60MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 2.65E-15 *POLE AT 150MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 1.06E-15 * EB 1 0 8 0 1 RO2 1 6 46 RF 8 99 2000 CF 99 6 7.5E-12 * OUTPUT ECL 18 1 6 1 0.395 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.2486E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.2486E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 -.4000E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.1429E+04) .MODEL QM2 NPN (IS=8.0463E-16 BF=3.0000E+04) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1357 *==================================================== * LT1358 * LINEAR TECHNOLOGY LT1358 OP AMP MODEL * WRITTEN: 07-06-1994 15:43:09 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=2.0E-04, IB=1.2E-07, IOS=4.0E-08, GBP=2.5E+07HZ, PHASE MAR.= 46 DEG, * SR(-)=6.0E+02V/US, SR(+)=6.0E+02V/US, AV= 88.0DB, CMRR= 97.0DB, * VSAT(+)=1.700V, VSAT(-)=1.700V, ISC=+42/-42MA, ROUT= 45OHMS, IQ=2.00MA. * * CONNECTIONS: + - V+V-O *LTC Dual 25MHz 600V/us OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1358 3 2 7 4 6 * INPUT RC1 7 80 6.3662E+02 RC2 7 90 6.3662E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 150MHZ C1 80 90 0.834E-12 RE1 10 12 6.2798E+02 RE2 11 12 6.2798E+02 IEE 12 4 6.0002E-03 RE 12 0 3.3332E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 17.4MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 9.6PF FROM 10PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 2.2188E-08 GA 8 0 78 0 1.5708E-03 R2 8 0 17.4E+06 C2 8 0 9.6E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 150MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 01.06E-15 *POLE AT 150MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 1.06E-15 *POLE AT 150MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 1.06E-15 *ZERO AT 30MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 5.31E-03 *POLE AT 60MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 2.65E-15 *POLE AT 150MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 1.06E-15 * EB 1 0 8 0 1 RO2 1 6 46 RF 8 99 2000 CF 99 6 7.5E-12 * OUTPUT ECL 18 1 6 1 0.395 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.2486E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.2486E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 -.4000E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.1429E+04) .MODEL QM2 NPN (IS=8.0463E-16 BF=3.0000E+04) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1358 *==================================================== * LT1359 * LINEAR TECHNOLOGY LT1359 OP AMP MODEL * WRITTEN: 07-06-1994 15:43:09 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=2.0E-04, IB=1.2E-07, IOS=4.0E-08, GBP=2.5E+07HZ, PHASE MAR.= 46 DEG, * SR(-)=6.0E+02V/US, SR(+)=6.0E+02V/US, AV= 88.0DB, CMRR= 97.0DB, * VSAT(+)=1.700V, VSAT(-)=1.700V, ISC=+42/-42MA, ROUT= 45OHMS, IQ=2.00MA. * * CONNECTIONS: + - V+V-O *LTC Quad 25MHz 600V/us OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1359 3 2 7 4 6 * INPUT RC1 7 80 6.3662E+02 RC2 7 90 6.3662E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 150MHZ C1 80 90 0.834E-12 RE1 10 12 6.2798E+02 RE2 11 12 6.2798E+02 IEE 12 4 6.0002E-03 RE 12 0 3.3332E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 17.4MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 9.6PF FROM 10PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 2.2188E-08 GA 8 0 78 0 1.5708E-03 R2 8 0 17.4E+06 C2 8 0 9.6E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 150MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 01.06E-15 *POLE AT 150MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 1.06E-15 *POLE AT 150MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 1.06E-15 *ZERO AT 30MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 5.31E-03 *POLE AT 60MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 2.65E-15 *POLE AT 150MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 1.06E-15 * EB 1 0 8 0 1 RO2 1 6 46 RF 8 99 2000 CF 99 6 7.5E-12 * OUTPUT ECL 18 1 6 1 0.395 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.2486E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.2486E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 -.4000E-02 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.1429E+04) .MODEL QM2 NPN (IS=8.0463E-16 BF=3.0000E+04) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1359 *==================================================== * LT1360 * LINEAR TECHNOLOGY LT1360 OP AMP MODEL * WRITTEN: 06-28-1994 09:04:42 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=3.0E-04, IB=3.0E-07, IOS=8.0E-08, GBP=5.0E+07HZ, PHASE MAR.= 43 DEG, * SR(-)=8.0E+02V/US, SR(+)=8.0E+02V/US, AV= 76.0DB, CMRR= 92.0DB, * VSAT(+)=1.500V, VSAT(-)=1.500V, ISC=+54/-54MA, ROUT= 30OHMS, IQ=4.00MA. * * CONNECTIONS: + - V+V-O *LTC Sngl 50MHz 800V/us OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1360 3 2 7 4 6 * INPUT RC1 7 80 7.9577E+02 RC2 7 90 7.9577E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0E-12 *INPUT POLE AT 300MHZ C1 80 90 0.333E-12 RE1 10 12 7.7947E+02 RE2 11 12 7.7947E+02 IEE 12 4 3.2006E-03 RE 12 0 6.2488E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 5.47MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.7PF FROM 4PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 3.1565E-08 GA 8 0 78 0 1.2566E-03 R2 8 0 5.47E+06 C2 8 0 3.7E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 300MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 120MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 1.33E-15 *POLE AT 200MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.796E-15 * EB 1 0 8 0 1 RO2 1 6 30 RF 8 99 1000 CF 99 6 6E-12 * OUTPUT ECL 18 1 6 1 0.46 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.0231E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.0231E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 7.9940E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=4.7059E+03) .MODEL QM2 NPN (IS=8.0934E-16 BF=6.1538E+03) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1360 *==================================================== * LT1361 * LINEAR TECHNOLOGY LT1361 OP AMP MODEL * WRITTEN: 06-28-1994 09:04:42 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=3.0E-04, IB=3.0E-07, IOS=8.0E-08, GBP=5.0E+07HZ, PHASE MAR.= 43 DEG, * SR(-)=8.0E+02V/US, SR(+)=8.0E+02V/US, AV= 76.0DB, CMRR= 92.0DB, * VSAT(+)=1.500V, VSAT(-)=1.500V, ISC=+54/-54MA, ROUT= 30OHMS, IQ=4.00MA. * * CONNECTIONS: + - V+V-O *LTC Dual 50MHz 800V/us OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1361 3 2 7 4 6 * INPUT RC1 7 80 7.9577E+02 RC2 7 90 7.9577E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0E-12 *INPUT POLE AT 300MHZ C1 80 90 0.333E-12 RE1 10 12 7.7947E+02 RE2 11 12 7.7947E+02 IEE 12 4 3.2006E-03 RE 12 0 6.2488E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 5.47MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.7PF FROM 4PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 3.1565E-08 GA 8 0 78 0 1.2566E-03 R2 8 0 5.47E+06 C2 8 0 3.7E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 300MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 120MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 1.33E-15 *POLE AT 200MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.796E-15 * EB 1 0 8 0 1 RO2 1 6 30 RF 8 99 1000 CF 99 6 6E-12 * OUTPUT ECL 18 1 6 1 0.46 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.0231E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.0231E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 7.9940E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=4.7059E+03) .MODEL QM2 NPN (IS=8.0934E-16 BF=6.1538E+03) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1361 *==================================================== * LT1362 * LINEAR TECHNOLOGY LT1362 OP AMP MODEL * WRITTEN: 06-28-1994 09:04:42 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=3.0E-04, IB=3.0E-07, IOS=8.0E-08, GBP=5.0E+07HZ, PHASE MAR.= 43 DEG, * SR(-)=8.0E+02V/US, SR(+)=8.0E+02V/US, AV= 76.0DB, CMRR= 92.0DB, * VSAT(+)=1.500V, VSAT(-)=1.500V, ISC=+54/-54MA, ROUT= 30OHMS, IQ=4.00MA. * * CONNECTIONS: + - V+V-O *LTC Quad 50MHz 800V/us OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1362 3 2 7 4 6 * INPUT RC1 7 80 7.9577E+02 RC2 7 90 7.9577E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0E-12 *INPUT POLE AT 300MHZ C1 80 90 0.333E-12 RE1 10 12 7.7947E+02 RE2 11 12 7.7947E+02 IEE 12 4 3.2006E-03 RE 12 0 6.2488E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 5.47MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.7PF FROM 4PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 3.1565E-08 GA 8 0 78 0 1.2566E-03 R2 8 0 5.47E+06 C2 8 0 3.7E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 300MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 60MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 2.65E-03 *POLE AT 120MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 1.33E-15 *POLE AT 200MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.796E-15 * EB 1 0 8 0 1 RO2 1 6 30 RF 8 99 1000 CF 99 6 6E-12 * OUTPUT ECL 18 1 6 1 0.46 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 3.0231E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 3.0231E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 7.9940E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=4.7059E+03) .MODEL QM2 NPN (IS=8.0934E-16 BF=6.1538E+03) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1362 *==================================================== * LT1363 * LINEAR TECHNOLOGY LT1363 OP AMP MODEL * WRITTEN: 06-28-1994 14:46:32 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=5.0E-04, IB=6.0E-07, IOS=1.2E-07, GBP=7.0E+07HZ, PHASE MAR.= 37 DEG, * SR(-)=1.0E+03V/US, SR(+)=1.0E+03V/US, AV= 76.0DB, CMRR= 90.0DB, * VSAT(+)=1.400V, VSAT(-)=1.400V, ISC=+105/-105MA, ROUT= 20OHMS, IQ=6.00MA. * * CONNECTIONS: + - V+V-O *LTC Sngl 70MHz 1000V/us OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LT1363 3 2 7 4 6 * INPUT RC1 7 80 5.6841E+02 RC2 7 90 5.6841E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 300MHZ C1 80 90 0.467E-12 RE1 10 12 5.5532E+02 RE2 11 12 5.5532E+02 IEE 12 4 4.0012E-03 RE 12 0 4.9985E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 3.69MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.85PF FROM 4PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 5.5634E-08 GA 8 0 78 0 1.7593E-03 R2 8 0 3.69E+06 C2 8 0 3.85E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 300MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 85MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 1.87E-03 *POLE AT 170MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 0.937E-15 *POLE AT 500MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.318E-15 * EB 1 0 8 0 1 RO2 1 6 20 RF 8 99 800 CF 99 6 6E-12 * OUTPUT ECL 18 1 6 1 0.36 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.9317E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 2.9317E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.9988E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03) .MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1363 *==================================================== * LT1364 * LINEAR TECHNOLOGY LT1364 OP AMP MODEL * WRITTEN: 06-28-1994 14:46:32 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=5.0E-04, IB=6.0E-07, IOS=1.2E-07, GBP=7.0E+07HZ, PHASE MAR.= 37 DEG, * SR(-)=1.0E+03V/US, SR(+)=1.0E+03V/US, AV= 76.0DB, CMRR= 90.0DB, * VSAT(+)=1.400V, VSAT(-)=1.400V, ISC=+105/-105MA, ROUT= 20OHMS, IQ=6.00MA. * * CONNECTIONS: + - V+V-O *LTC Dual 70MHz 1000V/us OpAmp pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LT1364 3 2 7 4 6 * INPUT RC1 7 80 5.6841E+02 RC2 7 90 5.6841E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 300MHZ C1 80 90 0.467E-12 RE1 10 12 5.5532E+02 RE2 11 12 5.5532E+02 IEE 12 4 4.0012E-03 RE 12 0 4.9985E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 3.69MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.85PF FROM 4PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 5.5634E-08 GA 8 0 78 0 1.7593E-03 R2 8 0 3.69E+06 C2 8 0 3.85E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 300MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 85MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 1.87E-03 *POLE AT 170MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 0.937E-15 *POLE AT 500MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.318E-15 * EB 1 0 8 0 1 RO2 1 6 20 RF 8 99 800 CF 99 6 6E-12 * OUTPUT ECL 18 1 6 1 0.36 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.9317E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 2.9317E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.9988E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03) .MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1364 *==================================================== * LT1365 * LINEAR TECHNOLOGY LT1365 OP AMP MODEL * WRITTEN: 06-28-1994 14:46:32 TYPE: BIPOLAR NPN INPUT, INTERNAL COMP. * TYPICAL SPECS: * VOS=5.0E-04, IB=6.0E-07, IOS=1.2E-07, GBP=7.0E+07HZ, PHASE MAR.= 37 DEG, * SR(-)=1.0E+03V/US, SR(+)=1.0E+03V/US, AV= 76.0DB, CMRR= 90.0DB, * VSAT(+)=1.400V, VSAT(-)=1.400V, ISC=+105/-105MA, ROUT= 20OHMS, IQ=6.00MA. * * CONNECTIONS: + - V+V-O *LTC Quad 70MHz 1000V/us OpAmp pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LT1365 3 2 7 4 6 * INPUT RC1 7 80 5.6841E+02 RC2 7 90 5.6841E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 CIN 2 3 2.0000E-12 *INPUT POLE AT 300MHZ C1 80 90 0.467E-12 RE1 10 12 5.5532E+02 RE2 11 12 5.5532E+02 IEE 12 4 4.0012E-03 RE 12 0 4.9985E+04 * INTERMEDIATE *MODS: GA DEPENDENCE INVERTED (POLARITY SWAPPED) * R2 INCREASED TO 3.69MOHM (ALL GAIN IN ONE STAGE) * C2 TIED TO GROUND (WAS NODE 1), REDUCED TO 3.85PF FROM 4PF * GB POLARITY REVERSED, GB=1/R02 FOR GAIN OF 1 * RF, CF ADDED FOR CLOAD NETWORK (REDUCES VALUE OF C2) * REVERSE POLARITY OF GNL,GPL,GCL,GCM FOR LIMITING BECAUSE OF GA REVERSAL * ADD MULTIPLE POLES AND A ZERO BETWEEN GA STAGE AND GB STAGE GCM 8 0 12 0 5.5634E-08 GA 8 0 78 0 1.7593E-03 R2 8 0 3.69E+06 C2 8 0 3.85E-12 DC1 8 7 DM3 DC2 4 8 DM3 * *POLE AT 300MHZ GX1 0 28 90 80 1E-06 RX1 28 0 1E+06 CX1 28 0 0.53E-15 *POLE AT 300MHZ GX2 0 38 28 0 1E-06 RX2 38 0 1E+06 CX2 38 0 0.53E-15 *POLE AT 300MHZ GX3 0 48 38 0 1E-06 RX3 48 0 1E+06 CX3 48 0 0.53E-15 *ZERO AT 85MHZ GX4 0 58 48 0 1E-06 RX4 58 59 1E+06 LX4 59 0 1.87E-03 *POLE AT 170MHZ GX5 0 68 58 0 1E-06 RX5 68 0 1E+06 CX5 68 0 0.937E-15 *POLE AT 500MHZ GX6 0 78 68 0 1E-06 RX6 78 0 1E+06 CX6 78 0 0.318E-15 * EB 1 0 8 0 1 RO2 1 6 20 RF 8 99 800 CF 99 6 6E-12 * OUTPUT ECL 18 1 6 1 0.36 Q3 7 18 8 QM3 Q4 4 18 8 QM4 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 8 0 70 7 1.0000E+00 VC 13 6 2.9317E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 8 0 60 4 1.0000E+00 VE 6 14 2.9317E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.9988E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03) .MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03) .MODEL QM3 NPN (IS=8.0000E-16 BF=100) .MODEL QM4 PNP (IS=8.0000E-16 BF=100) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .ENDS LT1365 *==================================================== * LTC1047 * Linear Technology LTC1047 op amp model * Written: 05-11-1990 11:36:48 Type: PMOS input, internal comp. * Typical specs: * Vos=2.0E-06, Ib=3.0E-11, Ios=1.5E-11, GBP=8.0E+05Hz, Phase mar.= 45 deg, * SR(-)=8.0E-01V/us, SR(+)=8.0E-01V/us, Av=160.0dB, CMRR=130.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 3/-10mA, Rout= 200ohms, Iq=0.20mA. * Note: Maximum total supply voltage for LTC1047 is 18 volts. * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Dual uPwr ChopStab SnglSup OpAmp w/intCaps pkg:DIP14 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LTC1047 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 6.6315E+03 RD2 4 90 6.6315E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 2.4000E-05 * INTERMEDIATE GCM 0 8 12 0 4.7686E-11 GA 8 0 80 90 1.5080E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.3324E+04 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.8534E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 1.9974E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.3894E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.3894E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.7600E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=9.4748E-04 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=9.4748E-04 VTO=-1.1000020E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1047 *==================================================== * LTC1049 * Linear Technology LTC1049 op amp model * Written: 05-11-1990 11:36:48 Type: PMOS input, internal comp. * Typical specs: * Vos=2.0E-06, Ib=3.0E-11, Ios=1.5E-11, GBP=8.0E+05Hz, Phase mar.= 45 deg, * SR(-)=8.0E-01V/us, SR(+)=8.0E-01V/us, Av=160.0dB, CMRR=130.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 3/-10mA, Rout= 200ohms, Iq=0.20mA. * Note: Maximum total supply voltage for LTC1049 is 18 volts. * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Sngl LoPwr ChopStab SnglSup OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LTC1049 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 6.6315E+03 RD2 4 90 6.6315E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 2.4000E-05 * INTERMEDIATE GCM 0 8 12 0 4.7686E-11 GA 8 0 80 90 1.5080E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.3324E+04 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.8534E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 1.9974E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.3894E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.3894E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.7600E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=9.4748E-04 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=9.4748E-04 VTO=-1.1000020E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1049 *==================================================== * LTC1050 * Linear Technology LTC1050 op amp model * Written: 05-11-1990 11:15:45 Type: PMOS input, internal comp. * Typical specs: * Vos=5.0E-07, Ib=1.0E-11, Ios=2.0E-11, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(-)=4.0E+00V/us, SR(+)=2.8E+00V/us, Av=160.0dB, CMRR=130.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 5/-20mA, Rout= 200ohms, Iq=1.00mA. * Note: Maximum total supply voltage for LTC1050 is 18 volts. * (Not modeled: clock) * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Sngl Precision ChopStab OpAmp w/intCaps pkg:DIP8 3,2,7,4,6 .SUBCKT LTC1050 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 2.1221E+03 RD2 4 90 2.1221E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 1.2000E-04 CS 12 0 1.2857E-11 * INTERMEDIATE GCM 0 8 12 0 1.4902E-10 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.0664E+04 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7955E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 2.6932E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.4332E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.4332E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 8.8000E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=1.8506E-03 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=1.8506E-03 VTO=-1.1000005E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1050 *==================================================== * LTC1050A * Linear Technology LTC1050A op amp model * Written: 05-11-1990 11:24:39 Type: PMOS input, internal comp. * Typical specs: * Vos=5.0E-07, Ib=1.0E-11, Ios=2.0E-11, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(-)=4.0E+00V/us, SR(+)=2.8E+00V/us, Av=160.0dB, CMRR=140.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 5/-20mA, Rout= 200ohms, Iq=1.00mA. * Note: Maximum total supply voltage for LTC1050A is 18 volts. * (Not modeled: clock) * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Sngl Precision ChopStab OpAmp w/intCaps pkg:DIP8 3,2,7,4,6 .SUBCKT LTC1050A 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 2.1221E+03 RD2 4 90 2.1221E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 1.2000E-04 CS 12 0 1.2857E-11 * INTERMEDIATE GCM 0 8 12 0 4.7124E-11 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.0664E+04 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7955E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 2.6932E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.4332E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.4332E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 8.8000E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=1.8506E-03 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=1.8506E-03 VTO=-1.1000005E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1050A *==================================================== * LTC1051 * Linear Technology LTC1051 op amp model * Written: 05-11-1990 15:56:09 Type: PMOS input, internal comp. * Typical specs: * Vos=5.0E-07, Ib=3.0E-11, Ios=1.5E-11, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(-)=4.0E+00V/us, SR(+)=2.8E+00V/us, Av=160.0dB, CMRR=130.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 5/-20mA, Rout= 200ohms, Iq=1.00mA. * Note: Maximum total supply voltage for LTC1051 is 18 volts. * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * Connections: + - V+V-O *LTC Dual Precision ChopStab OpAmp w/intCaps pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT LTC1051 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 2.1221E+03 RD2 4 90 2.1221E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 1.2000E-04 CS 12 0 1.2857E-11 * INTERMEDIATE GCM 0 8 12 0 1.4902E-10 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.0664E+04 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7955E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 2.6932E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.4332E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.4332E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 8.8000E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=1.8506E-03 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=1.8506E-03 VTO=-1.1000005E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1051 * * - - - - - * FINI LTC1051 FAMILY * - - - - - * [OAMM VM02 5/11/90] *==================================================== * LTC1052 * Linear Technology LTC1052 op amp model (with calls for LTC1052CS, LTC7652) * Written: 05-11-1990 11:30:03 Type: PMOS input, internal comp. * Typical specs: * Vos=5.0E-07, Ib=3.0E-12, Ios=1.0E-12, GBP=1.2E+06Hz, Phase mar.= 45 deg, * SR(-)=4.0E+00V/us, SR(+)=3.2E+00V/us, Av=150.0dB, CMRR=140.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 5/-15mA, Rout= 200ohms, Iq=1.70mA. * Note: Maximum total supply voltage for LTC1052 is 18 volts. * (Not modeled: clock & Cext) * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Sngl ChopStab OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT LTC1052 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 4.4210E+03 RD2 4 90 4.4210E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 1.2000E-04 CS 12 0 7.5000E-12 * INTERMEDIATE GCM 0 8 12 0 2.2619E-11 GA 8 0 80 90 2.2619E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 7.0253E+03 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7955E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 1.7955E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.4332E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.4332E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 1.5800E-03 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=4.2637E-04 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=4.2637E-04 VTO=-1.1000005E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1052 * *==================================================== * LTC1052CS *LTC Sngl ChopStab OpAmp pkg:SMD16B 5,4,13,7,12 .SUBCKT LTC1052CS 3 2 7 4 6 X_LTC1052CS 3 2 7 4 6 XLTC1052 .ENDS LTC1052CS * *==================================================== * LTC7652 *LTC Sngl ChopStab OpAmp pkg:CAN8 3,2,7,4,6 .SUBCKT LTC7652 3 2 7 4 6 X_LTC7652 3 2 7 4 6 XLTC1052 .ENDS LTC7652 *==================================================== * LTC1053 * Linear Technology LTC1053 op amp model * Written: 05-11-1990 15:56:09 Type: PMOS input, internal comp. * Typical specs: * Vos=5.0E-07, Ib=3.0E-11, Ios=1.5E-11, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(-)=4.0E+00V/us, SR(+)=2.8E+00V/us, Av=160.0dB, CMRR=130.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 5/-20mA, Rout= 200ohms, Iq=1.00mA. * Note: Maximum total supply voltage for LTC1053 is 18 volts. * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Quad Precision ChopStab OpAmp w/intCaps pkg:DIP14 (A:3,2,4,11,1)(B:5,6,4,11,7)(C:10,9,4,11,8)(D:12,13,4,11,14) .SUBCKT LTC1053 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 2.1221E+03 RD2 4 90 2.1221E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 1.2000E-04 CS 12 0 1.2857E-11 * INTERMEDIATE GCM 0 8 12 0 1.4902E-10 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.0664E+04 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 1.7955E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 0.0000E+00 D2 20 21 DM1 VOD2 21 18 2.6932E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.4332E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.4332E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 8.8000E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=1.8506E-03 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=1.8506E-03 VTO=-1.1000005E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1053 *==================================================== * LTC1150 * Linear Technology LTC1150 op amp model * Written: 05-11-1990 11:42:22 Type: PMOS input, internal comp. * Typical specs: * Vos=5.0E-07, Ib=2.0E-11, Ios=1.0E-11, GBP=2.5E+06Hz, Phase mar.= 45 deg, * SR(-)=3.0E+00V/us, SR(+)=2.1E+00V/us, Av=180.0dB, CMRR=145.0dB, * Vsat(+)=0.010V, Vsat(-)=0.010V, Isc=+ 3/-12mA, Rout= 200ohms, Iq=0.80mA. * (Not modeled: clock & Isupply) * For correct input bias current, modify GMIN in your circuit file with * .OPTIONS GMIN=1E-15 * * Connections: + - V+V-O *LTC Sngl +/-15V ChopStab OpAmp w/intCaps pkg:DIP8 3,2,7,4,6 .SUBCKT LTC1150 3 2 7 4 6 * INPUT IB1 2 7 -10P IB2 3 7 10P RD1 4 80 2.1221E+03 RD2 4 90 2.1221E+03 M1 80 2 12 12 PM1 M2 90 3 12 12 PM2 CIN 2 3 5.0000E-12 DG1 2 7 DMG1 DG2 3 7 DMG2 C1 80 90 1.5000E-11 ISS 7 12 9.0000E-05 CS 12 0 1.2857E-11 * INTERMEDIATE GCM 0 8 12 0 2.6500E-11 GA 8 0 80 90 4.7124E-04 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.0664E+05 RO2 1 0 1.9900E+02 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.9675E+02 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+01 D1 18 19 DM1 VOD1 19 20 5.9605E-08 D2 20 21 DM1 VOD2 21 18 2.6708E+00 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 1.4253E+00 RPLA 7 70 1.0000E+01 RPLB 7 131 1.0000E+03 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 1.4253E+00 RNLA 60 4 1.0000E+01 RNLB 141 4 1.0000E+03 * IP 7 4 7.1000E-04 DSUB 4 7 DM2 * MODELS .MODEL PM1 PMOS (KP=2.4674E-03 VTO=-1.1000000E+00) .MODEL PM2 PMOS (KP=2.4674E-03 VTO=-1.1000005E+00) .MODEL DM1 D (IS=1.0000E-20) .MODEL DM2 D (IS=8.0000E-16 BV=3.9600E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DMG1 D (IS=7E-12 N=2.31) .MODEL DMG2 D (IS=6.3E-12 N=2.31) .ENDS LTC1150 *==================================================== * OP-05 * Linear Technology OP05 op amp model * Written: 08-23-1989 15:59:46 Type: Bipolar npn input, internal comp. * Typical specs: * Vos=2.0E-04, Ib=1.0E-09, Ios=1.0E-09, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=3.0E-01V/us, SR(-)=2.9E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq= 3000uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl OpAmp Vos=200uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP05 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 3.097E+03 RE2 11 12 3.097E+03 IEE 12 4 9.002E-06 RE 12 0 2.222E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 6.647E+02 * OUTPUT RO1 1 6 3.333E+01 RO2 1 0 6.667E+01 RC 17 0 1.393E-05 GC 0 17 6 0 7.179E+04 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.991E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=3.000E+03) .MODEL QM2 NPN (IS=8.062E-16 BF=9.000E+03) .MODEL DM1 D (IS=5.991E-12) .MODEL DM2 D (IS=8.000E-16) .ENDS OP05 *==================================================== * OP-05A * Linear Technology OP05A op amp model * Written: 08-23-1989 15:59:46 Type: Bipolar npn input, internal comp. * OP05A updated from original model on 06-20-1990 * Typical specs: * Vos=7.0E-05, Ib=7.0E-10, Ios=7.0E-10, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=3.0E-01V/us, SR(-)=2.9E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq= 3000uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl OpAmp Vos=70uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP05A 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 3.097E+03 RE2 11 12 3.097E+03 IEE 12 4 9.002E-06 RE 12 0 2.222E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 6.647E+02 * OUTPUT RO1 1 6 3.333E+01 RO2 1 0 6.667E+01 RC 17 0 1.393E-05 GC 0 17 6 0 7.179E+04 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.991E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=4.287E+03) .MODEL QM2 NPN (IS=8.022E-16 BF=1.286E+04) .MODEL DM1 D (IS=5.991E-12) .MODEL DM2 D (IS=8.000E-16) .ENDS OP05A *==================================================== * OP-05C * Linear Technology OP05C op amp model * Written: 08-23-1989 15:59:46 Type: Bipolar npn input, internal comp. * OP05C updated from original model on 06-20-1990 * Typical specs: * Vos=3.0E-04, Ib=1.8E-09, Ios=1.8E-09, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=3.0E-01V/us, SR(-)=2.9E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq= 3000uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl OpAmp Vos=300uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP05C 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 3.097E+03 RE2 11 12 3.097E+03 IEE 12 4 9.002E-06 RE 12 0 2.222E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 6.647E+02 * OUTPUT RO1 1 6 3.333E+01 RO2 1 0 6.667E+01 RC 17 0 1.393E-05 GC 0 17 6 0 7.179E+04 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.991E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=1.667E+03) .MODEL QM2 NPN (IS=8.094E-16 BF=5.001E+03) .MODEL DM1 D (IS=5.991E-12) .MODEL DM2 D (IS=8.000E-16) .ENDS OP05C *==================================================== * OP-05E * Linear Technology OP05E op amp model * Written: 08-23-1989 15:59:46 Type: Bipolar npn input, internal comp. * OP05E updated from original model on 06-20-1990 * Typical specs: * Vos=2.0E-04, Ib=1.2E-09, Ios=1.2E-09, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=3.0E-01V/us, SR(-)=2.9E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq= 3000uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl OpAmp Vos=200uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP05E 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 3.097E+03 RE2 11 12 3.097E+03 IEE 12 4 9.002E-06 RE 12 0 2.222E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 6.647E+02 * OUTPUT RO1 1 6 3.333E+01 RO2 1 0 6.667E+01 RC 17 0 1.393E-05 GC 0 17 6 0 7.179E+04 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.991E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.501E+03) .MODEL QM2 NPN (IS=8.062E-16 BF=7.502E+03) .MODEL DM1 D (IS=5.991E-12) .MODEL DM2 D (IS=8.000E-16) .ENDS OP05E *==================================================== * OP-07 * Linear Technology OP07 op amp model * Written: 08-24-1989 12:35:59 Type: Bipolar npn input, internal comp. * Typical specs: * Vos=3.0E-05, Ib=1.0E-09, Ios=4.0E-10, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.5E-01V/us, SR(-)=2.4E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq=2500uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl Precision OpAmp Vos=30uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP07 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 1.948E+03 RE2 11 12 1.948E+03 IEE 12 4 7.502E-06 RE 12 0 2.666E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.294E+03 * OUTPUT RO1 1 6 2.575E+01 RO2 1 0 3.425E+01 RC 17 0 6.634E-06 GC 0 17 6 0 1.507E+05 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.492E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=3.125E+03) .MODEL QM2 NPN (IS=8.009E-16 BF=4.688E+03) .MODEL DM1 D (IS=1.486E-08) .MODEL DM2 D (IS=8.000E-16) .ENDS OP07 *==================================================== * OP-07A * Linear Technology OP07A op amp model * Written: 08-24-1989 12:35:59 Type: Bipolar npn input, internal comp. * OP07A updated from original model on 06-20-1990 * Typical specs: * Vos=1.0E-05, Ib=7.0E-10, Ios=3.0E-10, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.5E-01V/us, SR(-)=2.4E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq=2500uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl Precision OpAmp Vos=10uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP07A 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 1.948E+03 RE2 11 12 1.948E+03 IEE 12 4 7.502E-06 RE 12 0 2.666E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.294E+03 * OUTPUT RO1 1 6 2.575E+01 RO2 1 0 3.425E+01 RC 17 0 6.634E-06 GC 0 17 6 0 1.507E+05 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.492E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=4.412E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=6.818E+03) .MODEL DM1 D (IS=1.486E-08) .MODEL DM2 D (IS=8.000E-16) .ENDS OP07A *==================================================== * OP-07C * Linear Technology OP07C op amp model (with calls for OP07CS8) * Written: 08-24-1989 12:35:59 Type: Bipolar npn input, internal comp. * OP07C updated from original model on 06-20-1990 * Typical specs: * Vos=6.0E-05, Ib=1.8E-09, Ios=8.0E-10, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.5E-01V/us, SR(-)=2.4E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq=2500uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl Precision OpAmp Vos=60uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP07C 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 1.948E+03 RE2 11 12 1.948E+03 IEE 12 4 7.502E-06 RE 12 0 2.666E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.294E+03 * OUTPUT RO1 1 6 2.575E+01 RO2 1 0 3.425E+01 RC 17 0 6.634E-06 GC 0 17 6 0 1.507E+05 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.492E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=1.705E+03) .MODEL QM2 NPN (IS=8.019E-16 BF=2.679E+03) .MODEL DM1 D (IS=1.486E-08) .MODEL DM2 D (IS=8.000E-16) .ENDS OP07C * *==================================================== * OP-07CS8 *LTC Sngl Precision OpAmp Vos=60uV pkg:SMD8A 3,2,7,4,6 .SUBCKT OP07CS8 3 2 7 4 6 X_OP07CS8 3 2 7 4 6 XOP07C .ENDS OP07CS8 *==================================================== * OP-07E * Linear Technology OP07E op amp model * Written: 08-24-1989 12:35:59 Type: Bipolar npn input, internal comp. * OP07E updated from original model on 06-20-1990 * Typical specs: * Vos=3.0E-05, Ib=1.2E-09, Ios=5.0E-10, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.5E-01V/us, SR(-)=2.4E-01V/us, Av= 114 dB, CMMR= 126 dB, * Vsat(+)=2.00V, Vsat(-)=2.00V, Isc=+/-25.0mA, Iq=2500uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl Precision OpAmp Vos=30uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP07E 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 102 10 QM1 Q2 90 103 11 QM2 RB1 2 102 5.000E+02 RB2 3 103 5.000E+02 DDM1 102 104 DM2 DDM3 104 103 DM2 DDM2 103 105 DM2 DDM4 105 102 DM2 C1 80 90 5.460E-12 RE1 10 12 1.948E+03 RE2 11 12 1.948E+03 IEE 12 4 7.502E-06 RE 12 0 2.666E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 5.668E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.294E+03 * OUTPUT RO1 1 6 2.575E+01 RO2 1 0 3.425E+01 RC 17 0 6.634E-06 GC 0 17 6 0 1.507E+05 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 2.803E+00 VE 14 4 2.803E+00 IP 7 4 2.492E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.586E+03) .MODEL QM2 NPN (IS=8.009E-16 BF=3.947E+03) .MODEL DM1 D (IS=1.486E-08) .MODEL DM2 D (IS=8.000E-16) .ENDS OP07E *==================================================== * OP-15A * Linear Technology OP15A op amp model (with calls for OP15E) * Written: 05-10-1990 18:51:28 Type: PFET input, internal comp. * Typical specs: * Vos=2.0E-04, Ib=1.8E-11, Ios=5.0E-12, GBP=6.0E+06Hz, Phase mar.= 45 deg, * SR(low)=1.3E+01V/us, SR(high)=2.6E+01V/us, Av=108.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 3mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpd JFET Precision OpAmp Vos=200uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP15A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 8.8419E+02 RD2 40 90 8.8419E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.2000E-04 GOSIT 7 12 90 80 2.6000E-04 * INTERMEDIATE GCM 0 8 12 0 1.1310E-08 GA 8 0 80 90 1.1310E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.2434E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0774E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1575E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1575E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 2.1800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.0500E-11 BETA=1.2299E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=1.5500E-11 BETA=1.2299E-03 VTO=-9.998000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP15A * *==================================================== * OP-15E *LTC Sngl HiSpd JFET Precision OpAmp Vos=200uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP15E 3 2 7 4 6 X_OP15E 3 2 7 4 6 XOP15A .ENDS OP15E *==================================================== * OP-15B * Linear Technology OP15B op amp model (with calls for OP15F) * Written: 05-10-1990 18:54:03 Type: PFET input, internal comp. * Typical specs: * Vos=4.0E-04, Ib=4.0E-11, Ios=1.0E-11, GBP=5.7E+06Hz, Phase mar.= 45 deg, * SR(low)=1.1E+01V/us, SR(high)=2.2E+01V/us, Av=107.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 3mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpd JFET Precision OpAmp Vos=400uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP15B 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.3073E+02 RD2 40 90 9.3073E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 4.4000E-04 GOSIT 7 12 90 80 2.2000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0744E-08 GA 8 0 80 90 1.0744E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.1047E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0598E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1528E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1528E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 2.2600E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=4.5000E-11 BETA=1.3118E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=3.5000E-11 BETA=1.3118E-03 VTO=-9.996000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP15B * *==================================================== * OP-15F *LTC Sngl HiSpd JFET Precision OpAmp Vos=400uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP15F 3 2 7 4 6 X_OP15F 3 2 7 4 6 XOP15B .ENDS OP15F *==================================================== * OP-15C * Linear Technology OP15C op amp model (with calls for OP15G) * Written: 05-10-1990 18:49:01 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-04, Ib=8.0E-11, Ios=2.0E-11, GBP=5.4E+06Hz, Phase mar.= 45 deg, * SR(low)=9.0E+00V/us, SR(high)=1.8E+01V/us, Av=106.0dB, CMRR= 96.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 3mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpd JFET Precision OpAmp Vos=500uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP15C 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.8244E+02 RD2 40 90 9.8244E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 3.6000E-04 GOSIT 7 12 90 80 1.8000E-04 * INTERMEDIATE GCM 0 8 12 0 1.6132E-08 GA 8 0 80 90 1.0179E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.9800E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0387E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1472E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1472E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 2.4400E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=9.0000E-11 BETA=1.4390E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=7.0000E-11 BETA=1.4390E-03 VTO=-9.995000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP15C * *==================================================== * OP-15G *LTC Sngl HiSpd JFET Precision OpAmp Vos=500uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP15G 3 2 7 4 6 X_OP15G 3 2 7 4 6 XOP15C .ENDS OP15G *==================================================== * OP-16A * Linear Technology OP16A op amp model (with calls for OP16E) * Written: 05-10-1990 19:00:18 Type: PFET input, internal comp. * Typical specs: * Vos=2.0E-04, Ib=2.0E-11, Ios=5.0E-12, GBP=8.0E+06Hz, Phase mar.= 45 deg, * SR(low)=2.0E+01V/us, SR(high)=4.0E+01V/us, Av=108.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpd JFET Precision OpAmp Vos=200uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP16A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 6.6315E+02 RD2 40 90 6.6315E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 8.0000E-04 GOSIT 7 12 90 80 4.0000E-04 * INTERMEDIATE GCM 0 8 12 0 1.5080E-08 GA 8 0 80 90 1.5080E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.2510E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.1231E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1696E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1696E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 3.8000E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.2500E-11 BETA=1.4212E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=1.7500E-11 BETA=1.4212E-03 VTO=-9.998000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP16A * *==================================================== * OP-16E *LTC Sngl HiSpd JFET Precision OpAmp Vos=200uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP16E 3 2 7 4 6 X_OP16E 3 2 7 4 6 XOP16A .ENDS OP16E *==================================================== * OP-16B * Linear Technology OP16B op amp model (with calls for OP16F) * Written: 05-10-1990 19:02:39 Type: PFET input, internal comp. * Typical specs: * Vos=4.0E-04, Ib=4.0E-11, Ios=1.0E-11, GBP=7.6E+06Hz, Phase mar.= 45 deg, * SR(low)=1.8E+01V/us, SR(high)=3.6E+01V/us, Av=107.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpd JFET Precision OpAmp Vos=400uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP16B 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 6.9805E+02 RD2 40 90 6.9805E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 7.2000E-04 GOSIT 7 12 90 80 3.6000E-04 * INTERMEDIATE GCM 0 8 12 0 1.4326E-08 GA 8 0 80 90 1.4326E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.1118E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.1119E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1666E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1666E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 3.8800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=4.5000E-11 BETA=1.4252E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=3.5000E-11 BETA=1.4252E-03 VTO=-9.996000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP16B * *==================================================== * OP-16F *LTC Sngl HiSpd JFET Precision OpAmp Vos=400uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP16F 3 2 7 4 6 X_OP16F 3 2 7 4 6 XOP16B .ENDS OP16F *==================================================== * OP-16C * Linear Technology OP16C op amp model (with calls for OP16G) * Written: 05-10-1990 18:57:16 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-04, Ib=8.0E-11, Ios=2.0E-11, GBP=7.2E+06Hz, Phase mar.= 45 deg, * SR(low)=1.6E+01V/us, SR(high)=3.2E+01V/us, Av=106.0dB, CMRR= 96.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 75ohms, Iq= 5mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Sngl HiSpd JFET Precision OpAmp Vos=500uV pkg:CAN8 3,2,7,4,6 .SUBCKT OP16C 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 7.3683E+02 RD2 40 90 7.3683E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 6.4000E-04 GOSIT 7 12 90 80 3.2000E-04 * INTERMEDIATE GCM 0 8 12 0 2.1510E-08 GA 8 0 80 90 1.3572E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 1.9867E+01 RO2 1 0 7.4000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0994E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1633E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1633E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 4.1600E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=9.0000E-11 BETA=1.4390E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=7.0000E-11 BETA=1.4390E-03 VTO=-9.995000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP16C * *==================================================== * OP-16G *LTC Sngl HiSpd JFET Precision OpAmp Vos=500uV pkg:DIP8 3,2,7,4,6 .SUBCKT OP16G 3 2 7 4 6 X_OP16G 3 2 7 4 6 XOP16C .ENDS OP16G *==================================================== * OP-215A * Linear Technology OP215A op amp model (with calls for OP215E) * Written: 05-10-1990 18:44:02 Type: PFET input, internal comp. * Typical specs: * Vos=2.0E-04, Ib=1.5E-11, Ios=1.0E-11, GBP=5.7E+06Hz, Phase mar.= 45 deg, * SR(low)=1.5E+01V/us, SR(high)=3.0E+01V/us, Av=112.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual JFET Precision OpAmp Vos=200uV pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT OP215A 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.3073E+02 RD2 40 90 9.3073E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 6.0000E-04 GOSIT 7 12 90 80 3.0000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0744E-08 GA 8 0 80 90 1.0744E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 3.7427E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0925E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1615E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1615E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.3000E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.0000E-11 BETA=9.6199E-04 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=1.0000E-11 BETA=9.6199E-04 VTO=-9.998000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP215A * *==================================================== * OP-215E *LTC Dual JFET Precision OpAmp Vos=200uV pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT OP215E 3 2 7 4 6 X_OP215E 3 2 7 4 6 XOP215A .ENDS OP215E *==================================================== * OP-215C * Linear Technology OP215C op amp model (with calls for OP215G) * Written: 05-10-1990 18:40:39 Type: PFET input, internal comp. * Typical specs: * Vos=5.0E-04, Ib=2.0E-11, Ios=1.5E-11, GBP=5.5E+06Hz, Phase mar.= 45 deg, * SR(low)=1.3E+01V/us, SR(high)=2.6E+01V/us, Av=108.0dB, CMRR=100.0dB, * Vsat(+)=2.0V, Vsat(-)=2.0V, Isc=+/-25mA, Rout= 100ohms, Iq= 2mA. * (input cm clamp *optional*) * * Connections: + - V+V-O *LTC Dual JFET Precision OpAmp Vos=500uV pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT OP215C 3 2 7 4 6 * INPUT VCM2 40 4 2.0000E+00 RD1 40 80 9.6458E+02 RD2 40 90 9.6458E+02 J1 80 102 12 JM1 J2 90 103 12 JM2 CIN 2 3 4.0000E-12 RG1 2 102 2.0000E+00 RG2 3 103 2.0000E+00 ** CM CLAMP * DCM1 107 103 DM4 * DCM2 105 107 DM4 * VCMC 105 4 4.0E+00 * ECMP 106 4 103 4 1 * RCMP 107 106 1E+04 * DCM3 109 102 DM4 * DCM4 105 109 DM4 * ECMN 108 4 102 4 1 * RCMN 109 108 1E+04 ** END CM CLAMP C1 80 90 1.5000E-11 ISS 7 12 5.2000E-04 GOSIT 7 12 90 80 2.6000E-04 * INTERMEDIATE GCM 0 8 12 0 1.0367E-08 GA 8 0 80 90 1.0367E-03 R2 8 0 1.0000E+05 C2 1 8 3.0000E-11 GB 1 0 8 0 2.4474E+01 RO2 1 0 9.9000E+01 * OUTPUT RSO 1 6 1.0000E+00 ECL 18 0 1 6 2.0774E+01 GCL 0 8 20 0 1.0000E+00 RCL 20 0 1.0000E+03 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1.0000E+00 VC 13 6 3.1575E+00 RPLA 7 70 1.0000E+04 RPLB 7 131 1.0000E+05 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1.0000E+00 VE 6 14 3.1575E+00 RNLA 60 4 1.0000E+04 RNLB 141 4 1.0000E+05 * IP 7 4 1.3800E-03 DSUB 4 7 DM2 * MODELS .MODEL JM1 PJF (IS=2.7500E-11 BETA=1.0335E-03 VTO=-1.000000E+00) .MODEL JM2 PJF (IS=1.2500E-11 BETA=1.0335E-03 VTO=-9.995000E-01) .MODEL DM1 D (IS=1.0000E-15) .MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01) .MODEL DM3 D (IS=1.0000E-16) .MODEL DM4 D (IS=1.0000E-09) .ENDS OP215C * *==================================================== * OP-215G *LTC Dual JFET Precision OpAmp Vos=500uV pkg:DIP8 (A:3,2,8,4,1)(B:5,6,8,4,7) .SUBCKT OP215G 3 2 7 4 6 X_OP215G 3 2 7 4 6 XOP215C .ENDS OP215G *==================================================== * OP-27A * Linear Technology OP27A op amp model (with calls for OP27E, OP227A, OP227E) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * OP27A updated from original model on 06-20-1990 * Typical specs: * Ref. OP-27 data sheet, LTC 1990 databook p2-345 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP27A 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 50 CXC1 91 90 500E-12 C2 8 98 4.000E-12 RXC2 8 98 4.00K CXC2 1 98 27.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.778E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=5.769E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS OP27A * *==================================================== * OP-27E *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP27E 3 2 7 4 6 X_OP27E 3 2 7 4 6 XOP27A .ENDS OP27E * *==================================================== * OP-227A *LTC Dual Matched LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP227A 3 2 7 4 6 X_OP227A 3 2 7 4 6 XOP27A .ENDS OP227A * *==================================================== * OP-227E *LTC Dual Matched LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP227E 3 2 7 4 6 X_OP227E 3 2 7 4 6 XOP27A .ENDS OP227E *==================================================== * OP-27C * Linear Technology OP27C op amp model (with calls for OP27G, OP227C, OP227G) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * OP27C updated from original model on 06-20-1990 * Typical specs: * Ref. OP-27 data sheet, LTC 1990 databook p2-345 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP27C 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 50 CXC1 91 90 500E-12 C2 8 98 4.000E-12 RXC2 8 98 4.00K CXC2 1 98 27.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.0000E+03) .MODEL QM2 NPN (IS=8.0093E-16 BF=4.6667E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS OP27C * *==================================================== * OP-27G *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP27G 3 2 7 4 6 X_OP27G 3 2 7 4 6 XOP27C .ENDS OP27G * *==================================================== * OP-227C *LTC Dual Matched LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP227C 3 2 7 4 6 X_OP227C 3 2 7 4 6 XOP27C .ENDS OP227C * *==================================================== * OP-227G *LTC Dual Matched LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP227G 3 2 7 4 6 X_OP227G 3 2 7 4 6 XOP27C .ENDS OP227G *==================================================== * OP-37A * Linear Technology OP37A op amp model (with calls for OP37E, OP237A, OP237E) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * OP37A updated from original model on 06-20-1990 * Typical specs: * Ref. OP-37 data sheet, LTC 1990 databook p2-345 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP37A 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 200 CXC1 91 90 200E-12 C2 8 98 1.000E-12 RXC2 8 98 10.00K CXC2 1 98 5.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=2.778E+03) .MODEL QM2 NPN (IS=8.003E-16 BF=5.769E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS OP37A * *==================================================== * OP-37E *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP37E 3 2 7 4 6 X_OP37E 3 2 7 4 6 XOP37A .ENDS OP37E * *==================================================== * OP-237A *LTC Dual HiSpeed LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP237A 3 2 7 4 6 X_OP237A 3 2 7 4 6 XOP37A .ENDS OP237A * *==================================================== * OP-237E *LTC Dual HiSpeed LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP237E 3 2 7 4 6 X_OP237E 3 2 7 4 6 XOP37A .ENDS OP237E *==================================================== * OP-37C * Linear Technology OP37C op amp model (with calls for OP37G, OP237C, OP237G) * Written: 11-21-1989 Type: Bipolar npn input, internal comp. * OP37C updated from original model on 06-20-1990 * Typical specs: * Ref. OP-37 data sheet, LTC 1990 databook p2-345 * Comments: * Uses extended phase compensation; input differential mode clamp. * * Connections: + - V+V-O *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP37C 3 2 7 4 6 RC1 7 80 6.6315E+02 RC2 7 90 6.6315E+02 Q1 80 2 10 QM1 Q2 90 3 11 QM2 * C1 80 91 200E-12 RXC1 91 90 200 CXC1 91 90 200E-12 C2 8 98 1.000E-12 RXC2 8 98 10.00K CXC2 1 98 5.000E-12 * CIN 3 2 5E-12 DDM1 2 104 DM2 DDM3 104 3 DM2 DDM2 3 105 DM2 DDM4 105 2 DM2 RE1 10 12 -2.6233E+01 RE2 11 12 -2.6233E+01 IEE 12 4 7.5030E-05 RE 12 0 2.666E+06 CE 12 0 1.579E-12 GCM 0 8 12 0 7.558E-10 GA 8 0 80 90 1.5080E-03 R2 8 0 1.000E+05 GB 1 0 8 0 1.9176E+03 RO2 1 0 6.900E+01 * RS 1 6 1 ECL 18 0 1 6 2.828E+01 GCL 0 8 20 0 1 RCL 20 0 1E3 D1 18 20 DM1 D2 20 18 DM1 * D3A 131 70 DM3 D3B 13 131 DM3 GPL 0 8 70 7 1 VC 13 6 3.0909 RPLA 7 70 1E4 RPLB 7 131 1E5 D4A 60 141 DM3 D4B 141 14 DM3 GNL 0 8 60 4 1 VE 6 14 3.0909 RNLA 60 4 1E4 RNLB 141 4 1E5 * IP 7 4 2.625E-03 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.0000E-16 BF=2.0000E+03) .MODEL QM2 NPN (IS=8.0093E-16 BF=4.6667E+03) .MODEL DM1 D (IS=1.000E-19) .MODEL DM2 D (IS=8.000E-16) .MODEL DM3 D (IS=1.000E-20) .ENDS OP37C * *==================================================== * OP-37G *LTC Sngl LoNoise HiSpeed Precision OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP37G 3 2 7 4 6 X_OP37G 3 2 7 4 6 XOP37C .ENDS OP37G * *==================================================== * OP-237C *LTC Dual HiSpeed LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP237C 3 2 7 4 6 X_OP237C 3 2 7 4 6 XOP37C .ENDS OP237C * *==================================================== * OP-237G *LTC Dual HiSpeed LoNoise Precision OpAmp pkg:DIP14 (A:4,3,14,7,13)(B:11,10,14,7,6) .SUBCKT OP237G 3 2 7 4 6 X_OP237G 3 2 7 4 6 XOP37C .ENDS OP237G *==================================================== * OP-97 * Linear Technology OP97 op amp model * Written: 12-06-89 Type: Bipolar npn input, internal comp. * Typical specs: * Vos=3.0e-05, Ib=3.0E-11, Ios=2.0E-11, GBP=6.0E+05Hz, Phase mar.= 70 deg, * SR(+)=2.0E-01V/us, SR(-)=1.9E-01V/us, Av= 126 dB, CMMR= 132 dB, * Vsat(+)=1.00V, Vsat(-)=1.00V, Isc=+/-12.5mA, Iq= 380uA * (input differential mode clamp active) * * Connections: + - V+V-O *LTC Sngl OpAmp pkg:DIP8 3,2,7,4,6 .SUBCKT OP97 3 2 7 4 6 * INPUT RC1 7 80 8.842E+03 RC2 7 90 8.842E+03 Q1 80 2 10 QM1 Q2 90 3 11 QM2 DDM1 2 3 DM2 DDM2 3 2 DM2 C1 80 90 5.460E-12 RE1 10 12 2.246E+02 RE2 11 12 2.246E+02 IEE 12 4 6.000E-06 RE 12 0 3.333E+07 CE 12 0 1.579E-12 * INTERMEDIATE GCM 0 8 12 0 2.841E-11 GA 8 0 80 90 1.131E-04 R2 8 0 1.000E+05 C2 1 8 3.000E-11 GB 1 0 8 0 1.960E+02 * OUTPUT RO1 1 6 1.000E+02 RO2 1 0 9.000E+02 RC 17 0 1.063E-04 GC 0 17 6 0 9.408E+03 D1 1 17 DM1 D2 17 1 DM1 D3 6 13 DM2 D4 14 6 DM2 VC 7 13 1.785E+00 VE 14 4 1.785E+00 IP 7 4 3.740E-04 DSUB 4 7 DM2 * MODELS .MODEL QM1 NPN (IS=8.000E-16 BF=7.500E+04) .MODEL QM2 NPN (IS=8.008E-16 BF=1.500E+05) .MODEL DM1 D (IS=1.179E-19) .MODEL DM2 D (IS=8.000E-16) .ENDS OP97 *==================================================== * * Copyright notice for all "Linear Technology" macromodels: *--------------------------------------------------------------- * * (C) COPYRIGHT LINEAR TECHNOLOGY CORPORATION 1993 * All rights reserved. * * Linear Technology Corporation hereby grants the users of this * macromodel a non-exclusive, nontransferrable license to use this * macromodel under the following conditions: * * The user agrees that this macromodel is licensed from Linear * Technology and agrees that the macromodel may be used, loaned, * given away or included in other model libraries as long as this * notice and the model in its entirety and unchanged is included. * No right to make derivative works or modifications to the * macromodel is granted hereby. All such rights are reserved. * * This model is provided as is. Linear Technology makes no * warranty, either expressed or implied about the suitability or * fitness of this model for any particular purpose. In no event * will Linear Technology be liable for special, collateral, * incidental or consequential damages in connection with or arising * out of the use of this macromodel. It should be remembered that * models are a simplification of the actual circuit. * * Linear Technology reserves the right to change these macromodels * without prior notice. Contact Linear Technology at 1630 McCarthy * Blvd., Milpitas, CA, 95035-7487 or telephone 408/432-1900 for * datasheets on the actual amplifiers or the latest macromodels. * * ----------------------------------------------------------------------- *