* Library of Harris Semiconductor definitions * Copyright 1990 Harris Corporation * Neither this library nor any part may be copied without the express * written consent of Harris Corporation * $Revision: 1.4 $ * $Author: mk $ * $Date: 12 Jun 1992 15:56:30 $ *----------------------------------------------------------------------------- * * This library of macromodels is being supplied to users as an aid to circuit * designs. While it reflects reasonably close similarity to the actual device * in terms of performance, it is not suggested as a replacement for * breadboarding. Simulation should be used as a forerunner or a supplement to * traditional lab testing. * * Users should very carefully note the following factors regarding these * models: * * Model performance in general will reflect typical baseline specs for a * given device, and certain aspects of performance may not be modeled * fully. * * While reasonable care has been taken in their preparation, we cannot * be responsible for correct application on any and all computer * systems. * * Model users are hereby notified that these models are supplied "as is", * with no direct or implied responsibility on the part of Harris * for their operation within a customer circuit or system. Further, * Harris 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 to * individual device data sheets. * * Your feedback and suggestions on these (and future) models will be * appreciated! * * Harris Semiconductor * Linear Applications Group * Commercial Products Division * P.O. Box 883 * Melbourne, Florida 32901 * (407) 729-4788 * *---------------------------------------------------------------------------- * * HA-2500 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2500/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+15.486 .MODEL DN D IS=1E-14 N=+15.486 .MODEL DV D IS=+2.7631E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +2E-03 I1 8 0 +1.9E-07 FA 2 0 VN +1.053E-01 DP 6 8 DP DN 7 8 DN FP 9 0 VP +4.053E+03 FN 0 9 VN +4.053E+03 GC 0 9 8 0 +5.4413E-08 GPP 9 0 4 0 +3.0598E-08 GPN 9 0 5 0 +5.4413E-08 IRX 0 9 -9.3646E-09 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +1.0613E+02 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +3.184E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +6.5577E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +4.3777E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +4.5E-03 IL 0 5 +4.5E-03 GPS 18 0 15 3 +0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -9.1757E-01 +1.9137 RO 15 3 +10.0 .ENDS * * * HA-2502 MacroModel * Rev: 8-01-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2502/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+15.486 .MODEL DN D IS=1E-14 N=+15.486 .MODEL DV D IS=+2.2105E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +4E-03 I1 8 0 +2.3E-07 FA 2 0 VN +1.7391E-01 DP 6 8 DP DN 7 8 DN FP 9 0 VP +3.3478E+03 FN 0 9 VN +3.3478E+03 GC 0 9 8 0 +9.6761E-08 GPP 9 0 4 0 +9.6761E-08 GPN 9 0 5 0 +9.6761E-08 IRX 0 9 +6.2593E-07 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +1.0613E+02 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +3.184E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +6.5577E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +3.5021E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +5.0E-03 IL 0 5 +5.0E-03 GPS 18 0 15 3 +0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -9.0119E-01 +1.8974 RO 15 3 +10.0 .ENDS * * * HA-2510 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2510/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.8454E+01 .MODEL DN D IS=+1.1818E-14 N=+1.8454E+01 .MODEL DV D IS=+2.1552E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +4E-03 I1 8 0 +2.0727E-07 FA 2 0 VN -6.4777E-02 DP 6 8 DP DN 7 8 DN FP 9 0 VP +6.8991E+03 FN 0 9 VN +5.8377E+03 GC 0 9 8 0 +7.7732E-08 GPP 9 0 4 0 +7.7732E-08 GPN 9 0 5 0 +7.7732E-08 IRX 0 9 +5.9217E-07 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +5.3067E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +3.98E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +6.5577E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +1.8386E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +4.5E-03 IL 0 5 +4.5E-03 GPS 18 0 15 3 +0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.9933E-01 +1.8955 RO 15 3 +10.0 .ENDS * * * HA-2520 MacroModel * Rev: 8-01-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2520/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.7943E+01 .MODEL DN D IS=+1.0714E-14 N=+1.7943E+01 .MODEL DV D IS=+1.9894E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +4E-03 I1 8 0 +1.9679E-07 FA 2 0 VN +3.1579E-02 DP 6 8 DP DN 7 8 DN FP 9 0 VP +1.6769E+04 FN 0 9 VN +1.5652E+04 GC 0 9 8 0 +1.9433E-07 GPP 9 0 4 0 +1.9433E-07 GPN 9 0 5 0 +1.9433E-07 IRX 0 9 +1.4394E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +3.184E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +2.653E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 +1.99E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 +6.5577E+02 CC 16 17 +2.2E-11 GOL 17 0 16 0 +7.3545E+01 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +4.5E-03 IL 0 5 +4.5E-03 GPS 20 0 17 3 +0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.9345E-01 +1.8897 RO 17 3 +10.0 .ENDS * * * HA-2522 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2522/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.4220E+01 .MODEL DN D IS=+1.0909E-14 N=+1.4220E+01 .MODEL DV D IS=+1.1671E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +5E-03 I1 8 0 +2.4045E-07 FA 2 0 VN +7.6087E-02 DP 6 8 DP DN 7 8 DN FP 9 0 VP +1.0979E+04 FN 0 9 VN +1.0064E+04 GC 0 9 8 0 +3.4558E-07 GPP 9 0 4 0 +3.4558E-07 GPN 9 0 5 0 +3.4558E-07 IRX 0 9 +2.0527E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +3.184E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +2.653E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 +1.99E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 +6.5577E+02 CC 16 17 +2.2E-11 GOL 17 0 16 0 +5.3933E+01 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +5.0E-03 IL 0 5 +5.0E-03 GPS 20 0 17 3 +0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.5430E-01 +1.8506 RO 17 3 +10.0 .ENDS * * * HA2539 MACRO-MODEL * * Rev: 8/8/91 * By: J. Coutreau * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2539/HA 3 4 20 21 16 * * INPUT STAGE * CN1 4 0 1E-12 LN 4 40 5E-9 RN 40 41 30 RCN 41 0 10E6 IBN 41 0 10E-6 CN2 41 0 0.5E-12 CP1 3 0 1E-12 LP 3 30 5E-9 RP 30 31 30 RCP 31 0 10E6 IBP 31 0 8E-6 CP2 31 0 0.5E-12 RDF 41 42 43E3 VOF 42 31 2E-3 * * SLEW LIMITING * ED 1 0 42 41 10 RDA 1 33 75 CDA 33 0 7E-12 RDB 33 2 75 CDB 2 0 3E-12 D1 2 5 DM OFF D2 6 2 DM OFF .MODEL DM D (IS=1E-9 BV=40 IBV=50E-6) VCP 5 0 1.2 VCN 0 6 1.2 * * COMPENSATION * GA 0 7 2 0 1.43E-3 RH 7 0 1.3E6 CH 7 0 1.5E-12 RC 7 8 600 CC 8 0 2.2E-12 * * POLES * EP 9 0 8 0 1 RPA 9 10 75 CPA 10 0 7E-12 RPB 10 11 50 CPB 11 0 3E-12 * * OUTPUT STAGE * EO 12 0 11 0 1 RO 12 13 25 LO 13 16 5E-9 CO 16 0 1E-12 * * POWER SUPPLY CURRENT * IPS 20 21 20E-3 .ENDS * * * HA2540 MACRO-MODEL * * Rev: 8/8/91 * By: J. Coutreau * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2540/HA 3 4 20 21 16 * * INPUT STAGE * CN1 4 0 1E-12 LN 4 40 5E-9 RN 40 41 30 RCN 41 0 10E6 IBN 41 0 10E-6 CN2 41 0 0.5E-12 CP1 3 0 1E-12 LP 3 30 5E-9 RP 30 31 30 RCP 31 0 10E6 IBP 31 0 8E-6 CP2 31 0 0.5E-12 RDF 41 42 43E3 VOF 42 31 2E-3 * * SLEW LIMITING * ED 1 0 42 41 10 RDA 1 33 75 CDA 33 0 7E-12 RDB 33 2 75 CDB 2 0 3E-12 D1 2 5 DM OFF D2 6 2 DM OFF .MODEL DM D (IS=1E-9 BV=40 IBV=50E-6) VCP 5 0 1.2 VCN 0 6 1.2 * * COMPENSATION * GA 0 7 2 0 1.43E-3 RH 7 0 1.3E6 CH 7 0 5.5E-12 RC 7 8 600 CC 8 0 2.2E-12 * * POLES * EP 9 0 8 0 1 RPA 9 10 75 CPA 10 0 7E-12 RPB 10 11 50 CPB 11 0 3E-12 * * OUTPUT STAGE * EO 12 0 11 0 1 RO 12 13 25 LO 13 16 5E-9 CO 16 0 1E-12 * * POWER SUPPLY CURRENT * IPS 20 21 20E-3 .ENDS * * * HA-2541 MACRO-MODEL * * Rev: 8/8/91 D.L. Youngblood & R.S. Vogelsong * pinout changed to conform to "standard" * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2541/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+1.5563E+01 .MODEL DN D IS=+8.4545E-15 N=+1.5563E+01 .MODEL DV D IS=1E-14 N=.5 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+5.8815E-01 .MODEL DIO2 D IS=1E-14 N=20 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 +4.1349E-04 * DN 13 1 DN FA 7 0 VIO +1.0286E-03 I1 1 0 +2.4536E-05 C1 1 0 +6.8088E-16 IC=-8.4003E+00 FP 4 0 VP +2.2865E+02 FN 0 4 VIO +2.7045E+02 GC 0 4 1 0 +2.4042E-07 ICO 0 4 2.0195E-6 GPP 0 4 9 48 +1.011E-07 GPN 0 4 49 10 +3.858E-07 RT 4 0 1.0 VPP 48 0 +1.5E+01 RPP 48 0 1K VPN 0 49 +1.5E+01 RPN 0 49 1K * * General Poles * EP1 15 0 4 0 1.0 RP1 15 16 +1.10345E+01 CP1 16 0 1.0E-10 EP2 17 0 16 0 1.0 RP2 17 18 +7.6525E+00 CP2 18 0 1.0E-10 EP3 19 0 18 0 1.0 RP3 19 20 +6.5466E+00 CP3 20 0 1.0E-10 EP4 21 0 20 0 1.0 RP4 21 22 +5.7505E+00 CP4 22 0 1.0E-10 EP5 24 0 22 0 1.0 RP5 24 25 +3.1289E+00 CP5 25 0 1.0E-10 * * General Zeroes * GZ1 0 30 25 0 +6.2407E-04 VZ01 30 31 0.0 RHZ1 31 32 +1.6024E+03 LZ1 32 0 1.0E-6 GZ2 0 33 30 0 +5.0672E-04 VZ02 33 34 0.0 RHZ2 34 35 +1.9735E+03 LZ2 35 0 1.0E-6 * * Complex Zero * ECZ 42 0 33 0 1.0 VCZ 42 43 0.0 CC2Z 43 0 +6.9559E-13 RBIG2 43 0 1.0E+7 FCZ 0 38 VCZ 1.0 LCZ 38 39 1.0E-6 CC1Z 39 40 +6.9559E-13 RHCZ 40 0 +5.9231E+02 RBIG1 38 0 1.0E+7 * * Complex Pole * ECP 45 0 38 0 1.0 RCP 45 46 +5.7687E+02 LCP 46 47 +6.4195E-07 CCPX 47 0 1.0E-12 * * Gain/Output Stage * * For Level 1 model, change node 47 on source "G2" to 4, * add a capacitor from node 4 to node 0 of the value 2.926E-9, * and comment out all poles and zeros * G2 0 2 47 0 1.0 * R2 2 0 +1.4769E+05 D2A 2 0 DIO2 D2B 0 2 DIO2 CC 2 3 +2.2E-11 GOL 3 0 2 0 4.7231E+01 RD 3 0 5.0000E-01 DH 3 5 DV DL 50 3 DV VH 9 5 4.2171 VL 50 10 2.03 IH 9 0 +3.0573E-02 IL 0 10 +3.0600E-02 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -7.350E+00 RO 54 8 +1.5000E+00 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS * * * HA-2542 Macro Model * * Rev: 08/8/91 DL Youngblood * pinout changed to conform to "standard" * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2542/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+2.1665E+01 .MODEL DN D IS=+7.9827E-15 N=+2.1665E+01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+4.0513E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" respresents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 -1.4927E-03 * DN 13 1 DN FA 7 0 VIO +2.1680E-03 I1 1 0 +3.2477E-05 C1 1 0 +3.6662E-15 IC=-1.1864E+01 FP 4 0 VP +4.2604E+02 FN 0 4 VIO +5.3371E+02 GPP 0 4 9 14 +3.3536E-07 GPN 0 4 15 10 +1.0362E-06 RT 4 0 1.0 VPP 14 0 +1.5E+01 RPP 14 0 1K VPN 0 15 +1.5E+01 RPN 0 15 1K GC 0 4 1 0 +1.3823E-07 ICO 0 4 1.6400E-6 * * General Poles * EP1 16 0 4 0 1.0 RP1 16 17 +5.5760 CP1 17 0 1.0E-10 EP2 18 0 17 0 1.0 RP2 18 19 +4.5425 CP2 19 0 1.0E-10 EP3 20 0 19 0 1.0 RP3 20 21 +4.5425 CP3 21 0 1.0E-10 EP4 22 0 21 0 1.0 RP4 22 23 +4.1259 CP4 23 0 1.0E-10 EP5 24 0 23 0 1.0 RP5 24 25 +4.1259 CP5 25 0 1.0E-10 * * General Zeros * GZ1 0 30 25 0 +1.9502E-04 VZ01 30 31 0.0 HZ1 31 32 VZ01 +5.1276E+03 LZ1 32 0 1.0E-6 * * Complex Zero * ECZ 42 0 30 0 1.0 VCZ 42 43 0.0 CC2Z 43 0 +5.6373E-12 RBIG2 43 0 1.0E+7 FCZ 0 38 VCZ 1.0 LCZ 38 39 1E-6 CC1Z 39 40 +5.6373E-12 RHCZ 40 0 +2.2457E+02 RBIG1 38 0 1.0E+7 * * Complex Pole * ECP 45 0 38 0 1.0 RCP 45 46 +1.4226E+03 LCP 46 47 +6.5375E-06 CCPX 47 0 1.0E-12 * * Gain / Output Stage * * For Level 1 model, change node 47 on source "G2" to 4, * add a capacitor from node 4 to node 0 of the value 3.282E-9, * and comment out all poles and zeros * G2 0 2 47 0 1.0 * R2 2 0 +2.3239E+05 CC 2 3 +2.2E-11 GOL 3 0 2 0 +7.3741 RD 3 0 +8.3965E-01 DH 3 5 DV DL 48 3 DV VH 9 5 4.2525 VL 48 10 2.6057 IH 9 0 +3.2170E-02 IL 0 10 +3.2206E-02 D1 3 51 D1 D2 51 3 D2 EX1 51 0 POLY 2 3 0 3 8 0 1 -6.3352E-01 RO 52 8 +3.37 VIS 3 52 0 FI 0 53 VIS 1 DIP 53 54 DV DIN 56 55 DV VIP 54 56 0 VIN 55 53 0 RI 56 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS * * * HA-2544 MACRO MODEL * Rev: 4/19/91 D L Youngblood * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2544/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+1.384E+01 .MODEL DN D IS=+9.7533E-15 N=+1.384E+01 .MODEL DV D IS=+6.2773E-16 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+5.0E-01 * * Input Stage * VP 6 11 0 DP 11 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 12 -2.7757E-04 * DN 12 1 DN FA 7 0 VIO +1.0636E-02 I1 1 0 +1.6994E-05 C1 1 0 +1.4933E-15 IC=-7.3159 FP 4 0 VP +2.1354E+02 FN 0 4 VIO +2.1894E+02 GPP 0 4 9 13 +4.9937E-07 GPN 0 4 14 10 +2.6098E-07 RT 4 0 1 VPP 13 0 +1.5E+01 RPP 13 0 1K VPN 0 14 +1.5E+01 RPN 0 14 1K GC 0 4 1 0 +7.1701E-11 ICO 0 4 5.2461E-10 * * General Poles * EP1 17 0 4 0 1 RP1 17 18 +2.1953E+01 CP1 18 0 1.0E-10 EP2 20 0 18 0 1 RP2 20 21 +7.2843 CP2 21 0 1.0E-10 EP3 22 0 21 0 1 RP3 22 23 +4.8433 CP3 23 0 1.0E-10 EP4 24 0 23 0 1 RP4 24 25 +2.2283 CP4 25 0 1.0E-10 EP5 26 0 25 0 1 RP5 26 27 +1.9908 CP5 27 0 1.0E-10 EP6 28 0 27 0 1 RP6 28 29 +1.6526 CP6 29 0 1.0E-10 * * General Zero * GZ1 0 32 29 0 +1.4448E-03 VZ01 32 33 0.0 HZ3 33 34 VZ01 +6.9216E+02 LZ1 34 0 1.0E-6 * * Gain / Output Stage * *For a Level 1 model, change node 32 on source "G2" to 4, * add a capacitor from node 4 to node 0 of the value 1.69E-9, * and comment out all general poles and zeros * G2 0 2 32 0 1 * R2 2 0 +1.7546E+05 CC 2 3 +2.2E-11 GOL 3 0 2 0 +7.8868E-02 RD 3 0 +9.1695E+01 DH 3 5 DV DL 40 3 DV VH 9 5 3.7914 VL 40 10 1.9075 IH 9 0 +1.0591E-02 IL 0 10 +1.0608E-02 D1 3 43 D1 D2 43 3 D2 EX1 43 0 POLY 2 3 0 3 8 0 1 -1.2895E-01 RO 44 8 +2.7421E+01 VIS 3 44 0 FI 0 45 VIS 1 DIP 45 46 DV DIN 48 47 DV VIP 46 48 0 VIN 47 45 0 RI 48 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS * * * HA-2548 MacroModel * Rev: 4-22-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2548/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.594 .MODEL DN D IS=+9.9E-15 N=+2.594 .MODEL DV D IS=+1.2434E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +3.0E-04 I1 8 0 +3.4825E-08 FA 2 0 VN +8.7590E-01 DP 6 8 DP DN 7 8 DN C1 8 0 +3.4825E-18 IC=-9.5807E-01 FP 9 0 VP +6.3173E+04 FN 0 9 VN +6.3811E+04 GC 0 9 8 0 +0.0 GPP 9 0 4 0 +5.8855E-07 GPN 9 0 5 0 +5.2455E-07 IRX 0 9 +9.6006E-07 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 +1.9900E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +1.7689E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 +1.0613E+01 CP3 15 0 1E-10 EP4 16 0 15 0 1.0 RP4 16 17 +5.3067 CP4 17 0 1E-10 * * Output Stage G2 0 18 17 0 1.0 R2 18 0 +6.5577E+02 CC 18 19 +2.2000E-11 GOL 19 0 18 0 +6.8949E+03 RD 19 0 +4.0000E+01 DH 19 20 DV DL 21 19 DV ECC 20 0 POLY 1 4 0 -3.7000 1.0 EEE 21 0 POLY 1 5 0 +3.4000 1.0 IH 4 0 +1.4000E-02 IL 0 5 +1.4000E-02 GPS 22 0 19 3 +0.99999999E-01 DPH 4 22 DX DPL 22 5 DX D1 19 23 D1 D2 23 19 D2 EX1 23 0 POLY 2 19 0 3 0 0.0 -2.8159E-01 +1.279 RO 19 3 +10.0 .ENDS * * * HA-2600 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2600/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.5417 .MODEL DN D IS=+1.1428E-14 N=+1.5417 .MODEL DV D IS=+1.7684E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +5E-04 I1 8 0 +1.0714E-09 FA 2 0 VN +1.625 DP 6 8 DP DN 7 8 DN FP 9 0 VP +1.6427E+05 FN 0 9 VN +1.4373E+05 GC 0 9 8 0 +6.5568E-08 GPP 9 0 4 0 +6.5568E-08 GPN 9 0 5 0 +1.16599E-07 IRX 0 9 -7.3735E-07 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +6.368E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +4.5486E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +6.5577E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +1.2257E+03 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +3.0E-03 IL 0 5 +3.0E-03 GPS 18 0 15 3 +0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.8481E-01 +1.881 RO 15 3 +10.0 .ENDS * * * HA-2602 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2602/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.1563 .MODEL DN D IS=+1.1428E-14 N=+1.1563 .MODEL DV D IS=+1.061E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +2E-03 I1 8 0 +5.3571E-09 FA 2 0 VN +1.625 DP 6 8 DP DN 7 8 DN FP 9 0 VP +3.2853E+04 FN 0 9 VN +2.8747E+04 GC 0 9 8 0 +1.5546E-07 GPP 9 0 4 0 +4.9162E-08 GPN 9 0 5 0 +1.5546E-07 IRX 0 9 -1.5371E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +6.368E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +4.5483E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +6.5577E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +7.3545E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +3.5E-03 IL 0 5 +3.5E-03 GPS 18 0 15 3 +0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.4731E-01 +1.8436 RO 15 3 +10.0 .ENDS * * * HA-2620 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2620/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.355 .MODEL DN D IS=1E-14 N=+1.355 .MODEL DV D IS=+1.4506E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +5E-04 I1 8 0 +1.0E-09 FA 2 0 VN +2.0 DP 6 8 DP DN 7 8 DN FP 9 0 VP +7.7E+05 FN 0 9 VN +7.7E+05 GC 0 9 8 0 +3.497E-07 GPP 9 0 4 0 +3.497E-07 GPN 9 0 5 0 +6.2186E-07 IRX 0 9 -3.9507E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +3.98E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +2.653E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 +2.2743E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 +6.5577E+02 CC 16 17 +2.2E-11 GOL 17 0 16 0 +2.2983E+02 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +3.0E-03 IL 0 5 +3.0E-03 GPS 20 0 17 3 +0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.7027E-01 +1.8665 RO 17 3 +10.0 .ENDS * * * HA-2622 MacroModel * Rev: 8-01-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2622/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.355 .MODEL DN D IS=1E-14 N=+1.355 .MODEL DV D IS=+1.2572E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +3E-03 I1 8 0 +5.0E-09 FA 2 0 VN +2.0 DP 6 8 DP DN 7 8 DN FP 9 0 VP +1.54E+05 FN 0 9 VN +1.54E+05 GC 0 9 8 0 +6.2189E-07 GPP 9 0 4 0 +6.2186E-07 GPN 9 0 5 0 +1.1058E-06 IRX 0 9 -6.9906E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +3.98E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +2.6533E+01 CP2 13 0 1E-10 EP3 14 0 13 0 1.0 RP3 14 15 +2.2743E+01 CP3 15 0 1E-10 * * Output Stage G2 0 16 15 0 1.0 R2 16 0 +6.5577E+02 CC 16 17 +2.2E-11 GOL 17 0 16 0 +1.9918E+02 RD 17 0 +90.0 DH 17 18 DV DL 19 17 DV ECC 18 0 POLY 1 4 0 -2.7 1.0 EEE 19 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +3.5E-03 IL 0 5 +3.5E-03 GPS 20 0 17 3 +0.9999E-01 DPH 4 20 DX DPL 20 5 DX D1 17 21 D1 D2 21 17 D2 EX1 21 0 POLY 2 17 0 3 0 0.0 -8.5976E-01 +1.856 RO 17 3 +10.0 .ENDS * * * HA-2839 MacroModel * Rev: 4-22-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2839/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.2390 .MODEL DN D IS=+7.7455E-15 N=+2.2390 .MODEL DV D IS=+3.8601E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +2.0E-03 I1 8 0 -1.2954E-05 FA 2 0 VN +1.1421E-01 DP 8 6 DP DN 8 7 DN C1 8 0 +9.5209E-16 IC=-1.1741 FP 9 0 VP +7.6253E+02 FN 0 9 VN +9.8448E+02 GC 0 9 8 0 +9.6761E-06 GPP 9 0 4 0 +9.6761E-06 GPN 9 0 5 0 +9.6761E-06 IRX 0 9 +1.1360E-05 RT 9 0 1.0 * * Poles and Zeros EZZ 10 0 9 0 1.0 VZZ 10 11 0.0 CZZ 11 0 1E-12 RZZ 11 0 1E+07 FCZ 0 12 VZZ 1.0 RCZ 12 13 +4.5471 LCZ 13 14 +5.1694E-08 CCZ 14 0 1E-12 RXZ 14 0 1E+07 EP1 15 0 12 0 1.0 RP1 15 16 +6.0716 RZ1 16 17 -1.7689 CP1 17 0 1E-10 EP2 18 0 16 0 1.0 RP2 18 19 +4.1895 CP2 19 0 1E-10 EP3 20 0 19 0 1.0 RP3 20 21 +4.0821 CP3 21 0 1E-10 * * Output Stage G2 0 22 21 0 1.0 R2 22 0 +6.5577E+02 CC 22 23 +2.2000E-11 GOL 23 0 22 0 +4.7673E+03 RD 23 0 +1.0000E-01 DH 23 24 DV DL 25 23 DV ECC 24 0 POLY 1 4 0 -3.65 1.0 EEE 25 0 POLY 1 5 0 +3.73 1.0 IH 4 0 +1.6527E-02 IL 0 5 +1.6513E-02 GPS 26 0 23 3 +3.5842E-02 DPH 4 26 DX DPL 26 5 DX D1 23 27 D1 D2 27 23 D2 EX1 27 0 POLY 2 23 0 3 0 0.0 +7.1396E-01 +2.8445E-01 RO 23 3 +2.7900E+01 .ENDS * * * HA-2840 MacroModel * Rev: 4-22-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2840/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.239 .MODEL DN D IS=+7.7455E-15 N=+2.239 .MODEL DV D IS=+3.8601E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +1.9E-03 I1 8 0 -1.2954E-05 FA 2 0 VN +1.1421E-01 DP 8 6 DP DN 8 7 DN C1 8 0 +9.5209E-16 IC=-1.1741 FP 9 0 VP +7.6253E+02 FN 0 9 VN +9.8448E+02 GC 0 9 8 0 +9.6761E-06 GPP 9 0 4 0 +9.6761E-06 GPN 9 0 5 0 +9.6761E-06 IRX 0 9 +1.1360E-05 RT 9 0 1.0 * * Poles and Zeros EZZ 10 0 9 0 1.0 VZZ 10 11 0.0 CZZ 11 0 1E-12 RZZ 11 0 1E+07 FCZ 0 12 VZZ 1.0 RCZ 12 13 +4.5471 LCZ 13 14 +5.1694E-08 CCZ 14 0 1E-12 RXZ 14 0 1E+07 EP1 15 0 12 0 1.0 RP1 15 16 +6.0716 RZ1 16 17 -1.7689 CP1 17 0 1E-10 EP2 18 0 16 0 1.0 RP2 18 19 +4.1895 CP2 19 0 1E-10 EP3 20 0 19 0 1.0 RP3 20 21 +4.0821 CP3 21 0 1E-10 * * Output Stage G2 0 22 21 0 1.0 R2 22 0 +6.5577E+02 CC 22 23 +2.2000E-11 GOL 23 0 22 0 +4.7673E+03 RD 23 0 +1.0000E-01 DH 23 24 DV DL 25 23 DV ECC 24 0 POLY 1 4 0 -3.65 1.0 EEE 25 0 POLY 1 5 0 +3.73 1.0 IH 4 0 +1.6527E-02 IL 0 5 +1.6513E-02 GPS 26 0 23 3 +3.5842E-02 DPH 4 26 DX DPL 26 5 DX D1 23 27 D1 D2 27 23 D2 EX1 27 0 POLY 2 23 0 3 0 0.0 +7.1396E-01 +2.8445E-01 RO 23 3 +27.9 .ENDS * * * HA-2841 MacroModel * Rev: 4-22-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2841/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.7623E+01 .MODEL DN D IS=+7.7329E-15 N=+1.7623E+01 .MODEL DV D IS=+1.0269E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+9.8971E-01 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +1.30E-03 I1 8 0 +7.9798E-06 FA 2 0 VN +5.8055E-01 DP 6 8 DP DN 7 8 DN C1 8 0 +3.1293E-15 IC=-9.02199 FP 9 0 VP +7.0303E+02 FN 0 9 VN +9.0914E+02 GC 0 9 8 0 +4.4083E-07 GPP 9 0 4 0 +4.4814E-07 GPN 9 0 5 0 +4.3562E-07 IRX 0 9 +4.16498E-06 RT 9 0 1.0 * * Poles and Zeros ECP 10 0 9 0 1.0 RCP 10 11 +8.8417E+02 LCP 11 12 +3.1272E-06 CCP 12 13 1E-12 RXP 12 13 1E+07 VCP 13 0 0.0 FCZ 0 14 VCP 1.0 RCZ 14 15 +7.7951E+02 LCZ 15 16 +2.6374E-06 CCZ 16 0 1E-12 RXZ 16 0 1E+07 EP1 17 0 14 0 1.0 RP1 17 18 +3.184 CP1 18 0 1E-10 EP2 19 0 18 0 1.0 RP2 19 20 +3.0615 CP2 20 0 1E-10 EP3 21 0 20 0 1.0 RP3 21 22 +2.6533 CP3 22 0 1E-10 * * Output Stage G2 0 23 22 0 1.0 R2 23 0 +6.5577E+02 CC 23 24 +2.2000E-11 GOL 24 0 23 0 +2.2332E+01 RD 24 0 +2.7100E+02 DH 24 25 DV DL 26 24 DV ECC 25 0 POLY 1 4 0 -3.7708 1.0 EEE 26 0 POLY 1 5 0 +2.7237 1.0 IH 4 0 +9.79497E-03 IL 0 5 +9.8050E-03 GPS 27 0 24 3 +4.0000E-02 DPH 4 27 DX DPL 27 5 DX D1 24 28 D1 D2 28 24 D2 EX1 28 0 POLY 2 24 0 3 0 0.0 +5.9483E-01 +3.9758E-01 RO 24 3 +25.0 .ENDS * * * HA-2842 MacroModel * Rev: 4-22-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2842/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.5939E+01 .MODEL DN D IS=+1.1539E-14 N=+1.5939E+01 .MODEL DV D IS=+1.3801E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +1.0E-03 I1 8 0 +9.9631E-06 FA 2 0 VN +5.3943E-02 DP 6 8 DP DN 7 8 DN C1 8 0 +1.0454E-15 IC=-8.17099 FP 9 0 VP +9.0106E+02 FN 0 9 VN +7.8085E+02 GC 0 9 8 0 +7.2049E-07 GPP 9 0 4 0 +9.6184E-07 GPN 9 0 5 0 +6.8126E-07 IRX 0 9 +1.0096E-05 RT 9 0 1.0 * * Poles and Zeros ECP 10 0 9 0 1.0 RCP 10 11 +1.0268E+03 LCP 11 12 +2.9287E-06 CCP 12 13 1E-12 RXP 12 13 1E+07 VCP 13 0 0.0 FCZ 0 14 VCP 1.0 RCZ 14 15 +7.9575E+02 LCZ 15 16 +2.5330E-06 CCZ 16 0 1E-12 RXZ 16 0 1E+07 EP1 17 0 14 0 1.0 RP1 17 18 +4.088 CP1 18 0 1E-10 EP2 19 0 18 0 1.0 RP2 19 20 +3.5349 CP2 20 0 1E-10 EP3 21 0 20 0 1.0 RP3 21 22 +3.2774 CP3 22 0 1E-10 EP4 23 0 22 0 1.0 RP4 23 24 +3.2774 CP4 24 0 1E-10 * * Output Stage G2 0 25 24 0 1.0 R2 25 0 +6.5577E+02 CC 25 26 +2.2000E-11 GOL 26 0 25 0 +1.8755E+03 RD 26 0 +2.2218 DH 26 27 DV DL 28 26 DV ECC 27 0 POLY 1 4 0 -3.0167 1.0 EEE 28 0 POLY 1 5 0 +1.9207 1.0 IH 4 0 +1.4180E-02 IL 0 5 +1.4191E-02 GPS 29 0 26 3 +1.1325E-01 DPH 4 29 DX DPL 29 5 DX D1 26 30 D1 D2 30 26 D2 EX1 30 0 POLY 2 26 0 3 0 0.0 +4.4070E-01 +5.5831E-01 RO 26 3 +8.83013 .ENDS * * * HA-2850 MacroModel * Rev: 4-22-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-2850/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+2.3872 .MODEL DN D IS=+1.3117E-14 N=+2.3872 .MODEL DV D IS=+1.6146E-13 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +5.9E-04 I1 8 0 -4.8904E-06 FA 2 0 VN -2.856998E-01 DP 8 6 DP DN 8 7 DN C1 8 0 +1.0981E-17 IC=-1.1758 FP 9 0 VP +2.0034E+03 FN 0 9 VN +1.5279E+03 GC 0 9 8 0 +2.7311E-06 GPP 9 0 4 0 +3.4326E-06 GPN 9 0 5 0 +3.8529E-06 IRX 0 9 -3.0927E-06 RT 9 0 1.0 * * Poles and Zeros EZZ 10 0 9 0 1.0 VZZ 10 11 0.0 CZZ 11 0 1E-12 RZZ 11 0 1E+07 FCZ 0 12 VZZ 1.0 RCZ 12 13 +1.7407E+01 LCZ 13 14 +6.1841E-08 CCZ 14 0 1E-12 RXZ 14 0 1E+07 EP1 15 0 12 0 1.0 RP1 15 16 +7.2967 RZ1 16 17 -1.99 CP1 17 0 1E-10 EP2 18 0 16 0 1.0 RP2 18 19 +4.5486 CP2 19 0 1E-10 EP3 20 0 19 0 1.0 RP3 20 21 +3.98 CP3 21 0 1E-10 * * Output Stage G2 0 22 21 0 1.0 R2 22 0 +6.5577E+02 CC 22 23 +2.2000E-11 GOL 23 0 22 0 +2.0104E+03 RD 23 0 +6.07E-01 DH 23 24 DV DL 25 23 DV ECC 24 0 POLY 1 4 0 -2.4167 1.0 EEE 25 0 POLY 1 5 0 +2.5203 1.0 IH 4 0 +7.5422E-03 IL 0 5 +7.5382E-03 GPS 26 0 23 3 +2.6302E-02 DPH 4 26 DX DPL 26 5 DX D1 23 27 D1 D2 27 23 D2 EX1 27 0 POLY 2 23 0 3 0 0.0 +7.8568E-01 +2.1269E-01 RO 23 3 +3.80195E+01 .ENDS * * * HA-5002 MACRO-MODEL * REV: 7-29-91 * D.W. RIEMER * * Connections: +In * | Vcc * | | Vee * | | | Out * | | | | .SUBCKT HA-5002/HA 3 4 5 2 .MODEL D1 D IS=5.57E-11 N=1 RS=10 .MODEL D2 D IS=3E-11 N=1 RS=10 * * INPUT STAGE * OFFSET VOLTAGE MAY BE VARIED BY * ADJUSTING THE VALUE OF SOURCE VIO. * CI 3 0 +1E-12 LI 3 12 +2E-09 VIO 12 18 +3E-03 IP 4 7 +1E-05 CP 4 7 +8E-05 IN 13 5 +7E-06 CN 13 5 6.66E-15 DO2 11 13 D2 DI2 18 13 D2 DO1 7 11 D2 DI1 7 18 D1 * * SINGULARITES * GAIN MAY BE ADJUSTED BY CHANGING * THE VALUE OF EP1 (0.995->?) * EP1 15 0 11 0 0.995 EP2 17 0 14 0 1 EP3 16 0 6 0 1 GP4 0 1 8 0 1 RP1 15 14 600 RP2 17 6 350 RP3 16 8 100 RP4 1 10 1 CP1 14 0 +1E-12 CP2 6 0 +1E-12 CP3 8 0 +1E-12 CP4 1 0 +2E-09 LP4 10 0 +2E-09 * OUTPUT STAGE IPS 4 5 +8.3E-03 EO 19 0 1 0 1 RO 19 9 3 LO 9 2 +1E-09 CO 2 0 +1E-12 .ENDS * * * HA-5004 MACROMODEL * * REV: 8/8/91 * V. Hibner & S. Jost * * Pinout: +In=1 -In=7 Vcc=15 Vee=14 Vout=13 * .SUBCKT HA-5004/HA 1 7 15 14 13 * * Input stage * CP 1 0 1E-12 LP 1 2 5E-9 RP 2 3 20 RP1 3 0 3E6 IBP 3 0 3E-6 VIO 0 4 3E-3 EN 5 4 3 0 .9905 IBN 5 0 12E-6 RN1 5 0 12E6 RN 5 6 13 LN 6 7 5E-9 CN 7 0 1E-12 * * Transimpedance gain stage * FZ 0 8 VIO 1 RZ 8 0 120E3 CZ 8 0 6.4E-12 * * General Pole * EP2 9 0 8 0 1 RP2 9 10 1.35E3 CP2 10 0 1E-12 * * Output stage * EO 11 0 10 0 1 RO 11 12 10 LO 12 13 5E-9 CO 13 0 1E-12 * * Power Supply Current * IPS 15 14 12E-3 .ENDS * * * HA-5020 MacroModel * Rev: 9-09-91 DW Riemer * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5020/HA 2 3 17 18 1 * * + Input Stage with two poles * CP 2 0 1E-12 IBP 2 0 2E-06 RP 2 0 20E+06 EP1 8 0 2 0 1 RP1 8 6 1500 CP1 6 0 1E-12 EP2 12 0 6 0 1 RP2 12 4 2000 CP2 4 0 1E-12 * - Input Stage CN 0 3 1E-12 IBN 3 0 1E-05 RN 3 14 75 VIO 15 14 1E-03 EN 15 0 4 0 0.999 * Gain Stage FTI 0 10 VIO 1 RTA 10 9 4000 RT 9 0 2.746E+06 CZ 9 0 2E-12 * Poles EP3 11 0 10 0 1 RP3 11 5 3000 CP3 5 0 1E-12 EP4 13 0 5 0 1 RP4 13 7 3000 CP4 7 0 1E-12 * Output Stage EO 16 0 7 0 1 RO 16 1 3 CO 1 0 2E-12 * Power Supply Current ISS 17 18 8E-03 .ENDS * * * HA-5033 MACRO-MODEL * REV: 7-29-91 * D.W. RIEMER * * * Connections: In * | * | Vcc * | | Vee * | | | Out * | | | | .SUBCKT HA-5033/HA 2 3 4 1 .MODEL D1 D IS=5.57E-11 N=1 RS=10 * * INPUT STAGE * OFFSET VOLTAGE MAY BE VARIED BY * ADJUSTING THE VALUE OF SOURCE VIO. * VIO 2 6 +3E-03 RIN 6 0 +1.5E+06 CIN 6 0 +1E-12 IIN 6 0 +2E-05 IP 3 12 +2E-04 IN 13 4 +2E-04 DO1 12 7 D1 DI2 6 13 D1 DO2 7 13 D1 DI1 12 6 D1 CP 7 0 +7.5E-14 * * SINGULARITIES * GAIN MAY BE ADJUSTED BY CHANGING * THE VALUE OF EP1 (0.995->?) * EP1 14 0 7 0 0.995 EP2 15 0 5 0 1 ECP 11 0 9 0 1 RP1 14 5 500 RP2 15 9 100 RCP 11 8 +1E+03 LCP 8 10 +7.5E-07 CP1 5 0 +1E-12 CP2 9 0 +1E-12 CCP 10 0 +6E-13 * OUTPUT STAGE IPS 3 4 +2.1E-03 EO 16 0 10 0 1 RO 16 1 1 CO 1 0 +1E-12 .ENDS * * * HA-5101 MACRO MODEL * * D.L. Youngblood * Rev: 8/8/91 * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5101/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+2.8162E+00 .MODEL DN D IS=+8.9762E-15 N=+2.8162E+00 .MODEL DV D IS=+3.0966E-14 N=.2 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+1.0841E+00 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 +1.5987E-04 * DN 13 1 DN FA 7 0 VIO +3.5294E-01 I1 1 0 +1.6130E-07 C1 1 0 +8.8812E-16 IC=-1.1545E+00 FP 4 0 VP +1.4025E+03 FN 0 4 VIO +1.5625E+03 GPP 0 4 9 14 +8.0498E-10 GPN 0 4 15 10 +3.8511E-09 RT 4 0 1.0 VPP 14 0 +1.50E+01 RPP 14 0 1K VPN 0 15 +1.50E+01 RPN 0 15 1K GC 0 4 1 0 +1.6475E-08 IRX 0 4 -2.667E-08 * * General Poles * EP1 16 0 4 0 1.0 RP1 16 17 +9.0176E+01 CP1 17 0 1.0E-10 EP2 18 0 17 0 1.0 RP2 18 19 +1.2731E+01 CP2 19 0 1.0E-10 EP3 20 0 19 0 1.0 RP3 20 21 +1.2731E+01 CP3 21 0 1.0E-10 EP4 22 0 21 0 1.0 RP4 22 23 +1.1385E+01 CP4 23 0 1.0E-10 EP5 24 0 23 0 1.0 RP5 24 25 +6.4181E+00 CP5 25 0 1.0E-10 * * General Zeros * GZ1 0 30 25 0 +2.7671E-03 VZ01 30 31 0.0 HZ1 31 32 VZ01 +3.6139E+02 LZ1 32 0 1.0E-6 GZ2 0 33 30 0 -1.0055E-03 VZ02 33 34 0.0 HZ2 34 35 VZ02 -9.9455E+02 LZ2 35 0 1.0E-6 GZ3 0 36 33 0 -6.9434E-04 VZ03 36 37 0.0 HZ3 37 38 VZ03 -1.4402E+03 LZ3 38 0 1.0E-6 * * Complex Zero * EZZ 39 0 36 0 1.0 VZZ 39 40 0.0 CZZ 40 0 1.0E-12 RZZ 40 0 1.0E+7 FCZ 0 41 VZZ 1.0 RCZ 41 42 +3.8073E+03 LCZ 42 43 +7.0771E-06 CCZ 43 0 1.0E-12 RXZ 43 0 1.0E+7 * * Gain / Output Stage * G2 0 2 41 0 1.0 R2 2 0 +2.7509E+06 CC 2 3 +2.20E-11 GOL 3 0 2 0 +3.9807E-2 RD 3 0 +5.9935E+02 DH 3 5 DV DL 50 3 DV VH 9 5 -1.187E+00 VL 50 10 +1.333E+00 IH 9 0 +3.50E-03 IL 0 10 +3.50E-03 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -2.7887E-01 RO 54 8 +4.2754E+01 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS * * * HA-5102 Macro Model * * Rev: 8/8/91 DL Youngblood * The schematic for this rev is the same as 11/03/89. The subcircuit * call is different and only 1 amp is present. * pinout changed to conform to "standard" * * * Actual chip Icc/Iee will have 2 amplifiers + 1mA * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5102/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+9.6204E-01 .MODEL DN D IS=+1.0012E-14 N=+9.6204E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 +2.2845E-04 * DN 13 1 DN FA 7 0 VIO 9.7559E-02 I1 1 0 +5.1342E-08 C1 1 0 +2.6360E-16 IC=-3.6478E-01 FP 4 0 VP +9.7214E+02 FN 0 4 VIO +9.7098E+02 GC 0 4 1 0 +1.0090E-08 GPP 0 4 9 46 +9.9726E-10 GPN 0 4 47 10 +1.4492E-08 RT 4 0 1.0 VPP 46 0 +1.5E+01 RPP 46 0 1K VPN 0 47 +1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 +4.5768E+01 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 +2.4966E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 +1.8702E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 +1.4508E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 +1.2762E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 +1.4852E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 +6.7333E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 +8.5174E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 +1.1741E+02 LZ2 29 0 1.0E-6 GZ3 0 30 27 0 +2.0450E-03 VZ03 30 31 0.0 HZ3 31 32 VZ03 +4.8900E+02 LZ3 32 0 1.0E-6 GZ4 0 33 30 0 +1.6037E-03 VZ04 33 34 0.0 HZ4 34 35 VZ04 +6.2354E+02 LZ4 35 0 1.0E-6 * * Complex Pole * ECP 43 0 33 0 1.0 RCP 43 44 +2.4045E+04 LCP 44 45 +1.4988E-04 CCPX 45 0 1.0E-12 * * Gain/Output Stage * G2 0 2 45 0 1.0 R2 2 0 +8.9835E+05 CC 2 3 +2.2000E-11 GOL 3 0 2 0 +6.1330E+01 RD 3 0 +4.6980E+00 DH 3 5 DV DL 48 3 DV VH 9 5 1.607 VL 48 10 1.5986 IH 9 0 +1.0E-03 IL 0 10 +1.0E-03 D1 3 51 D1 D2 51 3 D2 EX1 51 0 POLY 2 3 0 3 8 0 1 -4.0840E-01 RO 52 8 +1.0611E+02 VIS 3 52 0 FI 0 53 VIS 1 DIP 53 54 DV DIN 56 55 DV VIP 54 56 0 VIN 55 53 0 RI 56 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS * * * HA-5104 Macro Model * * Rev: 8/8/91 DL Youngblood * The schematic for this rev is the same as 11/03/89. The subcircuit * call is different and only 1 amp is present * pinout changed to conform to "standard" * * * Actual chip Icc/Iee will have 4 amplifiers + 1mA * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5104/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+9.6204E-01 .MODEL DN D IS=+1.0012E-14 N=+9.6204E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 +2.2845E-04 * DN 13 1 DN FA 7 0 VIO 9.7559E-02 I1 1 0 +5.1342E-08 C1 1 0 +2.6360E-16 IC=-3.6478E-01 FP 4 0 VP +9.7214E+02 FN 0 4 VIO +9.7098E+02 GC 0 4 1 0 +1.0090E-08 GPP 0 4 9 46 +9.9726E-10 GPN 0 4 47 10 +1.4492E-08 RT 4 0 1.0 VPP 46 0 +1.5E+01 RPP 46 0 1K VPN 0 47 +1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 +4.5768E+01 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 +2.4966E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 +1.8702E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 +1.4508E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 +1.2762E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 +1.4852E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 +6.7333E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 +8.5174E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 +1.1741E+02 LZ2 29 0 1.0E-6 GZ3 0 30 27 0 +2.0450E-03 VZ03 30 31 0.0 HZ3 31 32 VZ03 +4.8900E+02 LZ3 32 0 1.0E-6 GZ4 0 33 30 0 +1.6037E-03 VZ04 33 34 0.0 HZ4 34 35 VZ04 +6.2354E+02 LZ4 35 0 1.0E-6 * * Complex Pole * ECP 43 0 33 0 1.0 RCP 43 44 +2.4045E+04 LCP 44 45 +1.4988E-04 CCPX 45 0 1.0E-12 * * Gain/Output Stage * G2 0 2 45 0 1.0 R2 2 0 +8.9835E+05 CC 2 3 +2.2000E-11 GOL 3 0 2 0 +6.1330E+01 RD 3 0 +4.6980E+00 DH 3 5 DV DL 48 3 DV VH 9 5 1.607 VL 48 10 1.5986 IH 9 0 +1.0E-03 IL 0 10 +1.0E-03 D1 3 51 D1 D2 51 3 D2 EX1 51 0 POLY 2 3 0 3 8 0 1 -4.0840E-01 RO 52 8 +1.0611E+02 VIS 3 52 0 FI 0 53 VIS 1 DIP 53 54 DV DIN 56 55 DV VIP 54 56 0 VIN 55 53 0 RI 56 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS * * * HA-5112 Macro Model * * Rev: 8/8/91 DLYoungblood * The schematic for this rev is the same as 11/03/89 * The subcircuit call is different and only 1 amp is present * Actual chip Icc/Iee will have 2 amplifiers + 1mA * pinout changed to conform to "standard" * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5112/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+7.4847E-01 .MODEL DN D IS=+8.9347E-15 N=+7.4847E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 +2.2845E-04 * DN 13 1 DN FA 7 0 VIO +9.7559E-02 I1 1 0 +4.8579E-08 C1 1 0 +3.7600E-16 IC=-2.8380E-01 FP 4 0 VP +6.4861E+03 FN 0 4 VIO +7.2595E+03 GC 0 4 1 0 +8.6533E-08 GPP 0 4 9 46 +8.5523E-09 GPN 0 4 47 10 +1.2428E-07 RT 4 0 1.0 VPP 46 0 +1.5E+01 RPP 46 0 1K VPN 0 47 +1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 +1.5422E+02 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 +4.6010E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 +2.4832E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 +1.4510E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 +1.1908E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 +1.5909E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 +6.2857E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 +4.0668E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 +2.4589E+02 LZ2 29 0 1.0E-6 * * Complex Zero * GCZ 0 30 27 0 1.0 LCZ 30 31 1.0E-6 CC1Z 31 32 +1.1755E-11 HCZ 32 33 VCZ1 +4.4739E+02 VCZ1 33 0 0.0 RBIG1 30 0 1.0E+7 ECZ 34 0 30 0 1.0 VCZ2 34 35 0.0 CC2Z 35 0 +1.1755E-11 RBIG2 35 0 1.0E+7 FC1Z 0 36 VCZ2 1.0 RCZ 36 0 1.0 * * Complex Pole * ECP 37 0 36 0 1.0 RCP 37 38 +7.9230E+03 LCP 38 39 +4.4779E-05 CCPX 39 0 1.0E-12 * * Gain/Output Stage * G2 0 2 39 0 1.0 R2 2 0 +1.0475E+05 CC 2 3 +2.2000E-11 GOL 3 0 2 0 +6.3619E+01 RD 3 0 +4.5290E+00 DH 3 5 DV DL 50 3 DV VH 9 5 1.607 VL 50 10 1.5986 IH 9 0 +1.0E-3 IL 0 10 +1.0E-03 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -4.0500E-01 RO 54 8 +1.0628E+02 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS * * * HA-5114 Macro Model * * Rev: 8/8/91 DLYoungblood * The schematic for this rev is the same as 11/03/89 * The subcircuit call is different and only 1 amp is present * Actual chip Icc/Iee will have 4 amplifiers + 1mA * pinout changed to conform to "standard" * * * Actual chip Icc/Iee will have 4 amplifiers + 1mA * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5114/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+7.4847E-01 .MODEL DN D IS=+8.9347E-15 N=+7.4847E-01 .MODEL DV D IS=1E-14 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+9.8914E-01 * * Input Stage * VP 6 12 0 DP 12 1 DP * * The value of source "VIO" represents offset voltage * and may be changed to simulate worst case if desired * VIO 7 13 +2.2845E-04 * DN 13 1 DN FA 7 0 VIO +9.7559E-02 I1 1 0 +4.8579E-08 C1 1 0 +3.7600E-16 IC=-2.8380E-01 FP 4 0 VP +6.4861E+03 FN 0 4 VIO +7.2595E+03 GC 0 4 1 0 +8.6533E-08 GPP 0 4 9 46 +8.5523E-09 GPN 0 4 47 10 +1.2428E-07 RT 4 0 1.0 VPP 46 0 +1.5E+01 RPP 46 0 1K VPN 0 47 +1.5E+01 RPN 0 47 1K * * General Poles * EP1 14 0 4 0 1.0 RP1 14 15 +1.5422E+02 CP1 15 0 1.0E-10 EP2 16 0 15 0 1.0 RP2 16 17 +4.6010E+01 CP2 17 0 1.0E-10 EP3 18 0 17 0 1.0 RP3 18 19 +2.4832E+01 CP3 19 0 1.0E-10 EP4 20 0 19 0 1.0 RP4 20 21 +1.4510E+01 CP4 21 0 1.0E-10 EP5 22 0 21 0 1.0 RP5 22 23 +1.1908E+01 CP5 23 0 1.0E-10 * * General Zeroes * GZ1 0 24 23 0 +1.5909E-02 VZ01 24 25 0.0 HZ1 25 26 VZ01 +6.2857E+01 LZ1 26 0 1.0E-6 GZ2 0 27 24 0 +4.0668E-03 VZ02 27 28 0.0 HZ2 28 29 VZ02 +2.4589E+02 LZ2 29 0 1.0E-6 * * Complex Zero * GCZ 0 30 27 0 1.0 LCZ 30 31 1.0E-6 CC1Z 31 32 +1.1755E-11 HCZ 32 33 VCZ1 +4.4739E+02 VCZ1 33 0 0.0 RBIG1 30 0 1.0E+7 ECZ 34 0 30 0 1.0 VCZ2 34 35 0.0 CC2Z 35 0 +1.1755E-11 RBIG2 35 0 1.0E+7 FC1Z 0 36 VCZ2 1.0 RCZ 36 0 1.0 * * Complex Pole * ECP 37 0 36 0 1.0 RCP 37 38 +7.9230E+03 LCP 38 39 +4.4779E-05 CCPX 39 0 1.0E-12 * * Gain/Output Stage * G2 0 2 39 0 1.0 R2 2 0 +1.0475E+05 CC 2 3 +2.2000E-11 GOL 3 0 2 0 +6.3619E+01 RD 3 0 +4.5290E+00 DH 3 5 DV DL 50 3 DV VH 9 5 1.607 VL 50 10 1.5986 IH 9 0 +1.0E-3 IL 0 10 +1.0E-03 D1 3 53 D1 D2 53 3 D2 EX1 53 0 POLY 2 3 0 3 8 0 1 -4.0500E-01 RO 54 8 +1.0628E+02 VIS 3 54 0 FI 0 55 VIS 1 DIP 55 56 DV DIN 58 57 DV VIP 56 58 0 VIN 57 55 0 RI 58 0 1.0 FIP 9 0 VIP 1.0 FIN 0 10 VIN 1.0 .ENDS * * * HA-5190 Macro-Model * * Rev: 8/8/91 * By: J. Coutreau * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5190/HA 3 4 2 1 16 * * INPUT STAGE * LP 3 5 5E-9 RP 5 6 20 ECR 7 6 3 0 132E-6 IBP 7 0 6.7E-6 CBP 7 0 0.5E-12 LN 4 8 5E-9 RN 8 9 20 EPR 9 10 2 1 132E-6 IBN 10 0 8.3E-6 CBN 10 0 0.5E-12 RD 7 24 28.8E3 VOF 24 10 2E-3 * * SLEW LIMITING * ES 11 0 7 24 10 RS 11 12 100 CS 12 0 9E-12 D1 12 13 DM OFF D2 14 12 DM OFF .MODEL DM D (IS=1E-9 BV=40 IBV=50E-6) VCP 13 0 1.2 VCN 0 14 1.2 * * FREQUENCY RESPONSE * GA 0 15 12 0 1.43E-3 RH 15 0 2E6 CH 15 0 3E-12 CC1 15 0 6E-12 RC 15 25 1E3 CC2 25 0 1.8E-12 CC3 15 8 1.5E-12 * *POLES * EP 17 0 25 0 1 RPA 17 18 75 CPA 18 0 7E-12 RPB 18 19 75 CPB 19 0 7E-12 * *OUTPUT STAGE * EO 20 0 19 0 1 RO 20 21 25 LO 21 16 5E-9 CO 16 0 2E-12 * *POWER SUPPLY CURRENT * IPS 2 1 19E-3 * .ENDS * * * HA-5221 MacroModel * Rev: 4-22-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5221/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.0378 .MODEL DN D IS=+8.5539E-15 N=+1.0378 .MODEL DV D IS=+5.0027E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +3.0E-04 I1 8 0 +6.0300E-08 FA 2 0 VN +7.0862E-01 DP 6 8 DP DN 7 8 DN C1 8 0 +2.4249E-16 IC=-3.9979E-01 FP 9 0 VP +1.3609E+04 FN 0 9 VN +1.5909E+04 GC 0 9 8 0 +5.2426E-07 GPP 9 0 4 0 +4.6750E-07 GPN 9 0 5 0 +5.2455E-07 IRX 0 9 -6.4606E-07 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 +8.4769E+02 RZ1 11 12 +2.8945E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 -2.1985E+01 RZ2 14 15 +3.7905E+01 CP2 15 0 1E-10 EP3 16 0 14 0 1.0 RP3 16 17 +1.0613E+01 CP3 17 0 1E-10 EP4 18 0 17 0 1.0 RP4 18 19 +9.0971 CP4 19 0 1E-10 EP5 20 0 19 0 1.0 RP5 20 21 +8.3789 CP5 21 0 1E-10 EP6 22 0 21 0 1.0 RP6 22 23 +7.96 CP6 23 0 1E-10 * * Output Stage G2 0 24 23 0 1.0 R2 24 0 +6.5577E+02 CC 24 25 +2.2E-11 GOL 25 0 24 0 +7.4372E+03 RD 25 0 +5.0809E+01 DH 25 26 DV DL 27 25 DV ECC 26 0 POLY 1 4 0 -2.5544 1.0 EEE 27 0 POLY 1 5 0 +2.3854 1.0 IH 4 0 +9.0E-03 IL 0 5 +9.0E-03 GPS 28 0 25 3 +8.5427E-02 DPH 4 28 DX DPL 28 5 DX D1 25 29 D1 D2 29 25 D2 EX1 29 0 POLY 2 25 0 3 0 0.0 +3.6309E-01 +6.3542E-01 RO 25 3 +1.1706E+01 .ENDS * * * HA-5222 MacroModel * Rev: 4-22-91 DW Riemer * This model represents one of the two amplifiers available. * Actual ICC & IEE will be 2X that of this model. * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HA-5222/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.0378 .MODEL DN D IS=+8.5539E-15 N=+1.0378 .MODEL DV D IS=+5.0027E-14 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models VIO and may be adjusted as desired. * VP 1 6 0 VN 2 7 +3.0E-04 I1 8 0 +6.0300E-08 FA 2 0 VN +7.0862E-01 DP 6 8 DP DN 7 8 DN C1 8 0 +2.4249E-16 IC=-3.9979E-01 FP 9 0 VP +1.3609E+04 FN 0 9 VN +1.5909E+04 GC 0 9 8 0 +5.2426E-07 GPP 9 0 4 0 +4.6750E-07 GPN 9 0 5 0 +5.2455E-07 IRX 0 9 -6.4606E-07 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 +8.4769E+02 RZ1 11 12 +2.8945E+02 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 -2.1985E+01 RZ2 14 15 +3.7905E+01 CP2 15 0 1E-10 EP3 16 0 14 0 1.0 RP3 16 17 +1.0613E+01 CP3 17 0 1E-10 EP4 18 0 17 0 1.0 RP4 18 19 +9.0971 CP4 19 0 1E-10 EP5 20 0 19 0 1.0 RP5 20 21 +8.3789 CP5 21 0 1E-10 EP6 22 0 21 0 1.0 RP6 22 23 +7.96 CP6 23 0 1E-10 * * Output Stage G2 0 24 23 0 1.0 R2 24 0 +6.5577E+02 CC 24 25 +2.2E-11 GOL 25 0 24 0 +7.4372E+03 RD 25 0 +5.0809E+01 DH 25 26 DV DL 27 25 DV ECC 26 0 POLY 1 4 0 -2.5544 1.0 EEE 27 0 POLY 1 5 0 +2.3854 1.0 IH 4 0 +9.0E-03 IL 0 5 +9.0E-03 GPS 28 0 25 3 +8.5427E-02 DPH 4 28 DX DPL 28 5 DX D1 25 29 D1 D2 29 25 D2 EX1 29 0 POLY 2 25 0 3 0 0.0 +3.6309E-01 +6.3542E-01 RO 25 3 +1.1706E+01 .ENDS * * * HC-5509B A500 Op Amp Macro Model * D.L. Youngblood * Rev: 8/8/91 * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HC-5509B/HA 6 7 9 10 8 .MODEL DP D IS=1E-14 N=+1.0159E+00 .MODEL DN D IS=+4.9326E-15 N=+1.0159E+00 .MODEL DV D IS=1E-18 N=.1 .MODEL D1 D IS=1E-14 N=1 .MODEL D2 D IS=1E-14 N=+5.7924E-01 VP 6 12 0 DP 12 1 DP VIO 7 13 -2.0287E-03 DN 13 1 DN FA 7 0 VIO +8.1436E-02 I1 1 0 +4.4548E-08 C1 1 0 +9.6416E-15 IC=-3.8912E-01 FP 5 0 VP +4.7662E+02 FN 0 5 VIO +9.6626E+02 GPP 0 5 9 14 +9.0975E-09 GPN 0 5 15 10 +4.3074E-11 RT 5 0 1.0 VPP 14 0 +5.0E+00 RPP 14 0 1K VPN 0 15 +48.0E+00 RPN 0 15 1K GC 0 5 1 0 +8.8423E-12 ICM 0 5 +3.4907E-12 * * General Zero (Right Plane) * GZ1 0 25 5 0 -1.4607E-02 VZ01 25 26 0.0 HZ1 26 27 VZ01 -6.8459E+01 LZ1 27 0 1.0E-6 * * Complex Pole * ECP 34 0 25 0 1.0 RCP 34 35 +1.0896E+04 LCP 35 36 +4.0981E-05 CCPX 36 0 1.0E-12 * * Gain / Output Stage * G2 0 2 36 0 1.0 R2 2 0 +1.6639E+06 CC 2 3 +2.201E-11 GOL 3 0 2 0 +1.7043E-02 RD 3 0 +1.64E+03 DH 3 4 DV DL 37 3 DV VH 9 4 2.1545 VL 37 0 -5.9594 IH 9 0 +3.1171E-04 IL 0 10 +3.118E-04 D1 3 40 D1 D2 40 3 D2 EX1 40 0 POLY 2 3 0 3 8 0 1 -9.4485E-01 RO 41 8 +7.5E+01 VIS 3 41 0 FI 0 42 VIS 1 DIP 42 43 DV DIN 45 44 DV VIP 43 45 0 VIN 44 42 0 RI 45 0 1 FIP 9 0 VIP 1 FIN 0 10 VIN 1 .ENDS * * * HFA-0001 MacroModel * Rev: 4-26-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HFA-0001/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+6.6572 .MODEL DN D IS=+9.6436E-15 N=+6.6572 .MODEL DV D IS=+9.3331E-18 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+7.7143E-01 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. * VP 1 6 0 VN 2 7 6.0E-03 I1 8 0 +1.1786E-05 FA 2 0 VN +3.1478E+00 DP 6 8 DP DN 7 8 DN C1 8 0 +1.2406E-16 IC=-3.4572E+00 FP 9 0 VP +1.7733E+03 FN 0 9 VN +1.8388E+03 GC 0 9 8 0 +2.7785E-04 GPP 9 0 4 0 +3.498E-04 GPN 9 0 5 0 +6.2204E-05 IRX 0 9 +2.3986E-03 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 +6.368E-01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +4.5486E-01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +1.9673E+02 CC 14 15 +2.21E-11 GOL 15 0 14 0 +1.8159E-01 RD 15 0 +9.0E+01 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -1.4 1.0 EEE 17 0 POLY 1 5 0 +1.3 1.0 IH 4 0 +6.1E-2 IL 0 5 +6.1E-2 GPS 19 0 15 3 +1.0E-1 DPH 4 19 DX DPL 19 5 DX D1 15 18 D1 D2 18 15 D2 EX1 18 0 POLY 2 15 0 3 0 0.0 +2.5008E-01 +7.4242E-01 RO 15 3 +10 .ENDS * * * HFA-0002 MacroModel * Rev: 4-29-91 DW Riemer * * Pinout +In -In Vcc Vee Out * .SUBCKT HFA-0002/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+5.6782E-01 .MODEL DN D IS=1E-14 N=+5.6782E-01 .MODEL DV D IS=+2.1884E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. * VP 1 6 0 VN 2 7 +5.0E-04 I1 8 0 +1.5E-07 FA 2 0 VN +6.6667E-01 DP 6 8 DP DN 7 8 DN C1 8 0 +5.4545E-17 IC=-2.3095E-01 FP 9 0 VP +4.0333E+04 FN 0 9 VN +4.0333E+04 GC 0 9 8 0 +6.5568E-07 GPP 9 0 4 0 +6.5568E-07 GPN 9 0 5 0 +2.0735E-06 IRX 0 9 -6.9374E-06 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 -8.3789E-02 RZ1 11 12 +1.6758 CP1 12 0 1E-10 EP2 13 0 11 0 1.0 RP2 13 14 +1.0613 CP2 14 0 1E-10 EP3 15 0 14 0 1.0 RP3 15 16 +5.3067E-01 CP3 16 0 1E-10 * * Output Stage G2 0 17 16 0 1.0 R2 17 0 +1.9673E+02 CC 17 18 +2.2E-11 GOL 18 0 17 0 +1.4709E+02 RD 18 0 +25.0 DH 18 19 DV DL 20 18 DV ECC 19 0 POLY 1 4 0 -1.2 1.0 EEE 20 0 POLY 1 5 0 +1.3 1.0 IH 4 0 +1.35E-02 IL 0 5 +1.35E-02 GPS 22 0 18 3 +1.3333E-02 DPH 4 22 DX DPL 22 5 DX D1 18 21 D1 D2 21 18 D2 EX1 21 0 POLY 2 18 0 3 0 0.0 +5.5656E-01 +4.1018E-01 RO 18 3 +75.0 .ENDS * * * HFA-0005 MacroModel * Rev: 4-29-91 DW Riemer * * * Connections: +In * | -In * | | Vcc * | | | Vee * | | | | Out * | | | | | .SUBCKT HFA-0005/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+4.4024E+00 .MODEL DN D IS=+8.8947E-15 N=+4.4024 .MODEL DV D IS=+6.2335E-18 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+7.7143E-01 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. * VP 1 6 0 VN 2 7 +6.0E-03 I1 8 0 +2.2674E-05 FA 2 0 VN +6.8639E-01 DP 6 8 DP DN 7 8 DN C1 8 0 +4.8242E-15 IC=-2.3647 FP 9 0 VP +4.5604E+02 FN 0 9 VN +5.1270E+02 GC 0 9 8 0 +2.1611E-04 GPP 9 0 4 0 +3.843E-04 GPN 9 0 5 0 +4.8381E-05 IRX 0 9 +2.1906E-03 RT 9 0 1.0 * * Poles and Zeros EP1 10 0 9 0 1.0 RP1 10 11 +1.0613 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +6.368E-01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +1.9673E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +2.4515E-01 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -1.1 1.0 EEE 17 0 POLY 1 5 0 +1.1 1.0 IH 4 0 +3.4E-02 IL 0 5 +3.4E-02 GPS 19 0 15 3 +1.0E-01 DPH 4 19 DX DPL 19 5 DX D1 15 18 D1 D2 18 15 D2 EX1 18 0 POLY 2 15 0 3 0 0.0 +2.649E-01 +7.2775E-01 RO 15 3 +10.0 .ENDS * * * HA-2512 MacroModel * Rev: 9-17-91 DW Riemer * * Pinout +In -In Vcc Vee Out * .SUBCKT HA-2512/HA 1 2 4 5 3 .MODEL DP D IS=1E-14 N=+1.8454E+01 .MODEL DN D IS=+1.1818E-14 N=+1.8454E+01 .MODEL DV D IS=+1.7242E-15 N=.2 .MODEL D1 D IS=1E-9 N=1 .MODEL D2 D IS=1E-9 N=+1.0 .MODEL DX D IS=1E-20 N=+30.0 * * Input Stage * Value of source VN models Vio and may be adjusted as desired. VP 1 6 0 VN 2 7 +5E-03 I1 8 0 +2.5091E-07 FA 2 0 VN -6.689E-03 DP 6 8 DP DN 7 8 DN FP 9 0 VP +5.6993E+03 FN 0 9 VN +4.8225E+03 GC 0 9 8 0 +1.3823E-07 GPP 9 0 4 0 +1.3823E-07 GPN 9 0 5 0 +1.3823E-07 IRX 0 9 +1.0656E-06 RT 9 0 1.0 * * Poles EP1 10 0 9 0 1.0 RP1 10 11 +5.307E+01 CP1 11 0 1E-10 EP2 12 0 11 0 1.0 RP2 12 13 +3.98E+01 CP2 13 0 1E-10 * * Output Stage G2 0 14 13 0 1.0 R2 14 0 +6.5577E+02 CC 14 15 +2.2E-11 GOL 15 0 14 0 +1.4709E+02 RD 15 0 +90.0 DH 15 16 DV DL 17 15 DV ECC 16 0 POLY 1 4 0 -2.7 1.0 EEE 17 0 POLY 1 5 0 +2.9 1.0 IH 4 0 +5.0E-03 IL 0 5 +5.0E-03 GPS 18 0 15 3 +0.9999E-01 DPH 4 18 DX DPL 18 5 DX D1 15 19 D1 D2 19 15 D2 EX1 19 0 POLY 2 15 0 3 0 0.0 -8.8295E-01 +1.8792 RO 15 3 +10.0 .ENDS *----------------------------------------------------------------------------- * connections: +in * | -in * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt HA-5195/HA 1 2 3 4 5 * x_HA-5195/HA 1 2 3 4 5 HA-5190/HA .ends