Liren Large Software Subsidy 13

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Text File | 1991-07-01 | 155.8 KB | 6,026 lines

* Library of Burr-Brown definitions * Copyright 1989-1990 Burr-Brown Corporation * Neither this library nor any part may be copied without the express * written consent of Burr-Brown Corporation * $Revision: 1.3 $ * $Author: pwt $ * $Date: 28 May 1991 09:52:24 $ *----------------------------------------------------------------------------- * This library of macromodels is being supplied to users as an aid to circuit * designs. While it reflects reasonably close similarity to the actual device * in terms of performance, it is not suggested as a replacement for * breadboarding. Simulation should be used as a forerunner or a supplement to * traditional lab testing. * * Users should very carefully note the following factors regarding these * models: * * While reasonable care has been taken in their preparation, we cannot * be responsible for correct application on any and all computer * systems. * * Model users are hereby notified that these models are supplied * "as is", with no direct or implied responsibility on the part of * Burr-Brown for their operation within a customer circuit or system. * Further, Burr-Brown Corporation reserves the right to change these * models without prior notice. * * In all cases, the current data sheet information for a given real * device is your final design guideline, and is the only actual * performance guarantee. * * For further technical information refer Application Note AN-167 * "SPICE models for OPA620 and OPA621", and Application Bulletin * number 20. * * Your feedback and suggestions on these (and future) models will be * appreciated! * * Burr-Brown Corporation * 6730 S. Tucson Blvd. * Tucson, Arizona 85706 * (602) 746-1111 *------------------------------------------------------------------------------ * INA101 = A1_101 + A2_101 + A3_101 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA101 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA101/BB 1 2 3 4 5 8 9 10 * ***** A1_101 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 2 9 3 4 11 A1_101 * ***** A2_101 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 1 10 3 4 12 A2_101 * ***** A3_101 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_101 * R1 11 13 10.0000K R2 13 5 9.9994K C2 13 5 0.8000PF R3 12 14 10.0000K R4 14 8 10.0000K * RFB1 9 11 20.0000K CC1 9 11 15.0000PF RFB2 10 12 20.0000K CC2 10 12 15.0000PF * .ENDS *------------------------------------------------------------------------------ * INA101E = A1_101E + A2_101E + A3_101E OP AMPS + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 10/30/90 AT 15:01 * ***** INA101E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA101/BB-E 1 2 3 4 5 8 9 10 * ***** A1_101E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 2 9 3 4 11 A1_101E * ***** A2_101E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 1 10 3 4 12 A2_101E * ***** A3_101E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_101E * R1 11 13 10.0000K R2 13 5 9.9994K C2 13 5 0.8000PF R3 12 14 10.0000K R4 14 8 10.0000K * RFB1 9 11 20.0000K CC1 9 11 15.0000PF RFB2 10 12 20.0000K CC2 10 12 15.0000PF * .ENDS *------------------------------------------------------------------------------ * INA102 = A1_102 + A2_102 + A3_102 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA102 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SET 1 * | | | | | | | GAIN SET 2 * | | | | | | | | .SUBCKT INA102/BB 1 2 3 4 5 8 9 10 * ***** A1_102 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 2 9 3 4 11 A1_102 * ***** A2_102 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 1 10 3 4 12 A2_102 * ***** A3_102 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_102 * R1 11 13 20.000K R2 13 5 19.999K C2 13 5 6.000PF R3 12 14 20.000K R4 14 8 20.000K C4 14 8 5.000PF * RFB1 9 11 20.000K CC1 9 11 5.000PF RFB2 10 12 20.000K CC2 10 12 5.000PF * .ENDS *------------------------------------------------------------------------------ * INA102E = A1_102E + A2_102E + A3_102E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA102E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SET 1 * | | | | | | | GAIN SET 2 * | | | | | | | | .SUBCKT INA102/BB-E 1 2 3 4 5 8 9 10 * ***** A1_102E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 2 9 3 4 11 A1_102E * ***** A2_102E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 1 10 3 4 12 A2_102E * ***** A3_102E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_102E * R1 11 13 20.0000K R2 13 5 19.9990K C2 13 5 6.0000PF R3 12 14 20.0000K R4 14 8 20.0000K C4 14 8 5.0000PF * RFB1 9 11 20.0000K CC1 9 11 5.0000PF RFB2 10 12 20.0000K CC2 10 12 5.0000PF * .ENDS *------------------------------------------------------------------------------ * INA103 = A1_103 + A2_103 + A3_103 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA103 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA103/BB 1 2 3 4 5 8 9 10 * ***** A1_103 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 15 17 3 4 11 A1_103 * ***** A2_103 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 15 16 3 4 12 A2_103 * ***** A3_103 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_103 * R1 11 13 6.0000K R2 13 5 5.9994K C2 13 5 2.0000PF R3 12 14 6.0000K R4 14 8 6.0000K * R1FB 9 11 3.0000K CC1 17 11 35.0000PF R2FB 10 12 3.0000K CC2 16 12 35.0000PF * RCE 17 9 75MEG * I1 3 16 DC 1.300E-3 I2 3 17 DC 1.300E-3 I3 10 4 DC 1.300E-3 I4 9 4 DC 1.300E-3 * D1 17 15 DX D2 16 15 DX * Q1 16 1 10 QX Q2 17 2 9 QX * V1 3 15 DC 2.000 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS *------------------------------------------------------------------------------ * INA103E = A1_103E + A2_103E + A3_103E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA103E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA103/BB-E 1 2 3 4 5 8 9 10 * ***** A1_103E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 15 17 3 4 11 A1_103E * ***** A2_103E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 15 16 3 4 12 A2_103E * ***** A3_103E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_103E * R1 11 13 6.0000K R2 13 5 5.9994K C2 13 5 2.0000PF R3 12 14 6.0000K R4 14 8 6.0000K * R1FB 9 11 3.0000K CC1 17 11 35.0000PF R2FB 10 12 3.0000K CC2 16 12 35.0000PF * RCE 17 9 75MEG * I1 3 16 DC 1.300E-3 I2 3 17 DC 1.300E-3 I3 10 4 DC 1.300E-3 I4 9 4 DC 1.300E-3 * D1 17 15 DX D2 16 15 DX * Q1 16 1 10 QX Q2 17 2 9 QX * V1 3 15 DC 2.000 * C1CM 1 0 2.5PF C2CM 2 0 2.5PF CDIF 1 2 2.0PF * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS *------------------------------------------------------------------------------ * INA105 = A3_105 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 08/21/90 AT 12:54 * ***** INA105 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | SENSE * | | | | | | | .SUBCKT INA105/BB 1 2 3 4 5 8 9 * ***** A3_105 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 14 13 3 4 5 A3_105 * R1 2 13 25000 R2 13 9 24997.5 C2 13 9 0.1P R3 1 14 25000 R4 14 8 25000 * C1CM 14 0 1.5PF C2CM 13 0 1.5PF CDIF 14 13 1.5PF * .ENDS *------------------------------------------------------------------------------ * INA105E = A3_105E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 08/28/90 AT 9:50 * ***** INA105E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | SENSE * | | | | | | | .SUBCKT INA105/BB-E 1 2 3 4 5 8 9 * ***** A3_105E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 14 13 3 4 5 A3_105E * R1 2 13 25000 R2 13 9 24997.5 C2 13 9 0.1PF R3 1 14 25000 R4 14 8 25000 * C1CM 14 0 1.5PF C2CM 13 0 1.5PF CDIF 14 13 1.5PF * .ENDS *------------------------------------------------------------------------------ * INA106 = A3_106 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 08/21/90 AT 12:54 * ***** INA106 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | SENSE * | | | | | | | .SUBCKT INA106/BB 1 2 3 4 5 8 9 * ***** A3_106 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 14 13 3 4 5 A3_106 * R1 2 13 10.0000K R2 13 9 100.0100K C2 13 9 0.1000PF R3 1 14 10.0000K R4 14 8 100.0000K * C1CM 14 0 1.5PF C2CM 13 0 1.5PF CDIF 14 13 1.5PF * .ENDS *------------------------------------------------------------------------------ * INA106E = A3_106E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 08/28/90 AT 9:50 * ***** INA106E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | SENSE * | | | | | | | .SUBCKT INA106/BB-E 1 2 3 4 5 8 9 * ***** A3_106E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 14 13 3 4 5 A3_106E * R1 2 13 10000 R2 13 9 100010 C2 13 9 0.1PF R3 1 14 10000 R4 14 8 100000 * C1CM 14 0 1.5PF C2CM 13 0 1.5PF CDIF 14 13 1.5PF * .ENDS *------------------------------------------------------------------------------ * INA110 = A1_110 + A2_110 + A3_110 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA110 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA110/BB 1 2 3 4 5 8 9 10 * ***** A1_110 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 15 17 3 4 11 A1_110 * ***** A2_110 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 15 16 3 4 12 A2_110 * ***** A3_110 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_110 * R1 11 13 10.0000K R2 13 5 9.9995K C2 13 5 6.0000PF R3 12 14 10.0000K R4 14 8 10.0000K C4 14 8 5.0000PF * R1FB 9 11 20.0000K CC1 17 11 5.0000PF R2FB 10 12 20.0000K CC2 16 12 5.0000PF * RCE 17 9 400MEG * I1 3 16 DC 50.00E-6 I2 3 17 DC 50.00E-6 I3 10 4 DC 50.00E-6 I4 9 4 DC 50.00E-6 I5 3 21 DC 200.00E-6 I6 3 22 DC 200.00E-6 * CG1 9 0 30.0000PF CG2 10 0 20.0000PF * D1 17 15 DX D2 16 15 DX * Q1 16 21 10 QX Q2 17 22 9 QX * J1 4 1 21 JX J2 4 2 22 JX * V1 3 15 DC 3.000 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .MODEL JX PJF(IS=10.00E-12 BETA=500.0E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * INA110E = A1_110E + A2_110E + A3_110E OP AMPS + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 10/30/90 AT 15:01 * ***** INA110E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA110/BB-E 1 2 3 4 5 8 9 10 * ***** A1_110E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 15 17 3 4 11 A1_110E * ***** A2_110E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 15 16 3 4 12 A2_110E * ***** A3_110E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_110E * R1 11 13 10.0000K R2 13 5 9.9995K C2 13 5 6.0000PF R3 12 14 10.0000K R4 14 8 10.0000K C4 14 8 5.0000PF * R1FB 9 11 20.0000K CC1 17 11 5.0000PF R2FB 10 12 20.0000K CC2 16 12 5.0000PF * RCE 17 9 400MEG * I1 3 16 DC 50.00E-6 I2 3 17 DC 50.00E-6 I3 10 4 DC 50.00E-6 I4 9 4 DC 50.00E-6 I5 3 21 DC 200.00E-6 I6 3 22 DC 200.00E-6 * CG1 9 0 30.0000PF CG2 10 0 20.0000PF * D1 17 15 DX D2 16 15 DX * Q1 16 21 10 QX Q2 17 22 9 QX * J1 4 1 21 JX J2 4 2 22 JX * V1 3 15 DC 3.000 * C1CM 1 0 1.0PF C2CM 2 0 1.0PF CDIF 1 2 6.0PF * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .MODEL JX PJF(IS=10.00E-12 BETA=500.0E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * INA117 = A3_117 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 08/21/90 AT 12:54 * ***** INA117 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE A * | | | | | | REFERENCE B * | | | | | | | .SUBCKT INA117/BB 1 2 3 4 5 8 9 * ***** A3_117 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 14 13 3 4 5 A3_117 * R1 2 13 380.0000K R2 13 5 380.0000K C2 13 5 0.500PF R3 1 14 380.0000K R4 14 8 19.9990K R5 13 9 21.1111K * C1CM 14 0 3PF C2CM 13 0 3PF CDIF 14 13 7PF * .ENDS *------------------------------------------------------------------------------ * INA117E = A3_117E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 08/28/90 AT 9:50 * ***** INA117E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE A * | | | | | | REFERENCE B * | | | | | | | .SUBCKT INA117/BB-E 1 2 3 4 5 8 9 * ***** A3_117E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 14 13 3 4 5 A3_117E * R1 2 13 380.0000K R2 13 5 380.0000K C2 13 5 0.5000PF R3 1 14 380.0000K R4 14 8 19.9990K R5 13 9 21.1111K * C1CM 14 0 3PF C2CM 13 0 3PF CDIF 14 13 7PF * .ENDS *------------------------------------------------------------------------------ * INA120 = A1_120 + A2_120 + A3_120 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA120 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA120/BB 1 2 3 4 5 8 9 10 * ***** A1_120 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 2 9 3 4 11 A1_120 * ***** A2_120 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 1 10 3 4 12 A2_120 * ***** A3_120 SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_120 * R1 11 13 10.0000K R2 13 5 9.9995K C2 13 5 1.0000PF R3 12 14 10.0000K R4 14 8 10.0000K * R1FB 9 11 20.0000K CC1 9 11 10.0000PF R2FB 10 12 20.0000K CC2 10 12 10.0000PF * .ENDS *------------------------------------------------------------------------------ * INA120E = A1_120E + A2_120E + A3_120E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * ***** INA120E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | REFERENCE * | | | | | | GAIN SENSE 1 * | | | | | | | GAIN SENSE 2 * | | | | | | | | .SUBCKT INA120/BB-E 1 2 3 4 5 8 9 10 * ***** A1_120E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X1 2 9 3 4 11 A1_120E * ***** A2_120E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X2 1 10 3 4 12 A2_120E * ***** A3_120E SUB-CIRCUIT * CONNECTIONS: NON-INVERTING INPUT * | INVERTING INPUT * | | POSITIVE POWER SUPPLY * | | | NEGATIVE POWER SUPPLY * | | | | OUTPUT * | | | | | X3 14 13 3 4 5 A3_120E * R1 11 13 10.0000K R2 13 5 9.9995K C2 13 5 1.0000PF R3 12 14 10.0000K R4 14 8 10.0000K * R1FB 9 11 20.0000K CC1 9 11 10.0000PF R2FB 10 12 20.0000K CC2 10 12 10.0000PF * .ENDS *------------------------------------------------------------------------------ * OPA101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 14:55 * .SUBCKT OPA101/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 5.774E-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 0 210.4E3 -20E3 20E3 20E3 -20E3 GA 6 0 11 12 2.513E-3 GCM 0 6 10 99 14.13E-9 ISS 10 4 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 3 11 397.9 RD2 3 12 397.9 RO1 8 5 25 RO2 7 99 475 RP 3 4 5.172E3 RSS 10 99 1.538E6 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 45 VLN 0 92 DC 45 .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=6.000E-12 BETA=24.30E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/28/90 AT 08:09 * .SUBCKT OPA101/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 5.774E-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 0 210.4E3 -20E3 20E3 20E3 -20E3 GA 6 0 11 12 2.513E-3 GCM 0 6 10 99 14.13E-9 ISS 10 4 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 3 11 397.9 RD2 3 12 397.9 RO1 8 5 25 RO2 7 99 475 * RP 3 4 5.172E3 RSS 10 99 1.538E6 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 45 VLN 0 92 DC 45 **************************** * OPA101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 4.157E-3 1 FQ2 0 4 POLY(1) VQ2 4.157E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=6.000E-12 BETA=24.30E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/16/90 AT 11:53 * .SUBCKT OPA102/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.374E-12 C2 6 7 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 2.104E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 1.413E-9 ISS 10 4 DC 14.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 3 11 3.979E3 RD2 3 12 3.979E3 RO1 8 5 25 RO2 7 99 475 RP 3 4 5.172E3 RSS 10 99 14.29E6 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 45 VLN 0 92 DC 45 .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=6.000E-12 BETA=2.256E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/28/90 AT 10:17 * .SUBCKT OPA102/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.374E-12 C2 6 7 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 2.104E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 1.413E-9 ISS 10 4 DC 14.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 3 11 3.979E3 RD2 3 12 3.979E3 RO1 8 5 25 RO2 7 99 475 * RP 3 4 5.172E3 RSS 10 99 14.29E6 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 45 VLN 0 92 DC 45 **************************** * OPA102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 4.29E-3 1 FQ2 0 4 POLY(1) VQ2 4.29E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=6.000E-12 BETA=2.256E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA111 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 16:35 * .SUBCKT OPA111/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 72.79E-12 C2 6 7 400.0E-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 4.717E6 -5E6 5E6 5E6 -5E6 GA 6 0 11 12 5.027E-3 GCM 0 6 10 99 15.90E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 198.9 RD2 4 12 198.9 RO1 8 5 25 RO2 7 99 75 RP 3 4 12.00E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=400.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA111E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/27/90 AT 11:56 * .SUBCKT OPA111/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 72.79E-12 C2 6 7 400.0E-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 4.717E6 -5E6 5E6 5E6 -5E6 GA 6 0 11 12 5.027E-3 GCM 0 6 10 99 15.90E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 198.9 RD2 4 12 198.9 RO1 8 5 25 RO2 7 99 75 * RP 3 4 12.00E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 **************************** * OPA111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.30E-3 1 FQ2 0 4 POLY(1) VQ2 1.30E-3 -1 * QUIESCIENT CURRENT RQ 3 4 7.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=400.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA121 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 14:41 * .SUBCKT OPA121/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 72.79E-12 C2 6 7 400.0E-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 5.027E-3 GCM 0 6 10 99 31.72E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 198.9 RD2 4 12 198.9 RO1 8 5 25 RO2 7 99 75 RP 3 4 12.00E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA121E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/27/90 AT 11:56 * .SUBCKT OPA121/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 72.79E-12 C2 6 7 400.0E-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 5.027E-3 GCM 0 6 10 99 31.72E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 198.9 RD2 4 12 198.9 RO1 8 5 25 RO2 7 99 75 * RP 3 4 12.00E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 **************************** * OPA121 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.30E-3 1 FQ2 0 4 POLY(1) VQ2 1.30E-3 -1 * QUIESCIENT CURRENT RQ 3 4 7.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA128 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 08:27 * .SUBCKT OPA128/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 2.204E-12 C2 6 7 25.00E-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 0 106.6E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 314.2E-6 GCM 0 6 10 99 395.5E-12 ISS 3 10 DC 80.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.183E3 RD2 4 12 3.183E3 RO1 8 5 25 RO2 7 99 75 RP 3 4 33.33E3 RSS 10 99 2.500E6 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 29 VLN 0 92 DC 29 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=20.00E-15 BETA=616.8E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA128E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/28/90 AT 15:02 * .SUBCKT OPA128/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 2.204E-12 C2 6 7 25.00E-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 0 106.6E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 314.2E-6 GCM 0 6 10 99 395.5E-12 ISS 3 10 DC 80.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.183E3 RD2 4 12 3.183E3 RO1 8 5 25 RO2 7 99 75 * RP 3 4 33.33E3 RSS 10 99 2.500E6 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 29 VLN 0 92 DC 29 **************************** * OPA128 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 0.700E-3 1 FQ2 0 4 POLY(1) VQ2 0.700E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E5 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.0E-12 C2CM 2 99 1.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=20.00E-15 BETA=616.8E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA177 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 15:33 * .SUBCKT OPA177/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 40.00E-12 C2 6 7 80.00E-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 1.326E9 -1E9 1E9 1E9 -1E9 GA 6 0 11 12 301.6E-6 GCM 0 6 10 99 30.16E-12 IEE 10 4 DC 20.00E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 3.316E3 RC2 3 12 3.316E3 RE1 13 10 729.2 RE2 14 10 729.2 REE 10 99 9.999E6 RO1 8 5 30 RO2 7 99 30 RP 3 4 15.15E3 VB 9 0 DC 0 VC 3 53 DC 1.500 VE 54 4 DC 1.500 VLIM 7 8 DC 0 VLP 91 0 DC 22 VLN 0 92 DC 22 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10.00E3) .ENDS *------------------------------------------------------------------------------ * OPA177E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/20/90 AT 15:29 * .SUBCKT OPA177/BB-E + INP ; non-inverting input + INN ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 40.00E-12 C2 6 7 80.00E-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 1.326E9 -1E9 1E9 1E9 -1E9 GA 6 0 11 12 301.6E-6 GCM 0 6 10 99 30.16E-12 IEE 10 4 DC 20.00E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 3.316E3 RC2 3 12 3.316E3 RE1 13 10 729.2 RE2 14 10 729.2 REE 10 99 9.999E6 RO1 8 5 30 RO2 7 99 30 * RP 3 4 15.15E3 VB 9 0 DC 0 VC 3 53 DC 1.500 VE 54 4 DC 1.500 VLIM 7 8 DC 0 VLP 91 0 DC 22 VLN 0 92 DC 22 **************************** * OPA177 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 0.976E-3 1 FQ2 0 4 POLY(1) VQ2 0.976E-3 -1 * QUIESCIENT CURRENT RQ 3 4 3.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 * INPUT PROTECTION R1IN INP 1 500 D1A 1 VD1 DX D1B VD1 2 DX R2IN INN 2 500 D2A 2 VD2 DX D2B VD2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10.00E3) .ENDS *------------------------------------------------------------------------------ * OPA27 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 09/20/90 AT 16:00 * .SUBCKT OPA27/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.79E-12 C2 6 7 114.3E-12 CEE 10 99 5.713E-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 10.95E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 4.638E-3 GCM 0 6 10 99 2.608E-9 IEE 10 4 DC 240.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 215.6 RC2 3 12 215.6 RE1 13 10 5.395E-3 RE2 14 10 5.395E-3 REE 10 99 833.5E3 RO1 8 5 35 RO2 7 99 35 RP 3 4 10.87E3 VB 9 0 DC 0 VC 3 53 DC 1.200 VE 54 4 DC 1.200 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=7.998E3) .ENDS *------------------------------------------------------------------------------ * OPA27E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/05/90 AT 10:27 * .SUBCKT OPA27/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.79E-12 C2 6 7 114.3E-12 CEE 10 99 5.713E-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 10.95E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 4.638E-3 GCM 0 6 10 99 2.608E-9 IEE 10 4 DC 240.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 215.6 RC2 3 12 215.6 RE1 13 10 5.395E-3 RE2 14 10 5.395E-3 REE 10 99 833.5E3 RO1 8 5 35 RO2 7 99 35 * RP 3 4 10.87E3 VB 9 0 DC 0 VC 3 53 DC 1.200 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 **************************** * OPA27 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.56E-3 1 FQ2 0 4 POLY(1) VQ2 1.56E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 5.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.5E-12 C2CM 2 99 2.5E-12 * INPUT PROTECTION DIN1 1 2 DX DIN2 2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.998E3) .ENDS *------------------------------------------------------------------------------ * OPA27H OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/03/90 AT 09:16 * .SUBCKT OPA27H/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.79E-12 C2 6 7 114.3E-12 CEE 10 99 5.713E-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 10.95E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 4.638E-3 GCM 0 6 10 99 2.608E-9 IEE 10 4 DC 240.8E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 215.6 RC2 3 12 215.6 RE1 13 10 5.376E-3 RE2 14 10 5.376E-3 REE 10 99 830.6E3 RO1 8 5 35 RO2 7 99 35 RP 3 4 10.87E3 VB 9 0 DC 0 VC 3 53 DC 1.200 VE 54 4 DC 1.200 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=279) .ENDS *------------------------------------------------------------------------------ * OPA27HE OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/03/90 AT 09:16 * .SUBCKT OPA27H/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.79E-12 C2 6 7 114.3E-12 CEE 10 99 5.713E-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 10.95E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 4.638E-3 GCM 0 6 10 99 2.608E-9 IEE 10 4 DC 240.8E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 215.6 RC2 3 12 215.6 RE1 13 10 5.376E-3 RE2 14 10 5.376E-3 REE 10 99 830.6E3 RO1 8 5 35 RO2 7 99 35 * RP 3 4 10.87E3 VB 9 0 DC 0 VC 3 53 DC 1.200 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 **************************** * OPA27H "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.56E-3 1 FQ2 0 4 POLY(1) VQ2 1.56E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 5.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.5E-12 C2CM 2 99 2.5E-12 * INPUT PROTECTION DIN1 1 2 DX DIN2 2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=279) .ENDS *------------------------------------------------------------------------------ * OPA37 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/16/90 AT 10:32 * .SUBCKT OPA37/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 21.45E-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 10.64E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 4.775E-3 GCM 0 6 10 99 2.685E-9 IEE 10 4 DC 250.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 209.4 RC2 3 12 209.4 RE1 13 10 2.501 RE2 14 10 2.501 REE 10 99 799.9E3 RO1 8 5 35 RO2 7 99 35 RP 3 4 10.91E3 VB 9 0 DC 0 VC 3 53 DC 1.200 VE 54 4 DC 1.200 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=8.333E3) .ENDS *------------------------------------------------------------------------------ * OPA37E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/02/90 AT 09:06 * .SUBCKT OPA37/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 21.45E-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 10.64E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 4.775E-3 GCM 0 6 10 99 2.685E-9 IEE 10 4 DC 250.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 209.4 RC2 3 12 209.4 RE1 13 10 2.501 RE2 14 10 2.501 REE 10 99 799.9E3 RO1 8 5 35 RO2 7 99 35 * RP 3 4 10.91E3 VB 9 0 DC 0 VC 3 53 DC 1.200 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 **************************** * OPA37 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.55E-3 1 FQ2 0 4 POLY(1) VQ2 1.55E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 5.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.5E-12 C2CM 2 99 2.5E-12 * INPUT PROTECTION DIN1 1 2 DX DIN2 2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=8.333E3) .ENDS *------------------------------------------------------------------------------ * OPA404 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 10:49 * .SUBCKT OPA404/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 6.850E-12 C2 6 7 13.70E-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 2.213E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 602.6E-6 GCM 0 6 10 99 6.026E-9 ISS 3 10 DC 479.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.660E3 RD2 4 12 1.660E3 RO1 8 5 25 RO2 7 99 75 RP 3 4 13.33E3 RSS 10 99 417.1E3 VB 9 0 DC 0 VC 3 53 DC 1.800 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 18 VLN 0 92 DC 18 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.785E-4 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA404E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 10:13 * .SUBCKT OPA404/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 6.850E-12 C2 6 7 13.70E-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 2.213E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 602.6E-6 GCM 0 6 10 99 6.026E-9 ISS 3 10 DC 479.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.660E3 RD2 4 12 1.660E3 RO1 8 5 25 RO2 7 99 75 * RP 3 4 13.33E3 RSS 10 99 417.1E3 VB 9 0 DC 0 VC 3 53 DC 1.800 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 18 VLN 0 92 DC 18 **************************** * OPA404 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.47E-3 1 FQ2 0 4 POLY(1) VQ2 1.47E-3 -1 * QUIESCIENT CURRENT RQ 3 4 1.0E5 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.785E-4 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA445 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 11:04 * .SUBCKT OPA445/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 5.252E-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 37.74E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 3.352E-9 ISS 3 10 DC 202.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 5.305E3 RD2 4 12 5.305E3 RO1 8 5 25 RO2 7 99 25 RP 3 4 21.05E3 RSS 10 99 987.7E3 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 26 VLN 0 92 DC 26 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=87.73E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA445E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/04/90 AT 14:31 * .SUBCKT OPA445/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 5.252E-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 37.74E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 3.352E-9 ISS 3 10 DC 202.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 5.305E3 RD2 4 12 5.305E3 RO1 8 5 25 RO2 7 99 25 * RP 3 4 21.05E3 RSS 10 99 987.7E3 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 26 VLN 0 92 DC 26 **************************** * OPA445 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 2.795E-3 1 FQ2 0 4 POLY(1) VQ2 2.795E-3 -1 * QUIESCIENT CURRENT RQ 3 4 1.0E5 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=87.73E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA501 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 10:36 * .SUBCKT OPA501/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.00E-12 C2 6 7 40.00E-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 12.64E9 -10E9 10E9 10E9 -10E9 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 794.8E-12 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.979E3 RD2 4 12 3.979E3 RO1 8 5 .25 RO2 7 99 .25 RP 3 4 26.12E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 12.00E3 VLN 0 92 DC 12.00E3 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=7.500E-9 BETA=197.4E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA501E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/11/90 AT 11:33 * .SUBCKT OPA501/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.00E-12 C2 6 7 40.00E-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 12.64E9 -10E9 10E9 10E9 -10E9 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 794.8E-12 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.979E3 RD2 4 12 3.979E3 RO1 8 5 .25 RO2 7 99 .25 * RP 3 4 26.12E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 12.00E3 VLN 0 92 DC 12.00E3 **************************** * OPA501 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.987E-3 1 FQ2 0 4 POLY(1) VQ2 1.987E-3 -1 * QUIESCIENT CURRENT RQ 3 4 1.5E5 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.0E-12 C2CM 2 99 2.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=7.500E-9 BETA=197.4E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA511 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 11:36 * .SUBCKT OPA511/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.00E-12 C2 6 7 40.00E-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 8.950E9 -9E9 9E9 9E9 -9E9 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 794.8E-12 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.979E3 RD2 4 12 3.979E3 RO1 8 5 .25 RO2 7 99 .25 RP 3 4 2.800E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 5.000E3 VLN 0 92 DC 5.000E3 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=7.500E-9 BETA=197.4E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA511E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/11/90 AT 13:16 * .SUBCKT OPA511/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 20.00E-12 C2 6 7 40.00E-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 8.950E9 -9E9 9E9 9E9 -9E9 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 794.8E-12 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.979E3 RD2 4 12 3.979E3 RO1 8 5 .25 RO2 7 99 .25 * RP 3 4 2.800E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 5.000E3 VLN 0 92 DC 5.000E3 **************************** * OPA511 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 19.62E-3 1 FQ2 0 4 POLY(1) VQ2 19.62E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E5 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.0E-12 C2CM 2 99 2.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=7.500E-9 BETA=197.4E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA512 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 11:58 * .SUBCKT OPA512/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 27.47E-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 2.516E9 -3E9 3E9 3E9 -3E9 GA 6 0 11 12 502.7E-6 GCM 0 6 10 99 5.027E-9 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.989E3 RD2 4 12 1.989E3 RO1 8 5 .25 RO2 7 99 .25 RP 3 4 3.200E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 15.00E3 VLN 0 92 DC 15.00E3 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=6.000E-9 BETA=789.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA512E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/11/90 AT 12:32 * .SUBCKT OPA512/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 27.47E-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 2.516E9 -3E9 3E9 3E9 -3E9 GA 6 0 11 12 502.7E-6 GCM 0 6 10 99 5.027E-9 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.989E3 RD2 4 12 1.989E3 RO1 8 5 .25 RO2 7 99 .25 * RP 3 4 3.200E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 15.00E3 VLN 0 92 DC 15.00E3 **************************** * OPA512 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 24.52E-3 1 FQ2 0 4 POLY(1) VQ2 24.52E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E5 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.0E-12 C2CM 2 99 2.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=6.000E-9 BETA=789.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA541 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 14:05 * .SUBCKT OPA541/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 10.71E-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 2.653E9 -3E9 3E9 3E9 -3E9 GA 6 0 11 12 150.8E-6 GCM 0 6 10 99 337.6E-12 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 6.631E3 RD2 4 12 6.631E3 RO1 8 5 .25 RO2 7 99 .25 RP 3 4 4.000E3 RSS 10 99 1.667E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 14.00E3 VLN 0 92 DC 14.00E3 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=94.75E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA541E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/12/90 AT 09:50 * .SUBCKT OPA541/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 10.71E-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 2.653E9 -3E9 3E9 3E9 -3E9 GA 6 0 11 12 150.8E-6 GCM 0 6 10 99 337.6E-12 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 6.631E3 RD2 4 12 6.631E3 RO1 8 5 .25 RO2 7 99 .25 * RP 3 4 4.000E3 RSS 10 99 1.667E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 14.00E3 VLN 0 92 DC 14.00E3 **************************** * OPA541 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 16.68E-3 1 FQ2 0 4 POLY(1) VQ2 16.68E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.0E-12 C2CM 2 99 2.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=94.75E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA602 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 13:48 * .SUBCKT OPA602/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 6.850E-12 C2 6 7 13.70E-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 2.213E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 602.6E-6 GCM 0 6 10 99 6.026E-9 ISS 3 10 DC 479.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.660E3 RD2 4 12 1.660E3 RO1 8 5 25 RO2 7 99 75 RP 3 4 10.00E3 RSS 10 99 417.1E3 VB 9 0 DC 0 VC 3 53 DC 2.100 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.785E-4 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA602E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 10:13 * .SUBCKT OPA602/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 6.850E-12 C2 6 7 13.70E-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 2.213E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 602.6E-6 GCM 0 6 10 99 6.026E-9 ISS 3 10 DC 479.5E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.660E3 RD2 4 12 1.660E3 RO1 8 5 25 RO2 7 99 75 * RP 3 4 10.00E3 RSS 10 99 417.1E3 VB 9 0 DC 0 VC 3 53 DC 2.100 VE 54 4 DC 1.200 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 **************************** * OPA602 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 2.221E-3 1 FQ2 0 4 POLY(1) VQ2 2.221E-3 -1 * QUIESCIENT CURRENT RQ 3 4 1.0E5 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.785E-4 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA606 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 15:00 * .SUBCKT OPA606/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 4.195E-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 35.80E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 785.4E-6 GCM 0 6 10 99 13.97E-9 ISS 3 10 DC 300.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.273E3 RD2 4 12 1.273E3 RO1 8 5 20 RO2 7 99 20 RP 3 4 4.615E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 2.800 VE 54 4 DC 2.800 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=3.500E-12 BETA=1.028E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA606E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/28/90 AT 11:39 * .SUBCKT OPA606/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 4.195E-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 35.80E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 785.4E-6 GCM 0 6 10 99 13.97E-9 ISS 3 10 DC 300.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.273E3 RD2 4 12 1.273E3 RO1 8 5 20 RO2 7 99 20 * RP 3 4 4.615E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 2.800 VE 54 4 DC 2.800 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 **************************** * OPA606 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 5.00E-3 1 FQ2 0 4 POLY(1) VQ2 5.00E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=3.500E-12 BETA=1.028E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA620 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/05/90 AT 16:04 * .SUBCKT OPA620/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 577.4E-15 C2 6 7 2.000E-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 53.05E3 -50E3 50E3 50E3 -50E3 GA 6 0 11 12 3.770E-3 GCM 0 6 10 99 670.4E-9 IEE 10 4 DC 830.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 265.3 RC2 3 12 265.3 RE1 13 10 193.3 RE2 14 10 193.3 REE 10 99 241.0E3 RO1 8 5 5 RO2 7 99 5 RP 3 4 495.4 VB 9 0 DC 0 VC 3 53 DC 1.500 VE 54 4 DC 1.500 VLIM 7 8 DC 0 VLP 91 0 DC 150 VLN 0 92 DC 150 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=26.67) .ENDS *------------------------------------------------------------------------------ * OPA620E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/05/90 AT 14:07 * .SUBCKT OPA620/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 577.4E-15 C2 6 7 2.000E-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 53.05E3 -50E3 50E3 50E3 -50E3 GA 6 0 11 12 3.770E-3 GCM 0 6 10 99 670.4E-9 IEE 10 4 DC 830.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 265.3 RC2 3 12 265.3 RE1 13 10 193.3 RE2 14 10 193.3 REE 10 99 241.0E3 RO1 8 5 5 RO2 7 99 5 * RP 3 4 495.4 VB 9 0 DC 0 VC 3 53 DC 1.500 VE 54 4 DC 1.500 VLIM 7 8 DC 0 VLP 91 0 DC 150 VLN 0 92 DC 150 **************************** * OPA620 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 17.7E-3 1 FQ2 0 4 POLY(1) VQ2 17.7E-3 -1 * QUIESCIENT CURRENT RQ 3 4 4.0E3 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 0.5E-12 C2CM 2 99 0.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=26.67) .ENDS *------------------------------------------------------------------------------ * OPA621 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/05/90 AT 16:10 * .SUBCKT OPA621/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 433.0E-15 C2 6 7 500.0E-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 0 106.1E3 -10E3 10E3 10E3 -10E3 GA 6 0 11 12 1.885E-3 GCM 0 6 10 99 335.2E-9 IEE 10 4 DC 330.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 530.5 RC2 3 12 530.5 RE1 13 10 325.5 RE2 14 10 325.5 REE 10 99 606.1E3 RO1 8 5 5 RO2 7 99 5 RP 3 4 389.3 VB 9 0 DC 0 VC 3 53 DC 1.500 VE 54 4 DC 1.500 VLIM 7 8 DC 0 VLP 91 0 DC 150 VLN 0 92 DC 150 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10) .ENDS *------------------------------------------------------------------------------ * OPA621E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/05/90 AT 14:07 * .SUBCKT OPA621/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 433.0E-15 C2 6 7 500.0E-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 0 106.1E3 -10E3 10E3 10E3 -10E3 GA 6 0 11 12 1.885E-3 GCM 0 6 10 99 335.2E-9 IEE 10 4 DC 330.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 530.5 RC2 3 12 530.5 RE1 13 10 325.5 RE2 14 10 325.5 REE 10 99 606.1E3 RO1 8 5 5 RO2 7 99 5 * RP 3 4 389.3 VB 9 0 DC 0 VC 3 53 DC 1.500 VE 54 4 DC 1.500 VLIM 7 8 DC 0 VLP 91 0 DC 150 VLN 0 92 DC 150 **************************** * OPA621 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 22.37E-3 1 FQ2 0 4 POLY(1) VQ2 22.37E-3 -1 * QUIESCIENT CURRENT RQ 3 4 3.0E3 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 0.5E-12 C2CM 2 99 0.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10) .ENDS *------------------------------------------------------------------------------ * OPA627 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 07:59 * .SUBCKT OPA627/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 4.186E-12 C2 6 7 23.00E-12 CSS 10 99 40.45E-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 0 407.0E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 2.457E-3 GCM 0 6 10 99 3.894E-9 ISS 3 10 DC 1.840E-3 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 407 RD2 4 12 407 RO1 8 5 54 RO2 7 99 1 RP 3 4 4.286E3 RSS 10 99 108.7E3 VB 9 0 DC 0 VC 3 53 DC 2.700 VE 54 4 DC 2.700 VLIM 7 8 DC 0 VLP 91 0 DC 55 VLN 0 92 DC 55 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=1.640E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA627E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/04/90 AT 09:30 * .SUBCKT OPA627/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 4.186E-12 C2 6 7 23.00E-12 CSS 10 99 40.45E-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 0 407.0E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 2.457E-3 GCM 0 6 10 99 3.894E-9 ISS 3 10 DC 1.840E-3 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 407 RD2 4 12 407 RO1 8 5 54 RO2 7 99 1 * RP 3 4 4.286E3 RSS 10 99 108.7E3 VB 9 0 DC 0 VC 3 53 DC 2.700 VE 54 4 DC 2.700 VLIM 7 8 DC 0 VLP 91 0 DC 55 VLN 0 92 DC 55 **************************** * OPA627 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 4.76E-3 1 FQ2 0 4 POLY(1) VQ2 4.76E-3 -1 * QUIESCIENT CURRENT RQ 3 4 7.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 8.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 7.0E-12 C2CM 2 99 7.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=1.640E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA637 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 09:41 * .SUBCKT OPA637/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 25.52E-12 C2 6 7 9.000E-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 0 196.5E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 5.089E-3 GCM 0 6 10 99 8.066E-9 ISS 3 10 DC 1.215E-3 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 196.5 RD2 4 12 196.5 RO1 8 5 54 RO2 7 99 1 RP 3 4 4.286E3 RSS 10 99 164.6E3 VB 9 0 DC 0 VC 3 53 DC 2.700 VE 54 4 DC 2.700 VLIM 7 8 DC 0 VLP 91 0 DC 55 VLN 0 92 DC 55 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=10.66E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA637E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/04/90 AT 11:11 * .SUBCKT OPA637/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 25.52E-12 C2 6 7 9.000E-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 0 196.5E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 5.089E-3 GCM 0 6 10 99 8.066E-9 ISS 3 10 DC 1.215E-3 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 196.5 RD2 4 12 196.5 RO1 8 5 54 RO2 7 99 1 * RP 3 4 4.286E3 RSS 10 99 164.6E3 VB 9 0 DC 0 VC 3 53 DC 2.700 VE 54 4 DC 2.700 VLIM 7 8 DC 0 VLP 91 0 DC 55 VLN 0 92 DC 55 **************************** * OPA637 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 5.38E-3 1 FQ2 0 4 POLY(1) VQ2 5.38E-3 -1 * QUIESCIENT CURRENT RQ 3 4 7.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 8.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 7.0E-12 C2CM 2 99 7.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=10.66E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA1013 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 15:20 * .SUBCKT OPA1013/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 6.062E-12 C2 6 7 21.00E-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 1.624E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 92.36E-6 GCM 0 6 10 99 130.5E-12 IEE 3 10 DC 8.418E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 10.83E3 RC2 4 12 10.83E3 RE1 13 10 4.659E3 RE2 14 10 4.659E3 REE 10 99 23.76E6 RO1 8 5 120 RO2 7 99 30 RP 3 4 87.82E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1 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=466.7) .ENDS *------------------------------------------------------------------------------ * OPA1013E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/08/90 AT 16:35 * .SUBCKT OPA1013/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 6.062E-12 C2 6 7 21.00E-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 1.624E9 -2E9 2E9 2E9 -2E9 GA 6 0 11 12 92.36E-6 GCM 0 6 10 99 130.5E-12 IEE 3 10 DC 8.418E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 4 11 10.83E3 RC2 4 12 10.83E3 RE1 13 10 4.659E3 RE2 14 10 4.659E3 REE 10 99 23.76E6 RO1 8 5 120 RO2 7 99 30 * RP 3 4 87.82E3 VB 9 0 DC 0 VC 3 53 DC 1 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 30 VLN 0 92 DC 30 **************************** * OPA1013 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 0.2814E-3 1 FQ2 0 4 POLY(1) VQ2 0.2814E-3 -1 * QUIESCIENT CURRENT RQ 3 4 5.0E5 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=466.7) .ENDS *------------------------------------------------------------------------------ * OPA2107 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 10:03 * .SUBCKT OPA2107/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 7.764E-12 C2 6 7 33.30E-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 2.124E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 941.5E-6 GCM 0 6 10 99 9.415E-9 ISS 3 10 DC 599.4E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.062E3 RD2 4 12 1.062E3 RO1 8 5 50 RO2 7 99 50 RP 3 4 13.33E3 RSS 10 99 333.7E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=739.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2107E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 10:03 * .SUBCKT OPA2107/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 7.764E-12 C2 6 7 33.30E-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 2.124E6 -2E6 2E6 2E6 -2E6 GA 6 0 11 12 941.5E-6 GCM 0 6 10 99 9.415E-9 ISS 3 10 DC 599.4E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.062E3 RD2 4 12 1.062E3 RO1 8 5 50 RO2 7 99 50 * RP 3 4 13.33E3 RSS 10 99 333.7E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 **************************** * OPA2107 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.350E-3 1 FQ2 0 4 POLY(1) VQ2 1.350E-3 -1 * QUIESCIENT CURRENT RQ 3 4 1.0E5 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.0E-12 C2CM 2 99 2.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=739.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2111 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 14:57 * .SUBCKT OPA2111/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 72.79E-12 C2 6 7 400.0E-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 4.717E6 -5E6 5E6 5E6 -5E6 GA 6 0 11 12 5.027E-3 GCM 0 6 10 99 15.90E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 198.9 RD2 4 12 198.9 RO1 8 5 25 RO2 7 99 75 RP 3 4 12.00E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 4 VE 54 4 DC 4 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2111E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/27/90 AT 11:56 * .SUBCKT OPA2111/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 72.79E-12 C2 6 7 400.0E-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 4.717E6 -5E6 5E6 5E6 -5E6 GA 6 0 11 12 5.027E-3 GCM 0 6 10 99 15.90E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 198.9 RD2 4 12 198.9 RO1 8 5 25 RO2 7 99 75 * RP 3 4 12.00E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 4 VE 54 4 DC 4 VLIM 7 8 DC 0 VLP 91 0 DC 40 VLN 0 92 DC 40 **************************** * OPA2111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.30E-3 1 FQ2 0 4 POLY(1) VQ2 1.30E-3 -1 * QUIESCIENT CURRENT RQ 3 4 7.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2541 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 14:22 * .SUBCKT OPA2541/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 10.71E-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 2.653E9 -3E9 3E9 3E9 -3E9 GA 6 0 11 12 150.8E-6 GCM 0 6 10 99 337.6E-12 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 6.631E3 RD2 4 12 6.631E3 RO1 8 5 .25 RO2 7 99 .25 RP 3 4 4.000E3 RSS 10 99 1.667E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 8.000E3 VLN 0 92 DC 8.000E3 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=94.75E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2541E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/12/90 AT 09:50 * .SUBCKT OPA2541/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 10.71E-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 2.653E9 -3E9 3E9 3E9 -3E9 GA 6 0 11 12 150.8E-6 GCM 0 6 10 99 337.6E-12 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 6.631E3 RD2 4 12 6.631E3 RO1 8 5 .25 RO2 7 99 .25 * RP 3 4 4.000E3 RSS 10 99 1.667E6 VB 9 0 DC 0 VC 3 53 DC 5 VE 54 4 DC 5 VLIM 7 8 DC 0 VLP 91 0 DC 8.000E3 VLN 0 92 DC 8.000E3 **************************** * OPA2541 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 16.68E-3 1 FQ2 0 4 POLY(1) VQ2 16.68E-3 -1 * QUIESCIENT CURRENT RQ 3 4 2.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 2.0E-12 C2CM 2 99 2.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=94.75E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2604 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 13:06 * .SUBCKT OPA2604/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 22.85E-12 C2 6 7 32.00E-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 0 418.4E3 -40E3 40E3 40E3 -40E3 GA 6 0 11 12 2.011E-3 GCM 0 6 10 99 20.11E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 497.4 RD2 4 12 497.4 RO1 8 5 25 RO2 7 99 75 RP 3 4 6.294E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=12.50E-12 BETA=2.528E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA2604E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/28/90 AT 16:46 * .SUBCKT OPA2604/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 22.85E-12 C2 6 7 32.00E-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 0 418.4E3 -40E3 40E3 40E3 -40E3 GA 6 0 11 12 2.011E-3 GCM 0 6 10 99 20.11E-9 ISS 3 10 DC 800.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 497.4 RD2 4 12 497.4 RO1 8 5 25 RO2 7 99 75 * RP 3 4 6.294E3 RSS 10 99 250.0E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 **************************** * OPA2604 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 3.45E-3 1 FQ2 0 4 POLY(1) VQ2 3.45E-3 -1 * QUIESCIENT CURRENT RQ 3 4 6.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 8.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 5.0E-12 C2CM 2 99 5.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=12.50E-12 BETA=2.528E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * UAF42 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/19/90 AT 13:38 * .SUBCKT UAF42/BB + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.938E-12 C2 6 7 15.00E-12 CSS 10 99 8.077E-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 99.42E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 424.1E-6 GCM 0 6 10 99 6.722E-9 ISS 3 10 DC 300.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 2.358E3 RD2 4 12 2.358E3 RO1 8 5 75 RO2 7 99 75 RP 3 4 20.00E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 3.500 VE 54 4 DC 3.500 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=299.8E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * UAF42E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 14:54 * .SUBCKT UAF42/BB-E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.938E-12 C2 6 7 15.00E-12 CSS 10 99 8.077E-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 99.42E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 424.1E-6 GCM 0 6 10 99 6.722E-9 ISS 3 10 DC 300.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 2.358E3 RD2 4 12 2.358E3 RO1 8 5 75 RO2 7 99 75 * RP 3 4 20.00E3 RSS 10 99 666.7E3 VB 9 0 DC 0 VC 3 53 DC 3.500 VE 54 4 DC 3.500 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 **************************** * UAF42 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 0.950E-3 1 FQ2 0 4 POLY(1) VQ2 0.950E-3 -1 * QUIESCIENT CURRENT RQ 3 4 1.2E5 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 3.0E-12 C2CM 2 99 3.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=299.8E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * OPA620X OPERATIONAL AMPLIFIER SUBCIRCUIT * "X" IS SIMPLIFIED CIRCUIT MODEL * * THIS SIMPLIFIED CIRCUIT MODEL IS TAKEN FROM THE LIBRARY OF BURR-BROWN * DEFINITIONS AS DISTRIBUTED BY MICROSIM CORPORATION ( SEE ALSO APPLICATION * NOTE AN-167 ). FOR THIS APPLICATION BULLETIN ( AB-20 ), THE MODEL FILE HAS * BEEN RENAMED FROM OPA620/BB TO OPA620X. THIS IS FOR COMPATIBILTIY WITH * OUR NEW IDENTIFICATION SCHEME. IN ALL OTHER RESPECTS, THE FILE IS * UNCHANGED. WHILE REASONABLE CARE HAS BEEN TAKEN IN THEIR PREPARATION, * WE CANNOT BE RESPONSIBLE FOR CORRECT APPLICATION ON ANY AND ALL COMPUTER * SYSTEMS. * * USERS SHOULD VERY CAREFULLY NOTE THE FOLLOWING FACTORS REGARDING THESE * MODELS: * * THE MODELS ARE VALID ONLY AT AN AMBIENT TEMPERATURE OF 25 DEGREES * CENTIGRADE, AND AT SUPPLY VOLTAGES OF +/-5VDC. * * THIS SIMPLIFIED CIRCUIT USES ACTUAL TRANSISTORS INSTEAD OF * MATHEMATICAL MODELING IN ORDER TO MORE CLOSELY MODEL DEVICE * PERFORMANCE. AS SUCH, REASONABLY ACCURATE SIMULATIONS OF GAIN/PHASE, * PULSE RESPONSE, DISTORTION, AND NOISE ARE POSSIBLE. THIS CAPABILITY * CAN BE ESPECIALLY VALUABLE TO DESIGNERS OF VIDEO AND RF SYSTEMS. * * THIS SIMPLIFIED CIRCUIT IS BEING SUPPLIED TO USERS AS AN AID TO * CIRCUIT DESIGNS. WHILE IT REFLECTS REASONABLY CLOSE SIMILARITY * TO THE ACTUAL DEVICE IN TERMS OF PERFORMANCE, IT IS NOT SUGGESTED * AS A REPLACEMENT FOR BREADBOARDING. SIMULATION SHOULD BE USED AS * A FORERUNNER OR A SUPPLEMENT TO TRADITIONAL LAB TESTING. * * MODEL USERS ARE HEREBY NOTIFIED THAT THESE MODELS ARE SUPPLIED * "AS IS", WITH NO DIRECT OR IMPLIED RESPONSIBILITY ON THE PART OF * BURR-BROWN FOR THEIR OPERATION WITHIN A CUSTOMER CIRCUIT OR SYSTEM. * FURTHER, BURR-BROWN CORPORATION RESERVES THE RIGHT TO CHANGE THESE * MODELS WITHOUT PRIOR NOTICE. * * IN ALL CASES, THE CURRENT DATA SHEET INFORMATION FOR A GIVEN REAL * DEVICE IS YOUR FINAL DESIGN GUIDELINE, AND IS THE ONLY ACTUAL * PERFORMANCE GUARANTEE. * * FOR FURTHER TECHNICAL INFORMATION REFER APPLICATION NOTE AN-167 * "SPICE MODELS FOR OPA620 AND OPA621". * * YOUR FEEDBACK AND SUGGESTIONS ON THESE (AND FUTURE) MODELS WILL BE * APPRECIATED! * * BURR-BROWN CORPORATION * 6730 S. TUCSON BLVD. * TUCSON, ARIZONA 85706 * (602) 746-1111 * *----------------------------------------------------------------------------- .SUBCKT OPA620/BB-X + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 20 4 CAP 10PF I1 18 15 1.1MA I2 24 4 4.0MA I3 3 25 2.0MA Q1 9 1 11 4 NPN 2 Q2 10 2 12 4 NPN 2 Q3 13 15 14 4 NPN 4 Q4 15 15 16 4 NPN 1 Q5 18 18 17 3 PNP 0.5 Q6 19 18 9 3 PNP Q7 20 18 10 3 PNP Q8 20 19 21 4 NPN 2 Q9 19 21 22 4 NPN 2 Q10 21 21 23 4 NPN 2 Q11 3 20 24 4 NPN 20 Q12 4 20 25 3 PNP 20 Q13 3 25 5 4 NPN 40 Q14 4 24 5 3 PNP 40 R1 3 9 RES 250 R2 3 10 RES 250 R3 11 13 RES 35 R4 12 13 RES 35 R5 14 4 RES 62.5 R6 16 4 RES 250 R7 3 17 RES 1K R8 22 4 RES 250 R9 23 4 RES 250 *DEVICE MODELS COPYRIGHT 1989, AT&T. REPRINTED WITH PERMISSION. .MODEL NPN NPN RB=63.71 IRB=0 RBM=29.0 RC=16.67 RE=1.667 +IS=111E-18 EG=1.206 XTI=2 XTB=2.363 BF=234.2 +IKF=5.838E-3 NF=1.0 VAF=30.00 ISE=35.1E-16 NE=1.999 +BR=4 IKR=10E6 NR=1.0 VAR=3.00 ISC=2.34E-20 NC=1.653 +TF=32.4E-12 TR=32.4E-11 CJE=.2E-12 VJE=1.104 +MJE=0.495 CJC=0.286E-13 VJC=0.508 MJC=0.3345 XCJC=1.00 +CJS=0.505E-12 VJS=0.793 MJS=0.167 FC=0.5 AF=1 KF=15F .MODEL PNP PNP RB=25.87 IRB=0 RBM=11.98 RC=126.32 RE=1.667 +IS=285.3E-18 EG=1.206 XTI=1.5 XTB=2.053 BF=119.3 +IKF=7.254E-3 NF=1 VAF=28.0 ISE=88E-16 NE=1.557 +BR=4 IKR=10E6 NR=1 VAR=1.4 ISC=4.01E-16 NC=1.634 +TF=48E-12 TR=65E-11 CJE=.186E-12 VJE=0.892 +MJE=0.493 CJC=.518E-13 VJC=0.611 MJC=0.335 XCJC=1.00 +CJS=1.072PF VJS=0.469 MJS=0.1875 FC=0.5 AF=1 KF=15F .MODEL RES RES (R=1) .MODEL CAP CAP (C=1) .ENDS *------------------------------------------------------------------------------ * OPA621X OPERATIONAL AMPLIFIER SUBCIRCUIT * "X" IS SIMPLIFIED CIRCUIT MODEL * * THIS SIMPLIFIED CIRCUIT MODEL IS TAKEN FROM THE LIBRARY OF BURR-BROWN * DEFINITIONS AS DISTRIBUTED BY MICROSIM CORPORATION ( SEE ALSO APPLICATION * NOTE AN-167 ). FOR THIS APPLICATION BULLETIN ( AB-20 ), THE MODEL FILE HAS * BEEN RENAMED FROM OPA621/BB TO OPA621X. THIS IS FOR COMPATIBILTIY WITH * OUR NEW IDENTIFICATION SCHEME. IN ALL OTHER RESPECTS, THE FILE IS * UNCHANGED. WHILE REASONABLE CARE HAS BEEN TAKEN IN THEIR PREPARATION, * WE CANNOT BE RESPONSIBLE FOR CORRECT APPLICATION ON ANY AND ALL COMPUTER * SYSTEMS. * * USERS SHOULD VERY CAREFULLY NOTE THE FOLLOWING FACTORS REGARDING THESE * MODELS: * * THE MODELS ARE VALID ONLY AT AN AMBIENT TEMPERATURE OF 25 DEGREES * CENTIGRADE, AND AT SUPPLY VOLTAGES OF +/-5VDC. * * THIS SIMPLIFIED CIRCUIT USES ACTUAL TRANSISTORS INSTEAD OF * MATHEMATICAL MODELING IN ORDER TO MORE CLOSELY MODEL DEVICE * PERFORMANCE. AS SUCH, REASONABLY ACCURATE SIMULATIONS OF GAIN/PHASE, * PULSE RESPONSE, DISTORTION, AND NOISE ARE POSSIBLE. THIS CAPABILITY * CAN BE ESPECIALLY VALUABLE TO DESIGNERS OF VIDEO AND RF SYSTEMS. * * THIS SIMPLIFIED CIRCUIT IS BEING SUPPLIED TO USERS AS AN AID TO * CIRCUIT DESIGNS. WHILE IT REFLECTS REASONABLY CLOSE SIMILARITY * TO THE ACTUAL DEVICE IN TERMS OF PERFORMANCE, IT IS NOT SUGGESTED * AS A REPLACEMENT FOR BREADBOARDING. SIMULATION SHOULD BE USED AS * A FORERUNNER OR A SUPPLEMENT TO TRADITIONAL LAB TESTING. * * MODEL USERS ARE HEREBY NOTIFIED THAT THESE MODELS ARE SUPPLIED * "AS IS", WITH NO DIRECT OR IMPLIED RESPONSIBILITY ON THE PART OF * BURR-BROWN FOR THEIR OPERATION WITHIN A CUSTOMER CIRCUIT OR SYSTEM. * FURTHER, BURR-BROWN CORPORATION RESERVES THE RIGHT TO CHANGE THESE * MODELS WITHOUT PRIOR NOTICE. * * IN ALL CASES, THE CURRENT DATA SHEET INFORMATION FOR A GIVEN REAL * DEVICE IS YOUR FINAL DESIGN GUIDELINE, AND IS THE ONLY ACTUAL * PERFORMANCE GUARANTEE. * * FOR FURTHER TECHNICAL INFORMATION REFER APPLICATION NOTE AN-167 * "SPICE MODELS FOR OPA620 AND OPA621". * * YOUR FEEDBACK AND SUGGESTIONS ON THESE (AND FUTURE) MODELS WILL BE * APPRECIATED! * * BURR-BROWN CORPORATION * 6730 S. TUCSON BLVD. * TUCSON, ARIZONA 85706 * (602) 746-1111 * *----------------------------------------------------------------------------- .SUBCKT OPA621/BB-X + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 20 4 CAP 2PF I1 18 15 1.3MA I2 24 4 3.5MA I3 3 25 3.5MA Q1 9 1 11 4 NPN 2 Q2 10 2 12 4 NPN 2 Q3 13 15 14 4 NPN 4 Q4 15 15 16 4 NPN 1 Q5 18 18 17 3 PNP 0.5 Q6 19 18 9 3 PNP Q7 20 18 10 3 PNP Q8 20 19 21 4 NPN 2 Q9 19 21 22 4 NPN 2 Q10 21 21 23 4 NPN 2 Q11 3 20 24 4 NPN 20 Q12 4 20 25 3 PNP 20 Q13 3 25 5 4 NPN 40 Q14 4 24 5 3 PNP 40 R1 3 9 RES 250 R2 3 10 RES 250 R3 11 13 RES 35 R4 12 13 RES 35 R5 14 4 RES 62.5 R6 16 4 RES 250 R7 3 17 RES 1K R8 22 4 RES 250 R9 23 4 RES 250 *DEVICE MODELS COPYRIGHT 1989, AT&T. REPRINTED WITH PERMISSION. .MODEL NPN NPN RB=63.71 IRB=0 RBM=29.0 RC=16.67 RE=1.667 +IS=111E-18 EG=1.206 XTI=2 XTB=2.363 BF=234.2 +IKF=5.838E-3 NF=1.0 VAF=30.00 ISE=35.1E-16 NE=1.999 +BR=4 IKR=10E6 NR=1.0 VAR=3.00 ISC=2.34E-20 NC=1.653 +TF=32.4E-12 TR=32.4E-11 CJE=.2E-12 VJE=1.104 +MJE=0.495 CJC=0.286E-13 VJC=0.508 MJC=0.3345 XCJC=1.00 +CJS=0.505E-12 VJS=0.793 MJS=0.167 FC=0.5 AF=1 KF=15F .MODEL PNP PNP RB=25.87 IRB=0 RBM=11.98 RC=126.32 RE=1.667 +IS=285.3E-18 EG=1.206 XTI=1.5 XTB=2.053 BF=119.3 +IKF=7.254E-3 NF=1 VAF=28.0 ISE=88E-16 NE=1.557 +BR=4 IKR=10E6 NR=1 VAR=1.4 ISC=4.01E-16 NC=1.634 +TF=48E-12 TR=65E-11 CJE=.186E-12 VJE=0.892 +MJE=0.493 CJC=.518E-13 VJC=0.611 MJC=0.335 XCJC=1.00 +CJS=1.072PF VJS=0.469 MJS=0.1875 FC=0.5 AF=1 KF=15F .MODEL RES RES (R=1) .MODEL CAP CAP (C=1) .ENDS *------------------------------------------------------------------------------ * OPA603 CURRENT-FEEDBACK AMPLIFIER "CIRCUIT MODEL" SUBCIRCUIT * "X" IS SIMPLIFIED CIRCUIT MODEL * CREATED USING BLOOD,SWEAT AND TEARS ON 10/12/90 AT 09:03AM * modified per Tony Wang, 05/21/91 * .SUBCKT OPA603/BB-X + 3 ; non-inverting input + 4 ; inverting input + 1 ; positive power supply + 2 ; negative power supply + 5 ; output R0A 3 6 100 R0B 3 7 100 R0EA 10 8 21 R0EB 11 9 21 R1A 10 12 100 R1B 11 13 100 R1EA 14 4 21 R1EB 15 4 21 R2AT 1 16 1213.22365 R2BT 2 17 1200 R3 22 23 16.25 R4A 24 5 3.25 R4B 25 5 3.25 X0A 2 6 8 2 XP4LC X0B 1 7 9 2 XN4LC X1A 16 12 14 2 XN4LC X1B 17 13 15 2 XP4LC X2A 20 16 18 2 XP4LC X2B 21 17 19 2 XN4LC C2B 17 21 0.75PF X3A 20 20 22 2 XN16HC X3B 21 21 23 2 XP16HC X4A1 1 20 24 2 XN16HC X4A2 1 20 24 2 XN16HC X4A3 1 20 24 2 XN16HC X4B1 2 21 25 2 XP16HC X4B2 2 21 25 2 XP16HC X4B3 2 21 25 2 XP16HC X6A1 18 18 26 2 XP16HC X6A2 18 18 26 2 XP16HC X6B1 19 19 27 2 XN16HC X6B2 19 19 27 2 XN16HC V6A 1 26 0 V6B 27 2 0 FB 1 28 POLY(2) V6A V6B 15UA -0.0025 -0.0025 RB 28 2 500MEG CB 28 2 350PF DB1 28 2 DCLAMP DB2 2 28 DCLAMP GC 36 37 28 2 0.01 R5A 30 32 21 R5B 31 33 21 R8A 34 36 21 R8B 35 37 21 X5A 10 36 32 2 XP4LC X5B 11 37 33 2 XN4LC X8A 1 30 34 2 XN4LC X8B 2 31 35 2 XP4LC X9A 1 1 30 2 XN4LC X9B 2 2 31 2 XP4LC IS 1 2 290UA RPS 1 2 21.6K XSCA 5 22 22 2 XN4LC XSCB 5 23 23 2 XP4LC .ENDS *** support definitions ****************************************************** .MODEL DCLAMP D .SUBCKT XN4LC 1 2 3 SUB Q1 4 2 3 SUB N4 RCDC 1 4 250 RCAC 1 5 85 CRC 4 5 1NF CS 1 0 0.45PF .MODEL N4 NPN IS=4.4FA BF=250 VA=100 IKF=14MA BR=0.1 ISS=0 +RE=1.5 RB=200 RBM=75 IRB=22MA RC=0 CJE=2.2PF VJE=0.77 MJE=0.3 +CJC=0.98PF VJC=0.64 MJC=0.425 XCJC=0.2 CCS=0 VJS=0.75 MJS=0 +FC=0.9 TF=65P XTF=20 VTF=10 ITF=300MA TR=1US EG=1.20561 XTB=6M +XTI=2.33 TRE1=0.5M TRB1=5M TRC1=5M KF=0.16F .ENDS .SUBCKT XN16HC 1 2 3 SUB Q1 4 2 3 SUB N16HC 1 RCDC 1 4 62.5 RCAC 1 5 20 CRC 5 4 100N CS 1 0 0.80PF .MODEL N16HC NPN IS=16FA BF=250 VA=100 IKF=56MA BR=0.1 ISS=0 +RE=187.5M RB=50 RBM=9 IRB=176MA RC=0 CJE=11.2PF VJE=0.77 MJE=0.3 +CJC=2.929PF VJC=0.64 MJC=0.36 XCJC=0.2 CCS=0 VJS=0.75 MJS=0 +FC=0.8 TF=150P XTF=80 VTF=50 ITF=1.6 TR=1US EG=1.20561 XTB=6M +XTI=2.33 TRE1=0.5M TRB1=5M TRC1=5M KF=0.16F .ENDS .SUBCKT XP4LC 1 2 3 SUB Q1 4 2 3 SUB P4 RCDC 1 4 300 RCAC 1 5 100 CRC 4 5 1NF CS 1 0 0.54PF .MODEL P4 PNP IS=4.4FA BF=100 VA=60 IKF=14MA BR=0.1 ISS=0 +RE=3 RB=100 RBM=15 IRB=1.93MA RC=0 CJE=2PF VJE=0.77 MJE=0.3 +CJC=1.6PF VJC=0.64 MJC=0.425 XCJC=0.21 CCS=0 VJS=0.75 MJS=0 +FC=0.9 TF=150P XTF=20 ITF=160MA TR=1US EG=1.205612 XTB=6M +XTI=2.33 TRE1=0.5M TRB1=5M TRC1=5M KF=0.16F .ENDS .SUBCKT XP16HC 1 2 3 SUB Q1 4 2 3 SUB P16HC 1 RCDC 1 4 75 RCAC 1 5 75 CRC 5 4 100N CS 1 0 0.93PF .MODEL P16HC PNP IS=16FA BF=100 VA=60 IKF=40MA BR=0.1 ISS=0 +RE=0.3 RB=25 RBM=5 IRB=68MA RC=0 CJE=9.6PF VJE=0.6 MJE=0.3 +CJC=4.383PF VJC=0.64 MJC=0.3 XCJC=0.2 CCS=0 VJS=0.75 MJS=0 +FC=0.95 TF=100P XTF=25 VTF=100 ITF=500MA TR=1US EG=1.20561 XTB=6M +XTI=2.33 TRE1=0.5M TRB1=5M TRC1=5M KF=0.16F .ENDS *------------------------------------------------------------------------------ * A1_101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 12:56 * .SUBCKT A1_101 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 70.20E6 -70E6 70E6 70E6 -70E6 GA 6 0 11 12 320.4E-6 GCM 0 6 10 99 2.022E-9 IEE 10 4 DC 30.05E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 3.121E3 RC2 3 12 3.121E3 RE1 13 10 1.394E3 RE2 14 10 1.394E3 REE 10 99 6.656E6 RO1 8 5 25 RO2 7 99 25 RP 3 4 10.70E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 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=600) .ENDS *------------------------------------------------------------------------------ * A1_102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * .SUBCKT A1_102 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 47.37E6 -50E6 50E6 50E6 -50E6 GA 6 0 11 12 52.78E-6 GCM 0 6 10 99 1.053E-9 IEE 10 4 DC 6.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 18.95E3 RC2 3 12 18.95E3 RE1 13 10 10.24E3 RE2 14 10 10.24E3 REE 10 99 33.06E6 RO1 8 5 100 RO2 7 99 400 RP 3 4 186.8E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 2 VLN 0 92 DC 2 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS *------------------------------------------------------------------------------ * A1_103 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/15/90 AT 13:24 * .SUBCKT A1_103 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 2.098E-12 C2 6 7 5.000E-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 2.653E6 -3E6 3E6 3E6 -3E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 2.987E-9 ISS 3 10 DC 100.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 5.305E3 RD2 4 12 5.305E3 RO1 8 5 20 RO2 7 99 20 RP 3 4 14.06E3 RSS 10 99 2.000E6 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=177.7E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A1_110 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:10 * .SUBCKT A1_110 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.443E-12 C2 6 7 5.000E-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 2.653E3 -3E3 3E3 3E3 -3E3 GA 6 0 11 12 628.3E-6 GCM 0 6 10 99 6.283E-6 ISS 3 10 DC 250.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.592E3 RD2 4 12 1.592E3 RO1 8 5 60 RO2 7 99 60 RP 3 4 37.50E3 RSS 10 99 800.0E3 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 60 VLN 0 92 DC 60 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A1_120 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:07 * .SUBCKT A1_120 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 16.38E-12 C2 6 7 90.00E-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 23.58E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 1.696E-3 GCM 0 6 10 99 3.385E-9 IEE 10 4 DC 108.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 589.5 RC2 3 12 589.5 RE1 13 10 110.5 RE2 14 10 110.5 REE 10 99 1.852E6 RO1 8 5 25 RO2 7 99 25 RP 3 4 33.63E3 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS *------------------------------------------------------------------------------ * A2_101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:30 * .SUBCKT A2_101 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 59.67E6 -60E6 60E6 60E6 -60E6 GA 6 0 11 12 377.0E-6 GCM 0 6 10 99 1.192E-9 IEE 10 4 DC 30.05E-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 10 926.8 RE2 14 10 926.8 REE 10 99 6.656E6 RO1 8 5 25 RO2 7 99 25 RP 3 4 10.70E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 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=600) .ENDS *------------------------------------------------------------------------------ * A2_102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:36 * .SUBCKT A2_102 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 44.21E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 56.55E-6 GCM 0 6 10 99 565.5E-12 IEE 10 4 DC 6.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 17.68E3 RC2 3 12 17.68E3 RE1 13 10 8.988E3 RE2 14 10 8.988E3 REE 10 99 33.06E6 RO1 8 5 100 RO2 7 99 400 RP 3 4 186.8E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 2 VLN 0 92 DC 2 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS *------------------------------------------------------------------------------ * A2_103 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/13/90 AT 11:47 * .SUBCKT A2_103 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 2.098E-12 C2 6 7 5.000E-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 2.653E6 -3E6 3E6 3E6 -3E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 2.987E-9 ISS 3 10 DC 100.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 5.305E3 RD2 4 12 5.305E3 RO1 8 5 20 RO2 7 99 20 RP 3 4 14.06E3 RSS 10 99 2.000E6 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=177.7E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A2_110 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:12 * .SUBCKT A2_110 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.443E-12 C2 6 7 5.000E-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 2.653E3 -3E3 3E3 3E3 -3E3 GA 6 0 11 12 628.3E-6 GCM 0 6 10 99 6.283E-6 ISS 3 10 DC 250.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.592E3 RD2 4 12 1.592E3 RO1 8 5 60 RO2 7 99 60 RP 3 4 37.50E3 RSS 10 99 800.0E3 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 60 VLN 0 92 DC 60 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A2_120 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:08 * .SUBCKT A2_120 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 16.38E-12 C2 6 7 90.00E-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 20.21E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 1.979E-3 GCM 0 6 10 99 1.979E-9 IEE 10 4 DC 108.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 505.3 RC2 3 12 505.3 RE1 13 10 26.28 RE2 14 10 26.28 REE 10 99 1.852E6 RO1 8 5 25 RO2 7 99 25 RP 3 4 33.63E3 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS *------------------------------------------------------------------------------ * A3_101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:39 * .SUBCKT A3_101 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-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 0 358.0E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 62.83E-6 GCM 0 6 10 99 198.7E-12 IEE 10 4 DC 5.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 15.92E3 RC2 3 12 15.92E3 RE1 13 10 5.515E3 RE2 14 10 5.515E3 REE 10 99 39.60E6 RO1 8 5 25 RO2 7 99 25 RP 3 4 10.61E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 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=100) .ENDS *------------------------------------------------------------------------------ * A3_102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:36 * .SUBCKT A3_102 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 44.21E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 56.55E-6 GCM 0 6 10 99 565.5E-12 IEE 10 4 DC 6.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 17.68E3 RC2 3 12 17.68E3 RE1 13 10 8.988E3 RE2 14 10 8.988E3 REE 10 99 33.06E6 RO1 8 5 100 RO2 7 99 400 RP 3 4 186.8E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 2 VLN 0 92 DC 2 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS *------------------------------------------------------------------------------ * A3_103 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/09/90 AT 10:20 * .SUBCKT A3_103 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 3.356E-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 16.62E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 301.6E-6 GCM 0 6 10 99 4.780E-9 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.316E3 RD2 4 12 3.316E3 RO1 8 5 10 RO2 7 99 10 RP 3 4 14.06E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 70 VLN 0 92 DC 70 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=284.3E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A3_105 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/19/90 AT 11:02 * .SUBCKT A3_105 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.146E-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 10.20E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 163.4E-6 GCM 0 6 10 99 163.4E-12 IEE 10 4 DC 39.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 6.121E3 RC2 3 12 6.121E3 RE1 13 10 4.778E3 RE2 14 10 4.778E3 REE 10 99 5.110E6 RO1 8 5 60 RO2 7 99 60 RP 3 4 20.53E3 VB 9 0 DC 0 VC 3 53 DC 4.500 VE 54 4 DC 2 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=278.6) .ENDS *------------------------------------------------------------------------------ * A3_106 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/18/90 AT 13:55 * .SUBCKT A3_106 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 9.283E-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 4.081E6 -4E6 4E6 4E6 -4E6 GA 6 0 11 12 408.4E-6 GCM 0 6 10 99 408.4E-12 IEE 10 4 DC 39.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 2.449E3 RC2 3 12 2.449E3 RE1 13 10 1.118E3 RE2 14 10 1.118E3 REE 10 99 5.110E6 RO1 8 5 60 RO2 7 99 60 RP 3 4 20.53E3 VB 9 0 DC 0 VC 3 53 DC 4.500 VE 54 4 DC 2 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=278.6) .ENDS *------------------------------------------------------------------------------ * A3_110 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 12:59 * .SUBCKT A3_110 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 7.151E-12 C2 6 7 12.00E-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 12 377.0E-6 GCM 0 6 10 99 1.889E-9 ISS 3 10 DC 240.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 2.653E3 RD2 4 12 2.653E3 RO1 8 5 30 RO2 7 99 30 RP 3 4 37.50E3 RSS 10 99 833.3E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A3_117 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/19/90 AT 12:37 * .SUBCKT A3_117 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 9.283E-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 4.081E6 -4E6 4E6 4E6 -4E6 GA 6 0 11 12 408.4E-6 GCM 0 6 10 99 408.4E-12 IEE 10 4 DC 39.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 2.449E3 RC2 3 12 2.449E3 RE1 13 10 1.118E3 RE2 14 10 1.118E3 REE 10 99 5.110E6 RO1 8 5 60 RO2 7 99 60 RP 3 4 20.53E3 VB 9 0 DC 0 VC 3 53 DC 4.500 VE 54 4 DC 2 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=278.6) .ENDS *------------------------------------------------------------------------------ * A3_120 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:10 * .SUBCKT A3_120 + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 17.32E-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 0 159.2E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 251.3E-12 ISS 3 10 DC 20.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.979E3 RD2 4 12 3.979E3 RO1 8 5 25 RO2 7 99 25 RP 3 4 30.00E3 RSS 10 99 10.00E6 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 24 VLN 0 92 DC 24 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=1.579E-3 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A1_101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 12:56 * .SUBCKT A1_101E + INP ; non-inverting input + INN ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 70.20E6 -70E6 70E6 70E6 -70E6 GA 6 0 11 12 320.4E-6 GCM 0 6 10 99 2.022E-9 IEE 10 4 DC 30.05E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 3.121E3 RC2 3 12 3.121E3 RE1 13 10 1.394E3 RE2 14 10 1.394E3 REE 10 99 6.656E6 RO1 8 5 25 RO2 7 99 25 * RP 3 4 10.70E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 **************************** * A1_101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 2.136E-3 1 FQ2 0 4 POLY(1) VQ2 2.136E-3 -1 * QUIESCIENT CURRENT RQ 3 4 4.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 * INPUT PROTECTION R1IN INP 1 1000 D1IN 1 2 DX R2IN INN 2 1000 D2IN 2 1 DX ***************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=600) .ENDS *------------------------------------------------------------------------------ * A1_102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * .SUBCKT A1_102E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 47.37E6 -50E6 50E6 50E6 -50E6 GA 6 0 11 12 52.78E-6 GCM 0 6 10 99 1.053E-9 IEE 10 4 DC 6.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 18.95E3 RC2 3 12 18.95E3 RE1 13 10 10.24E3 RE2 14 10 10.24E3 REE 10 99 33.06E6 RO1 8 5 100 RO2 7 99 400 * RP 3 4 186.8E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 2 VLN 0 92 DC 2 **************************** * A1_102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.45E-4 1 FQ2 0 4 POLY(1) VQ2 1.45E-4 -1 * QUIESCIENT CURRENT RQ 3 4 2.0E6 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.0E-12 C2CM 2 99 1.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS *------------------------------------------------------------------------------ * A1_103E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/13/90 AT 14:01 * .SUBCKT A1_103E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 2.098E-12 C2 6 7 5.000E-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 2.653E6 -3E6 3E6 3E6 -3E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 2.987E-9 ISS 3 10 DC 100.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 5.305E3 RD2 4 12 5.305E3 RO1 8 5 20 RO2 7 99 20 * RP 3 4 14.06E3 RSS 10 99 2.000E6 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 **************************** * A1_103 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.70E-3 1 FQ2 0 4 POLY(1) VQ2 1.70E-3 -1 * QUIESCIENT CURRENT RQ 3 4 9.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=177.7E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A1_110E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:10 * .SUBCKT A1_110E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.443E-12 C2 6 7 5.000E-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 2.653E3 -3E3 3E3 3E3 -3E3 GA 6 0 11 12 628.3E-6 GCM 0 6 10 99 6.283E-6 ISS 3 10 DC 250.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.592E3 RD2 4 12 1.592E3 RO1 8 5 60 RO2 7 99 60 * RP 3 4 37.50E3 RSS 10 99 800.0E3 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 60 VLN 0 92 DC 60 **************************** * A1_110 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 4.16E-4 1 FQ2 0 4 POLY(1) VQ2 4.16E-4 -1 * QUIESCIENT CURRENT RQ 3 4 2.25E5 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A1_120E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:07 * .SUBCKT A1_120E + INP ; non-inverting input + INN ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 16.38E-12 C2 6 7 90.00E-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 23.58E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 1.696E-3 GCM 0 6 10 99 3.385E-9 IEE 10 4 DC 108.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 589.5 RC2 3 12 589.5 RE1 13 10 110.5 RE2 14 10 110.5 REE 10 99 1.852E6 RO1 8 5 25 RO2 7 99 25 * RP 3 4 33.63E3 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 **************************** * A1_120 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 8.72E-4 1 FQ2 0 4 POLY(1) VQ2 8.72E-4 -1 * QUIESCIENT CURRENT RQ 3 4 1.5E6 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 * INPUT PROTECTION R1IN INP 1 1000 D1IN 1 2 DX R2IN INN 2 1000 D2IN 2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS *------------------------------------------------------------------------------ * A2_101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:30 * .SUBCKT A2_101E + INP ; non-inverting input + INN ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 59.67E6 -60E6 60E6 60E6 -60E6 GA 6 0 11 12 377.0E-6 GCM 0 6 10 99 1.192E-9 IEE 10 4 DC 30.05E-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 10 926.8 RE2 14 10 926.8 REE 10 99 6.656E6 RO1 8 5 25 RO2 7 99 25 * RP 3 4 10.70E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 **************************** * A2_101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 2.136E-3 1 FQ2 0 4 POLY(1) VQ2 2.136E-3 -1 * QUIESCIENT CURRENT RQ 3 4 4.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 * INPUT PROTECTION R1IN INP 1 1000 D1IN 1 2 DX R2IN INN 2 1000 D2IN 2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=600) .ENDS *------------------------------------------------------------------------------ * A2_102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * .SUBCKT A2_102E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 44.21E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 56.55E-6 GCM 0 6 10 99 565.5E-12 IEE 10 4 DC 6.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 17.68E3 RC2 3 12 17.68E3 RE1 13 10 8.988E3 RE2 14 10 8.988E3 REE 10 99 33.06E6 RO1 8 5 100 RO2 7 99 400 * RP 3 4 186.8E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 2 VLN 0 92 DC 2 **************************** * A2_102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.45E-4 1 FQ2 0 4 POLY(1) VQ2 1.45E-4 -1 * QUIESCIENT CURRENT RQ 3 4 2.0E6 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.0E-12 C2CM 2 99 1.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS *------------------------------------------------------------------------------ * A2_103E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/13/90 AT 11:47 * .SUBCKT A2_103E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 2.098E-12 C2 6 7 5.000E-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 2.653E6 -3E6 3E6 3E6 -3E6 GA 6 0 11 12 188.5E-6 GCM 0 6 10 99 2.987E-9 ISS 3 10 DC 100.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 5.305E3 RD2 4 12 5.305E3 RO1 8 5 20 RO2 7 99 20 * RP 3 4 14.06E3 RSS 10 99 2.000E6 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 50 VLN 0 92 DC 50 **************************** * A2_103 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.70E-3 1 FQ2 0 4 POLY(1) VQ2 1.70E-3 -1 * QUIESCIENT CURRENT RQ 3 4 9.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=177.7E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A2_110E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:12 * .SUBCKT A2_110E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.443E-12 C2 6 7 5.000E-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 2.653E3 -3E3 3E3 3E3 -3E3 GA 6 0 11 12 628.3E-6 GCM 0 6 10 99 6.283E-6 ISS 3 10 DC 250.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 1.592E3 RD2 4 12 1.592E3 RO1 8 5 60 RO2 7 99 60 * RP 3 4 37.50E3 RSS 10 99 800.0E3 VB 9 0 DC 0 VC 3 53 DC 2 VE 54 4 DC 1 VLIM 7 8 DC 0 VLP 91 0 DC 60 VLN 0 92 DC 60 **************************** * A2_110 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 4.16E-4 1 FQ2 0 4 POLY(1) VQ2 4.16E-4 -1 * QUIESCIENT CURRENT RQ 3 4 2.25E5 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A2_120E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:08 * .SUBCKT A2_120E + INP ; non-inverting input + INN ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 16.38E-12 C2 6 7 90.00E-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 20.21E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 1.979E-3 GCM 0 6 10 99 1.979E-9 IEE 10 4 DC 108.0E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 505.3 RC2 3 12 505.3 RE1 13 10 26.28 RE2 14 10 26.28 REE 10 99 1.852E6 RO1 8 5 25 RO2 7 99 25 * RP 3 4 33.63E3 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 **************************** * A2_120 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 8.72E-4 1 FQ2 0 4 POLY(1) VQ2 8.72E-4 -1 * QUIESCIENT CURRENT RQ 3 4 1.5E6 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 * INPUT PROTECTION R1IN INP 1 1000 D1IN 1 2 DX R2IN INN 2 1000 D2IN 2 1 DX **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS *------------------------------------------------------------------------------ * A3_101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:39 * .SUBCKT A3_101E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-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 0 358.0E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 62.83E-6 GCM 0 6 10 99 198.7E-12 IEE 10 4 DC 5.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 15.92E3 RC2 3 12 15.92E3 RE1 13 10 5.515E3 RE2 14 10 5.515E3 REE 10 99 39.60E6 RO1 8 5 25 RO2 7 99 25 * RP 3 4 10.61E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 10 VLN 0 92 DC 10 **************************** * A3_101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 2.162E-3 1 FQ2 0 4 POLY(1) VQ2 2.162E-3 -1 * QUIESCIENT CURRENT RQ 3 4 4.5E4 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=100) .ENDS *------------------------------------------------------------------------------ * A3_102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * .SUBCKT A3_102E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 8.660E-12 C2 6 7 30.00E-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 44.21E6 -40E6 40E6 40E6 -40E6 GA 6 0 11 12 56.55E-6 GCM 0 6 10 99 565.5E-12 IEE 10 4 DC 6.050E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 17.68E3 RC2 3 12 17.68E3 RE1 13 10 8.988E3 RE2 14 10 8.988E3 REE 10 99 33.06E6 RO1 8 5 100 RO2 7 99 400 * RP 3 4 186.8E3 VB 9 0 DC 0 VC 3 53 DC 2.500 VE 54 4 DC 2.500 VLIM 7 8 DC 0 VLP 91 0 DC 2 VLN 0 92 DC 2 **************************** * A3_102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.45E-4 1 FQ2 0 4 POLY(1) VQ2 1.45E-4 -1 * QUIESCIENT CURRENT RQ 3 4 2.0E6 * DIFF INPUT CAPACITANCE CDIF 1 2 2.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.0E-12 C2CM 2 99 1.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS *------------------------------------------------------------------------------ * A3_103E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/09/90 AT 10:20 * .SUBCKT A3_103E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 3.356E-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 16.62E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 301.6E-6 GCM 0 6 10 99 4.780E-9 ISS 3 10 DC 160.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.316E3 RD2 4 12 3.316E3 RO1 8 5 10 RO2 7 99 10 * RP 3 4 14.06E3 RSS 10 99 1.250E6 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 70 VLN 0 92 DC 70 **************************** * A3_103 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.64E-3 1 FQ2 0 4 POLY(1) VQ2 1.64E-3 -1 * QUIESCIENT CURRENT RQ 3 4 9.0E4 * DIFF INPUT CAPACITANCE CDIF 1 2 1.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=284.3E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A3_105E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 08:58 * .SUBCKT A3_105E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 1.146E-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 10.20E6 -10E6 10E6 10E6 -10E6 GA 6 0 11 12 163.4E-6 GCM 0 6 10 99 163.4E-12 IEE 10 4 DC 39.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 6.121E3 RC2 3 12 6.121E3 RE1 13 10 4.778E3 RE2 14 10 4.778E3 REE 10 99 5.110E6 RO1 8 5 60 RO2 7 99 60 * RP 3 4 20.53E3 VB 9 0 DC 0 VC 3 53 DC 4.500 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 **************************** * A3_105 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.414E-3 1 FQ2 0 4 POLY(1) VQ2 1.414E-3 -1 * QUIESCIENT CURRENT RQ 3 4 6.5E5 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *------------------------------------------------------------------------------ * A3_106E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 08:58 * .SUBCKT A3_106E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 9.283E-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 4.081E6 -4E6 4E6 4E6 -4E6 GA 6 0 11 12 408.4E-6 GCM 0 6 10 99 408.4E-12 IEE 10 4 DC 39.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 2.449E3 RC2 3 12 2.449E3 RE1 13 10 1.118E3 RE2 14 10 1.118E3 REE 10 99 5.110E6 RO1 8 5 60 RO2 7 99 60 * RP 3 4 20.53E3 VB 9 0 DC 0 VC 3 53 DC 4.500 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 **************************** * A3_106 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.414E-3 1 FQ2 0 4 POLY(1) VQ2 1.414E-3 -1 * QUIESCIENT CURRENT RQ 3 4 6.5E5 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *------------------------------------------------------------------------------ * A3_110E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 12:59 * .SUBCKT A3_110E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 7.151E-12 C2 6 7 12.00E-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 12 377.0E-6 GCM 0 6 10 99 1.889E-9 ISS 3 10 DC 240.0E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 2.653E3 RD2 4 12 2.653E3 RO1 8 5 30 RO2 7 99 30 * RP 3 4 37.50E3 RSS 10 99 833.3E3 VB 9 0 DC 0 VC 3 53 DC 3 VE 54 4 DC 3 VLIM 7 8 DC 0 VLP 91 0 DC 25 VLN 0 92 DC 25 **************************** * A3_110 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 4.264E-4 1 FQ2 0 4 POLY(1) VQ2 4.264E-4 -1 * QUIESCIENT CURRENT RQ 3 4 2.25E5 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-6 VTO=-1) .ENDS *------------------------------------------------------------------------------ * A3_117E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 08:58 * .SUBCKT A3_117E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 9.283E-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 4.081E6 -4E6 4E6 4E6 -4E6 GA 6 0 11 12 408.4E-6 GCM 0 6 10 99 408.4E-12 IEE 10 4 DC 39.14E-6 HLIM 90 0 VLIM 1K Q1 11 2 13 QX Q2 12 1 14 QX R2 6 9 100.0E3 RC1 3 11 2.449E3 RC2 3 12 2.449E3 RE1 13 10 1.118E3 RE2 14 10 1.118E3 REE 10 99 5.110E6 RO1 8 5 60 RO2 7 99 60 * RP 3 4 20.53E3 VB 9 0 DC 0 VC 3 53 DC 4.500 VE 54 4 DC 2 VLIM 7 8 DC 0 VLP 91 0 DC 20 VLN 0 92 DC 20 **************************** * A3_117 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 1.414E-3 1 FQ2 0 4 POLY(1) VQ2 1.414E-3 -1 * QUIESCIENT CURRENT RQ 3 4 6.5E5 **************************** .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *------------------------------------------------------------------------------ * A3_120E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:10 * .SUBCKT A3_120E + 1 ; non-inverting input + 2 ; inverting input + 3 ; positive power supply + 4 ; negative power supply + 5 ; output * C1 11 12 17.32E-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 0 159.2E6 -20E6 20E6 20E6 -20E6 GA 6 0 11 12 251.3E-6 GCM 0 6 10 99 251.3E-12 ISS 3 10 DC 20.00E-6 HLIM 90 0 VLIM 1K J1 11 2 10 JX J2 12 1 10 JX R2 6 9 100.0E3 RD1 4 11 3.979E3 RD2 4 12 3.979E3 RO1 8 5 25 RO2 7 99 25 * RP 3 4 30.00E3 RSS 10 99 10.00E6 VB 9 0 DC 0 VC 3 53 DC 2.200 VE 54 4 DC 2.200 VLIM 7 8 DC 0 VLP 91 0 DC 24 VLN 0 92 DC 24 **************************** * A3_120 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ3 0 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 21 0 0 VQ2 22 0 0 FQ1 3 0 POLY(1) VQ1 9.60E-4 1 FQ2 0 4 POLY(1) VQ2 9.60E-4 -1 * QUIESCIENT CURRENT RQ 3 4 1.5E6 * DIFF INPUT CAPACITANCE CDIF 1 2 3.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 99 1.5E-12 C2CM 2 99 1.5E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=1.579E-3 VTO=-1) .ENDS