如题,求解决
Will Wang47:
OPA2662已经在官网搜不到,在代理商那里也买不到了,没有spice模型。
高速跨阻放大器可以选用OPA656/657.
有其他引用需求也可以提出来,给您推荐合适的器件。
xyz549040622:
希望这个文档对你有所帮助,自己建spice吧,有参数的。
* Library of Burr-Brown Opamps * $Revision:1.28$ * $Author:RPEREZ$ * $Date:25 Mar 1998 08:47:36$ * ************************************************************************** * *WELCOME TO * *BURR-BROWN CORPORATION **** BASED MACROMODEL LIBRARY * *6730 S. TUCSON BLVD. *TUCSON,AZ85706 *800-548-6132 * * * * INTRODUCTION * This library is a collection of *** macromodels of BURR-BROWN op amps, * difference amps, instrumentation amps, isolation amps, and analog* function circuits.** The Standard macromodels were derived using standard simulation * software. This software uses the common Boyle op amp model structure. ** The second level of macromodel is an enhanced version of the standard * model, which is indicated by the suffix "E" in the model's name. * These models offer improved behaviour in terms of input bias current * and quiescent power. Also, voltage and current noise as well * as input capacitance is added. * * The Multiple Pole/Zero macromodels uses the same input stage as the* standard or enhanced op amp macromodel, but has multiple poles and* pole/zero pairs in the mid-section. These models have the designation * "M", and are primarily used for wide bandwidth op amps. * * In some instances, a fourth type of model is available, which are * designated by either a "X", "X1" or a "X2" suffix. The models of this * level are not a "macromodel", but rather a simplified circuit model * at the transistor level. * * This library is complemented by the application bulletin AB-020F, which * contains more information and details on the topologies used. Please write or call* BURR-BROWN at the address and number given above in order to obtain one. * * APPLICATION INFORMATION * This library and the application bulletin are revised frequently. * To ensure that you have the most current revision, please contact your * nearest sales office or BURR-BROWN directly. * * Each model net-list starts with a header containing the part number and the* revision date. The structure of the net-list co * Also, the format of the file specification has been changed in order * to provide a better and faster overview. The 'date' following the file * name now reflects the actual date of creation of each model. The 'time' * is now used as an indicator for the revision status of each model.* For example: * OPA131E.MOD1-15-951:00:00 am---> REV.A * OPA121E.MOD3-21-922:00:00 am---> REV.Betc. * * Happy simulation!! * *------------------------------------------------------------------------* |NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE;| * |HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR| * |OMISSIONS.BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS| * |INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT| * |THE USER'S OWN RISK.NO PATENT RIGHTS OR LICENSES TO ANY OF THE| * |CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY.| * |BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR| * |USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS.| *------------------------------------------------------------------------* 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. *$ ************************************************************************** * ACF2101M (switched integrator) MULTIPLE POLE/ZERO MACROMODEL * Created 2-14-92 BCB * REV.B 3/21/92 BCB input bias current correction circuitry added * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation.| * || * |The users should carefully note the following factors| * |regarding this model.| * || * |-------------------------------------------------------------| ** NOTES :*1.The transient time for the input to the switches (HOLD,*RESET, and SELECT) should be programmed to 6V/usec.*Complying with this requirment will give you greater *success in convergence during transient analysis and *a more accurate simulation of the effect of the 200nsec *switching speed of the actual switching transistors in*the ACF2101.This is easily implemented with the PULSE *command in ***.If your input signal to the switches *is faster than recommended above, the R-C, low-pass filter *on the input of the switch will slow the signal down some- *what, however not enough to comply with the data sheet stated *switching speeds of 200nsec. *2.To insure proper operation, always establish the initial*bias point for the transient analysis with RESET and*HOLD equal to the potential at COM * *COMMON *|SWITCH IN *||IN *|||CAPACITOR *||||OUTPUT *|||||SWITCH OUT *||||||SWITCH COMMON *|||||||RESET *||||||||HOLD *|||||||||SELECT *||||||||||POSITIVE SUPPLY *|||||||||||NEGATIVE SUPPLY *||||||||||||GROUND *||||||||||||| .SUBCKT ACF2101M/BB 331 237 632 33 36 34 35 7430 * * Amp input stage (2nd pole @ 35M Hz) J11 15214 JX J12 16 1314 JX C12 15 1618.2E-12 R13 157796 R14 167796 ISS 1441.11E-3 VOS 1330.5E-3 G1 2 30 POLY(3) (15,2) (14,2) (30,2) 0 1E-12 1E-12 1E-12 G2 13 30 POLY(3) (16,13) (14,13) (30,13) 0 1E-12 1E-12 1E-12 * Amp gain stage (130dB) and first pole (@ 4.20K HZ) R277 21 2.45E9 R284 21 2.45E9 C227 21 100E-12 C234 21 100E-12 G217 21 POLY(1) 15 16 1.751E-3 1.256E-3 G22 214 POLY(1) 16 15 1.751E-3 1.256E-3 V21 223 0.409 V22 234 1.885 D21 21 22 DX D22 23 21 DX * Amp correction current and output stage IPS7 30 9E-3 RPS7 30 100E3 R97 71 100E3 R104 71 100E3 D91216 DX D926 21 DX D937 94 DX D947 95 DX D954 94 DY D964 95 DY G9176 21 7 .020387 G9246 21 4 .020387 G95944 6 21 .020387 G96954 21 6 .020387 R9176 49.051 R9246 49.051 CINT 376 CC 100E-12 * Switches SH1 312 34 30 SWH SH2 312 31 30 SWT SR26 36 30 SWH SS6 32 35 30 SWS SC3 33 35 30 SWS * * Models .MODEL JX NJF(BETA=.788E-3 VTO=-2 IS=5E-14) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15BV=50) .MODEL SWH VSWITCH(RON=1000G ROFF=1.5K VON=2 VOFF=0.8) .MODEL SWS VSWITCH(RON=1000G ROFF=250 VON=2 VOFF=0.8) .MODEL SWT VSWITCH(RON=1000G ROFF=10 VON=0.45 VOFF=0.55) .MODEL CC CAP(VC1=25E-6 TC1=-25E-6) .ENDS *$ ************************************************************************** * BUF600X1 - DIAMOND BUFFER MACROMODEL SIMPLIFIED VERSION * CREATED 8/92 KL * REV.B7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------|* * * NOTE : THIS MACRO MODEL WILL CONVERGE QUICKER BY USING THE*NODESETSV(Xyour.21)=+4.2847 ANDV(Xyour.24)=-4.2855 IN THE ROOT *SIMULATION FILE. ("Xyour" IS DEVICE NAME CALLED OUT IN *ROOT SIMULATION FILE.) * * * CONNECTIONS:POSITIVE POWER SUPPLY *| VOLTAGE IN *| | NEGATIVE POWER SUPPLY *| | | VOLTAGE OUT *| | | | .SUBCKT BUF600X1/BB 1 4 5 8 * C20880 2E-12 I2121 240.1E-6 V411 411.5 V424251.5 C333302E-12 C393900.02E-12 C404000.02E-12 R333306.4E6 R34334100 RQC225590 Q2121 211 5PI Q2221 24 22 1NI 12 Q2324 211 5PI Q2424 245 1NI Q2939 211 5PI Q3040 245 1NI Q335 33 39 5PI Q341 33 40 1NI Q4141 398 1NIL 16 Q4242 408 5PIL 16 * .MODEL PI PNP .MODEL NI NPN .MODEL NIL NPN (BF = 500) .MODEL PIL PNP (BF = 500) .ENDS *$ ************************************************************************** * BUF600X2 - DIAMOND BUFFER MACROMODEL COMPLEX VERSION * CREATED 8/92 KL * REV.B7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : THIS MACROMODEL WILL CONVERGE QUICKER IF THE NODESETS *V(Xyour.21)=+4.2902, V(Xyour.24)=-4.2910,*V(Xyour.27)=+4.2131AND*V(Xyour.28)=-4.2129 IN THE ROOT SIMULATION FILE. *("Xyour" IS DEVICE NAME CALLED OUT IN ROOT SIMULATION FILE.) * * CONNECTIONS:POSITIVE POWER SUPPLY *| VOLTAGE IN *| | NEGATIVE POWER SUPPLY *| | | VOLTAGE OUT *| | | | .SUBCKT BUF600X2/BB 1 4 5 8 * I2121 240.1E-6 RQC225730 C204402E-12 C208802E-12 Q2121 211 5PI Q2221 24 22 1NI 12 Q2324 211 5PI Q2424 245 1NI Q2528 211 5PI Q2627 245 1NI Q2727 271 5PIJ 1.4 Q2828 285 1NIJ 1.4 Q2931 271 5PIJ 1.4 Q3032 285 1NIJ 1.4 Q3131 31 35 1NIJ 2 Q3232 32 36 5PIJ 2 Q33284 35 5PIJ Q34274 36 1NIJ Q3535 35 34 1NIJ Q3636 36 34 5PIJ Q371 31 39 1NIJ 6 Q385 32 40 5PIJ 6 Q3939 39 41 1NIJ 6 Q4040 40 41 5PIJ 6 Q411 398 1NIJ 16 Q425 408 5PIJ 16 * .MODEL NI NPN .MODEL PI PNP .MODEL PIJ PNP +(BF = 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680 * .MODEL NIJ NPN +(BF = 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) .ENDS *$ ************************************************************************** * BUF601X1 - DIAMOND BUFFER MACROMODEL SIMPLIFIED VERSION * CREATED 8/92 KL * REV.B7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : THIS MACROMODEL WILL CONVERGE QUICKER IS THE NODESETS*V(Xyour.21)=+4.2689 ANDV(Xyour.24)=-4.2697 ARE IN THE*ROOT SIMULATION FILE. ("Xyour" IS DEVICE NAME IN ROOT *FILE.) * * CONNECTIONS:POSITIVE POWER SUPPLY*| VOLTAGE IN *| | NEGATIVE POWER SUPPLY *| | | VOLTAGE OUT *| | | | .SUBCKT BUF601X1/BB 1 4 5 8 * I2121 24 0.1E-6 V411 41 1.5 V4242 51.5 C3333 02E-12 C3939 00.04E-12 C4040 00.04E-12 C2088 02E-12 R3333 02.4E6 R3433 465 RQC22 5320 Q2121 211 5PI Q2221 24 22 1NI 12 Q2324 211 5PI Q2424 245 1NI Q2939 211 5PI Q3040 245 1NI Q335 33 39 5PI Q341 33 40 1NI Q4141 398 1NIL 16 Q4242 408 5PIL 16 * .MODEL PI PNP .MODEL NI NPN .MODEL NIL NPN (BF = 500) .MODEL PIL PNP (BF = 500) .ENDS *$ ************************************************************************** * BUF601X2 - DIAMOND BUFFER MACROMODEL COMPLEX VERSION * CREATED 8/92 KL * REV.B7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS. * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : THIS MACROMODEL WILL CONVERGE QUICKER IF THE NODESET *V(Xyour.27)=+4.1907,V(Xyour.28)=-4.1904, V(Xyour.21)=+4.2689, *AND V(Xyour.24)=-4.2697 ARE INCLUDED IN THE ROOT SIMULATION *FILE. ("Xyour" IS DEVICE CALLED OUT IN ROOT FILE.) * * CONNECTIONS:POSITIVE POWER SUPPLY*| VOLTAGE IN *| | NEGATIVE POWER SUPPLY *| | | VOLTAGE OUT *| | | | .SUBCKT BUF601X2/BB 1 4 5 8 * I2121 240.1E-6 RQC225351 C204402E-12 C208802E-12 Q2121 211 5PI Q2221 24 22 1NI 12 Q2324 211 5PI Q2424 245 1NI Q2528 211 5PI Q2627 245 1NI Q2727 271 5PIJ 1.4 Q2828 285 1NIJ 1.4 Q2931 271 5PIJ 1.4 Q3032 285 1NIJ 1.4 Q3131 31 35 1NIJ 2 Q3232 32 36 5PIJ 2 Q33284 35 5PIJ Q34274 36 1NIJ Q3535 35 34 1NIJ Q3636 36 34 5PIJ Q371 31 39 1NIJ 6 Q385 32 40 5PIJ 6 Q3939 39 41 1NIJ 6 Q4040 40 41 5PIJ 6 Q411 398 1NIJ 16 Q425 408 5PIJ 16 * .MODEL PI PNP .MODEL NI NPN .MODEL PIJ PNP +(BF = 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .MODEL NIJ NPN +(BF = 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) .ENDS *$ ************************************************************************** *BUF634X SIMPLIFIED CIRCUIT MACROMODEL *CREATED 1/2/95SB *REV. A * * CONNECTIONS:INPUT *|POSITIVE POWER SUPPLY *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||.SUBCKT BUF634X/BB180 90 16* RIN12200 R1613500 R249500 RO115165 RO216175 R52090150 R6239012E3 R7949060 R8989040 R9808540 R10808660 CP121E-10 C11301.5E-12 C2901.5E-12 CO1602E-12Q1523QN 8 Q2827QP 8 Q34894QN 8 Q46586QP 8 Q590910QP 8 Q6801312QN 8 Q7901017QP 96 Q8801215QN 96 Q9222120QN 2 Q1052120QN 2 Q11222480QP 4 Q1282224QP 4 D134DX 8 D2855DX 8 D3898DX 8 D467DX 8 D51110DX 2 D61211DX 2D82123DX 2 D98024DX 4 D10773DX 8 D11733DX 8 ISS802160E-6* Input Errors VOS210230E-3 IB8015E-6 CIN106E-12 * Input Protection Circuit R292571E3 R3016581E3 Q5716572QN4Q5825816QN4 V116573 V22583 * Short Circuit Current Protection R2415141.5E3 R2514161E3 R2616181E3 R2718171.5E3 Q35861416QN Q36941816QP * .MODEL DX D(IS=8E-16) .MODEL QN NPN(IS=1E-15BF=200).MODEL QP PNP(IS=1E-15BF=200) .ENDS *$ ************************************************************************** * BURR-BRN.LIBLINEAR DIVISION MACROMODEL FILE* REV.A CREATED JUNE 1997 BY NEIL P. ALBAUGH * BURR-BRN.SLBLINEAR DIVISION SYMBOL FILE FOR P-*** DESIGN CENTER(R)OrCad CORP * REV.A CREATED JUNE 1997 BY NEIL P. ALBAUGH * *------------------------------------------------------------------------* |NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE;| * |HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR| * |OMISSIONS.BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS| * |INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT| * |THE USER'S OWN RISK.NO PATENT RIGHTS OR LICENSES TO ANY OF THE| * |CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY.| * |BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR| * |USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS.| *------------------------------------------------------------------------* * INA101 = A1_101 + A2_101 + A3_101 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.A * * INA101 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SET 1 *|||||||GAIN SET 2 *|||||||| .SUBCKT INA101/BB123458910 * * A1_101 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1293411A1_101 * * A2_101 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21103412A2_101 * * A3_101 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_101 * R1111310.0000K R21359.9994K C21350.8000PF R3121410.0000K R414810.0000K RFB191120.0000K CC191115.0000PF RFB2101220.0000K CC2101215.0000PF .ENDS * * A1_101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 12:56 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1011 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 70.20E6 -70E6 70E6 70E6 -70E6 GA60 11 12 320.4E-6 GCM06 10 99 2.022E-9 IEE104 DC 30.05E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 3.121E3 RC23 12 3.121E3 RE113 10 1.394E3 RE214 10 1.394E3 REE10 99 6.656E6 RO185 25 RO27 99 25 RP34 10.70E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=600) .ENDS * * A2_101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:30 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1011 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 59.67E6 -60E6 60E6 60E6 -60E6 GA60 11 12 377.0E-6 GCM06 10 99 1.192E-9 IEE104 DC 30.05E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.653E3 RC23 12 2.653E3 RE113 10 926.8 RE214 10 926.8 REE10 99 6.656E6 RO185 25 RO27 99 25 RP34 10.70E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=600) .ENDS * * A3_101 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:39 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1011 2 3 4 5 * C111 12 8.660E-12 C267 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 358.0E6 -40E6 40E6 40E6 -40E6 GA60 11 12 62.83E-6 GCM06 10 99 198.7E-12 IEE104 DC 5.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 15.92E3 RC23 12 15.92E3 RE113 10 5.515E3 RE214 10 5.515E3 REE10 99 39.60E6 RO185 25 RO27 99 25 RP34 10.61E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=100) .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 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA101E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA101E/BB123458910 * * A1_101E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1293411A1_101E * * A2_101E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21103412A2_101E * * A3_101E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_101E * R1111310.0000K R21359.9994K C21350.8000PF R3121410.0000K R414810.0000K RFB191120.0000K CC191115.0000PF RFB2101220.0000K CC2101215.0000PF * .ENDS * * A1_101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 12:56 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *||| | OUTPUT *||| | | .SUBCKT A1_101E INP INN 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 70.20E6 -70E6 70E6 70E6 -70E6 GA60 11 12 320.4E-6 GCM06 10 99 2.022E-9 IEE104 DC 30.05E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 3.121E3 RC23 12 3.121E3 RE113 10 1.394E3 RE214 10 1.394E3 REE10 99 6.656E6 RO185 25 RO27 99 25 *RP34 10.70E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 **************************** * A1_101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ12.136E-31 FQ204 POLY(1) VQ22.136E-3 -1 * QUIESCIENT CURRENT RQ344.5E4 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT PROTECTION R1ININP 11000 D1IN12DX R2ININN 21000 D2IN21DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=600) .ENDS * * A2_101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:30 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *||| | OUTPUT *||| | | .SUBCKT A2_101E INP INN 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 59.67E6 -60E6 60E6 60E6 -60E6 GA60 11 12 377.0E-6 GCM06 10 99 1.192E-9 IEE104 DC 30.05E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.653E3 RC23 12 2.653E3 RE113 10 926.8 RE214 10 926.8 REE10 99 6.656E6 RO185 25 RO27 99 25 *RP34 10.70E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 **************************** * A2_101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ12.136E-31 FQ204 POLY(1) VQ22.136E-3 -1 * QUIESCIENT CURRENT RQ344.5E4 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT PROTECTION R1ININP 11000 D1IN12DX R2ININN 21000 D2IN21DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=600) .ENDS * * A3_101E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 11:39 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_101E1 2 3 4 5 * C111 12 8.660E-12 C267 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 358.0E6 -40E6 40E6 40E6 -40E6 GA60 11 12 62.83E-6 GCM06 10 99 198.7E-12 IEE104 DC 5.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 15.92E3 RC23 12 15.92E3 RE113 10 5.515E3 RE214 10 5.515E3 REE10 99 39.60E6 RO185 25 RO27 99 25 *RP34 10.61E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 **************************** * A3_101 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ12.162E-31 FQ204 POLY(1) VQ22.162E-3 -1 * QUIESCIENT CURRENT RQ344.5E4 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=100) .ENDS *$ ************************************************************************** * INA102 = A1_102 + A2_102 + A3_102 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.A * REV.B 16 June 97 NPA Added Note 1. * NOTE 1.USE EXTERNAL RESISTORS TO MODEL PIN-STRAPPED GAINS: Av= 1V/VRG= OPEN *Av= 10V/VRG=4.44K *Av= 100V/V RG=404 *Av= 1K V/V RG=40.4 * UNMODELLED PINS: 1. INTERNAL GAIN RESISTORS *2. OFFSET NULL *3. CMR TRIM & FILTER* REV.C18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * 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/BB1234589 10 * * A1_102 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X12934 11A1_102 * * A2_102 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21 1034 12A2_102 * * A3_102 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X314 13345A3_102 * R1111320.000K R213519.999K C21356.000PF R3121420.000K R414820.000K C41485.000PF RFB191120.000K CC19115.000PF RFB2101220.000K CC210125.000PF * .ENDS * * A1_102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1021 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 47.37E6 -50E6 50E6 50E6 -50E6 GA60 11 12 52.78E-6 GCM06 10 99 1.053E-9 IEE104 DC 6.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 18.95E3 RC23 12 18.95E3 RE113 10 10.24E3 RE214 10 10.24E3 REE10 99 33.06E6 RO185 100 RO27 99 400 RP34 186.8E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS * * A2_102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:36 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1021 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 44.21E6 -40E6 40E6 40E6 -40E6 GA60 11 12 56.55E-6 GCM06 10 99 565.5E-12 IEE104 DC 6.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 17.68E3 RC23 12 17.68E3 RE113 10 8.988E3 RE214 10 8.988E3 REE10 99 33.06E6 RO185 100 RO27 99 400 RP34 186.8E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS * * A3_102 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:36 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1021 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 44.21E6 -40E6 40E6 40E6 -40E6 GA60 11 12 56.55E-6 GCM06 10 99 565.5E-12 IEE104 DC 6.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 17.68E3 RC23 12 17.68E3 RE113 10 8.988E3 RE214 10 8.988E3 REE10 99 33.06E6 RO185 100 RO27 99 400 RP34 186.8E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS*$ ************************************************************************** * INA102E = A1_102E + A2_102E + A3_102E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.A * REV.B 16 June 97 NPA Added Note 1. * NOTE 1.USE EXTERNAL RESISTORS TO MODEL PIN-STRAPPED GAINS: Av= 1V/VRG= OPEN *Av= 10V/VRG=4.44K *Av= 100V/V RG=404 *Av= 1K V/V RG=40.4 * UNMODELLED PINS: 1. INTERNAL GAIN RESISTORS *2. OFFSET NULL *3. CMR TRIM & FILTER* REV.C18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA102E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SET 1 *|||||||GAIN SET 2 *|||||||| .SUBCKT INA102E/BB1234589 10 * * A1_102E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X12934 11A1_102E * * A2_102E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21 1034 12A2_102E * * A3_102E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X314 13345A3_102E * R1111320.0000K R213519.9990K C21356.0000PF R3121420.0000K R414820.0000K C41485.0000PF RFB191120.0000K CC19115.0000PF RFB2101220.0000K CC210125.0000PF * .ENDS * * A1_102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_102E1 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 47.37E6 -50E6 50E6 50E6 -50E6 GA60 11 12 52.78E-6 GCM06 10 99 1.053E-9 IEE104 DC 6.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 18.95E3 RC23 12 18.95E3 RE113 10 10.24E3 RE214 10 10.24E3 REE10 99 33.06E6 RO185 100 RO27 99 400 *RP34 186.8E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A1_102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.45E-41 FQ204 POLY(1) VQ21.45E-4 -1 * QUIESCIENT CURRENT RQ342.0E6 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS * * A2_102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_102E1 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 44.21E6 -40E6 40E6 40E6 -40E6 GA60 11 12 56.55E-6 GCM06 10 99 565.5E-12 IEE104 DC 6.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 17.68E3 RC23 12 17.68E3 RE113 10 8.988E3 RE214 10 8.988E3 REE10 99 33.06E6 RO185 100 RO27 99 400 *RP34 186.8E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A2_102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.45E-41 FQ204 POLY(1) VQ21.45E-4 -1 * QUIESCIENT CURRENT RQ342.0E6 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS * * A3_102E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/06/90 AT 15:39 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_102E1 2 3 4 5 * C111 12 8.660E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 44.21E6 -40E6 40E6 40E6 -40E6 GA60 11 12 56.55E-6 GCM06 10 99 565.5E-12 IEE104 DC 6.050E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 17.68E3 RC23 12 17.68E3 RE113 10 8.988E3 RE214 10 8.988E3 REE10 99 33.06E6 RO185 100 RO27 99 400 *RP34 186.8E3 VB90 DC 0 VC3 53 DC 2.500 VE544 DC 2.500 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A3_102 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.45E-41 FQ204 POLY(1) VQ21.45E-4 -1 * QUIESCIENT CURRENT RQ342.0E6 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=120) .ENDS*$ ************************************************************************** * INA103 = A1_103 + A2_103 + A3_103 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * 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/BB123458910 * * A1_103 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_103 * * A2_103 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_103 * * A3_103 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_103 * R111136.0000K R21355.9994K C21352.0000PF R312146.0000K R41486.0000K R1FB9113.0000K CC1171135.0000PF R2FB10123.0000K CC2161235.0000PF RCE17975MEG I1316DC1.300E-3 I2317DC1.300E-3 I3104DC1.300E-3 I494DC1.300E-3 D11715DX D21615DX Q116110QX Q21729QX V1315DC2.000 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS * * A1_103 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/15/90 AT 13:24 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1031 2 3 4 5 * C111 12 2.098E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 -3E6 3E6 3E6 -3E6 GA60 11 12 188.5E-6 GCM06 10 99 2.987E-9 ISS3 10 DC 100.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 5.305E3 RD24 12 5.305E3 RO185 20 RO27 99 20 RP34 14.06E3 RSS10 99 2.000E6 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 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_103 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/13/90 AT 11:47 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1031 2 3 4 5 * C111 12 2.098E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 -3E6 3E6 3E6 -3E6 GA60 11 12 188.5E-6 GCM06 10 99 2.987E-9 ISS3 10 DC 100.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 5.305E3 RD24 12 5.305E3 RO185 20 RO27 99 20 RP34 14.06E3 RSS10 99 2.000E6 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=177.7E-6 VTO=-1) .ENDS * * A3_103 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/09/90 AT 10:20 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1031 2 3 4 5 * C111 12 3.356E-12 C267 8.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 16.62E6 -20E6 20E6 20E6 -20E6 GA60 11 12 301.6E-6 GCM06 10 99 4.780E-9 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 3.316E3 RD24 12 3.316E3 RO185 10 RO27 99 10 RP34 14.06E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 70 VLN0 92 DC 70 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=284.3E-6 VTO=-1) .ENDS*$ ************************************************************************** * INA103E = A1_103E + A2_103E + A3_103E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.B 3/21/92 BCB: added input bias current correction * REV.C18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA103E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA103E/BB123458910 * * A1_103E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_103E * * A2_103E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_103E * * A3_103E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_103E * R111136.0000K R21355.9994K C21352.0000PF R312146.0000K R41486.0000K R1FB9113.0000K CC1171135.0000PF R2FB10123.0000K CC2161235.0000PF RCE17975MEG I1316DC1.300E-3 I2317DC1.300E-3 I3104DC1.300E-3 I494DC1.300E-3 D11715DX D21615DX Q116110QX Q21729QX V1315DC2.000 C1CM102.5PF C2CM202.5PF CDIF122.0PF * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS * * A1_103E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/13/90 AT 14:01 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_103E1 2 3 4 5 * C111 12 2.098E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 -3E6 3E6 3E6 -3E6 GA60 11 12 188.5E-6 GCM06 10 99 2.987E-9 ISS3 10 DC 100.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 5.305E3 RD24 12 5.305E3 RO185 20 RO27 99 20 *RP34 14.06E3 RSS10 99 2.000E6 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 **************************** * A1_103 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.70E-31 FQ204 POLY(1) VQ21.70E-3 -1 * QUIESCIENT CURRENT RQ349.0E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 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_103E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/13/90 AT 11:47 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_103E1 2 3 4 5 * C111 12 2.098E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 -3E6 3E6 3E6 -3E6 GA60 11 12 188.5E-6 GCM06 10 99 2.987E-9 ISS3 10 DC 100.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 5.305E3 RD24 12 5.305E3 RO185 20 RO27 99 20 *RP34 14.06E3 RSS10 99 2.000E6 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 **************************** * A2_103 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.70E-31 FQ204 POLY(1) VQ21.70E-3 -1 * QUIESCIENT CURRENT RQ349.0E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=177.7E-6 VTO=-1) .ENDS * * A3_103E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/09/90 AT 10:20 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_103E1 2 3 4 5 * C111 12 3.356E-12 C267 8.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 16.62E6 -20E6 20E6 20E6 -20E6 GA60 11 12 301.6E-6 GCM06 10 99 4.780E-9 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 3.316E3 RD24 12 3.316E3 RO185 10 RO27 99 10 *RP34 14.06E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 70 VLN0 92 DC 70 **************************** * A3_103 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.64E-31 FQ204 POLY(1) VQ21.64E-3 -1 * QUIESCIENT CURRENT RQ349.0E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-12 BETA=284.3E-6 VTO=-1) .ENDS *$ ************************************************************************** * INA105 = A3_105 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 08/21/90 AT 12:54 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA105 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||SENSE *||||||| .SUBCKT INA105/BB1234589 * * A3_105 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_105 * R121325000 R213924997.5 C21390.1P R311425000 R414825000 C1CM1401.5PF C2CM1301.5PF CDIF14131.5PF * .ENDS * * A3_105 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/19/90 AT 11:02 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1051 2 3 4 5 * C111 12 1.146E-12 C267 13.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 10.20E6 -10E6 10E6 10E6 -10E6 GA60 11 12 163.4E-6 GCM06 10 99 163.4E-12 IEE104 DC 39.14E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 6.121E3 RC23 12 6.121E3 RE113 10 4.778E3 RE214 10 4.778E3 REE10 99 5.110E6 RO185 60 RO27 99 60 RP34 20.53E3 VB90 DC 0 VC3 53 DC 4.500 VE544 DC 2 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *$ ************************************************************************** * INA105E = A3_105E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 08/28/90 AT 9:50 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA105E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||SENSE *||||||| .SUBCKT INA105E/BB1234589 * * A3_105E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_105E * R121325000 R213924997.5 C21390.1PF R311425000 R414825000 C1CM1401.5PF C2CM1301.5PF CDIF14131.5PF * .ENDS * * A3_105E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 08:58 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_105E1 2 3 4 5 * C111 12 1.146E-12 C267 13.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 10.20E6 -10E6 10E6 10E6 -10E6 GA60 11 12 163.4E-6 GCM06 10 99 163.4E-12 IEE104 DC 39.14E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 6.121E3 RC23 12 6.121E3 RE113 10 4.778E3 RE214 10 4.778E3 REE10 99 5.110E6 RO185 60 RO27 99 60 *RP34 20.53E3 VB90 DC 0 VC3 53 DC 4.500 VE544 DC 2 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 **************************** * A3_105 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.414E-31 FQ204 POLY(1) VQ21.414E-3 -1 * QUIESCIENT CURRENT RQ346.5E5 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *$ ************************************************************************** * INA106 = A3_106 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 08/21/90 AT 12:54 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA106 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||SENSE *||||||| .SUBCKT INA106/BB1234589 * * A3_106 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_106 * R121310.0000K R2139100.0100K C21390.1000PF R311410.0000K R4148100.0000K C1CM1401.5PF C2CM1301.5PF CDIF14131.5PF * .ENDS * * A3_106 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/18/90 AT 13:55 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1061 2 3 4 5 * C111 12 9.283E-12 C267 13.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.081E6 -4E6 4E6 4E6 -4E6 GA60 11 12 408.4E-6 GCM06 10 99 408.4E-12 IEE104 DC 39.14E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.449E3 RC23 12 2.449E3 RE113 10 1.118E3 RE214 10 1.118E3 REE10 99 5.110E6 RO185 60 RO27 99 60 RP34 20.53E3 VB90 DC 0 VC3 53 DC 4.500 VE544 DC 2 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *$ ************************************************************************** * INA106E = A3_106E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 08/28/90 AT 9:50 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA106E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||SENSE *||||||| .SUBCKT INA106E/BB1234589 * * A3_106E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_106E * R121310000 R2139100010 C21390.1PF R311410000 R4148100000 C1CM1401.5PF C2CM1301.5PF CDIF14131.5PF * .ENDS * * A3_106E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 08:58 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_106E1 2 3 4 5 * C111 12 9.283E-12 C267 13.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.081E6 -4E6 4E6 4E6 -4E6 GA60 11 12 408.4E-6 GCM06 10 99 408.4E-12 IEE104 DC 39.14E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.449E3 RC23 12 2.449E3 RE113 10 1.118E3 RE214 10 1.118E3 REE10 99 5.110E6 RO185 60 RO27 99 60 *RP34 20.53E3 VB90 DC 0 VC3 53 DC 4.500 VE544 DC 2 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 **************************** * A3_106 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.414E-31 FQ204 POLY(1) VQ21.414E-3 -1 * QUIESCIENT CURRENT RQ346.5E5 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *$ ************************************************************************** * INA110 = A1_110 + A2_110 + A3_110 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.B 1/6/93BCB :Removed Gain Set 1 and Gain Set 2 pins from model* REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * 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/BB123458910 * * A1_110 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_110 * * A2_110 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_110 * * A3_110 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_110 * R1111310.0000K R21359.9995K C21356.0000PF R3121410.0000K R414810.0000K C41485.0000PF R1FB91120.0000K CC117115.0000PF R2FB101220.0000K CC216125.0000PF RCE179400MEG I1316DC50.00E-6 I2317DC50.00E-6 I3104DC50.00E-6 I494DC50.00E-6 I5321DC 200.00E-6 I6322DC 200.00E-6 CG19030.0000PF CG210020.0000PF D11715DX D21615DX Q1162110QX Q217229QX J14121JX J24222JX V1315DC3.000 * .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 * * A1_110 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:10 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1101 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 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_110 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:12 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1101 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A3_110 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 12:59 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1101 2 3 4 5 * C111 12 7.151E-12 C267 12.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 -30E6 30E6 30E6 -30E6 GA60 11 12 377.0E-6 GCM06 10 99 1.889E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.653E3 RD24 12 2.653E3 RO185 30 RO27 99 30 RP34 37.50E3 RSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-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 * REV.B 3/21/92 BCB added input bias current correction * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA110E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA110E/BB123458910 * * A1_110E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_110E * * A2_110E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_110E * * A3_110E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_110E * R1111310.0000K R21359.9995K C21356.0000PF R3121410.0000K R414810.0000K C41485.0000PF R1FB91120.0000K CC117115.0000PF R2FB101220.0000K CC216125.0000PF RCE179400MEG I1316DC50.00E-6 I2317DC50.00E-6 I3104DC50.00E-6 I494DC50.00E-6 I5321DC 200.00E-6 I6322DC 200.00E-6 CG19030.0000PF CG210020.0000PF D11715DX D21615DX Q1162110QX Q217229QX J14121JX J24222JX G111 4 POLY(2) (21,1) (4,1) 0 1E-12 1E-12 G212 4 POLY(2) (22,2) (4,2) 0 1E-12 1E-12 V1315DC3.000 C1CM101.0PF C2CM201.0PF CDIF126.0PF * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .MODEL JX PJF(IS=5.00E-12 BETA=500.0E-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 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_110E1 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 *RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 **************************** * A1_110 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.16E-41 FQ204 POLY(1) VQ24.16E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 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_110E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 11:12 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_110E1 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 *RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 **************************** * A2_110 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.16E-41 FQ204 POLY(1) VQ24.16E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A3_110E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/14/90 AT 12:59 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_110E1 2 3 4 5 * C111 12 7.151E-12 C267 12.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 -30E6 30E6 30E6 -30E6 GA60 11 12 377.0E-6 GCM06 10 99 1.889E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.653E3 RD24 12 2.653E3 RO185 30 RO27 99 30 *RP34 37.50E3 RSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 **************************** * A3_110 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.264E-41 FQ204 POLY(1) VQ24.264E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-6 VTO=-1) .ENDS *$ ************************************************************************** * INA111 = A1_111 + A2_111 + A3_111 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 12/1/92 AT 10:00 HB * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA111 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA111/BB123458910 * * A1_111 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_111 * * A2_111 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_111 * * A3_111 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_111 * R1111310.0000E3 R3121410.0000E3 R21359.9993E3 R414810.0000E3 C21356.0000E-12 C41485.0000E-12 R1FB91125.0000E3 R2FB101225.0000E3 CC117115.0000E-12 CC216125.5000E-12 RCE179400E6 I1316DC50.00E-6 I2317DC50.00E-6 I3104DC50.00E-6 I494DC50.00E-6 I5321DC 200.00E-6 I6322DC 200.00E-6 CG19013.5000E-12 CG210012.0000E-12 D11715DX D21615DX Q1162110QX Q217229QX J14121JX J24222JX V1315DC3.000 * .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 * * A1_111 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1111 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 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_111 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1111 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A3_111 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1111 2 3 4 5 * C111 12 7.151E-12 C267 12.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 -30E6 30E6 30E6 -30E6 GA60 11 12 377.0E-6 GCM06 10 99 1.889E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.653E3 RD24 12 2.653E3 RO185 30 RO27 99 30 RP34 37.50E3 RSSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 2.300 VE544 DC 2.300 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-6 VTO=-1) .ENDS *$ ************************************************************************** * INA111E = A1_111E + A2_111E + A3_111E OP AMPS + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 12/1/92 AT 10:00 HB * REV.A * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation.| * || * |-------------------------------------------------------------| * * INA111E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA111E/BB123458910 * * A1_111E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_111E * * A2_111E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_111E * * A3_111E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_111E * R1111310.0000E3 R3121410.0000E3 R21359.9993E3 R414810.0000E3 C21356.0000E-12 C41485.0000E-12 R1FB91125.0000E3 R2FB101225.0000E3 CC117115.0000E-12 CC216125.5000E-12 RCE179400E6 I1316DC50.00E-6 I2317DC50.00E-6 I3104DC50.00E-6 I494DC50.00E-6 I5321DC 200.00E-6 I6322DC 200.00E-6 CG19013.5000E-12 CG210012.0000E-12 D11715DX D21615DX Q1162110QX Q217229QX J14121JX J24222JX V1315DC3.000 C1CM101.0E-12 C2CM201.0E-12 CDIF126.0E-12 * .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 * * A1_111E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_111E1 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 *RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 **************************** * A1_111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.16E-41 FQ204 POLY(1) VQ24.16E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A2_111E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_111E1 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 *RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 **************************** * A2_111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.16E-41 FQ204 POLY(1) VQ24.16E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A3_111E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_111E1 2 3 4 5 * C111 12 7.151E-12 C267 12.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 -30E6 30E6 30E6 -30E6 GA60 11 12 377.0E-6 GCM06 10 99 1.889E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.653E3 RD24 12 2.653E3 RO185 30 RO27 99 30 *RP34 37.50E3 RSSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 2.300 VE544 DC 2.300 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 **************************** * A3_111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.264E-41 FQ204 POLY(1) VQ24.264E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-6 VTO=-1) .ENDS *$ ************************************************************************** * INA111Z = A1_111Z + A2_111Z + A3_111Z OP AMPS + PRECISION RESISTOR NETWORK * "Z" IS ENHANCED MODEL * CREATED ON 12/1/92 AT 10:00 HB * REV.A * REV.B13 June 97 NPA: Changed "E" to "Z" to correct run error * REV.C18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA111Z SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA111Z/BB123458910 * * A1_111Z SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_111Z * * A2_111Z SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_111Z * * A3_111Z SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_111Z * R1111310.0000E3 R3121410.0000E3 R21359.9993E3 R414810.0000E3 C21356.0000E-12 C41485.0000E-12 R1FB91125.0000E3 R2FB101225.0000E3 CC117115.0000E-12 CC216125.5000E-12 RCE179400E6 I1316DC50.00E-6 I2317DC50.00E-6 I3104DC50.00E-6 I494DC50.00E-6 I5321DC 200.00E-6 I6322DC 200.00E-6 CG19013.5000E-12 CG210012.0000E-12 D11715DX D21615DX Q1162110QX Q217229QX J14121JX J24222JX V1315DC3.000 C1CM101.0E-12 C2CM201.0E-12 CDIF126.0E-12 * .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 * * A1_111Z OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "Z" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_111Z1 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 *RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 **************************** * A1_111 "Z" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.16E-41 FQ204 POLY(1) VQ24.16E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A2_111Z OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "Z" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_111Z1 2 3 4 5 * C111 12 1.443E-12 C267 5.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E3 -3E3 3E3 3E3 -3E3 GA60 11 12 628.3E-6 GCM06 10 99 6.283E-6 ISS3 10 DC 250.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.592E3 RD24 12 1.592E3 RO185 60 RO27 99 60 *RP34 37.50E3 RSS10 99 800.0E3 VB90 DC 0 VC3 53 DC 2 VE544 DC 1 VLIM78 DC 0 VLP910 DC 60 VLN0 92 DC 60 **************************** * A2_111 "Z" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.16E-41 FQ204 POLY(1) VQ24.16E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=789.5E-6 VTO=-1) .ENDS * * A3_111Z OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "Z" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/1/92 AT 10:00 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_111Z1 2 3 4 5 * C111 127.151E-12 C267 12.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 27.96E6 -30E6 30E6 30E6 -30E6 GA60 11 12 377.0E-6 GCM06 10 99 1.889E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.653E3 RD24 12 2.653E3 RO185 30 RO27 99 30 *RP34 37.50E3 RSSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 2.300 VE544 DC 2.300 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 **************************** * A3_111 "Z" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.264E-41 FQ204 POLY(1) VQ24.264E-4 -1 * QUIESCIENT CURRENT RQ342.25E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=296.0E-6 VTO=-1) .ENDS *$ ************************************************************************** * INA114 = A1_114 + A2_114 + A3_114 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 1/30/92 AT 4:30PM * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE ** NOTE:THE OUTPUT PERFORMANCE OF THIS MACRO MODEL WILL BE ERRONEOUS IF *NODE 6 (FEEDBACK) IS NOT CONNECTED PROPERLY. * * INA114 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||FEEDBACK *||||||REFERENCE *|||||||GAIN SET 1 *||||||||GAIN SET 2 *||||||||| .SUBCKT INA114/BB1234568910 * * A1_114 SUBCIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1293411A1_114 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21103412A2_114 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_114 * R111 13 25K R2136 24.9985K C2136 5P R312 14 25K R4148 25K RFB19 11 25K CC19 11 5P RFB2 10 12 25K CC210 12 5P * .ENDS * * A1_114 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:21 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1141 2 3 4 5 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB799 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE 104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC1311 5.305E3 RC2312 5.305E3 RE1 1310 4.348E3 RE2 1410 4.348E3 REE 1099 7.4074E6 RO185 40 RO2799 320 RP34 52.53E3 VB90 DC 0 VC353 DC 1.672 VE544 DC 1.672 VLIM 78 DC 0 VLP 910 DC 2 VLN092 DC 2 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3) .ENDS * * A2_114 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:30 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1141 2 3 4 5 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.318E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 RP34 52.53E3 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3) .ENDS * * A3_114 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:46 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1141 2 3 4 5 * C111 12 13.51E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 251.9E6 -30E6 30E6 30E6 -30E6 GA60 11 12 339.3E-6 GCM06 10 99 339.3E-12 IEE104 DC 18E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.947E3 RC23 12 2.947E3 RE113 10 74.778 RE214 10 74.778 REE10 99 11.111E6 RO185 13 RO27 99 117 RP34 30.123E3 VB90 DC 0 VC3 53 DC 1.972 VE544 DC 1.972 VLIM78 DC 0 VLP910 DC 12 VLN0 92 DC 12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=30.00E3) .ENDS *$ ************************************************************************** * INA114E = A1_114E + A2_114E + A3_114E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 1/30/92 AT 4:30PM * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * NOTE:THE OUTPUT PERFORMANCE OF THE MACRO MODEL WILL BE ERRONEOUS IF *NODE 6 (FEEDBACK) IS NOT CONNECTED PROPERLY. ** INA114E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||FEEDBACK *||||||REFERENCE *|||||||GAIN SET 1 *||||||||GAIN SET 2 *||||||||| .SUBCKT INA114E/BB1234568910 * * A1_114E SUBCIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1293411A1_114E * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21103412A2_114E * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_114E * R111 13 25K R2136 24.9985K C2136 5P R312 14 25K R4148 25K RFB19 11 25K CC19 11 5P RFB2 10 12 25K CC210 12 5P * .ENDS * * A1_114E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:21 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT A1_114E12345 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.348E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A1_114E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ 3 4 52.53E3 * DIFF INPUT CAPACITANCE CDIF 1 2 3E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 0 3E-12 C2CM 2 0 3E-12 * INPUT PROTECTION VS113 31 0 FS1103 VS11 1 S11310 1 0 SP FS1214 VS11 1 VS21 324 0 FS2140 VS21 1 S210 32 1 0 SM FS2231 VS21 1 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3 NC=100 NR=100) .MODEL SP VSWITCH(RON=10K ROFF=100G VON=15.6 VOFF=15.5) .MODEL SM VSWITCH(RON=10K ROFF=100G VON=-15.6 VOFF=-15.5) .ENDS * * A2_114E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:30 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT A2_114E12345 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.348E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A2_114E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ34 52.53E3 * DIFF INPUT CAPACITANCE CDIF 12 3E-12 * COMMON MODE INPUT CAPACITANCE C1CM 10 3E-12 C2CM 20 3E-12 * INPUT PROTECTION VS113 31 0 FS1103 VS11 1 S11310 1 0 SP FS1214 VS11 1 VS21 324 0 FS2140 VS21 1 S210 32 1 0 SM FS2231 VS21 1 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3 NC=100 NR=100) .MODEL SP VSWITCH(RON=10K ROFF=100G VON=15.6 VOFF=15.5) .MODEL SM VSWITCH(RON=10K ROFF=100G VON=-15.6 VOFF=-15.5) .ENDS * * A3_114E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:46 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_114E1 2 3 4 5 * C111 12 13.51E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 251.9E6 -30E6 30E6 30E6 -30E6 GA60 11 12 339.3E-6 GCM06 10 99 339.3E-12 IEE104 DC 18E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.947E3 RC23 12 2.947E3 RE113 10 74.778 RE214 10 74.778 REE10 99 11.111E6 RO185 13 RO27 99 117 VB90 DC 0 VC3 53 DC 1.972 VE544 DC 1.972 VLIM78 DC 0 VLP910 DC 12 VLN0 92 DC 12 **************************** * A3_114E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ34 30.123E3 * DIFF INPUT CAPACITANCE CDIF 12 10E-12 * COMMON MODE INPUT CAPACITANCE C1CM 10 5E-12 C2CM 20 5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=30.00E3) .ENDS *$ ************************************************************************** * INA115 = 2 x A1_115 + A3_115 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 1/10/94 BY JLA * REV.A *NODE ASSIGNMENTS OF SUBCKT INA115 CORRESPOND TO SURFACE MOUNT PACKAGE OF *BURR-BROWN'S INA115 (NO DIP AVAILABLE) * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * NOTE:THE OUTPUT PERFORMANCE OF THE MACRO MODEL WILL BE ERRONEOUS IF *NODE 12 (FEEDBACK) IS NOT CONNECTED PROPERLY.THIS IS GENERALLY *CONNECTED TO NODE 11 (OUTPUT). * * INA115 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||FEEDBACK *||||||REFERENCE *|||||||GAIN SET 1 *||||||||GAIN SET 2 *|||||||||GAIN SENSE 1 *||||||||||GAIN SENSE 2 *||||||||||| .SUBCKT INA115/BB54137111210314215 * * A1_115 SUBCIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1421371A1_115 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X25151378A1_115 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X3171813711A3_115 * RFB1 13 25K RFB2 8 14 25K R11 18 25K R218 12 24.9985K R38 17 25K R417 10 25K C117 10 5P C218 12 5P CC113 5P CC28 14 5P * .ENDS * * A1_115 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:21 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT A1_11512345 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.348E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 RP34 52.53E3 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3 NC=100 NR=100) .ENDS * * A3_115 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:46 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1151 2 3 4 5 * C111 12 13.51E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 251.9E6 -30E6 30E6 30E6 -30E6 GA60 11 12 339.3E-6 GCM06 10 99 339.3E-12 IEE104 DC 18E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.947E3 RC23 12 2.947E3 RE113 10 74.778 RE214 10 74.778 REE10 99 11.111E6 RO185 13 RO27 99 117 RP34 30.123E3 VB90 DC 0 VC3 53 DC 1.972 VE544 DC 1.972 VLIM78 DC 0 VLP910 DC 12 VLN0 92 DC 12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=30.00E3) .ENDS *$ ************************************************************************** * INA115E = 2 x A1_115E + A3_115E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 1/10/94 BY JLA * REV.A * NODE ASSIGNMENTS OF SUBCKT INA115 CORRESPOND TO SURFACE MOUNT PACKAGE OF * BURR-BROWN'S INA115 (NO DIP AVAILABLE) * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * NOTE:THE OUTPUT PERFORMANCE OF THE MACRO MODEL WILL BE ERRONEOUS IF *NODE 12 (FEEDBACK) IS NOT CONNECTED PROPERLY.THIS IS GENERALLY *CONNECTED TO NODE 11 (OUTPUT). ** INA115E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||FEEDBACK *||||||REFERENCE *|||||||GAIN SET 1 *||||||||GAIN SET 2 *|||||||||GAIN SENSE 1 *||||||||||GAIN SENSE 2 *||||||||||| .SUBCKT INA115E/BB54137111210314215 * * A1_115E SUBCIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1421371A1_115E * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X25151378A1_115E * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X3171813711A3_115E * RFB1 13 25K RFB2 8 14 25K R11 18 25K R218 12 24.9985K R38 17 25K R417 10 25K C117 10 5P C218 12 5P CC113 5P CC28 14 5P * .ENDS * * A1_115E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:21 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT A1_115E12345 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.348E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A1_115E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ3 4 52.53E3 * DIFF INPUT CAPACITANCE CDIF 1 2 3E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 0 3E-12 C2CM 2 0 3E-12 * INPUT PROTECTION VS113 31 0 FS1103 VS11 1 S11310 1 0 SP FS1214 VS11 1 VS21 324 0 FS2140 VS21 1 S210 32 1 0 SM FS2231 VS21 1 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3 NC=100 NR=100) .MODEL SP VSWITCH(RON=10K ROFF=100G VON=15.6 VOFF=15.5) .MODEL SM VSWITCH(RON=10K ROFF=100G VON=-15.6 VOFF=-15.5) .ENDS * * A3_115E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:46 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_115E1 2 3 4 5 * C111 12 13.51E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 251.9E6 -30E6 30E6 30E6 -30E6 GA60 11 12 339.3E-6 GCM06 10 99 339.3E-12 IEE104 DC 18E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.947E3 RC23 12 2.947E3 RE113 10 74.778 RE214 10 74.778 REE10 99 11.111E6 RO185 13 RO27 99 117 VB90 DC 0 VC3 53 DC 1.972 VE544 DC 1.972 VLIM78 DC 0 VLP910 DC 12 VLN0 92 DC 12 **************************** * A3_115E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ34 30.123E3 * DIFF INPUT CAPACITANCE CDIF12 10E-12 * COMMON MODE INPUT CAPACITANCE C1CM10 5E-12 C2CM20 5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=30.00E3) .ENDS *$ ************************************************************************** * INA117 = A3_117 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 08/21/90 AT 12:54 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA117 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE A *||||||REFERENCE B *||||||| .SUBCKT INA117/BB1234589 * * A3_117 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_117 * R1213380.0000K R2135380.0000K C21350.500PF R3114380.0000K R414819.9990K R513921.1111K C1CM 1403PF C2CM 1303PF CDIF 14137PF * .ENDS * * A3_117 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/19/90 AT 12:37 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1171 2 3 4 5 * C111 12 9.283E-12 C267 13.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.081E6 -4E6 4E6 4E6 -4E6 GA60 11 12 408.4E-6 GCM06 10 99 408.4E-12 IEE104 DC 39.14E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.449E3 RC23 12 2.449E3 RE113 10 1.118E3 RE214 10 1.118E3 REE10 99 5.110E6 RO185 60 RO27 99 60 RP34 20.53E3 VB90 DC 0 VC3 53 DC 4.500 VE544 DC 2 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS*$ ************************************************************************** * INA117E = A3_117E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 08/28/90 AT 9:50 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA117E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE A *||||||REFERENCE B *||||||| .SUBCKT INA117E/BB1234589 * * A3_117E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_117E * R1213380.0000K R2135380.0000K C21350.5000PF R3114380.0000K R414819.9990K R513921.1111K C1CM 1403PF C2CM 1303PF CDIF 14137PF * .ENDS * * A3_117E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 08:58 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_117E1 2 3 4 5 * C111 12 9.283E-12 C267 13.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.081E6 -4E6 4E6 4E6 -4E6 GA60 11 12 408.4E-6 GCM06 10 99 408.4E-12 IEE104 DC 39.14E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.449E3 RC23 12 2.449E3 RE113 10 1.118E3 RE214 10 1.118E3 REE10 99 5.110E6 RO185 60 RO27 99 60 *RP34 20.53E3 VB90 DC 0 VC3 53 DC 4.500 VE544 DC 2 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 **************************** * A3_117 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.414E-31 FQ204 POLY(1) VQ21.414E-3 -1 * QUIESCIENT CURRENT RQ346.5E5 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=278.6) .ENDS *$ ************************************************************************** * INA118 = A1_118 + A2_118 + A3_118 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 05/20/94 AT 15:01 * REV.A * * INA118 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA118/BB123458910 * * A1_118 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_118 * * A2_118 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_118 * * A3_118 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_118 * R1111360.0000K R213559.994K R3121460.0000K R414860.0000K CIN13144.0000PF R1FB91125.0000K CC1171113.0000PF R2FB101225.0000K CC2161213.0000PF CG19010.0000PF CG21009.0000PF RCE1791.7G I1316DC15.00E-6 I2317DC15.00E-6 IB1CAN 31DC29.00E-9 IB2CAN 32DC29.00E-9 Ibal04DC31.30E-6 D11517DX D21516DX Q116110QX Q21729QX V1315DC1.100 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS * * A1_118 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:20 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A1_1181 2 3 4 5 * c111 12 1.340E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 110.0E-6 gcm06 10 99 11.00E-12 iss3 10 dc 10.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.095E3 rd24 12 9.095E3 ro185 50 ro27 99 25 rp34 900.0E12 rss10 99 20.00E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=1.209E-3 Vto=-1) .ends * * A2_118 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:20 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A2_1181 2 3 4 5 * c111 12 1.340E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 110.0E-6 gcm06 10 99 11.00E-12 iss3 10 dc 10.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.095E3 rd24 12 9.095E3 ro185 50 ro27 99 25 rp34 900.0E12 rss10 99 20.00E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=1.209E-3 Vto=-1) .ends * * A3_118 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:22 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_1181 2 3 4 5 * c111 12 3.501E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 212.2E6 -210E6 210E6 210E6 -210E6 ga60 11 12 75.40E-6 gcm06 10 99 754.0E-12 iee104 dc 9.002E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc13 11 13.26E3 rc23 12 13.26E3 re113 10 7.514E3 re214 10 7.514E3 ree10 99 22.22E6 ro185 75 ro27 99 75 rp34 103.09E3 vb90 dc 0 vc3 53 dc 1.400 ve544 dc .8 vlim78 dc 0 vlp910 dc 4.5 vln0 92 dc 11.5 * .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=4.500E3) .ends *$ ************************************************************************** * INA118E = A1_118E + A2_118E + A3_118E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 05/20/94 AT 15:01 TLB * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA118E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA118E/BB123458910 * * A1_118E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_118E * * A2_118E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_118E * * A3_118E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_118E * R1111360.0000K R213559.994K R3121460.0000K R414860.0000K CIN13144.0000PF R1FB91125.0000K CC1171113.0000PF R2FB101225.0000K CC2161213.0000PF CG19010.0000PF CG21009.0000PF **************************** * INA118 "E" - ENHANCEMENTS **************************** RDIFF121.0000E10 R1CM102.5000E10 R2CM202.5000E10 CDIF121.0000PF C1CM104.0000PF C2CM204.0000PF RCE1791.7G I1316DC15.00E-6 I2317DC15.00E-6 IB1CAN 31DC29.00E-9 IB2CAN 32DC29.00E-9 D11517DX D21516DX Q116110QX Q21729QX V1315DC1.100 ********************************* * INA118 "E" - ENHANCEMENTS ********************************* * POS INPUT PROTECTION VS11331 0 S11310 1 0 SP FS1214 VS11 1FS1103 VS11 1 VS21 324 0S21032 1 0 SM FS2231 VS21 1FS2140 VS21 1 * NEG INPUT PROTECTION VS11- 333 0 S11-330 2 0 SP FS12- 24 VS11- 1 FS11- 03 VS11- 1 VS21- 344 0S21-034 2 0 SM FS22- 32 VS21- 1 FS21- 40 VS21- 1 * .model sp vswitch(ron=300k roff=100g von=14.8 voff=14.7).model sm vswitch(ron=3.5k roff=100g von=-15.1 voff=-15.0) .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS * * A1_118E operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:20 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A1_118E1 2 3 4 5 * c111 12 1.340E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 110.0E-6 gcm06 10 99 11.00E-12 iss3 10 dc 10.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.095E3 rd24 12 9.095E3 ro185 50 ro27 99 25 rss10 99 20.00E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 **************************** * A1_118 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=1.209E-3 Vto=-1) .ends * * A2_118E operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:20 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A2_118E1 2 3 4 5 * c111 12 1.340E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 110.0E-6 gcm06 10 99 11.00E-12 iss3 10 dc 10.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.095E3 rd24 12 9.095E3 ro185 50 ro27 99 25 rss10 99 20.00E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 **************************** * A2_118 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 **************************** .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=1.209E-3 Vto=-1) .ends * * A3_118E operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 05/20/94 at 09:22 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_118E1 2 3 4 5 * c111 12 3.501E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 212.2E6 -210E6 210E6 210E6 -210E6 ga60 11 12 75.40E-6 gcm06 10 99 754.0E-12 iee104 dc 9.002E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc13 11 13.26E3 rc23 12 13.26E3 re113 10 7.514E3 re214 10 7.514E3 ree10 99 22.22E6 ro185 75 ro27 99 75 vb90 dc 0 vc3 53 dc 1.400 ve544 dc .8 vlim78 dc 0 vlp910 dc 4.5 vln0 92 dc 11.5 **************************** * A3_118 "E" ENHANCEMENTS **************************** *OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0FQ130 POLY(1) VQ1 260.8E-6 1 FQ204 POLY(1) VQ2 261.0E-6 -1 * SUPPLY CURRENT VARIATION RQ34 1.365E6 * .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=4.500E3) .ends *$ ************************************************************************** * INA120 = A1_120 + A2_120 + A3_120 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.A * * 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/BB123458910 * * A1_120 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1293411A1_120 * * A2_120 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21103412A2_120 * * A3_120 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_120 * R1111310.0000K R21359.9995K C21351.0000PF R3121410.0000K R414810.0000K R1FB91120.0000K CC191110.0000PF R2FB101220.0000K CC2101210.0000PF * .ENDS * * A1_120 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:07 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A1_1201 2 3 4 5 * C111 12 16.38E-12 C267 90.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 23.58E6 -20E6 20E6 20E6 -20E6 GA60 11 12 1.696E-3 GCM06 10 99 3.385E-9 IEE104 DC 108.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 589.5 RC23 12 589.5 RE113 10 110.5 RE214 10 110.5 REE10 99 1.852E6 RO185 25 RO27 99 25 RP34 33.63E3 VB90 DC 0 VC3 53 DC 2.200 VE544 DC 2.200 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS * * A2_120 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:08 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A2_1201 2 3 4 5 * C111 12 16.38E-12 C267 90.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 20.21E6 -20E6 20E6 20E6 -20E6 GA60 11 12 1.979E-3 GCM06 10 99 1.979E-9 IEE104 DC 108.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 505.3 RC23 12 505.3 RE113 10 26.28 RE214 10 26.28 REE10 99 1.852E6 RO185 25 RO27 99 25 RP34 33.63E3 VB90 DC 0 VC3 53 DC 2.200 VE544 DC 2.200 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS * * A3_120 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:10 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1201 2 3 4 5 * C111 12 17.32E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 159.2E6 -20E6 20E6 20E6 -20E6 GA60 11 12 251.3E-6 GCM06 10 99 251.3E-12 ISS3 10 DC 20.00E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 3.979E3 RD24 12 3.979E3 RO185 25 RO27 99 25 RP34 30.00E3 RSS10 99 10.00E6 VB90 DC 0 VC3 53 DC 2.200 VE544 DC 2.200 VLIM78 DC 0 VLP910 DC 24 VLN0 92 DC 24 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=1.579E-3 VTO=-1) .ENDS *$ ************************************************************************** * INA120E = A1_120E + A2_120E + A3_120E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 10/30/90 AT 15:01 * REV.B 3/21/92 BCB: added input bias current correction * * INA120E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA120E/BB123458910 * * A1_120E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1293411A1_120E * * A2_120E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X21103412A2_120E * * A3_120E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_120E * R1111310.0000K R21359.9995K C21351.0000PF R3121410.0000K R414810.0000K R1FB91120.0000K CC191110.0000PF R2FB101220.0000K CC2101210.0000PF * .ENDS * * A1_120E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:07 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *||| | OUTPUT *||| | | .SUBCKT A1_120E INP INN 3 4 5 * C111 12 16.38E-12 C267 90.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 23.58E6 -20E6 20E6 20E6 -20E6 GA60 11 12 1.696E-3 GCM06 10 99 3.385E-9 IEE104 DC 108.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 589.5 RC23 12 589.5 RE113 10 110.5 RE214 10 110.5 REE10 99 1.852E6 RO185 25 RO27 99 25 *RP34 33.63E3 VB90 DC 0 VC3 53 DC 2.200 VE544 DC 2.200 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 **************************** * A1_120 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ18.72E-41 FQ204 POLY(1) VQ28.72E-4 -1 * QUIESCIENT CURRENT RQ341.5E6 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT PROTECTION R1ININP 11000 D1IN12DX R2ININN 21000 D2IN21DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS * * A2_120E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:08 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *||| | OUTPUT *||| | | .SUBCKT A2_120E INP INN 3 4 5 * C111 12 16.38E-12 C267 90.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 20.21E6 -20E6 20E6 20E6 -20E6 GA60 11 12 1.979E-3 GCM06 10 99 1.979E-9 IEE104 DC 108.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 505.3 RC23 12 505.3 RE113 10 26.28 RE214 10 26.28 REE10 99 1.852E6 RO185 25 RO27 99 25 *RP34 33.63E3 VB90 DC 0 VC3 53 DC 2.200 VE544 DC 2.200 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 **************************** * A2_120 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ18.72E-41 FQ204 POLY(1) VQ28.72E-4 -1 * QUIESCIENT CURRENT RQ341.5E6 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT PROTECTION R1ININP 11000 D1IN12DX R2ININN 21000 D2IN21DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.714E3) .ENDS * * A3_120E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 11/07/90 AT 16:10 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_120E1 2 3 4 5 * C111 12 17.32E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 159.2E6 -20E6 20E6 20E6 -20E6 GA60 11 12 251.3E-6 GCM06 10 99 251.3E-12 ISS3 10 DC 20.00E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (12,1) (10,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 3.979E3 RD24 12 3.979E3 RO185 25 RO27 99 25 *RP34 30.00E3 RSS10 99 10.00E6 VB90 DC 0 VC3 53 DC 2.200 VE544 DC 2.200 VLIM78 DC 0 VLP910 DC 24 VLN0 92 DC 24 **************************** * A3_120 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ19.60E-41 FQ204 POLY(1) VQ29.60E-4 -1 * QUIESCIENT CURRENT RQ341.5E6 * DIFF INPUT CAPACITANCE CDIF123.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=1.579E-3 VTO=-1) .ENDS *$ ************************************************************************** * INA126P MICROPOWER INSTRUMENTATION AMPLIFIER MACROMODEL* REV A. 4/14/97 WM * REV B. 27 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO TOP OF FILE. * INA126 two opamp connections * * connections:Rg *| negative input *| | positive input *| | | negative power supply *| | | | ref *| | | | |output *| | | | | | positive power supply *| | | | | | | Rg *| | | | | | | | .subckt INA126P/BB1 2 3 4 5 6 7 8*x12 1 7 4 222 5opamp1_126 x23 8 7 4 6 222opamp2_126 * .ends * * INA126 operational amplifier "macromodel" subcircuits: * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | ref input *| | | | | | .subckt OPAMP1_1261 2 3 4 5 22* c111 12 2.9E-12 c267 12.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 42.44E6 -42E6 42E6 42E6 -42E6 ga60 11 12 94.25E-6 gcm06 10 99 942.5E-12 iee3 10 dc 6.040E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc14 11 10.61E3 rc24 12 10.61E3 re113 10 1.976E3 re214 10 1.976E3 ree10 99 33.11E6 ro185 50 ro27 99 25 rp34 379.8E3 vb90 dc 0 vc3 53 dc 1 ve544 dc 1 vlim78 dc 0 vlp910 dc 2 vln0 92 dc 2 * .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=150) *FEEDBACK RESISTORS RFB12 2240K RFB22510K * .ends * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | ref input *| | | | | | .subckt OPAMP2_1261 2 3 4 5 22 * c111 12 2.9E-12 c267 12.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 42.44E6 -42E6 42E6 42E6 -42E6 ga60 11 12 94.25E-6 gcm06 10 99 942.5E-12 iee3 10 dc 6.040E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc14 11 10.61E3 rc24 12 10.61E3 re113 10 1.976E3 re214 10 1.976E3 ree10 99 33.11E6 ro185 50 ro27 99 25 rp34 379.8E3 vb90 dc 0 vc3 53 dc 1 ve544 dc 1 vlim78 dc 0 vlp910 dc 2 vln0 92 dc 2 * .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=150) * *FEEDBACK RESISTORS RFB32 2210K RFB42540K * .ends *$ ************************************************************************** * INA128 = A1_128 + A2_128 + A3_128 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 11/20/96 AT 15:01 * *Note:A1_128, A2_128 and A3_128 op amps modeled here for the INA128 *ARE NOT related to any standard BB op amps such as the OPA128. * * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA128 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA128/BB123458910 * * A1_128 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_128 * * A2_128 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_128 * * A3_128 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_128 * R1111340.0000K R213539.996K R3121440.0000K R414840.0000K CIN13144.0000PF R1FB91125.000K CC117115.0000PF R2FB101225.000K CC216125.0000PF CG19010.0000PF CG21008.0000PF RCE17920G I1316DC20.00E-6 I2317DC20.00E-6 IB1CAN 31DC40.00E-9 IB2CAN 32DC40.00E-9 Ibal04DC60.0E-6 D11517DX D21516DX Q116110QX Q21729QX V1315DC1.700 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS * * A1_128 operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A1_1281 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 ip34 dc 120u rp34 3.00E6 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A2_128 operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A2_1281 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 ip34 dc 120u rp34 3.00E6 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A3_128 operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:33 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_1281 2 3 4 5 * c111 12 2.730E-12 c267 15.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 163.2E6 -160E6 160E6 160E6 -160E6 ga60 11 12 122.5E-6 gcm06 10 99 12.25E-12 iee104 dc 63.95E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc13 11 8.162E3 rc23 12 8.162E3 re113 10 7.327E3 re214 10 7.327E3 ree10 99 3.127E6 ro185 10 ro27 99 10 ip 34 dc 220u rp34 1.87E6 vb90 dc 0 vc3 53 dc 1.500 ve544 dc 1.400 vlim78 dc 0 vlp910 dc 5 vln0 92 dc 14 * .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=318.8) .ends *$ ************************************************************************** * INA128E = A1_128E + A2_128E + A3_128E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 12/11/96 AT 15:01 * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA128E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA128E/BB123458910 * * A1_128E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_128E * * A2_128E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_128E * * A3_128E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_128E * R1111340.0000K R213539.996K R3121440.0000K R414840.0000K CIN13144.0000PF R1FB91125.000K CC117115.0000PF R2FB101225.000K CC216125.0000PF CG19010.0000PF CG21008.0000PF RCE17920G I1316DC20.00E-6 I2317DC20.00E-6 IB1CAN 342DC40.00E-9 IB2CAN 346DC40.00E-9 IBAL04DC6.5E-6 D11517DX D21516DX Q1164210QX Q217469QX V1315DC1.700 ****************************** * Additions for the INA128E* * (Enhanced) macromodel* ****************************** * INPUT PROTECTION RIN1141 1K I114142 .7MA S114142 1 41 SP DI14341 DX I12443 DC .8MA S12443 1 41 SM RIN2245 1K I214546 .7MA S214546 2 45 SP DI24745 DX I22447 DC .8MAS22447 2 45 SM ************************* * Anti-inversion clamps * ************************* VSET1 3 40 DC 2.0 QSET1 4 40 42 QY VSET2 3 44 DC 2.0 QSET2 4 44 46 QY * .model sp vswitch(ron=10 roff=100E3 von=.7 voff=1).model sm vswitch(ron=10 roff=100E3 von=-.7 voff=-1) .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .MODEL QY PNP(IS=800.0E-18 BF=500) .ENDS * * A1_128E operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A1_128E1 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 ****************************** * Additions for the INA128E* * (Enhanced) macromodel* * A1_128e sub-circuit* ****************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0FQ130 POLY(1) VQ1 120u 1 FQ204 POLY(1) VQ2 120u -1 RP34 3.00E6 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A2_128E operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A2_128E1 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 ****************************** * Additions for the INA128E* * (Enhanced) macromodel* * A2_128e sub-circuit* ****************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0FQ130 POLY(1) VQ1 120u 1 FQ204 POLY(1) VQ2 120u -1 RP34 3.00E6 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A3_128E operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:33 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_128E1 2 3 4 5 * c111 12 2.730E-12 c267 15.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 163.2E6 -160E6 160E6 160E6 -160E6 ga60 11 12 122.5E-6 gcm06 10 99 12.25E-12 iee104 dc 63.95E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc13 11 8.162E3 rc23 12 8.162E3 re113 10 7.327E3 re214 10 7.327E3 ree10 99 3.127E6 ro185 300 ro27 99 300 vb90 dc 0 vc3 53 dc 1.500 ve544 dc 1.400 vlim78 dc 0 vlp910 dc 5 vln0 92 dc 14 ****************************** ** * Additions for the INA128E* * (Enhanced) macromodel* * A3_128e sub-circuit* ** ****************************** *OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DXVQ1210 0 VQ2220 0FQ130 POLY(1) VQ1 206.7E-6 1 FQ204 POLY(1) VQ2 206.7E-6 -1 RQ34 1.87e6 * .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=318.8) .ends *$ ************************************************************************** * INA129 = A1_129 + A2_129 + A3_129 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 11/20/96 AT 15:01 * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA129 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA129/BB123458910 * * A1_129 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_129 * * A2_129 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_129 * * A3_129 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_129 * R1111340.0000K R213539.996K R3121440.0000K R414840.0000K CIN13144.0000PF R1FB91124.700K CC117115.0000PF R2FB101224.700K CC216125.0000PF CG19010.0000PF CG21008.0000PF RCE17920G I1316DC20.00E-6 I2317DC20.00E-6 IB1CAN 31DC40.00E-9 IB2CAN 32DC40.00E-9 Ibal04DC60.0E-6 D11517DX D21516DX Q116110QX Q21729QX V1315DC1.700 * .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .ENDS * * A1_129 operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A1_1291 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 ip34 dc 120u rp34 3.00E6 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A2_129 operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A2_1291 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 ip34 dc 120u rp34 3.00E6 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A3_129 operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:33 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_1291 2 3 4 5 * c111 12 2.730E-12 c267 15.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 163.2E6 -160E6 160E6 160E6 -160E6 ga60 11 12 122.5E-6 gcm06 10 99 12.25E-12 iee104 dc 63.95E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc13 11 8.162E3 rc23 12 8.162E3 re113 10 7.327E3 re214 10 7.327E3 ree10 99 3.127E6 ro185 10 ro27 99 10 ip 34 dc 220u rp34 1.87E6 vb90 dc 0 vc3 53 dc 1.500 ve544 dc 1.400 vlim78 dc 0 vlp910 dc 5 vln0 92 dc 14 * .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=318.8) .ends *$ ************************************************************************** * INA129E = A1_129E + A2_129E + A3_129E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 12/11/96 AT 15:01 * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA129E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SENSE 1 *|||||||GAIN SENSE 2 *|||||||| .SUBCKT INA129E/BB123458910 * * A1_129E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X115173411A1_129E * * A2_129E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X215163412A2_129E * * A3_129E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31413345A3_129E * R1111340.0000K R213539.996K R3121440.0000K R414840.0000K CIN13144.0000PF R1FB91124.700K CC117115.0000PF R2FB101224.700K CC216125.0000PF CG19010.0000PF CG21008.0000PF RCE17920G I1316DC20.00E-6 I2317DC20.00E-6 IB1CAN 342DC40.00E-9 IB2CAN 346DC40.00E-9 IBAL04DC6.5E-6 D11517DX D21516DX Q1164210QX Q217469QX V1315DC1.700 ****************************** * Additions for the INA129E* * (Enhanced) macromodel* ****************************** * INPUT PROTECTION RIN1141 1K I114142 .7MA S114142 1 41 SP DI14341 DX I12443 DC .8MA S12443 1 41 SM RIN2245 1K I214546 .7MA S214546 2 45 SP DI24745 DX I22447 DC .8MAS22447 2 45 SM ************************* * Anti-inversion clamps * ************************* VSET1 3 40 DC 2.0 QSET1 4 40 42 QY VSET2 3 44 DC 2.0 QSET2 4 44 46 QY * .model sp vswitch(ron=10 roff=100E3 von=.7 voff=1).model sm vswitch(ron=10 roff=100E3 von=-.7 voff=-1) .MODEL DX D(IS=1.0E-24) .MODEL QX NPN(IS=800.0E-18 BF=500) .MODEL QY PNP(IS=800.0E-18 BF=500) .ENDS * * A1_129E operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A1_129E1 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 ****************************** * Additions for the INA129E* * (Enhanced) macromodel* * A1_129e sub-circuit* ****************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0FQ130 POLY(1) VQ1 120u 1 FQ204 POLY(1) VQ2 120u -1 RP34 3.00E6 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A2_129E operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:19 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A2_129E1 2 3 4 5 * c111 12 2.887E-12 c267 10.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 79.58E6 -80E6 80E6 80E6 -80E6 ga60 11 12 1.257E-3 gcm06 10 99 125.7E-12 iss3 10 dc 50.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 795.8 rd24 12 795.8 ro185 10 ro27 99 10 rss10 99 4.000E6 vb90 dc 0 vc3 53 dc 1.5 ve544 dc .9 vlim78 dc 0 vlp910 dc 14 vln0 92 dc 14 ****************************** * Additions for the INA129E* * (Enhanced) macromodel* * A2_129e sub-circuit* ****************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0FQ130 POLY(1) VQ1 120u 1 FQ204 POLY(1) VQ2 120u -1 RP34 3.00E6 * .model dx D(Is=800.0E-18) .model jx PJF(Is=15.00E-12 Beta=31.58E-3 Vto=-1) .ends * * A3_129E operational amplifier "macromodel" subcircuit * created using Parts release 6.3a on 11/18/96 at 14:33 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_129E1 2 3 4 5 * c111 12 2.730E-12 c267 15.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 163.2E6 -160E6 160E6 160E6 -160E6 ga60 11 12 122.5E-6 gcm06 10 99 12.25E-12 iee104 dc 63.95E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qx r269 100.0E3 rc13 11 8.162E3 rc23 12 8.162E3 re113 10 7.327E3 re214 10 7.327E3 ree10 99 3.127E6 ro185 300 ro27 99 300 vb90 dc 0 vc3 53 dc 1.500 ve544 dc 1.400 vlim78 dc 0 vlp910 dc 5 vln0 92 dc 14 ****************************** * Additions for the INA129E* * (Enhanced) macromodel* * A3_129e sub-circuit* ****************************** *OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DXVQ1210 0 VQ2220 0FQ130 POLY(1) VQ1 206.7E-6 1 FQ204 POLY(1) VQ2 206.7E-6 -1 RQ34 1.87e6 * .model dx D(Is=800.0E-18) .model qx NPN(Is=800.0E-18 Bf=318.8) .ends * XDUT1 2 3 4 5 8 9 10 INA129E/BB VSUP13 0 DC 15 VSUP20 4 DC 15 VREF8 0 DC 0 VP1 0 DC 0 *VP1 0 PULSE(0 .1 2ns 2ns 2ns 30us 60us) VM2 0 AC 1 *VM2 0 PULSE(0 -.1 2ns 2ns 2ns 80us 160us) RG9 10 RMOD {RVAL} *RG9 10 50.05 *RL5 010K *CL5 0 10000PF * .MODEL RMOD RES(R=1) * .OP .PROBE .AC DEC 10 .010 10000000 .DC VP -40 40 .05 .PARAM RVAL:1000 .STEP PARAM RVAL LIST 1000000000000 5555.5 505.05 50.05 *.TRAN 2ns 60us 100ns 100ns *.NOISE V([5]) VM 10 *.OPTIONS ITL1=1000 ;ITL2=100 *$ ************************************************************************** * INA131 = 2 x A1_131 + A3_131 OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 1/10/93 BY JLA.INA114E.MOD MODIFIED TO INA131 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * NODE ASSIGNMENTS OF SUBCKT INA131 CORRESPOND TO 8 PIN DIP PACKAGE OF * BURR-BROWN'S INA131 * * INA131 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SET 1 *|||||||GAIN SET 2 *|||||||| .SUBCKT INA131/BB32746518 * * A1_131 SUBCIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1217410A1_131 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X2387411A1_131 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31312746A3_131 * RFB1 101 25K RFB2 118 25K R110 12 5K R2126 24.9985K R311 13 5K R4135 25K C1126 5P C2135 5P CC1101 5P CC2118 5P RG118 2631.58 * .ENDS * * A1_131 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:21 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT A1_13112345 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.348E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 RP34 52.53E3 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3 NC=100 NR=100) .ENDS * * A3_131 OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:46 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_1311 2 3 4 5 * C111 12 13.51E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 251.9E6 -30E6 30E6 30E6 -30E6 GA60 11 12 339.3E-6 GCM06 10 99 339.3E-12 IEE104 DC 18E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.947E3 RC23 12 2.947E3 RE113 10 74.778 RE214 10 74.778 REE10 99 11.111E6 RO185 13 RO27 99 117 RP34 30.123E3 VB90 DC 0 VC3 53 DC 1.972 VE544 DC 1.972 VLIM78 DC 0 VLP910 DC 12 VLN0 92 DC 12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=30.00E3) .ENDS *$ ************************************************************************** * INA131E = 2 x A1_131E + A3_131E OP AMPS + PRECISION RESISTOR NETWORK * CREATED ON 1/10/93 BY JLA.INA114E.MOD MODIFIED TO INA131 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * NODE ASSIGNMENTS OF SUBCKT INA131 CORRESPOND TO 8 PIN DIP PACKAGE OF * BURR-BROWN'S INA131 * * INA131E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||GAIN SET 1 *|||||||GAIN SET 2 *|||||||| .SUBCKT INA131E/BB32746518 * * A1_131E SUBCIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X1217410A1_131E * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X2387411A1_131E * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X31312746A3_131E * RFB1 101 25K RFB2 118 25K R110 12 5K R2126 24.9985K R311 13 5K R4135 25K C1126 5P C2135 5P CC1101 5P CC2118 5P RG118 2631.58 * .ENDS * * A1_131E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:21 * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT A1_131E12345 * C111 12 6.060E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 165.8E6 -20E6 20E6 20E6 -20E6 GA60 11 12 188.5E-6 GCM06 10 99 188.5E-12 IEE104 DC 27E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 5.305E3 RC23 12 5.305E3 RE113 10 4.348E3 RE214 10 4.348E3 REE10 99 7.4074E6 RO185 40 RO27 99 320 VB90 DC 0 VC3 53 DC 1.672 VE544 DC 1.672 VLIM78 DC 0 VLP910 DC 2 VLN0 92 DC 2 **************************** * A1_131E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ1 20 21 DX DQ2 22 20 DX VQ1 210 0 VQ2 220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ3 4 52.53E3 * DIFF INPUT CAPACITANCE CDIF 1 2 3E-12 * COMMON MODE INPUT CAPACITANCE C1CM 1 0 3E-12 C2CM 2 0 3E-12 * INPUT PROTECTION VS113 31 0 FS1103 VS11 1 S11310 1 0 SP FS1214 VS11 1 VS21 324 0 FS2140 VS21 1 S210 32 1 0 SM FS2231 VS21 1 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=36.00E3 NC=100 NR=100) .MODEL SP VSWITCH(RON=10K ROFF=100G VON=15.6 VOFF=15.5) .MODEL SM VSWITCH(RON=10K ROFF=100G VON=-15.6 VOFF=-15.5) .ENDS * * A3_131E OPERATIONAL AMPLIFIER " MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 5.0 ON 1/22/92 AT 13:46 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT A3_131E1 2 3 4 5 * C111 12 13.51E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 251.9E6 -30E6 30E6 30E6 -30E6 GA60 11 12 339.3E-6 GCM06 10 99 339.3E-12 IEE104 DC 18E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 2.947E3 RC23 12 2.947E3 RE113 10 74.778 RE214 10 74.778 REE10 99 11.111E6 RO185 13 RO27 99 117 VB90 DC 0 VC3 53 DC 1.972 VE544 DC 1.972 VLIM78 DC 0 VLP910 DC 12 VLN0 92 DC 12 **************************** * A3_131E "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 0 1 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ1 0 1 FQ204 POLY(1) VQ2 0 -1 * QUIESCIENT CURRENT RQ34 30.123E3 * DIFF INPUT CAPACITANCE CDIF12 10E-12 * COMMON MODE INPUT CAPACITANCE C1CM10 5E-12 C2CM20 5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=30.00E3) .ENDS *$ ************************************************************************** * INA132 = A3_132 OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * CREATED ON 11/12/96 AT 4:50 * REV.A * REV.B18 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * *Notes on the INA132 macromodel:The only modification *made to the standard model was the inclusion of current source *ip. The combination of ip and rp give a better simulation of *quiescent current over different supply voltages. * * INA132 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||SENSE *||||||| .SUBCKT INA132/BB1234589 * * A3_132 SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_132 * R121340000 R213939997 C2139.15p R311440000 R414840000 * .ENDS * * INA132 operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 11/08/96 at 17:04 * Parts is a OrCAD product. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_1321 2 3 4 5 * c111 12 7.279E-12 c267 40.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 1.326E9 -1E9 1E9 1E9 -1E9 ga60 11 12 75.40E-6 gcm06 10 99 377.0E-12 iee3 10 dc 4.730E-6 hlim 900 vlim 1K q1112 13 qx q2121 14 qxr269 100.0E3 rc14 11 13.26E3 rc24 12 13.26E3 re113 10 .9kre214 10 .9kree10 99 42.28E6 ro185200ro27 99200vb90 dc 0 vc3 53 dc 1.350 ve544 dc .80 vlim78 dc 0 vlp910 dc 12 vln0 92 dc 12 rp345E6ip34149u* .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=300) .ENDS *$ ************************************************************************** * INA132E = A3_132E OPERATIONAL AMPLIFIER + PRECISION RESISTOR NETWORK * "E" IS ENHANCED MODEL * CREATED ON 11/11/96 AT 2:50 * REV.A * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * INA132E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *|||||REFERENCE *||||||SENSE *||||||| .SUBCKT INA132E/BB1234589 * * A3_132E SUB-CIRCUIT * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| X114 13345A3_132E * R121340000 R213939997 C2139.15p R311440000 R414840000 * .ENDS * * INA132E operational amplifier "macromodel" subcircuit * created using Parts release 6.0 on 11/08/96 at 17:04 * Parts is a OrCAD product. * * Notes on construction of the INA132E Extended Macromodel: * * Differential and Common-Mode capacitances for the op-amp have been * eliminated because the inputs to the op-amp are not brought out of * the package. This limits the capacitance at those nodes. Any effect * on the AC performance of the part (particularly the AC CMRR) is * minimal because of the INA132's bandwidth of 300kHz * * The noise of the simulated op-amp is larger than that in the actual * circuit. This comes from the op-amp that was generated by the Micro- * Sim Parts program. It should be noted that the dominant source of * voltage noise is the four 40K resistors. VN1, VN2, DN1, DN2, and EN * are included so that the 1/f noise is accurately simulated. * The input bias current is also roughly half of the actual circuit. * This discrepancy also comes from the Parts program. * * Simulations involving capacitive load drive are approximate. In the * actual circuit, the output stage characteristics change more * with the type of load. Swing to the rails are also modeled with* approximations for the same reasons. * * While using the simulation in single supply, the simulation may not * give the correct result for the current coming out of the supplies * due to the nature of the model. The model was designed for dual * supply operation. * * For further information see the INA132 data sheet and the Burr-Brown * *** Based Macromodels Applications Bulletin. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt A3_132E1 2 3 4 5 * c111 12 7.279E-12 c267 40.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 1.326E9 -1E9 1E9 1E9 -1E9 ga60 11 12 75.40E-6 gcm06 10 99 377.0E-12 iee3 10 dc 4.730E-6 hlim 900 vlim 1K q1112 13 qx q212 64 14 qxr269 100.0E3 rc14 11 13.26E3 rc24 12 13.26E3 re113 10 .9kre214 10 .9kree10 99 42.28E6 ro185200ro27 99200vb90 dc 0 vc3 53 dc 1.350 ve544 dc .80 vlim78 dc 0 vlp910 dc 12 vln0 92 dc 12 ********************************** ** * Additions for the* * INA132E (enhanced) macro model * ** ********************************** rp345E6; replace rp w/ rp and ip to; get correct Iq change w/supply dq12021dx dq22220dx vq12100 vq22200 fq130poly(1) vq1149u1; Models current from fq204poly(1) vq2149u-1; supplies with load fq3020poly(1) vlim 01 vn1610.6; Noise model (1/f portion) vn2062.6 dn16163dy dn26362dy en641630.6 * .model dx D(Is=800.0E-18) .model dy D(Is=1.9E-16 AF=1 KF=2.258E-17) .model qx PNP(Is=800.0E-18 Bf=300) .ENDS*$ ************************************************************************** *ISO120X *** MACROMODEL-- Copyright 1990 Burr-Brown Corp. *REV.B6/11/92 BCB, adjusted Iq to PDS typ, added Vos, adjusted output *swing to PDS typ, adjusted barrier impedance * * Users should very carefully note the following factors regarding this * model: * * To help designers working with the IS0120 isolation amplifiers, * a *** listing for an equivalent circuit was developed (the listing * for the actual circuit is extremely long). Also, owing to the digital * transmission of the signal across the barrier, the listing for the * actual circuit could only be run with transient analysis, which would * be impractical for an application circuit. The equivalent circuit * listing, though, should be helpful. * * The equivalent circuit simulates both quiescent and output loading. * The model includes the output voltage swing and current limit, the * bandwidth, and the input and output impedance limits. It doesn't * simulate synchronization, though, nor the notched response. The macro * circuit may be run with ac, dc, or transient analysis. * * CONNECTIONS:+VS1 *|-VS1 *||COM2 *|||VOUT *||||VOUT SENSE *|||||GND2 *||||||C2H *|||||||C2L *||||||||+VS2 *|||||||||-VS2 *||||||||||COM1 *|||||||||||VIN *||||||||||||GND1 *||||||||||||| .SUBCKT ISO120X/BB 349 10 11 12 13 14 15 16 21 23 24 * *NOTE PINS 1, 2, AND 22 (C1H. C1L AND EXT OSC ARE NOT USED *POWER SUPPLY OUIESCENT CURRENTS * I13 24 4.0E-3 I2244 4.0E-3 I315 12 4.5E-3 I412 16 4.5E-3 *INPUT SECTION VOS 23 60 5E-3 R160 50 200E3 R250 51 200E3 E151 21 21 50 100E3 E2529 51 21 1 *OUTPUT SECTION R3 52 13 200E3 R4 13 11 200E3 R5 10 12 20E3 C1 13 14 150E-12 E3 14 12 9 13 1.6E3 E4 54 12 14 12 6.28 Q1 55 55 54 N Q2 56 56 54 P Q3 57 55 10 N Q4 58 56 10 P * .MODEL N NPN BF=100 .MODEL P PNP BF=100 V1 15 57 2.5 V2 58 16 2.5 I5 15 55 250E-6 I6 56 16 250E-6 *BARRIER IMPEDANCE R6 24 12 100E12 C2 24 12 2E-12 *REFERENCE TO NODE 0 NEEDED BY SOME VERSIONS OF *** R7 23 0 100E9 .ENDS *$ ************************************************************************** *ISO121X *** MODEL-- Copyright 1990 Burr-Brown Corp. * Rev.B6/11/92 BCB, adjusted Iq to PDS typ, added Vos, adjusted output *swing to PDS typ, adjusted barrier impedance * * Users should very carefully note the following factors regarding this * model: * * To help designers working with the IS0121 isolation amplifiers, * a *** listing for an equivalent circuit was developed (the listing * for the actual circuit is extremely long). Also, owing to the digital * transmission of the signal across the barrier, the listing for the * actual circuit could only be run with transient analysis, which would * be impractical for an application circuit. The equivalent circuit * listing, though, should be helpful. * * The equivalent circuit simulates both quiescent and output loading. * The model includes the output voltage swing and current limit, the * bandwidth, and the input and output impedance limits. It doesn't * simulate synchronization, though, nor the notched response. The macro * circuit may be run with ac, dc, or transient analysis. * *+VS1 *|-VS1 *||COM2 *|||VOUT *||||VOUT SENSE *|||||GND2 *||||||C2H *|||||||C2L *||||||||+VS2 *|||||||||-VS2 *||||||||||COM1 *|||||||||||VIN *||||||||||||GND1 *||||||||||||| .SUBCKT ISO121X/BB 34 17 18 19 20 21 22 23 24 37 39 40 * *NOTE PINS 1, 2, AND 38 (C1H. C1L AND EXT OSC ARE NOT USED *POWER SUPPLY OUIESCENT CURRENTS * I13 40 4.0E-3 I2 404 4.0E-3 I3 23 20 4.5E-3 I4 20 24 4.5E-3 *INPUT SECTION VOS 39 60 5E-3 R160 50 200E3 R250 51 200E3 E151 37 37 50 100E3 E252 17 51 37 1 *OUTPUT SECTION R3 52 21 200E3 R4 21 19 200E3 R5 18 20 20E3 C1 21 22 150E-12 E3 22 20 17 21 1.6E3 E4 54 20 22 20 6.28 Q1 55 55 54 N Q2 56 56 54 P Q3 57 55 18 N Q4 58 56 18 P * .MODEL N NPN BF=100 .MODEL P PNP BF=100 V1 23 57 2.5 V2 58 24 2.5 I5 23 55 250E-6 I6 56 24 250E-6 *BARRIER IMPEDANCE R6 40 20 100E12 C2 40 20 2E-12 *REFERENCE TO NODE 0 NEEDED BY SOME VERSIONS OF *** R7 390 100E9 * .ENDS *$ ************************************************************************** * ISO130XSIMPLIFIED CIRCUIT MODEL * CREATED12/19/94SB * REV. A * * CONNECTIONS:VS1 *|VIN+ *||VIN- *|||GND1 *||||GND2 *|||||VOUT- *||||||VOUT+ *|||||||VS2 .SUBCKT ISO130X/BB12345678 * * INPUT STAGE D121DMOD D231DMOD R129530 R2310530 D349DMOD D4410DMOD R349530k R4410530k I149670n I2410670n GVS1 14POLY(1) (22,23) 4.37M 0 -445U 0 69.1U 0 -6.34U R514790 E1115POLY(1) (9,10) -3.6M 4 V213112.395 V31253.61 Q1131114QMOD Q217516QMOD RE1141531k RE2151631k I315537.356U R6121765.7k TDELAY 17 5 18 5 Z0=65.7k TD=970n C11856.3p R7181965.7k C21956.3p R8192052.7k C3202215.2p R9202152.7k C42156.52p E22252151 E3235POLY(1) (22,5) 4.79 -1 R1022711 R1123611R12852.2k GVS2 85POLY(1) (22,23) 8.71M 145U 189U -1.22U -15.8U -127N 1.43U * .MODELDMODDIS=8E-13 .MODELQMODNPN .ENDS *$ ************************************************************************** * IVC102M (switched integrator) MULTIPLE POLE/ZERO MACROMODEL * REV. ACreated 5-30-96 BCB * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE ** NOTES :*1.The transient time for the input to the switches (HOLD and*RESET) should be programmed to 6V/usec.*Complying with this requirment will give you greater *success in convergence during transient analysis and *a more accurate simulation of the effect of the 200nsec *switching speed of the actual switching transistors in*the IVC102.This is easily implemented with the PULSE *command in ***.If your input signal to the switches *is faster than recommended above, the R-C, low-pass filter *on the input of the switch will slow the signal down some- *what, however not enough to comply with the data sheet stated *switching speeds of 200nsec. *2.To insure proper operation, always establish the initial*bias point for the transient analysis with RESET and*HOLD equal to the potential at COM * *AGND *|SWIN (SWITCH IN) *||INM *|||C1 *||||C2 *|||||C3 *||||||VM (NEGATIVE SUPPLY) *|||||||VOUT *||||||||S1 (HOLD) *|||||||||S2 (RESET) *||||||||||DGND *|||||||||||VP (POSITIVE SUPPLY) *|||||||||||| .SUBCKTIVC102M/BB 123456910 11 12 13 14 * X13 1 10 9 14 OPA_102 *Integration Capacitors C1 10 4 CC 10E-12 C2 10 5 CC 30E-12 C3 10 6 CC 60E-12 * Switches SH123 11 13 SWH SH2232 13 SWT SR3 10 12 13 SWR * .MODEL SWH VSWITCH(RON=1000G ROFF=1.7E3 VON=2 VOFF=0.8) .MODEL SWR VSWITCH(RON=1000G ROFF=1.5E3 VON=2 VOFF=0.8) .MODEL SWT VSWITCH(RON=1000G ROFF=10 VON=0.45 VOFF=0.55) .MODEL CC CAP(VC1=25E-6 TC1=-25E-6) .ENDS * *INM *|INP *||OUT *|||VM *||||VP *||||| .SUBCKTOPA_10223647 * * Amp input stage (2nd pole @ 35M Hz) J11 152 14 JX J12 16 13 14 JX C12 15 16 18.2E-12 R13 157 796 R14 167 796 ISS 144 1.11E-3 VOS 133 0.5E-3 G12 30 POLY(3) (15,2) (14,2) (30,2) 0 1E-12 1E-12 1E-12 G213 30 POLY(3) (16,13) (14,13) (30,13) 0 1E-12 1E-12 1E-12 * Amp gain stage (130dB) and first pole (@ 4.20K HZ) R277 21 2.45E9 R284 21 2.45E9 C227 21 100E-12 C234 21 100E-12 G217 21 POLY(1) 15 16 1.451E-3 1.256E-3 G22 214 POLY(1) 16 15 1.451E-3 1.256E-3 I227 13 2.2E-3 V217 22 1.885 V22 234 1.885 D21 21 22 DX D22 23 21 DX * Amp correction current and output stage IPS7 30 9E-3 RPS7 30 100E3 R97 71 100E3 R104 71 100E3 D91 216 DX D926 21 DX D937 94 DX D947 95 DX D954 94 DY D964 95 DY G9176 21 7 .020387 G9246 21 4 .020387 G95 944 6 21 .020387 G96 954 21 6 .020387 R9176 49.051 R9246 49.051 * Models .MODEL JX NJF(BETA=.788E-3 VTO=-2 IS=5E-14) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15BV=50) .ENDS*$ ************************************************************************** * MPC100X1 4X1 VIDEO MULTIPLEXER MACROMODEL * REV.A7/6/92KL * REV.B2/14/96SBchanged node assignments * * CONNECTIONS:IN 1 *| IN 2 *| | IN 3 *| | | IN 4 *| | | | SELECT 4 *| | | | | SELECT 3 *| | | | | |POSITIVE SUPPLY *| | | | | ||OUPUT *| | | | | |||NEGATIVE SUPPLY *| | | | | ||||SELECT 2 *| | | | | |||||SELECT 1 *| | | | | |||||| .SUBCKT MPC100X1/BB 1 3 5 7 8 9 10 11 12 13 14 * X11 12 11 10 14MUX1 ; One of four muxes X23 12 11 10 13MUX1 ; One of four muxes X35 12 11 109MUX1 ; One of four muxes X47 12 11 108MUX1 ; One of four muxes * C208802E-12 C209902E-12 C2111102E-12 C2131302E-12 C2141402E-12 * .ENDS* * ONE OF FOUR CHANNELS OF THE VIDEO SIGNAL MULTIPLEXER *INPUT *|NEGATIVE SUPPLY *||OUTPUT *|||POSITIVE SUPPLY *||||SELECT *||||| *||||| .SUBCKT MUX1 1 10 11 12 14 * V222201.5 V2712 271.5 V2828 101.5 G2125 2614 22-87E-6 C232302.0E-12 C2423 110.1E-12 C252500.6E-12 C262600.6E-12 R2114040E3 R222201E9 R232301.3E6 R24231145 Q2210 1025NI Q2126 2612NI Q2310 2325PI Q2412 2326NI Q2527 2511NI 4 Q2628 2611PI 4 * .MODEL NI NPN .MODEL PI PNP .ENDS *$ ************************************************************************** * MPC100X24X1 VIDEO MULTIPLEXER MACROMODEL * REV.A7/6/92KL * REV.B2/14/96 SBchanged node assignments * * NOTE: CHANNELS THAT ARE DISABLED DURING DC CONVERGENCE REQUIRE A NODESET. *BRIEFLY, THE NODES FOR THE MUX2 SUBCIRCUIT SHOULD BE SET AS FOLLOWS: *V(27)=+4.61943527 V(28)=-4.61934561 *V(35)=-2.80931530 V(36)=+2.80931527 *V(39)=-1.30810853 V(40)=+1.30803889 *V(41)=-34.818621E-6 *THE FILE THAT CONTAINS THE COMMAND TO ACCESS THIS MACRO MODEL SHOULD *CONTAIN THIS NODE SET FOR THE DISABLED CHANNELS OF THE MPC100. FOR*EXAMPLE, IF CHANNEL A IS ON AND CHANNEL B, C, AND D ARE OFF DURING *DC CONVERGENCE AND THE DEVICE NAME FOR THE MPC100X2 MODEL IS IS X1,*THE REQUIRED NODESET WOULD BE: * * Channel B = OFF *.NODESETV(X1.X2.27)=+4.61943527 V(X1.X2.28)=-4.61934561 *.NODESETV(X1.X2.35)=-2.80931530 V(X1.X2.36)=+2.80931527 *.NODESETV(X1.X2.39)=-1.30810853 V(X1.X2.40)=+1.30803889 *.NODESETV(X1.X2.41)=-34.818621E-6 * *Channel C = OFF *.NODESETV(X1.X3.27)=+4.61943527 V(X1.X3.28)=-4.61934561 *.NODESETV(X1.X3.35)=-2.80931530 V(X1.X3.36)=+2.80931527 *.NODESETV(X1.X3.39)=-1.30810853 V(X1.X3.40)=+1.30803889 *.NODESETV(X1.X3.41)=-34.818621E-6 * *Channel D = OFF *.NODESETV(X1.X4.27)=+4.61943527 V(X1.X4.28)=-4.61934561 *.NODESETV(X1.X4.35)=-2.80931530 V(X1.X4.36)=+2.80931527 *.NODESETV(X1.X4.39)=-1.30810853 V(X1.X4.40)=+1.30803889 *.NODESETV(X1.X4.41)=-34.818621E-6 * * CONNECTIONS:IN 1 *| IN 2 *| | IN 3 *| | | IN 4 *| | | | SELECT 4 *| | | | | SELECT 3 *| | | | | |POSITIVE SUPPLY *| | | | | ||OUPUT *| | | | | |||NEGATIVE SUPPLY *| | | | | ||||SELECT 2 *| | | | | |||||SELECT 1 *| | | | | |||||| .SUBCKT MPC100X2/BB 1 3 5 7 8 9 10 11 12 13 14 * X11 12 11 10 14MUX2 ; One of four muxes X23 12 11 10 13MUX2 ; One of four muxes X35 12 11 109MUX2 ; One of four muxes X47 12 11 108MUX2 ; One of four muxes * C201102E-12 C203302E-12 C205502E-12 C207702E-12 C208802E-12 C209902E-12 C2111102E-12 C2131302E-12 C2141402E-12 * .ENDS* * ONE OF FOUR CHANNELS OF THE VIDEO SIGNAL MULTIPLEXER *INPUT *|NEGATIVE SUPPLY *||OUTPUT *|||POSITIVE SUPPLY *||||SELECT *||||| *||||| .SUBCKT MUX2 1 10 11 12 14 * C242403.0E-12 C2828 100.1E-12 C331 110.1E-12 * R2121 1440E3 R2323 2422E3 R2929 12100 R3030 10100 R3131 12100R3232 10100 R4343 1240E3 R4444 1040E3 R4545 4680E3 * Q2124 21 22NI Q2222 220NI Q2323 23 12PI Q2425 23 12PI Q2525 25 26NI Q2600 26PI Q2727 25 42NI8 Q28280 42PI8 Q2927 27 29PIJ 6 Q3028 28 30NIJ 6 Q3135 27 31PIJ 6 Q3236 28 32NIJ 6 Q33101 33PIJ 2 Q34121 34NIJ 2 Q3535 35 33NIJ 2 Q3636 36 34PIJ 2 Q3735 35 39NIJ 6 Q3836 36 40PIJ 6 Q3939 39 41NIJ 6 Q4040 40 41PIJ 6 Q4112 39 11NIJ 10 Q4210 40 11PIJ 10 Q4336 45 43PI Q4435 46 44NI Q4545 45 43PI5 Q4646 46 44NI5 * .MODEL PI PNP .MODEL NI NPN .MODEL PIJ PNP +BF= 110IS= 0.1567E-16 +CJC = 0.029pAF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017pEG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050pFC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80pMJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00pMJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680 * .MODEL NIJ NPN +BF= 110IS= 0.1567E-16 +CJC = 0.029pAF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017pEG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050pFC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80pMJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00pMJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680 * .ENDS *$ ************************************************************************** * MPC102X1DUAL 2X1 VIDEO MULTIPLEXER MACROMODEL * REV.A1/10/95KL/SB * REV.B2/14/96SBchanged node assignments * * CONNECTIONS:IN 1 *| IN 2 *| | +Vcc *| | | IN 3 *| | | | IN 4 *| | | | | SELECT 4 *| | | | | |SELECT 3*| | | | | ||OUT 2 *| | | | | |||-Vcc *| | | | | ||||OUT 1 *| | | | | |||||SELECT 2 *| | | | | ||||||SELECT 1 .SUBCKT MPC102X1/BB 1 3 4 5 7 89 10 11 12 13 14 * X111112414MUX3 ; Channel 1 into Out 1 X231112413MUX3 ; Channel 2 into Out 1 X35111049MUX3 ; Channel 3 into Out 2 X47111048MUX3 ; Channel 4 into Out 2 * C208802E-12 C209902E-12 C2101002E-12 C2121202E-12 C2131302E-12 C2141402E-12 * .ENDS* * ONE OUT OF FOUR CHANNELS OF THE MPC102X1 MODEL *INPUT *|NEGATIVE SUPPLY *||OUTPUT *|||POSITIVE SUPPLY *||||SELECT *||||| *||||| .SUBCKT MUX3 1 10 11 12 14 * V222201.5 V2712 271.5 V2828 101.5 * G2125 2614 22-87E-6 * C232302.0E-12 C2423 110.1E-12 C252500.6E-12 C262600.6E-12 * R2114040E3 R222201E9 R232301.3E6 R24231145 * Q2210 10 25NI Q2126 26 12NI Q2310 23 25PI Q2412 23 26NI Q2527 25 11NI 4 Q2628 26 11PI 4 * .MODEL NI NPN .MODEL PI PNP .ENDS *$ ************************************************************************** * MPC104X12X1 VIDEO MULTIPLEXER MACROMODEL * REV.A1/10/95KL/SB * REV.B2/14/96SBchanged node assignments * * CONNECTIONS:IN1 *|+Vcc *||IN2 *|||SELECT2 *||||OUT *|||||-Vcc *||||||SELECT 1 *||||||| .SUBCKT MPC104X1/BB 1345678* X117638MUX4 ; One out of two channels X247635MUX4 ; One out of two channels * C208802E-12 C205502E-12 C206602E-12 * .ENDS* * ONE OUT OF TWO CHANNELS OF THE VIDEO SIGNAL MULTIPLEXER *INPUT *|NEGATIVE SUPPLY *||OUTPUT *|||POSITIVE SUPPLY *||||SELECT *||||| *||||| .SUBCKT MUX4 1 10 11 12 14 * V222201.5 V2712 271.5 V2828 101.5 G2125 2614 22-87E-6 C232302.0E-12 C2423 110.1E-12 C252500.6E-12 C262600.6E-12 R2114040E3 R222201E9 R232301.3E6 R24231145 Q2210 10 25NI Q2126 26 12NI Q2310 23 25PI Q2412 23 26NI Q2527 25 11NI 4 Q2628 26 11PI 4 * .MODEL NI NPN .MODEL PI PNP * .ENDS *$ ************************************************************************** * OPA1013 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/09/90 AT 15:20 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA1013/BB1 2 3 4 5 * C111 12 6.062E-12 C267 21.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 1.624E9 -2E9 2E9 2E9 -2E9 GA60 11 12 92.36E-6 GCM06 10 99 130.5E-12 IEE3 10 DC 8.418E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC14 11 10.83E3 RC24 12 10.83E3 RE113 10 4.659E3 RE214 10 4.659E3 REE10 99 23.76E6 RO185 120 RO27 99 30 RP34 87.82E3 VB90 DC 0 VC3 53 DC 1 VE544 DC 1 VLIM78 DC 0 VLP910 DC 30 VLN0 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA1013E/BB 1 2 3 4 5 * C111 12 6.062E-12 C267 21.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 1.624E9 -2E9 2E9 2E9 -2E9 GA60 11 12 92.36E-6 GCM06 10 99 130.5E-12 IEE3 10 DC 8.418E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC14 11 10.83E3 RC24 12 10.83E3 RE113 10 4.659E3 RE214 10 4.659E3 REE10 99 23.76E6 RO185 120 RO27 99 30 *RP34 87.82E3 VB90 DC 0 VC3 53 DC 1 VE544 DC 1 VLIM78 DC 0 VLP910 DC 30 VLN0 92 DC 30 **************************** * OPA1013 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ10.2814E-31 FQ204 POLY(1) VQ20.2814E-3 -1 * QUIESCIENT CURRENT RQ345.0E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=466.7) .ENDS *$ ************************************************************************** * OPA111 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 16:35 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA111/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.717E6 -5E6 5E6 5E6 -5E6 GA60 11 12 5.027E-3 GCM06 10 99 15.90E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA111E/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.717E6 -5E6 5E6 5E6 -5E6 GA60 11 12 5.027E-3 GCM06 10 99 15.90E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J21264 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 400E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 400E-9 R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 *RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 **************************** * OPA111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.30E-31 FQ204 POLY(1) VQ21.30E-3 -1 * QUIESCIENT CURRENT RQ347.5E4 * DIFF INPUT CAPACITANCE CDIF6421.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM6499 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISE VN1 6140.6 VN2462 0.6 DN1 6163 DY DN2 6362 DY EN64163 4 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=3.8E-16 AF=1 KF=1.175E-16) .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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA121/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 -3E6 3E6 3E6 -3E6 GA60 11 12 5.027E-3 GCM06 10 99 31.72E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA121E/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E6 -3E6 3E6 3E6 -3E6 GA60 11 12 5.027E-3 GCM06 10 99 31.72E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J21264 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 800E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 800E-9 R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 *RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 **************************** * OPA121 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.30E-31 FQ204 POLY(1) VQ21.30E-3 -1 * QUIESCIENT CURRENT RQ347.5E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISE VN1 6140.6 VN2462 0.6 DN1 6163 DY DN2 6362 DY EN64163 4 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=3.8E-16 AF=1 KF=2.089E-16) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA124 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED 11/8/93BCB * REV. A ** CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT OPA124/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.717E6 -5E6 5E6 5E6 -5E6 GA60 11 12 5.027E-3 GCM06 10 99 15.90E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=400.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA124E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED 11/8/93 BCB * REV. A ** CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT OPA124E/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.717E6 -5E6 5E6 5E6 -5E6 GA60 11 12 5.027E-3 GCM06 10 99 15.90E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 400E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 400E-9 R269 100E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 *RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 **************************** * OPA124 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.30E-31 FQ204 POLY(1) VQ21.30E-3 -1 * QUIESCIENT CURRENT RQ347.5E4 * DIFF INPUT CAPACITANCE CDIF 6421.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM6499 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISEVN1 6140.6 VN24620.6 DN1 6163DY DN2 6362DY EN64163 4 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=3.8E-16 AF=1 KF=1.175E-16) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=400.0E-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 * REV. A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA128/BB1 2 3 4 5 * C111 12 2.204E-12 C267 25.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 106.6E6 -10E6 10E6 10E6 -10E6 GA60 11 12 314.2E-6 GCM06 10 99 395.5E-12 ISS3 10 DC 80.00E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 3.183E3 RD24 12 3.183E3 RO185 25 RO27 99 75 RP34 33.33E3 RSS10 99 2.500E6 VB90 DC 0 VC3 53 DC 2 VE544 DC 2 VLIM78 DC 0 VLP910 DC 29 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA128E/BB1 2 3 4 5 * C111 12 2.204E-12 C267 25.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 106.6E6 -10E6 10E6 10E6 -10E6 GA60 11 12 314.2E-6 GCM06 10 99 395.5E-12 ISS3 10 DC 80.00E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 120E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 120E-9 R269 100.0E3 RD14 11 3.183E3 RD24 12 3.183E3 RO185 25 RO27 99 75 *RP34 33.33E3 RSS10 99 2.500E6 VB90 DC 0 VC3 53 DC 2 VE544 DC 2 VLIM78 DC 0 VLP910 DC 29 VLN0 92 DC 29 **************************** * OPA128 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ10.700E-31 FQ204 POLY(1) VQ20.700E-3 -1 * QUIESCIENT CURRENT RQ342.5E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.0E-12 C2CM299 1.0E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1.9E-16 AF=1 KF=5.643E-16) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=20.00E-15 BETA=616.8E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA129 operational amplifier "macromodel" subcircuit * created using Parts release 5.2 on 12/15/94 at 14:58 * REV.ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA129/BB1 2 3 4 5 * c111 12 4.000E-12 c267 2.204E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 192.5E6 -20E6 20E6 20E6 -20E6 ga60 11 12 314.2E-6 gcm06 10 99 395.5E-12 iss3 10 dc 80.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 3.183E3 rd24 12 3.183E3 ro185 25 ro27 99 75 rp34 25.00E3 rss10 99 2.500E6 vb90 dc 0 vc3 53 dc 2 ve544 dc 2 vlim78 dc 0 vlp910 dc 22.00E-3 vln0 92 dc 22.00E-3 * .model dx D(Is=800.0E-18) .model jx PJF(Is=20.00E-15 Beta=616.8E-6 Vto=-1) .ends *$ ************************************************************************** * OPA129E operational amplifier "macromodel" subcircuit * "E" is enhanced model * created using Parts release 5.2 on 12/15/94 at 14:58 * REV. ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA129E/BB1 2 3 4 5 * c111 12 4.000E-12 c267 2.204E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 192.5E6 -20E6 20E6 20E6 -20E6 ga60 11 12 314.2E-6 gcm06 10 99 395.5E-12 iss3 10 dc 80.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx g1124 poly(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 100E-9 g2114 poly(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 100E-9 r269 100.0E3 rd14 11 3.183E3 rd24 12 3.183E3 ro185 25 ro27 99 75 rp34 25.00E3 rss10 99 2.500E6 vb90 dc 0 vc3 53 dc 2 ve544 dc 2 vlim78 dc 0 vlp910 dc 22.00E-3 vln0 92 dc 22.00E-3 ***************************** * OPA129 "E" ENHANCEMENTS ***************************** * Output Supply Mirror fq3020poly(1)vlim 0 1 dq12021dx dq22220dx vq12100 vq22200 fq130poly(1) vq10.700E-31 fq204poly(1) vq20.700E-3-1 * Diff Input Capacitance cdif121.0E-12 * Common Mode Input Capacitance c1cm1991.0E-12 c2cm2991.0E-12 * Input Voltage Noise vn16100.6 vn20620.6 dn16163dy dn26362dy en6416301 * Input Current Noise rn106560.3865 rn2656660.3865 rn3660120.773 rn406760.3865 rn5676860.3865 rn6680120.773 * .model dy D(IS=1.9E-16 AF=1 KF=5.643E-16).model dx D(Is=800.0E-18) .model jx PJF(Is=20.00E-15 Beta=616.8E-6 Vto=-1) .ends*$ ************************************************************************** * OPA130 operational amplifier "macromodel" subcircuit * created using Parts release 6.2i on 04/03/96 at 16:48 * Parts is a OrCAD product. * Rev. ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA130/BB1 2 3 4 5 * c111 12 4.330E-12 c267 15.00E-12 css10 99 1.000E-30 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 2.386E9 -2E9 2E9 2E9 -2E9 ga60 11 12 94.25E-6 gcm06 10 99 530.1E-12 iss3 10 dc 30.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 10.61E3 rd24 12 10.61E3 ro185 50 ro27 99 25 rp34 56.25E3 rss10 99 6.667E6 vb90 dc 0 vc3 53 dc 1.500 ve544 dc 1 vlim78 dc 0 vlp910 dc 18 vln0 92 dc 18 * .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=296.1E-6 Vto=-1) .ends *$ ************************************************************************** * OPA131 operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 01/14/95 at 21:25 * REV. ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA131/BB1 2 3 4 5 * c111 12 4.197E-12 c267 18.00E-12 css10 99 7.200E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 452.4E-6 gcm06 10 99 45.24E-9 iss3 10 dc 252.0E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 2.210E3 rd24 12 2.210E3 ro185 50 ro27 99 25 rp34 20.00E3 rss10 99 793.7E3 vb90 dc 0 vc3 53 dc 2.500 ve544 dc 2.500 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=812.1E-6 Vto=-1) .endsOPA131/BB *$ ************************************************************************** * OPA131E "Enhanced" operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 01/14/95 at 21:25 * REV.ASB - model includes input bias current correction, *voltage and current noise. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA131E/BB1 2 3 4 5 * c111 12 4.197E-12 c267 18.00E-12 css10 99 7.200E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 452.4E-6 gcm06 10 99 45.24E-9 iss3 10 dc 252.0E-6 hlim 900 vlim 1K j111210 jx j212 6410 jx g1124 Poly(4)(10,2) (11,2) (4,2) (66,0) 0 1e-12 1e-12 1e-12 3e-6 g1214 Poly(4)(10,1) (12,1) (4,1) (68,0) 0 1e-12 1e-12 1e-12 3e-6 r269 100.0E3 rd14 11 2.210E3 rd24 12 2.210E3 ro185 50 ro27 99 25 * rp34 20.00E3 rss10 99 793.7E3 vb90 dc 0 vc3 53 dc 2.500 ve544 dc 2.500 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 ********************************** * OPA131 "E" - Enhancements ********************************** * Output Supply Mirror FQ3020Poly(1) Vlim 01 DQ12021DX DQ22220DX VQ12100 VQ22200 FQ130Poly(1) VQ11.06E-31 FQ204Poly(1) VQ21.06E-3-1 * Quiescent Current RQ34160E3* Diff Input Capacitance CDIF121E-12 * Common Mode Input Capacitance C1CM1991.5E-12 C2CM2991.5E-12 * Input Voltage Noise VN16100.6 VN20620.6 DN16163DY DN26362DY EN6416301 * Input Current Noise RN106560.3865 RN2656660.3865 RN3660120.773 RN406760.3865 RN5676860.3865 RN6680120.773 * .model dy D(Is=1.9E-16 RS=2000 AF=1 KF=2.258E-17) .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=812.1E-6 Vto=-1) .ends *$ ************************************************************************** * OPA132 operational amplifier "macromodel" subcircuit * created using Parts release 6.2i on 02/23/96 at 08:48 * Parts is a OrCAD product. * REV. ASB 7/20/96 * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPA132/BB1 2 3 4 5 * C111 12 3.240E-12 C267 8.000E-12 CSS10 99 1.000E-30 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 248.0E6 -250E6 250E6 250E6 -250E6 GA60 11 12 402.0E-6 GCM06 10 99 4.020E-9 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.490E3 RD24 12 2.490E3 RO185 20 RO27 99 20 RP34 7.500E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 1.200 VE544 DC .9 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-15 BETA=1.010E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA134 operational amplifier "macromodel" subcircuit * This model can also be used for OPA2134 (dual op amp) * created using Parts release 6.2i on 02/23/96 at 08:48 * Parts is a OrCAD product. * REV. ASB 7/20/96 adapted from OPA132 model 9/24/96BCT * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPA134/BB1 2 3 4 5 * C111 12 3.240E-12 C267 8.000E-12 CSS10 99 1.000E-30 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 248.0E6 -250E6 250E6 250E6 -250E6 GA60 11 12 402.0E-6 GCM06 10 99 4.020E-9 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 2.490E3 RD24 12 2.490E3 RO185 20 RO27 99 20 RP34 7.500E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 1.200 VE544 DC .9 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.500E-15 BETA=1.010E-3 VTO=-1) .ENDS*$ ************************************************************************** * OPA177 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 15:33 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA177/BB1 2 3 4 5 * C111 12 40.00E-12 C267 80.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 1.326E9 -1E9 1E9 1E9 -1E9 GA60 11 12 301.6E-6 GCM06 10 99 30.16E-12 IEE104 DC 20.00E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 3.316E3 RC23 12 3.316E3 RE113 10 729.2 RE214 10 729.2 REE10 99 9.999E6 RO185 30 RO27 99 30 RP34 15.15E3 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 22 VLN0 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *||| | OUTPUT *||| | | .SUBCKT OPA177E/BB INP INN 3 4 5 * C111 12 40.00E-12 C267 80.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 1.326E9 -1E9 1E9 1E9 -1E9 GA60 11 12 301.6E-6 GCM06 10 99 30.16E-12 IEE104 DC 20.00E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 3.316E3 RC23 12 3.316E3 RE113 10 729.2 RE214 10 729.2 REE10 99 9.999E6 RO185 30 RO27 99 30 *RP34 15.15E3 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 22 VLN0 92 DC 22 **************************** * OPA177 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ10.976E-31 FQ204 POLY(1) VQ20.976E-3 -1 * QUIESCIENT CURRENT RQ343.0E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT PROTECTION R1ININP 1500 D1A1 VD1 DX D1BVD1 2DX R2ININN 2500 D2A2 VD2 DX D2BVD2 1DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10.00E3) .ENDS *$ ************************************************************************** * OPA2107 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 10:03 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2107/BB1 2 3 4 5 * C111 12 7.764E-12 C267 33.30E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.124E6 -2E6 2E6 2E6 -2E6 GA60 11 12 941.5E-6 GCM06 10 99 9.415E-9 ISS3 10 DC 599.4E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.062E3 RD24 12 1.062E3 RO185 50 RO27 99 50 RP34 13.33E3 RSS10 99 333.7E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 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 * REV.B 3/21/92 BCB:added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2107E/BB 1 2 3 4 5 * C111 12 7.764E-12 C267 33.30E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.124E6 -2E6 2E6 2E6 -2E6 GA60 11 12 941.5E-6 GCM06 10 99 9.415E-9 ISS3 10 DC 599.4E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 900E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 900E-9 R269 100.0E3 RD14 11 1.062E3 RD24 12 1.062E3 RO185 50 RO27 99 50 *RP34 13.33E3 RSS10 99 333.7E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 **************************** * OPA2107 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.350E-31 FQ204 POLY(1) VQ21.350E-3 -1 * QUIESCIENT CURRENT RQ341.0E5 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.0E-12 C2CM299 2.0E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1E-12 AF=1 KF=68.36E-15) .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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2111/BB1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.717E6 -5E6 5E6 5E6 -5E6 GA60 11 12 5.027E-3 GCM06 10 99 15.90E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 4 VE544 DC 4 VLIM78 DC 0 VLP910 DC 40 VLN0 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 * REV.B 3/21/92 BCB:added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2111E/BB 1 2 3 4 5 * C111 12 72.79E-12 C267 400.0E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 4.717E6 -5E6 5E6 5E6 -5E6 GA60 11 12 5.027E-3 GCM06 10 99 15.90E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 600E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 600E-9 R269 100.0E3 RD14 11 198.9 RD24 12 198.9 RO185 25 RO27 99 75 *RP34 12.00E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 4 VE544 DC 4 VLIM78 DC 0 VLP910 DC 40 VLN0 92 DC 40 **************************** * OPA2111 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.30E-31 FQ204 POLY(1) VQ21.30E-3 -1 * QUIESCIENT CURRENT RQ347.5E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISE VN1 6140.6 VN24620.6 DN1 6163DY DN2 6362DY EN64163 4 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=2.25E-16 AF=1 KF=91E-18) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=15.79E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA2131 operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 01/14/95 at 21:25 * REV. ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA2131/BB1 2 3 4 5 * c111 12 4.197E-12 c267 18.00E-12 css10 99 7.200E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 452.4E-6 gcm06 10 99 45.24E-9 iss3 10 dc 252.0E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 2.210E3 rd24 12 2.210E3 ro185 50 ro27 99 25 rp34 20.00E3 rss10 99 793.7E3 vb90 dc 0 vc3 53 dc 2.500 ve544 dc 2.500 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=812.1E-6 Vto=-1) .ends *$ ************************************************************************** * OPA2131E "Enhanced" operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 01/14/95 at 21:25 * REV.ASB - model includes input bias current correction, *voltage and current noise. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA2131E/BB1 2 3 4 5 * c111 12 4.197E-12 c267 18.00E-12 css10 99 7.200E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 452.4E-6 gcm06 10 99 45.24E-9 iss3 10 dc 252.0E-6 hlim 900 vlim 1K j111210 jx j21264 10 jx g1124 Poly(4)(10,2) (11,2) (4,2) (66,0) 0 1e-12 1e-12 1e-12 3e-6 g1214 Poly(4)(10,1) (12,1) (4,1) (68,0) 0 1e-12 1e-12 1e-12 3e-6 r269 100.0E3 rd14 11 2.210E3 rd24 12 2.210E3 ro185 50 ro27 99 25 * rp34 20.00E3 rss10 99 793.7E3 vb90 dc 0 vc3 53 dc 2.500 ve544 dc 2.500 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 ********************************** * OPA2131 "E" - Enhancements ********************************** * Output Supply Mirror FQ3020Poly(1) Vlim 01 DQ12021DX DQ22220DX VQ12100 VQ22200 FQ130Poly(1) VQ11.06E-31 FQ204Poly(1) VQ21.06E-3-1 * Quiescent Current RQ34160E3* Diff Input Capacitance CDIF121E-12 * Common Mode Input Capacitance C1CM1991.5E-12 C2CM2991.5E-12 * Input Voltage Noise VN16100.6 VN20620.6 DN16163DY DN26362DY EN6416301 * Input Current Noise RN106560.3865 RN2656660.3865 RN3660120.773 RN406760.3865 RN5676860.3865 RN6680120.773 * .model dy D(Is=1.9E-16 RS=2000 AF=1 KF=2.258E-17) .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=812.1E-6 Vto=-1) .ends *$ ************************************************************************** * OPA234 operational amplifier "macromodel" subcircuit * created using Parts release 6.1 on 06/20/96 at 16:06 * Parts is a OrCAD product. * REV A. BB 7/20/96 * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPA234/BB1 2 3 4 5 * C111 12 6.995E-12 C267 30.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 479.3E6 -480E6 480E6 480E6 -480E6 GA60 11 12 65.97E-6 GCM06 10 99 1.046E-9 IEE3 10 DC 6.100E-6 HLIM 900 VLIM 1E3 Q1112 13 QX Q2121 14 QX R269 100.0E3 RC14 11 15.16E3 RC24 12 15.16E3 RE113 10 6.429E3 RE214 10 6.429E3 REE10 99 50.00E6 RO185 10 RO27 99 10 RP34 20.49E3 VB90 DC 0 VC3 53 DC 1.3 VE544 DC .65 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 * .MODEL DX D(IS=800.0E-18) .MODEL QX PNP(IS=800.0E-18 BF=60) .ends *$ ************************************************************************** * OPA234E operational amplifier enhanced "macromodel" subcircuit * created using Parts release 6.1 on 06/04/96 at 17:04 * Parts is a OrCAD product. * REV A. BB 7/20/96 * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPA234E/BB1 2 3 4 5 * C111 12 6.995E-12 C267 30E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 479.3E6 -480E6 480E6 480E6 -480E6 GA60 11 12 65.97E-6 GCM06 10 99 1.046E-9 IEE3 10 DC 6.100E-6 HLIM 900 VLIM 1E3 Q1112 13 QX Q212 64 14 QX R269 100.0E3 RC14 11 15.16E3 RC24 12 15.16E3 RE113 10 6.429E3 RE214 10 6.429E3 REE10 99 50.00E6 RO185 10 RO27 99 10 VB90 DC 0 VC3 53 DC 1.3 VE544 DC 0.65 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 ********************************** * OPA234 "E" - Enhancements ********************************** * Output Supply Mirror DQ12021DX DQ22220DX VQ12100 VQ22200 *adds quiescent plus positive output current FQ130POLY(1) VQ1235E-61 *adds quiescent plus negative output current FQ204POLY(1) VQ2235E-6-1 *mirrors output current-used by FQ1 and FQ2 FQ3020POLY(1) VLIM 01 * delta Quiescent Current / delta Supplies * determines change in IQ with change in power supply voltages RQ341E6 * Diff Input Capacitance CDIF125E-12 * Common Mode Input Capacitance C1CM1996E-12 C2CM2996E-12 * Input Voltage Noise VN16100.6 VN20620.6 DN16163DY DN26362DY *adds 1/f noise to model. Adjusted to agree w/actual en EN6416300.8 RN106560.3865 RN2656660.3865 RN3660120.773 RN406760.3865 RN5676860.3865 RN6680120.773 * .MODEL DX D(IS=800.0E-18) *adds voltage noise .MODEL DY D(IS=1.9E-16 RS=2000 AF=1 KF=2.258E-17) .MODEL QX PNP(IS=800.0E-18 BF=60) .ENDS *$ ************************************************************************** * OPA237 operational amplifier circuit model subcircuit * Also can be used for OPA2237 (dual) and OPA4237 (quad) op amps * Rev. A10/3/96G.W. * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * OPA237 operational amplifier "macromodel" subcircuit * *connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA237/BB1 2 3 4 5 * J24145QJ 15 R311135.0K Q1614114QN C1131415.5P R18121.2K R21291.2K Q611104QN Q510104QN Q3426QP I1364UI2374UI331210UI431420UISUP3435UQ4417QP DCLMPO1415Dx VCLMPO315DC 0.65 Q11068QP Q21179QP Q173145QN VCLMPI316DC 0.65 DCLMPI1216Dx CDIF124P C2CM022P C1CM012P C2101115P * * Transistor Models .model Dx D(Is=1.0E-15) .model QN NPN(Is=1.0E-15 Bf=200) .model QP PNP(Is=800.0E-18 Bf=500 RB=4K KF=.6F) .model QJ PJF(Is=6.0E-15 VTO=-1.2 LAMBDA=40M BETA=20.0U) .ENDS*$ ************************************************************************** * OPA2541 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 14:22 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2541/BB1 2 3 4 5 * C111 12 10.71E-12 C267 15.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E9 -3E9 3E9 3E9 -3E9 GA60 11 12 150.8E-6 GCM06 10 99 337.6E-12 ISS3 10 DC 120.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 6.631E3 RD24 12 6.631E3 RO185 .25 RO27 99 .25 RP34 4.000E3 RSS10 99 1.667E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 8.000E3 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2541E/BB1 2 3 4 5 * C111 12 10.71E-12 C267 15.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E9 -3E9 3E9 3E9 -3E9 GA60 11 12 150.8E-6 GCM06 10 99 337.6E-12 ISS3 10 DC 120.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 6.631E3 RD24 12 6.631E3 RO185 .25 RO27 99 .25 *RP34 4.000E3 RSS10 99 1.667E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 8.000E3 VLN0 92 DC 8.000E3 **************************** * OPA2541 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ116.68E-31 FQ204 POLY(1) VQ216.68E-3 -1 * QUIESCIENT CURRENT RQ342.5E4 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.0E-12 C2CM299 2.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=94.75E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA2544 operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 10/12/95 at 07:51 * Parts is a OrCAD product. * REV.ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA2544/BB1 2 3 4 5 * c111 12 2.200E-12 c267 10.00E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 9.446E9 -9E9 9E9 9E9 -9E9 ga60 11 12 87.96E-6 gcm06 10 99 440.9E-12 iss104 dc 80.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd13 11 11.37E3 rd23 12 11.37E3 ro185 .17 ro27 99 .17 rp34 5.833E3 rss10 99 2.500E6 vb90 dc 0 vc3 53 dc 4.400 ve544 dc 3.800 vlim78 dc 0 vlp910 dc 4.000E3 vln0 92 dc 4.000E3 * .model dx D(Is=800.0E-18) .model jx NJF(Is=7.500E-12 Beta=96.72E-6 Vto=-1) .ends *$ ************************************************************************** * OPA2604 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 13:06 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2604/BB1 2 3 4 5 * C111 12 22.85E-12 C267 32.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 418.4E3 -40E3 40E3 40E3 -40E3 GA60 11 12 2.011E-3 GCM06 10 99 20.11E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 497.4 RD24 12 497.4 RO185 25 RO27 99 75 RP34 6.294E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 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 * REV.B 3/21/92 BCB:added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA2604E/BB 1 2 3 4 5 * C111 12 22.85E-12 C267 32.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 418.4E3 -40E3 40E3 40E3 -40E3 GA60 11 12 2.011E-3 GCM06 10 99 20.11E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 6E-6 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 6E-6 R269 100.0E3 RD14 11 497.4 RD24 12 497.4 RO185 25 RO27 99 75 *RP34 6.294E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 **************************** * OPA2604 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ13.45E-31 FQ204 POLY(1) VQ23.45E-3 -1 * QUIESCIENT CURRENT RQ346.0E4 * DIFF INPUT CAPACITANCE CDIF128.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 5.0E-12 C2CM299 5.0E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=133.62E-18 AF=1 KF=11.726E-18) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=12.50E-12 BETA=2.528E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA2604M OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "M" ISMULTIPLE POLE/ZERO TOPOLOGY * CREATED 7/8/92 BCB * REV.A * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKTOPA2604M/BB32746 * * INPUT STAGE (pole=1.6MHz) J113212PJ J2141112PJ G5124POLY(2) (13,2) (12,2) 0 1E-12 1E-12 G52 114POLY(2) (14,11) (12,11) 0 1E-12 1E-12 R3413198.94 R4414198.94 C11314250E-12 IEE7121.8E-3 EOS 113POLY(1)(33,10)3E-31 R12155E11 R23155E11 CIN238E-12 IOS234E-12 * GAIN STAGE (gain=100dB, pole=200Hz) V217213.236 D2123 21DX V222243.236 D2222 23DX G21723POLY(1)(13,14)2.9238E-3 5.0265E-3 G22423POLY(1)(13,14)-2.9238E-3 5.0265E-3 R2772319.89E6 R2842319.89E6 C2272340E-12 C2342340E-12 * ZERO / POLE STAGE (zero=1.6MHz, pole=10MHz) R4641431E6 R4742431E6 R457415.25E6 R484425.25E6 L4174183.6E-3 L4244283.6E-3 G4574323101E-6 G4644323101E-6 * POLE / ZERO STAGE (pole=0.4MHz, zero=1.6MHz) R817831E6 R844831E6 R8281830.25E6 R8382830.25E6 C84817397.9E-15 C85824397.9E-15 G8178343101E-6 G8248343101E-6 * COMMON-MODE REJECTION STAGE (zero at 2kHz) R3131331E6 R3232331E6 G3173315101E-11 G3243315101E-11 L3131779.577 L3232479.577 * OUTPUT STAGE D38371DX D47283DX D5773DX D6774DX D7473DZ D8474DZ G14 73468320E-3 G13 74483620E-3 V37160.38686 V46720.38686 G116778320E-3 G124683420E-3 R237650 R244650 * CENTER OF SUPPLIES R971031.304E3 R1041031.304E3 * .MODELDXD(IS=1E-15) .MODELPJPJF(BETA=12.63285E-3 VTO=-2 IS=50E-12) .MODELDZD(IS=1E-15 BV=50) .ENDS *$ ************************************************************************** * OPA2650XWIDEBAND, LOW POWER VOLTAGE FEEDBACK OP AMP MACROMODEL * CREATED7/27/95DY/SB * REV.A* * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA2650X/BB1314111210* * Input Stage and Current Source Q2166192 NPN1 4 Q1177182 NPN1 4 Q32024232 NPN1 2 R31820300 R51920300 R42322500 ISOUR2724DC 370E-6 Q62726283 PNP1 1 Q72424252 NPN1 1 Q10227263 PNP1 1 R821282K R925221K R222220 R132120 C127240.6E-12 * Gain Stage Q112926173 PNP1 1 Q153032312 NPN1 1 Q164626163 PNP1 1 Q174730322 NPN1 1 Q183232332 NPN1 1 R1121171K R1321161K R123122320 R143322320 R184647500 V12930DC 2.4 C232220.4E-12 C446221.2E-12 C347220.42E-12 * Output Stage Q193526343 PNP1 2 Q203535442 NPN1 2 Q213847443 PNP1 2 Q223946452 NPN1 2 Q233636453 PNP1 2 Q243624372 NPN1 2 Q252117392 NPN1 2 Q262231383 PNP1 2 Q274340423 PNP1 10 Q28335422 NPN1 2 Q29236433 PNP1 2 Q304240432 NPN1 10 Q31342412 NPN1 48 Q32243413 PNP1 48 R1741510 R163722500 R1521341K * Package Parasitics R11P1265.1 R10P6463.01 R9P1062.1 R8P6160.01 R7P5758.01 R6P1156.1 R5P5859.01 R4P1453.1 R3P5455.01 R2P1350.1 R1P5152.01 C3P5154.05E-12 C6P5458.05E-12 L7P257.7E-9 L2P50511.08E-9 L4P53541.08E-9 L6P56581.5E-9 L11P65641.08E-9 L10P635.7E-9 L9P62611.08E-9 L8P603.7E-9 L5P592.7E-9 L1P526.7E-9 C11P6164.05E-12 C10P612.0425E-12 C9P32.15E-12 C8P582.0125E-12 C7P22.15E-12 C5P542.0425E-12 C4P72.15E-12 C2P512.0425E-12 L3P557.7E-9 C1P62.15E-12 C12P52.15E-12 C13P642.0425E-12 * * Models Used .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS* ****************** OPA2650 TEST CIRCUIT ****************** * *VCC800DC 5V *VEE081DC 5V *VIN850PWL ( 0N -2 1N 2 50N 2 51N -2 ) *VIN850*+ SIN(0 .5 5.000E6 0 0 0 ) *Vin850DC 0AC1 *RL820100 *CL8205E-12 *CFB8382.15E-12 *CFF18300.75E-12 *RIN858425 *RFB8682402 *RFF830402 *LFB83862.2E-9 *X828384818280OPA2650X/BB * *.probe; *ipsp* *.options abstol = 1.000m reltol = .01; *ipsp* *.ac dec 1110.000k3.000g; *ipsp* *.four5.000meg V(82); *ipsp* *.tran50.000n4.000u00; *ipsp* * *.ENDS *$ ************************************************************************** * OPA2658XDUAL-WIDEBAND, LOW-POWER CURRENT-FEEDBACK OP AMP *MACROMODEL * CREATED 12/30/94DY/SB * REV. A * * NOTE: THE FOLLOWING NETLIST REFLECTS ONLY ONE OUT OF THE TWO OP AMPS OF THE* DUAL OPA2658. TO MODEL THE COMPLETE DEVICE PLEASE USE THIS MODEL TWICE. * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA2658X/BB897106* * Input Stage ISOUR11113DC 0.5MA ISOUR21412DC 0.5MA Q2141441 PNP1 2 Q4181431 PNP1 2 Q1131342 NPN1 2 Q3151332 NPN1 2 R5111220K C31300.3E-12 C41400.1E-12 R1611110 R1721210 C111121E-12 * Gain Stage Q72415371 PNP1 6 Q63717201 PNP1 6 Q51537161 PNP1 6 Q81819222 NPN1 3 Q91923212 NPN1 3 Q102618192 NPN1 3 R11116300 R21120300 R32212100 R42112100 R123717600 R61923200 C225120.5E-12 * Output Stage Q21133362 NPN1 48 Q22235361 PNP1 48 Q111226281 PNP1 3 Q121124302 NPN1 3 Q203534331 PNP1 10 Q193334352 NPN1 10 Q132929282 NPN1 3 Q17129332 NPN1 2 Q143131301 PNP1 3 Q18231351 PNP1 2 Q152937271 PNP1 6 Q163119322 NPN1 3 R91127300 R103212100 R7242580 R8252680 R1136510 * Package Parasitics CINV80.75E-12 L6P49481.5E-9 L4P46451.08E-9 L2P43421.08E-9 C8P552.0425E-12 L3P444.7E-9 C1P422.0425E-12 C2P4245.05E-12 C3P452.0425E-12 C4P4548.05E-12 C5P482.0125E-12 C6P522.0425E-12 C7P5255.05E-12 L1P413.7E-9 L5P472.7E-9 L7P511.7E-9 L8P53521.08E-9 L9P545.7E-9 L10P56551.08E-9 L11P250.7E-9 R1P4241.1 R2P843.1 R3P4544.1 R4P946.1 R5P4847.1 R6P749.1 R11P5048.025 R7P5251.1 R8P653.1 R9P5554.1 R10P1056.1 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS * ****************** OPA2658 TEST CIRCUIT ****************** * *X16061636562OPA2658X/BB *VCC620DC 5V *VEE063DC 5V *RFB6665400 *VIN670PWL ( 0N -1 1N 1 20N 1 21N -1 ) *RL650100 *LFB60662.2E-9 *CL6505E-12 *CFB60650.15E-12 *RSOUR676150 *CFF6000.15E-12 *RFF6064400 *LFF6402.2E-9 *.ENDS *$ ************************************************************************** * OPA2662 WIDE-BAND, DUAL, OPERATIONAL TRANSCONDUCTANCE AMPLIFIER * CREATED 9/6/95SB * REV.A * * CONNECTIONS:BASE *|EMITTER *||COLLECTOR *|||POSITIVE VCC *||||NEGATIVE VCC *|||||POSITIVE VCCOUT *||||||NEGATIVE VCCOUT *|||||||IQ ADJUST *||||||||ENABLE .SUBCKT OPA2662X1/BB210 11 1816 95EN* * Bias Circuit I120211E-6 Q12020 1PIJ Q22120 1PIJQ42021 22NIJ 9 Q32121 8NIJ R452260 R522850E3 C4502pF *Enable Circuit Q4020401PIJ R4040110k G1040VALUE={-20uA*((-1*V(EN,0))+5V)} Q4521458NIJ R4545810k G2045VALUE={20uA*((-1*V(EN,0))+5V)} *InputQ73663 NIJQ12 20 201 PIJQ733 76 NIJQ644 76 PIJQ56 201 PIJ 2.3 Q82123 PIJ Q92024 NIJ Q74 23 234 PIJQ10 23 218 NIJ 2.3 Q11 21 218 NIJCB201pF*OTA (Collector Output) Q17 24 24 41PIJ4 R17 16 4115 R18 16 323.5 Q18 33 24 32PIJ18 Q13 24 13 26NIJ1.5 Q14 25 14 27PIJ1.5 Q15 25 25 42NIJ4 R159 4215 R169 313.5 Q16 33 25 31NIJ18 Q19 26 30 27NIJQ20 27 30 26PIJQ21 24 26 10NIJ3 Q22 25 27 10PIJ3 C1224010pFC1625010pFC131303pF R13136220 C142303pF R142314220 RC33340.05 LC34111E-9 CC1106.5pF CE1001.7pF* .MODEL NIJ NPN (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .MODEL PIJ PNP (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .ENDS * * OPA2662 Macromodel Test * *X1 BEC181118IQTTLOPA2662X1/BB *Vcc1+10+5V *Vcc1-80-5V *Vcc2+110+5V *Vcc2-180-5V*Cb1101uF *Cb2801uF *Cb31102.2uF *Cb41882.2uF *RQIQ8750 *RCC040 *REE0100 *CEE05.6pF *.NODESETV(X1.20)=4.18VV(X1.21)=-4.18V *.ENDS *$ ************************************************************************** * OPA27 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 09/20/90 AT 16:00 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA27/BB1 2 3 4 5 * C111 12 20.79E-12 C267 114.3E-12 CEE10 99 5.713E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 10.95E6 -10E6 10E6 10E6 -10E6 GA60 11 12 4.638E-3 GCM06 10 99 2.608E-9 IEE104 DC 240.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 215.6 RC23 12 215.6 RE113 10 5.395E-3 RE214 10 5.395E-3 REE10 99 833.5E3 RO185 35 RO27 99 35 RP34 10.87E3 VB90 DC 0 VC3 53 DC 1.200 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 25 VLN0 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA27E/BB1 2 3 4 5 * C111 12 20.79E-12 C267 114.3E-12 CEE10 99 5.713E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 10.95E6 -10E6 10E6 10E6 -10E6 GA60 11 12 4.638E-3 GCM06 10 99 2.608E-9 IEE104 DC 240.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 215.6 RC23 12 215.6 RE113 10 5.395E-3 RE214 10 5.395E-3 REE10 99 833.5E3 RO185 35 RO27 99 35 *RP34 10.87E3 VB90 DC 0 VC3 53 DC 1.200 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 **************************** * OPA27 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.56E-31 FQ204 POLY(1) VQ21.56E-3 -1 * QUIESCIENT CURRENT RQ342.5E4 * DIFF INPUT CAPACITANCE CDIF125.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.5E-12 C2CM299 2.5E-12 * INPUT PROTECTION DIN112DX DIN221DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=7.998E3) .ENDS *$ ************************************************************************** * OPA27M OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "M" ISMULTIPLE POLE/ZERO TOPOLOGY * CREATED 7/8/92 BCB * REV.A * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKTOPA27M/BB32746 * * INPUT STAGE (pole @ 2M Hz) Q113215N Q2141116N R371342.513 R471442.513 C11314935.92E-12 R51512-9.187 R61612-9.187 IEE1241E-3 EOS113POLY(1)(33,9)25E-61 R12105E11 R23105E11 CIN235E-12 IOS2335E-9 * GAIN STAGE (pole @ 4 Hz) V217211.8336 D212321DX V222241.8336 D222223DX G21723POLY(1)(13,14)2.721E-3 17.41E-3 G22423POLY(1)(13,14)-2.721E-3 17.41E-3 R2772375.6E6 R2842375.6E6 C22723526.3E-12 C23423526.3E-12 * ZERO / POLE STAGE (zero @ 2.91M Hz, pole @ 10.91M Hz) R4641431E6 R4742431E6 R457412.75E6 R484422.75E6 L4174114.589E-3 L4244214.589E-3 G457432391E-6 G464432391E-6 * ZERO / POLE STAGE (zero @ 2.91M Hz, pole @ 10.91M Hz) R5951531E6 R5052531E6 R517512.75E6 R524522.75E6 L5175114.589E-3 L5245214.589E-3 G577534391E-6 G584534391E-6 * ZERO / POLE STAGE (zero @ 910k Hz, pole @ 6.37M Hz) R6961631E6 R6862631E6 R617616E6 R624626E6 L6176125E-3 L6246225E-3 G677635391E-6 G684635391E-6 * COMMON-MODE REJECTION STAGE (zero @ 1k Hz) R3131331E6 R3232331E6 G317331091.99526E-12 G324331091.99526E-12 L31317159.1549 L32324159.1549 * OUTPUT STAGE D36371DX D47263DX D5773DX D6774DX D7473DZ D8474DZ G147346637.14286E-3 G137446367.14286E-3 V37163.58686 V46723.58686 G11677637.14286E-3 G12466347.14286E-3 R2376140 R2446140 * CENTER OF SUPPLIES R97916.359E3 R104916.359E3 * .MODELDXD(IS=1E-15) .MODELNNPN(BF=12.5E3) .MODELDZD(IS=1E-15 BV=50) .ENDS *$ ************************************************************************** * SUBCIRCUIT MACROMODEL OPA336* PSpice ver. 6.3 * REV A. CREATED Wednesday, June 18, 1997 RH * REV B. 25 JUNE 97 NPA: COMPILED INTO OPA336.MOD* REV C. 26 JUNE 97 NPA: EDITED NODE SYNTAX AND ADDED .OPTION NOTES * *Notes concerning using macromodel to simulate OPA336: *1) Model is actually a simplified schematic of OPA336. *2) Model was created with PSpice ver. 6.3, level 3 device models. *3) Operation of the circuit is assumed to be single supply **Example:X_U112305OPA336/BB * *Where U is the subcircuit name and*connections:non-inverting input *|inverting input *||positive power supply *|||negative power supply *||||output *||||| *.subckt OPA336/BB12345 * *Note that node "4" may be connected to ground "0", i.e., single supply operation. * *4) ADD .OPTION ITL=40 AND .OPTION GMIN=10p TO NET LIST IF SIMULATION DOES NOT *CONVERGE *5) ADDING .NODESET STATEMENT (BELOW) TO NET LIST MAY HELP CONVERGENCE IS CASES *WHERE V+=5V AND V-=0V ; SINGLE SUPPLY OPERATION. ASSUMES SUBCIRCUIT IS "U1".* * .NODESET * +V(2)= 2.5V(1)= 2.5V(5)= 2.5V(3)= 5.0 * +V(X_U1.20)= 3.8V(X_U1.23)= 3.8V(X_U1.25)= .834V(X_U1.27)= .833 V(X_U1.29)= .834 * +V(X_U1.32)= 2.03 V(X_U1.34)= 2.03 V(X_U1.43)= 4.065 V(X_U1.44)= 2.51 V(X_U1.45)= 1.93* +V(X_U1.47)= 1.93 V(X_U1.51)= .848V(X_U1.53)= 4.07 V(X_U1.54)= 1.58 V(X_U1.55)= 4.02* +V(X_U1.60)= 1.94 V(X_U1.62)= .855V(X_U1.64)= 3.17 V(X_U1.67)= 4.98 V(X_U1.76)= 2.51* +V(X_U1.GNDS)= 0.0 V(0)= 0.0 * * connections:non-inverting input *|inverting input *||positive power supply *|||negative power supply *||||output *||||| .subckt OPA336/BB1 2 3 4 5 * M614 64 55 55PCH W=20U L=0.8UM=1M5955 53 33 PCH W=15U L=5UM=4M5555 60 51GNDS NCH W=5U L=0.8UM=1M5353 45 51GNDS NCH W=5U L=0.8UM=1M5753 53 33 PCH W=15U L=5UM=2C5555 60CP1P2 2P M6755 55 673 PCH W=5U L=5UM=1M7445 51 62GNDS NCH W=5U L=1UM=1R673 67RNW 200K R4745 47RPO2 2K ITAIL3 23DC 6U AC 0 ITAIL227 4DC 1.6U AC 0 ITAIL351 4DC 0.8U AC 0 I603 60DC 0.4U AC 0 RGNDSGNDS 40.01 M2429 123 3PCH W=90U L=2U AD=2560P PD=3328U AS=2688P PS=3494U M=1M2629 27 4GNDS NCH W=500U L=2U AD=1142P PD=1670U AS=1142P PS=1670U M=1I2020 4DC 1U AC 0 R203 201.2MEG M204 20 233 PCH W=5U L=2UM=1R3232 251.2MEG R3434 291.2MEG I343 34DC 1U AC 0 I323 32DC 1U AC 0 V643 64DC 1.8302 V6060 62DC 1.0897 V6262 4DC .8547 M2325 223 3PCH W=90U L=2U AD=2560P PD=3328U AS=2688P PS=3494U M=1M4743 43 33 PCH W=60U L=4UM=1M4343 34 27GNDS NCH W=4U L=4UM=1M4545 32 27GNDS NCH W=4U L=4UM=1M7376 51 4GNDS NCH W=5U L=0.8UM=20M2525 27 4GNDS NCH W=500U L=2U AD=1142P PD=1670U AS=1142P PS=1670U M=1M7176 55 33 PCH W=20U L=0.8UM=20M4945 43 33 PCH W=60U L=4UM=1RC144 76RPO2 10K R7676 5RPO2 100 CM129 44CP1P2 200P C4547 76CP1P2 22P RC254 4RPO2 10K CM225 54CP1P2 200P * * MODELS for LEVEL 3 PSpice .MODEL PCH PMOS (LEVEL=3 TOX=30E-9 CGDO=1.80e-10 CGSO=1.80e-10 CJ=7.199E-4 CJSW=3.40E-10 +AF=1.05 KF=1.0e-31 JS=4.0e-7 JSSW=3.0e-13 RSH=117 MJ=.47 MJSW=.16 VFB=-0.34 PHI=0.71 VTO=-.892 +LD=12E-9 WD=43E-9 TPG=+1 GAMMA=0.6) * .MODEL NCH NMOS (LEVEL=3 TOX=30E-9 CGDO=1.55e-10 CGSO=1.55e-10 CJ=6.300E-4 CJSW=3.83E-10 +AF=1.05 KF=2.6e-31 JS=2.0e-7 JSSW=5e-13 RSH=68 MJ=.25 MJSW=.11 VFB=-0.784 PHI=0.792 VTO=.81 +LD=34E-9 WD=17E-9 TPG=-1 GAMMA=0.6) * .MODEL RPO2 RES (R=1 TC1=6.3e-4 TC2= 1.1e-6) .MODEL RNWRES (R=1 TC1=5.5e-3 TC2=-1.3e-5) .MODEL CP1P2 CAP (C=1) .ENDS *$ ************************************************************************** * OPA37 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/16/90 AT 10:32 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA37/BB1 2 3 4 5 * C111 12 21.45E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 10.64E6 -10E6 10E6 10E6 -10E6 GA60 11 12 4.775E-3 GCM06 10 99 2.685E-9 IEE104 DC 250.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 209.4 RC23 12 209.4 RE113 10 2.501 RE214 10 2.501 REE10 99 799.9E3 RO185 35 RO27 99 35 RP34 10.91E3 VB90 DC 0 VC3 53 DC 1.200 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 25 VLN0 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA37E/BB1 2 3 4 5 * C111 12 21.45E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 10.64E6 -10E6 10E6 10E6 -10E6 GA60 11 12 4.775E-3 GCM06 10 99 2.685E-9 IEE104 DC 250.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 209.4 RC23 12 209.4 RE113 10 2.501 RE214 10 2.501 REE10 99 799.9E3 RO185 35 RO27 99 35 *RP34 10.91E3 VB90 DC 0 VC3 53 DC 1.200 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 **************************** * OPA37 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.55E-31 FQ204 POLY(1) VQ21.55E-3 -1 * QUIESCIENT CURRENT RQ342.5E4 * DIFF INPUT CAPACITANCE CDIF125.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.5E-12 C2CM299 2.5E-12 * INPUT PROTECTION DIN112DX DIN221DX * .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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA404/BB1 2 3 4 5 * C111 12 6.850E-12 C267 13.70E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.213E6 -2E6 2E6 2E6 -2E6 GA60 11 12 602.6E-6 GCM06 10 99 6.026E-9 ISS3 10 DC 479.5E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.660E3 RD24 12 1.660E3 RO185 25 RO27 99 75 RP34 13.33E3 RSS10 99 417.1E3 VB90 DC 0 VC3 53 DC 1.800 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 18 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA404E/BB1 2 3 4 5 * C111 12 6.850E-12 C267 13.70E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.213E6 -2E6 2E6 2E6 -2E6 GA60 11 12 602.6E-6 GCM06 10 99 6.026E-9 ISS3 10 DC 479.5E-6 HLIM 900 VLIM 1K J1112 10 JX J21264 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 600E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (66,0) 0 1E-12 1E-12 1E-12 600E-9 R269 100.0E3 RD14 11 1.660E3 RD24 12 1.660E3 RO185 25 RO27 99 75 *RP34 13.33E3 RSS10 99 417.1E3 VB90 DC 0 VC3 53 DC 1.800 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 18 VLN0 92 DC 18 **************************** * OPA404 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.47E-31 FQ204 POLY(1) VQ21.47E-3 -1 * QUIESCIENT CURRENT RQ341.0E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1.8E-16 AF=1 KF=34.45E-18) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.785E-4 VTO=-1) .ENDS *$ ************************************************************************** * OPA4131 operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 01/14/95 at 21:25 * REV. ASB * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA4131/BB1 2 3 4 5 * c111 12 4.197E-12 c267 18.00E-12 css10 99 7.200E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 452.4E-6 gcm06 10 99 45.24E-9 iss3 10 dc 252.0E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 2.210E3 rd24 12 2.210E3 ro185 50 ro27 99 25 rp34 20.00E3 rss10 99 793.7E3 vb90 dc 0 vc3 53 dc 2.500 ve544 dc 2.500 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=812.1E-6 Vto=-1) .ends *$ ************************************************************************** * OPA4131E "Enhanced" operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 01/14/95 at 21:25 * REV.ASB - model includes input bias current correction, *voltage and current noise. * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .subckt OPA4131E/BB1 2 3 4 5 * c111 12 4.197E-12 c267 18.00E-12 css10 99 7.200E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 127.3E6 -130E6 130E6 130E6 -130E6 ga60 11 12 452.4E-6 gcm06 10 99 45.24E-9 iss3 10 dc 252.0E-6 hlim 900 vlim 1K j111210 jx j21264 10 jx g1124 Poly(4)(10,2) (11,2) (4,2) (66,0) 0 1e-12 1e-12 1e-12 3e-6 g1214 Poly(4)(10,1) (12,1) (4,1) (68,0) 0 1e-12 1e-12 1e-12 3e-6 r269 100.0E3 rd14 11 2.210E3 rd24 12 2.210E3 ro185 50 ro27 99 25 * rp34 20.00E3 rss10 99 793.7E3 vb90 dc 0 vc3 53 dc 2.500 ve544 dc 2.500 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 ********************************** * OPA4131 "E" - Enhancements ********************************** * Output Supply Mirror FQ3020Poly(1) Vlim 01 DQ12021DX DQ22220DX VQ12100 VQ22200 FQ130Poly(1) VQ11.06E-31 FQ204Poly(1) VQ21.06E-3-1 * Quiescent Current RQ34160E3* Diff Input Capacitance CDIF121E-12 * Common Mode Input Capacitance C1CM1991.5E-12 C2CM2991.5E-12 * Input Voltage Noise VN16100.6 VN20620.6 DN16163DY DN26362DY EN6416301 * Input Current Noise RN106560.3865 RN2656660.3865 RN3660120.773 RN406760.3865 RN5676860.3865 RN6680120.773 * .model dy D(Is=1.9E-16 RS=2000 AF=1 KF=2.258E-17) .model dx D(Is=800.0E-18) .model jx PJF(Is=2.500E-12 Beta=812.1E-6 Vto=-1) .ends *$ ************************************************************************** * OPA445 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 11:04 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA445/BB1 2 3 4 5 * C111 12 5.252E-12 C267 15.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 37.74E6 -40E6 40E6 40E6 -40E6 GA60 11 12 188.5E-6 GCM06 10 99 3.352E-9 ISS3 10 DC 202.5E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 5.305E3 RD24 12 5.305E3 RO185 25 RO27 99 25 RP34 21.05E3 RSS10 99 987.7E3 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 26 VLN0 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 * REV.B 3/21/92 BCB: adding input bias current correction * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA445E/BB1 2 3 4 5 * C111 12 5.252E-12 C267 15.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 37.74E6 -40E6 40E6 40E6 -40E6 GA60 11 12 188.5E-6 GCM06 10 99 3.352E-9 ISS3 10 DC 202.5E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 5.305E3 RD24 12 5.305E3 RO185 25 RO27 99 25 *RP34 21.05E3 RSS10 99 987.7E3 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 26 VLN0 92 DC 26 **************************** * OPA445 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ12.795E-31 FQ204 POLY(1) VQ22.795E-3 -1 * QUIESCIENT CURRENT RQ341.0E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=10.00E-12 BETA=87.73E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA4658XQUAD-WIDEBAND, LOW-POWER CURRENT-FEEDBACK OP AMP MACROMODEL * CREATED 12/30/94DY/SB * REV. A * * NOTE: THIS NETLIST REFLECTS ONLY ONE OUT OF THE FOUR OP AMP SECTIONS OF THE * OPA4658. TO MODEL THE COMPLETE DEVICE PLEASE USE MULTIPLE SUBCIRCUIT CALLS* IN YOUR CIRCUIT NETLIST. * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA4658X/BB897106* * Input Stage ISOUR11113DC 0.5MA ISOUR21412DC 0.5MA Q2141441 PNP1 2 Q4181431 PNP1 2 Q1131342 NPN1 2 Q3151332 NPN1 2 R5111220K C31300.3E-12 C41400.1E-12 R1611110 R1721210 C111121E-12 * Gain Stage Q72415371 PNP1 6 Q63717201 PNP1 6 Q51537161 PNP1 6 Q81819222 NPN1 3 Q91923212 NPN1 3 Q102618192 NPN1 3 R11116300 R21120300 R32212100 R42112100 R123717600 R61923200 C225120.55E-12 * Output Stage Q21133362 NPN1 48 Q22235361 PNP1 48 Q111226281 PNP1 3 Q121124302 NPN1 3 Q203534331 PNP1 10 Q193334352 NPN1 10 Q132929282 NPN1 3 Q17129332 NPN1 2 Q143131301 PNP1 3 Q18231351 PNP1 2 Q152937271 PNP1 6 Q163119322 NPN1 3 R91127300 R103212100 R7242580 R8252680 R1136510 * Package Parasitics CINV80.75E-12 L6P49481.5E-9 L4P46451.08E-9 L2P43421.08E-9 C8P552.0425E-12 L3P444.7E-9 C1P422.0425E-12 C2P4245.05E-12 C3P452.0425E-12 C4P4548.05E-12 C5P482.0125E-12 C6P522.0425E-12 C7P5255.05E-12 L1P413.7E-9 L5P472.7E-9 L7P511.7E-9 L8P53521.08E-9 L9P545.7E-9 L10P56551.08E-9 L11P250.7E-9 R1P4241.1 R2P843.1 R3P4544.1 R4P946.1 R5P4847.1 R6P749.1 R11P5048.025 R7P5251.1 R8P653.1 R9P5554.1 R10P1056.1 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS * ****************** OPA4658 TEST CIRCUIT ****************** * *X16061636562OPA4658X/BB *VCC620DC 5V *VEE063DC 5V *RFB6665402 *VIN670PWL ( 0N -1 1N 1 20N 1 21N -1 ) *VIN670AC1 *RL650100 *LFB60662.2E-9 *CL6505E-12 *CFB60650.15E-12 *RSOUR676150 *CFF6000.15E-12 *RFF6064402 *LFF6402.2E-9 *.PROBE*.ENDs *$ ************************************************************************** * OPA501 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 10:36 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA501/BB1 2 3 4 5 * C111 12 20.00E-12 C267 40.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 12.64E9 -10E9 10E9 10E9 -10E9 GA60 11 12 251.3E-6 GCM06 10 99 794.8E-12 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 3.979E3 RD24 12 3.979E3 RO185 .25 RO27 99 .25 RP34 26.12E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 12.00E3 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA501E/BB1 2 3 4 5 * C111 12 20.00E-12 C267 40.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 12.64E9 -10E9 10E9 10E9 -10E9 GA60 11 12 251.3E-6 GCM06 10 99 794.8E-12 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 3.979E3 RD24 12 3.979E3 RO185 .25 RO27 99 .25 *RP34 26.12E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 12.00E3 VLN0 92 DC 12.00E3 **************************** * OPA501 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ11.987E-31 FQ204 POLY(1) VQ21.987E-3 -1 * QUIESCIENT CURRENT RQ341.5E5 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.0E-12 C2CM299 2.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=7.500E-9 BETA=197.4E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA502 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 07/06/92 AT 10:32 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA502/BB1 2 3 4 5 * C111 12 21.45E-12 C267 12.00E-12 CSS10 99 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 886.3E6 -90E6 90E6 90E6 -90E6 GA60 11 12 113.1E-6 GCM06 10 99 1.131E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 8.842E3 RD24 12 8.842E3 RO185 5 RO27 99 1.5 RP34 4.000E3 RSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 4 VE544 DC 4 VLIM78 DC 0 VLP910 DC 15.00E3 VLN0 92 DC 15.00E3 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=6.000E-12 BETA=106.6E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA502E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 07/06/92 AT 10:32 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA502E/BB1 2 3 4 5 * C111 12 21.45E-12 C267 12.00E-12 CSS10 99 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 886.3E6 -90E6 90E6 90E6 -90E6 GA60 11 12 113.1E-6 GCM06 10 99 1.131E-9 ISS3 10 DC 240.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 8.842E3 RD24 12 8.842E3 RO185 5 RO27 99 1.5 RP34 4.000E3 RSS10 99 833.3E3 VB90 DC 0 VC3 53 DC 4 VE544 DC 4 VLIM78 DC 0 VLP910 DC 15.00E3 VLN0 92 DC 15.00E3 **************************** * OPA512 "E" - enhancements **************************** * output supply mirror FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ119.44E-31 FQ204 POLY(1) VQ219.44E-3 -1 * quiescient current RQ342.5E5 * diff input capacitance CDIFF125.0E-12 * common mode input capacitance C1CM199 4.0E-12 C2CM299 4.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=6.000E-12 BETA=106.6E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA511 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 11:36 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA511/BB1 2 3 4 5 * C111 12 20.00E-12 C267 40.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 8.950E9 -9E9 9E9 9E9 -9E9 GA60 11 12 251.3E-6 GCM06 10 99 794.8E-12 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 3.979E3 RD24 12 3.979E3 RO185 .25 RO27 99 .25 RP34 2.800E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 5.000E3 VLN0 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 * REV.A 3/21/92 BCB: added input bias current correction * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA511E/BB1 2 3 4 5 * C111 12 20.00E-12 C267 40.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 8.950E9 -9E9 9E9 9E9 -9E9 GA60 11 12 251.3E-6 GCM06 10 99 794.8E-12 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 3.979E3 RD24 12 3.979E3 RO185 .25 RO27 99 .25 *RP34 2.800E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 5.000E3 VLN0 92 DC 5.000E3 **************************** * OPA511 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ119.62E-31 FQ204 POLY(1) VQ219.62E-3 -1 * QUIESCIENT CURRENT RQ342.5E5 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.0E-12 C2CM299 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA512/BB1 2 3 4 5 * C111 12 27.47E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.516E9 -3E9 3E9 3E9 -3E9 GA60 11 12 502.7E-6 GCM06 10 99 5.027E-9 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.989E3 RD24 12 1.989E3 RO185 .25 RO27 99 .25 RP34 3.200E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 15.00E3 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA512E/BB1 2 3 4 5 * C111 12 27.47E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.516E9 -3E9 3E9 3E9 -3E9 GA60 11 12 502.7E-6 GCM06 10 99 5.027E-9 ISS3 10 DC 160.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 1.989E3 RD24 12 1.989E3 RO185 .25 RO27 99 .25 *RP34 3.200E3 RSS10 99 1.250E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 15.00E3 VLN0 92 DC 15.00E3 **************************** * OPA512 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ124.52E-31 FQ204 POLY(1) VQ224.52E-3 -1 * QUIESCIENT CURRENT RQ342.5E5 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.0E-12 C2CM299 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA541/BB1 2 3 4 5 * C111 12 10.71E-12 C267 15.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E9 -3E9 3E9 3E9 -3E9 GA60 11 12 150.8E-6 GCM06 10 99 337.6E-12 ISS3 10 DC 120.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 6.631E3 RD24 12 6.631E3 RO185 .25 RO27 99 .25 RP34 4.000E3 RSS10 99 1.667E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 14.00E3 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA541E/BB1 2 3 4 5 * C111 12 10.71E-12 C267 15.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.653E9 -3E9 3E9 3E9 -3E9 GA60 11 12 150.8E-6 GCM06 10 99 337.6E-12 ISS3 10 DC 120.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 6.631E3 RD24 12 6.631E3 RO185 .25 RO27 99 .25 *RP34 4.000E3 RSS10 99 1.667E6 VB90 DC 0 VC3 53 DC 5 VE544 DC 5 VLIM78 DC 0 VLP910 DC 14.00E3 VLN0 92 DC 14.00E3 **************************** * OPA541 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ116.68E-31 FQ204 POLY(1) VQ216.68E-3 -1 * QUIESCIENT CURRENT RQ342.5E4 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 2.0E-12 C2CM299 2.0E-12 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=2.000E-12 BETA=94.75E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA544 operational amplifier "macromodel" subcircuit * created using Parts release 5.4 on 10/12/95 at 07:51 * Parts is a OrCAD product. * REV.ASB7/20/96 * REV.B 6 June 97 NPA: added Note: Current Limit not modeled. * REV.C20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPA544/BB1 2 3 4 5 * C111 12 2.200E-12 C267 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 9.446E9 -9E9 9E9 9E9 -9E9 GA60 11 12 87.96E-6 GCM06 10 99 440.9E-12 ISS104 DC 80.00E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD13 11 11.37E3 RD23 12 11.37E3 RO185 .17 RO27 99 .17 RP34 5.833E3 RSS10 99 2.500E6 VB90 DC 0 VC3 53 DC 4.400 VE544 DC 3.800 VLIM78 DC 0 VLP910 DC 4.000E3 VLN0 92 DC 4.000E3 * .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=7.500E-12 BETA=96.72E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPA547 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * REV.A 2 June 97 GG * REV.B 6 June 97 NPA: added Note: Current Limit & E/S ARE modeled. * REV.C20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE ** CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | CURRENT LIMIT ADJUST *| | | NEGATIVE POWER SUPPLY *| | | | POSITIVE POWER SUPPLY *| | | | | OUTPUT *| | | | | | ENABLE/STATUS *| | | | | | | .SUBCKT OPA547/BB1 2 3 4 5 6 7 * Q2181614PSUB R313148.4K Q1131211LAT5 R15404.4 Q953435NMIN 480 Q425264NMAX 2 HCCVSP4736V475 -2000 HCCVSN424V475 -2000 GNEGDRV5373136-.00025 R413158.4K GAINBLK2641819.00175 R81941K R61711K R52161K R71841K C2373611PF C1262531PF Q3191715PSUB Q753738NMIN 24 R17384690 D63231DIODE 18 D32726DIODE 1 D52737DIODE 10 D22322DIODE 6 D11012DIODE 6 VCLMP274DC .8 VDUM204DC 0 R9212035K C3213215PF FICOMP374VDUM 1 D42928DIODE 1 R13284750 Q6312930NMIN 2 R14304300 R183938100 DCLAMP3736DIODE 1 R1225331K R0323425 V475434DC 4.75 GCLPGAIN 5513547.00015 Q11335136NMIN 1 C5513320PF D74851DIODE 1 VDP4836DC .65 R2134331600 D84941DIODE 1 Q1237414NMIN 1 GCLNGAIN 5414042.00015 V1I459494DC .65 C6413720PF DZ13136ZEN VCM59DC 1.4 D94546DIODE 1 D10457DIODE 1 IBES54560UA R2274250K VBES464DC 3.6 R1634362K R13536.4 VTHES444DC 2.0 DP241DIODE 1 DP115DIODE 1 DP442DIODE 1 DP325DIODE 1 DP535DIODE 10 DP643DIODE 50 DP846DIODE 1 DP765DIODE 1 DP975DIODE 1 DP1047DIODE 1 SVCS13664544VSM SVCS232314544VSM2 CS2423PF CS1413PF CS3212.5PF Q5252224LAT5 R11524300 R10523300 I22229200UA Q10363940NMIN 480 Q853332NMIN 16 I1124100UA R29111K R199101K * * DEVICE MODELS .MODEL ZEN D(IS=6E-16 CJO=1E-15 RS=1 BV=.2).MODEL LAT5 PNP(IS=4E-15 BF=80 VAF=80 CJE=1E-13 CJC=6E-13TF=3.5E-8 RC=1.2E3 )+.MODEL PSUB PNP(IS=6E-16 BF=360 VAF=140 CJE=5E-13 CJC=2.5E-13 TF=2.5E-10+ RC=1.2E3).MODEL NMAX NPN(IS=6E-16 BF=1200 VAF=140 CJE=5E-13 CJC=2.5E-13 TF=2.5E-10+ RC=1.0E3).MODEL NMIN NPN(IS=6E-16 BF=300 VAF=140 CJE=5E-13 CJC=2.5E-13 TF=2.5E-10+ RC=1.0E3).MODEL DIODE D(IS=6E-16 CJO=1E-15 RS=1).MODEL VSM2 VSWITCH(RON=1500 ROFF=1E7 VON=1.9 VOFF=2.1).MODEL VSM VSWITCH(RON=.1 ROFF=5E5 VON=2.1 VOFF=1.9).ENDS *$ ************************************************************************** * OPA602 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 13:48 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA602/BB1 2 3 4 5 * C111 12 6.850E-12 C267 13.70E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.213E6 -2E6 2E6 2E6 -2E6 GA60 11 12 602.6E-6 GCM06 10 99 6.026E-9 ISS3 10 DC 479.5E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.660E3 RD24 12 1.660E3 RO185 25 RO27 99 75 RP34 10.00E3 RSS10 99 417.1E3 VB90 DC 0 VC3 53 DC 2.100 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 50 VLN0 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 * REV.B 3/21/92 BCB: added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA602E/BB1 2 3 4 5 * C111 12 6.850E-12 C267 13.70E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 2.213E6 -2E6 2E6 2E6 -2E6 GA60 11 12 602.6E-6 GCM06 10 99 6.026E-9 ISS3 10 DC 479.5E-6 HLIM 900 VLIM 1K J1112 10 JX J21264 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 600E-9 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 600E-9 R269 100.0E3 RD14 11 1.660E3 RD24 12 1.660E3 RO185 25 RO27 99 75 *RP34 10.00E3 RSS10 99 417.1E3 VB90 DC 0 VC3 53 DC 2.100 VE544 DC 1.200 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 **************************** * OPA602 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ12.221E-31 FQ204 POLY(1) VQ22.221E-3 -1 * QUIESCIENT CURRENT RQ341.0E5 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1.7424E-16 AF=1 KF=24.597E-18) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.785E-4 VTO=-1) .ENDS *$ ************************************************************************** * OPA603X CURRENT-FEEDBACK AMPLIFIER "CIRCUIT MODEL" SUBCIRCUIT * CREATED USING BLOOD,SWEAT AND TEARS ON 10/12/90 AT 09:03AM * REV.B5/23/91 * REV.C10/20/92 - SYNTAX ERRORS BCB * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKTOPA603X/BB 3 4 1 2 5 * R0A36 100 R0B37 100 R0EA 108 21 R0EB 119 21 R1A10 12 100 R1B11 13 100 R1EA 144 21 R1EB 154 21 R2AT1 16 1213.22365 R2BT2 17 1200 R322 23 16.25 R4A245 3.25 R4B255 3.25 X0A26 8 2 XP4LC X0B17 9 2 XN4LC X1A16 12 14 2 XN4LC X1B17 13 15 2 XP4LC X2A20 16 18 2 XP4LC X2B21 17 19 2 XN4LC C2B17 21 0.75PF X3A20 20 22 2 XN16HC X3B21 21 23 2 XP16HC X4A11 20 24 2 XN16HC X4A21 20 24 2 XN16HC X4A31 20 24 2 XN16HC X4B12 21 25 2 XP16HC X4B22 21 25 2 XP16HC X4B32 21 25 2 XP16HC X6A1 18 18 26 2 XP16HCX6A2 18 18 26 2 XP16HCX6B1 19 19 27 2 XN16HCX6B2 19 19 27 2 XN16HCV6A1 260 V6B2720 FB1 28 POLY(2) V6A V6B 15UA -0.0025 -0.0025 RB282 500MEG CB282 350PF DB1282 DCLAMP DB22 28 DCLAMP GC36 37 28 2 0.01 R5A30 32 21 R5B31 33 21 R8A34 36 21 R8B35 37 21 X5A10 36 32 2 XP4LC X5B11 37 33 2 XN4LC X8A1 30 34 2 XN4LC X8B2 31 35 2 XP4LC X9A11 30 2 XN4LC X9B22 31 2 XP4LC IS12 290UA RPS12 21.6K XSCA5 22 22 2 XN4LC XSCB5 23 23 2 XP4LC .ENDS******************************** .MODEL DCLAMP D ******************************** .SUBCKT XN4LC 1 2 3 SUB Q1 4 2 3 SUB N4 RCDC 1 4 250 RCAC 1 5 85 CRC4 5 1NF CS1 0 0.45PF * .MODEL N4 NPN IS=4.4FA BF=250 VA=100 IKF=14MA BR=0.1+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 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+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=2.33KF=0.16F .ENDS* .SUBCKT XP4LC 1 2 3 SUB Q1 4 2 3 SUB P4 RCDC 1 4 300 RCAC 1 5 100 CRC4 5 1NF CS1 0 0.54PF * .MODEL P4 PNP IS=4.4FA BF=100 VA=60 IKF=14MA BR=0.1+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 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+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 KF=0.16F .ENDS*$ ************************************************************************** * OPA604 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 6/10/92 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA604/BB1 2 3 4 5 * C111 12 22.85E-12 C267 32.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 418.4E3 -40E3 40E3 40E3 -40E3 GA60 11 12 2.011E-3 GCM06 10 99 20.11E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 497.4 RD24 12 497.4 RO185 25 RO27 99 75 RP34 6.294E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=12.50E-12 BETA=2.528E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA604E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 6/10/92 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA604E/BB1 2 3 4 5 * C111 12 22.85E-12 C267 32.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 418.4E3 -40E3 40E3 40E3 -40E3 GA60 11 12 2.011E-3 GCM06 10 99 20.11E-9 ISS3 10 DC 800.0E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 6E-6 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 6E-6 R269 100.0E3 RD14 11 497.4 RD24 12 497.4 RO185 25 RO27 99 75 *RP34 6.294E3 RSS10 99 250.0E3 VB90 DC 0 VC3 53 DC 3 VE544 DC 3 VLIM78 DC 0 VLP910 DC 50 VLN0 92 DC 50 **************************** * OPA2604 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ13.45E-31 FQ204 POLY(1) VQ23.45E-3 -1 * QUIESCIENT CURRENT RQ346.0E4 * DIFF INPUT CAPACITANCE CDIF128.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 5.0E-12 C2CM299 5.0E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=133.62E-18 AF=1 KF=11.726E-18) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=12.50E-12 BETA=2.528E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA604M OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "M" ISMULTIPLE POLE/ZERO TOPOLOGY * CREATED 7/8/92 BCB * REV.A * *------------------------------------------------------------- * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation.| * || * |The users should carefully note the following factors| * |regarding this model.| *------------------------------------------------------------- * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKTOPA604M/BB32746 * * INPUT STAGE (pole=1.6MHz) J113212PJ J2141112PJ G5124POLY(2) (13,2) (12,2) 0 1E-12 1E-12 G52114POLY(2) (14,11) (12,11) 0 1E-12 1E-12 R3413198.94 R4414198.94 C11314250E-12 IEE7121.8E-3 EOS113POLY(1)(33,10)3E-31 R12155E11 R23155E11 CIN238E-12 IOS234E-12 * GAIN STAGE (gain=100dB, pole=200Hz) V217213.236 D212321DX V222243.236 D222223DX G21723POLY(1)(13,14)2.9238E-3 5.0265E-3 G22423POLY(1)(13,14)-2.9238E-3 5.0265E-3 R2772319.89E6 R2842319.89E6 C2272340E-12 C2342340E-12 * ZERO / POLE STAGE (zero=1.6MHz, pole=10MHz) R4641431E6 R4742431E6 R457415.25E6 R484425.25E6 L4174183.6E-3 L4244283.6E-3 G4574323101E-6 G4644323101E-6 * POLE / ZERO STAGE (pole=0.4MHz, zero=1.6MHz) R817831E6 R844831E6 R8281830.25E6 R8382830.25E6 C84817397.9E-15 C85824397.9E-15 G8178343101E-6 G8248343101E-6 * COMMON-MODE REJECTION STAGE (zero at 2kHz) R3131331E6 R3232331E6 G3173315101E-11 G3243315101E-11 L3131779.577 L3232479.577 * OUTPUT STAGE D38371DX D47283DX D5773DX D6774DX D7473DZ D8474DZ G1473468320E-3 G1374483620E-3 V37160.38686 V46720.38686 G116778320E-3 G124683420E-3 R237650 R244650 * CENTER OF SUPPLIES R971031.304E3 R1041031.304E3 * .MODELDXD(IS=1E-15) .MODELPJPJF(BETA=12.63285E-3 VTO=-2 IS=50E-12) .MODELDZD(IS=1E-15 BV=50) .ENDS *$ ************************************************************************** * OPA606 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/11/90 AT 15:00 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA606/BB1 2 3 4 5 * C111 12 4.195E-12 C267 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 35.80E6 -40E6 40E6 40E6 -40E6 GA60 11 12 785.4E-6 GCM06 10 99 13.97E-9 ISS3 10 DC 300.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 1.273E3 RD24 12 1.273E3 RO185 20 RO27 99 20 RP34 4.615E3 RSS10 99 666.7E3 VB90 DC 0 VC3 53 DC 2.800 VE544 DC 2.800 VLIM78 DC 0 VLP910 DC 20 VLN0 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 * REV.B 3/21/92 BCB:added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA606E/BB1 2 3 4 5 * C111 12 4.195E-12 C267 10.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 35.80E6 -40E6 40E6 40E6 -40E6 GA60 11 12 785.4E-6 GCM06 10 99 13.97E-9 ISS3 10 DC 300.0E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 1.3E-6 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 1.3E-6 R269 100.0E3 RD14 11 1.273E3 RD24 12 1.273E3 RO185 20 RO27 99 20 *RP34 4.615E3 RSS10 99 666.7E3 VB90 DC 0 VC3 53 DC 2.800 VE544 DC 2.800 VLIM78 DC 0 VLP910 DC 20 VLN0 92 DC 20 **************************** * OPA606 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ15.00E-31 FQ204 POLY(1) VQ25.00E-3 -1 * QUIESCIENT CURRENT RQ342.5E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1.85E-16 AF=1 KF=53.291E-18) .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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA620/BB1 2 3 4 5 * C111 12 577.4E-15 C267 2.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 53.05E3 -50E3 50E3 50E3 -50E3 GA60 11 12 3.770E-3 GCM06 10 99 670.4E-9 IEE104 DC 830.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 265.3 RC23 12 265.3 RE113 10 193.3 RE214 10 193.3 REE10 99 241.0E3 RO185 5 RO27 99 5 RP34 495.4 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 150 VLN0 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 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA620E/BB1 2 3 4 5 * C111 12 577.4E-15 C267 2.000E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 53.05E3 -50E3 50E3 50E3 -50E3 GA60 11 12 3.770E-3 GCM06 10 99 670.4E-9 IEE104 DC 830.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 265.3 RC23 12 265.3 RE113 10 193.3 RE214 10 193.3 REE10 99 241.0E3 RO185 5 RO27 99 5 *RP34 495.4 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 150 VLN0 92 DC 150 **************************** * OPA620 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ117.7E-31 FQ204 POLY(1) VQ217.7E-3 -1 * QUIESCIENT CURRENT RQ344.0E3 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 0.5E-12 C2CM299 0.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=26.67) .ENDS *$ ************************************************************************** * OPA620X OPERATIONAL AMPLIFIER SUBCIRCUIT * "X" IS SIMPLIFIED CIRCUIT MODEL * REV.B3/16/90PWT * * 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. * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA620X/BB1 2 3 4 5 * C120410PF I118151.1MA I22444.0MA I33252.0MA Q191114 NPN 2 Q2102124 NPN 2 Q31315144 NPN 4 Q41515164 NPN 1 Q51818173 PNP 0.5 Q6191893 PNP Q72018103 PNP Q82019214 NPN 2 Q91921224 NPN 2 Q102121234 NPN 2 Q11320244 NPN 20 Q12420253 PNP 20 Q1332554 NPN 40 Q1442453 PNP 40 R139250 R2310250 R3111335 R4121335 R514462.5 R6164250 R73171K R8224250 R9234250 * *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 .ENDS *$ ************************************************************************** * OPA621 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/05/90 AT 16:10 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA621/BB1 2 3 4 5 * C111 12 433.0E-15 C267 500.0E-15 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 106.1E3 -10E3 10E3 10E3 -10E3 GA60 11 12 1.885E-3 GCM06 10 99 335.2E-9 IEE104 DC 330.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 530.5 RC23 12 530.5 RE113 10 325.5 RE214 10 325.5 REE10 99 606.1E3 RO185 5 RO27 99 5 RP34 389.3 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 150 VLN0 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 * REV.A * 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. * * FOR FURTHER TECHNICAL INFORMATION REFER APPLICATION NOTE AN-167 * "*** MODELS FOR OPA620 AND OPA621". * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA621E/BB1 2 3 4 5 * C111 12 433.0E-15 C267 500.0E-15 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 106.1E3 -10E3 10E3 10E3 -10E3 GA60 11 12 1.885E-3 GCM06 10 99 335.2E-9 IEE104 DC 330.0E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 530.5 RC23 12 530.5 RE113 10 325.5 RE214 10 325.5 REE10 99 606.1E3 RO185 5 RO27 99 5 *RP34 389.3 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 150 VLN0 92 DC 150 **************************** * OPA621 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ122.37E-31 FQ204 POLY(1) VQ222.37E-3 -1 * QUIESCIENT CURRENT RQ343.0E3 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 0.5E-12 C2CM299 0.5E-12 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10) .ENDS *$ ************************************************************************** * OPA621X OPERATIONAL AMPLIFIER SUBCIRCUIT * "X" IS SIMPLIFIED CIRCUIT MODEL * REV.B3/16/90PWT * * 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. * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA621X/BB1 2 3 4 5 * C12042PF I118151.3MA I22443.5MA I33253.5MA Q191114 NPN 2 Q2102124 NPN 2 Q31315144 NPN 4 Q41515164 NPN 1 Q51818173 PNP 0.5 Q6191893 PNP Q72018103 PNP Q82019214 NPN 2 Q91921224 NPN 2 Q102121234 NPN 2 Q11320244 NPN 20 Q12420253 PNP 20 Q1332554 NPN 40 Q1442453 PNP 40 R139250 R2310250 R3111335 R4121335 R514462.5 R6164250 R73171K R8224250 R9234250 * *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 .ENDS *$ ************************************************************************** * OPA622X1 - WIDE-BANDWIDTH OPERATIONAL AMPLIFIER MACROMODEL SIMPLIFIED VERSION * CREATED 8/92 KL * REV.B7/9/93 BCB:CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : FOR QUICKER CONVERSION PLACE THE NODESET*V(Xyour.X1.131)=+4.2798 AND *V(Xyour.X1.141)=-4.2808 IN THE ROOT SIMULATION FILE. *("Xyour" IS DEVICE NAME CALLED OUT IN THE ROOT FILE.) * * CONNECTIONS:Iq ADJUST *| INVERTING INPUT *| | NON-INVERTING INPUT *| | | NEGATIVE POWER SUPPLY *| | | | NEGATIVE OUTPUT POWER SUPPLY *| | | | | BUFFER - *| | | | | | VOLTAGE OUT *| | | | | | | OTA *| | | | | | | |POSITIVE OUTPUT POWER SUPPLY *| | | | | | | ||POSITIVE POWER SUPPLY *| | | | | | | |||BUFFER + *| | | | | | | |||| .SUBCKT OPA622X1/BB2 3 4 5 6 8 9 10 11 12 13 * X12 5 12 131 141BC/OPA622x1 ; Biasing Circuit BC X24 5 10 12 13 111 121 131 141DT/OPA622x1 ; Diamond Transistor DT X36 9 11 111 121CB/OPA622x1 ; Current-Buffer CB X43 5 8 12 131 141DB/OPA622x1 ; Diamond-Buffer DB * C202202E-12 C208802E-12 C209902E-12 C2101002E-12 C2131302E-12 * .ENDS * *Diamond Buffer DB .SUBCKT DB/OPA622x1 3 5 8 12 131 141 * R6363 340 C6161 00.02E-12 C6262 00.02E-12 C6363 02E-12 Q6161 131 12 12PI/OPA622x1 Q6262 14155NI/OPA622x1 Q635 6361 12PI/OPA622x1 Q6412 63625NI/OPA622x1 Q6512 6185NI/OPA622x1 6 Q665 628 12PI/OPA622x1 6 * .ENDS * *Diamond Transistor DT .SUBCKT DT/OPA622x1 4 5 10 12 13 111 121 131 141 * R2323440 C101002.0E-12 C212100.02E-12 C222200.02E-12 C232302E-12 C2727014E-12 C2828014E-12 Q2121 13112 12PI/OPA622x1 Q2222 14155NI/OPA622x1 Q2352321 12PI/OPA622x1 Q241223225NI/OPA622x1 Q252721135NI/OPA622x1 6 Q26282213 12PI/OPA622x1 6 Q27272712 12PIM/OPA622x1 Q28282855NIM/OPA622x1 Q291112712 12PIM/OPA622x1 Q301212855NIM/OPA622x1 Q31111 111335NI/OPA622x1 Q32121 12134 12PI/OPA622x1 Q333333105NI/OPA622x1 Q34343410 12PI/OPA622x1 * .ENDS * *Current Buffer CB .SUBCKT CB/OPA622x1 6 9 11 111 121 * Q3511 111376NI/OPA622x1 Q366 12138 11PI/OPA622x1 Q373737396NI/OPA622x1 Q38383839 11PI/OPA622x1 Q39113796NI/OPA622x1 2.2 Q406389 11PI/OPA622x1 2.2 * .ENDS * *Biasing Circuit BC .SUBCKT BC/OPA622x1 2 5 12 131 141 * R1221225100k R1231222200 Q121131 13112 12PI/OPA622x1 Q122131 141 1225NI/OPA622x1 10 Q123141 13112 12PI/OPA622x1 Q124141 14155NI/OPA622x1 * .ENDS * .MODEL NI/OPA622x1 NPN .MODEL PI/OPA622x1 PNP .MODEL NIM/OPA622x1 NPN (VAF=18) .MODEL PIM/OPA622x1 PNP (VAF=18) *$ ************************************************************************** * OPA622X2 WIDE-BANDWIDTH OPERATIONAL AMPLIFIER MACROMODEL COMPLEX VERSION * CREATED 8/92 BY KL * REV.B 7/9/93 BCB: CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * *NOTE : FOR QUICKER CONVERSIONS PLACE THE NODESET*V(Xyour.X1.121)=+4.2833 AND *V(Xyour.X1.124)=-4.2838 INTO THE ROOT SIMULATION FILE. *("Xyour" IS THE DEVICE NAME CALLED OUT IN THE ROOT FILE.) * * CONNECTIONS :Iq ADJUST *| INVERTING INPUT *| | NON-INVERTING INPUT *| | | NEGATIVE POWER SUPPLY *| | | | NEGATIVE OUTPUT POWER SUPPLY *| | | | | BUFFER - *| | | | | | VOLTAGE OUT *| | | | | | |OTA *| | | | | | ||POSITIVE OUTPUT POWER SUPPLY *| | | | | | |||POSITIVE POWER SUPPLY *| | | | | | ||||BUFFER + *| | | | | | ||||| .SUBCKT OPA622X2/BB2 3 4 5 6 8 9 10 11 12 13 * X12 5 12 131 141BC/OPA622x2 ; Biasing Circuit BC X24 5 10 12 13 111 125 131 141DT/OPA622x2 ; Diamond Transistor DT X36 9 11 111 125CB/OPA622x2 ; Current-Buffer CB X43 5 8 12 131 141DB/OPA622x2 ; Diamond-Buffer DB * C202202E-12 C203302E-12 C204402E-12 C208802E-12 C209902E-12 C2101002E-12 C2131302E-12 * .ENDS * *Diamond Buffer DB .SUBCKT DB/OPA622x2 3 5 8 12 131 141 * Q6164 131 12 12PI/OPA622x2 Q6263 14155NI/OPA622x2 Q6363 6312 12PIJ/OPA622x2 10 Q6464 6455NIJ/OPA622x2 10 Q6569 6312 12PIJ/OPA622x2 10 Q6670 6455NIJ/OPA622x2 10 Q6764369 12PIJ/OPA622x2 Q68633705NIJ/OPA622x2 Q6969 69685NIJ/OPA622x2 Q7070 7068 12PIJ/OPA622x2 Q7173 6985NIJ/OPA622x2 6 Q7274 708 12PIJ/OPA622x2 6 Q7373 7312 12PIJ/OPA622x2 4 Q7474 7455NIJ/OPA622x2 4 * .ENDS * *Diamond Transistor DT .SUBCKT DT/OPA622x2 4 5 10 12 13 111 125 131 141 * Q2124 131 12 12PI/OPA622x2 Q2223 14155NI/OPA622x2 Q2323 2312 12PIJ/OPA622x2 10 Q2424 2455NIJ/OPA622x2 10 Q2529 2312 12PIJ/OPA622x2 10 Q2630 2455NIJ/OPA622x2 10 Q2724429 12PIJ/OPA622x2 Q28234305NIJ/OPA622x2 Q2929 29285NIJ/OPA622x2 Q3030 3028 12PIJ/OPA622x2 Q3133 29135NIJ/OPA622x2 6 Q3234 3013 12PIJ/OPA622x2 6 Q3333 3312 12PIJ/OPA622x2 8 Q3434 3455NIJ/OPA622x2 8 Q35111 33 12 12PIJ/OPA622x2 8 Q36125 3455NIJ/OPA622x2 8 Q37111 37 105NIJ/OPA622x2 5 Q3810 38 1255NIJ/OPA622x2 5 Q3910 37 111 12PIJ/OPA622x2 5 Q40125 38 10 12PIJ/OPA622x2 5 * .ENDS * *Current Buffer CB .SUBCKT CB/OPA622x2 6 9 11 111 125 * Q4311 111 456NIJ/OPA622x2 4 Q446 125 46 11PIJ/OPA622x2 4 Q4545 45476NIJ/OPA622x2 12 Q4646 4647 11PIJ/OPA622x2 12 Q4711 4596NIJ/OPA622x2 48 Q486 469 11PIJ/OPA622x2 48 * .ENDS * *Biasing Circuit BC .SUBCKT BC/OPA622x2 2 5 12 131 141 * E13131 0121 01 E14141 0124 01 I121121 1240.1E-6 R1221225100E3 R1231222200 C12112112 10E-12 C1241245 10E-12 Q121121 12112 12PI/OPA622x2 Q122121 124 1225NI/OPA622x2 6 Q123124 12112 12PI/OPA622x2 Q124124 12455NI/OPA622x2 Q125513112 12PI/OPA622x2 11 * .ENDS * .MODEL NIJ/OPA622x2 NPN (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .MODEL PIJ/OPA622x2 PNP (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .MODEL NI/OPA622x2 NPN .MODEL PI/OPA622x2 PNP *$ ************************************************************************** * OPA623X1 WIDE BANDWIDTH, CURRENT FEEDBACK, SIMPLIFIED VERSION MACROMODEL * CREATED 8/92 KL * REV.B 7/9/93 BCB: CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : FOR QUICKER CONVERGENCE ADD THE NODESET*V(Xyour.X1.131)=+4.2885 AND *V(Xyour.X1.141)=-4.2893 IN THE ROOT SIMULATION FILE. *("Xyour" IS THE DEVICE NAME CALLED OUT IN THE ROOT FILE.) * * CONNECTIONS:INVERTING INPUT *| NON-INVERTING INPUT *| | NEGATIVE POWER SUPPLY *| | | OUTPUT *| | | | POSITIVE POWER SUPPLY *| | | | | .SUBCKT OPA623X1/BB2 3 4 6 7 * X14 7 131 141BC/OPA623X1 ; Biasing Circuit BC X22 3 4 7 111 121 131 141DT/OPA623X1 ; Diamond Transistor DT X34 6 7 111 121CB/OPA623X1 ; Current-Buffer CB * C202202E-12 C206602E-12 * .ENDS * *Diamond Transistor DT .SUBCKT DT/OPA623X1 2 3 4 7 111 121 131 141 * R2323 340 C2121 00.02E-12 C2222 00.02E-12 C2323 02E-12 C2727 014E-12 C2828 014E-12 C3535 03.1E-12 Q212113177PI/OPA623X1 Q222214144NI/OPA623X1 Q23423217PI/OPA623X1 Q24723224NI/OPA623X1 Q25272124NI/OPA623X1 6 Q26282227PI/OPA623X1 6 Q27272777PIM/OPA623X1 Q28282844NIM/OPA623X1 Q29111 2777PIM/OPA623X1 Q30121 2844NIM/OPA623X1 Q31111 111 334NI/OPA623X1 Q32121 121 347PI/OPA623X1 Q333333354NI/OPA623X1 Q343434357PI/OPA623X1 * .ENDS * *Current Buffer CB .SUBCKT CB/OPA623X1 4 6 7 111 121 * Q357 111 374NI/OPA623X1 Q364 121 387PI/OPA623X1 Q3737 37394NI/OPA623X1 Q3838 38397PI/OPA623X1 Q397 3764NI/OPA623X1 2.2 Q404 3867PI/OPA623X1 2.2 * .ENDS * *Biasing Circuit BC .SUBCKT BC/OPA623X1 4 7 131 141 * RQC122 4630 ; 745 Q121131 1317 7PI/OPA623X1 Q122131 141 122 4NI/OPA623X1 10 Q123141 1317 7PI/OPA623X1 Q124141 1414 4NI/OPA623X1 * .ENDS * .MODEL NI/OPA623X1 NPN .MODEL PI/OPA623X1 PNP .MODEL PIM/OPA623X1 PNP (VAF=18) .MODEL NIM/OPA623X1 NPN (VAF=18) *$ ************************************************************************** * OPA623X2 WIDE BANDWIDTH, CURRENT FEEDBACK, MACROMODEL, COMPLEX VERSION * CREATED 8/92 KL * REV.B 7/9/93 BCB: CLARIFICATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : FOR QUICKER CONVERSIONS INCLUDE THE NODESET*V(Xyour.X1.121)=+4.2990 AND*V(Xyour.X1.124)=-4.2995 IN THE ROOT SIMULATION FILE. *("Xyour" IS THE DEVICE NAME USED IN THE ROOT FILE.) * * CONNECTIONS:INVERTING INPUT *| NON-INVERTING INPUT *| | NEGATIVE POWER SUPPLY *| | | VOLTAGE OUTPUT *| | | | POSITIVE POWER SUPPLY *| | | | | .SUBCKT OPA623X2/BB2 3 4 6 7 * X14 7 131 141BC/OPA623X2 ; Biasing Circuit BC X22 3 4 7 111 123 131 141DT/OPA623X2 ; Diamond Transistor DT X34 6 7 111 123CB/OPA623X2 ; Current-Buffer CB * C202202E-12 C203302E-12 C206602E-12 * .ENDS * *Diamond Transistor DT .SUBCKT DT/OPA623X2 2 3 4 7 111 123 131 141 * C3939 00.6E-12 Q2124 13177PI/OPA623X2 Q2223 14144NI/OPA623X2 Q2323 2377PIJ/OPA623X2 10 Q2424 2444NIJ/OPA623X2 10 Q2529 2377PIJ/OPA623X2 10 Q2630 2444NIJ/OPA623X2 10 Q27243297PIJ/OPA623X2 Q28233304NIJ/OPA623X2 Q2929 29284NIJ/OPA623X2 Q3030 30287PIJ/OPA623X2 Q3133 2924NIJ/OPA623X2 6 Q3234 3027PIJ/OPA623X2 6 Q3333 3377PIJ/OPA623X2 10 Q3434 3444NIJ/OPA623X2 10 Q35111 3377PIJ/OPA623X2 10 Q36123 3444NIJ/OPA623X2 10 Q37111 37 394NIJ/OPA623X2 5 Q3839 38 1234NIJ/OPA623X2 5 Q3939 37 1117PIJ/OPA623X2 5 Q40123 38 397PIJ/OPA623X2 5 * .ENDS * *Current Buffer CB .SUBCKT CB/OPA623X2 4 6 7 111 123 * Q437 111 454NIJ/OPA623X2 4 Q444 123 467PIJ/OPA623X2 4 Q4545 45474NIJ/OPA623X2 12 Q4646 46477PIJ/OPA623X2 12 Q477 4564NIJ/OPA623X2 48 Q484 4667PIJ/OPA623X2 48 * .ENDS * *Biasing Circuit BC .SUBCKT BC/OPA623X2 4 7 131 141 * E13131 0121 01 E14141 0124 01 * I121121 1240.1E-6 RQC1224745 C121121710E-12 C124124410E-12 Q121121 12177PI/OPA623X2 Q122121 124 1224NI/OPA623X2 6 Q123124 12177PI/OPA623X2 Q124124 12444NI/OPA623X2 Q1254 13177PI/OPA623X2 11 * .ENDS * .MODEL PI/OPA623X2 PNP .MODEL NI/OPA623X2 NPN .MODEL PIJ/OPA623X2 PNP (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .MODEL NIJ/OPA623X2 NPN (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) *$ ************************************************************************** * OPA627 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/12/90 AT 07:59 * REV.B5/22/91 TK * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA627/BB1 2 3 4 5 * C111 12 3.182E-12 C267 23.00E-12 CSS10 99 40.45E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 419.4E6 -40E6 40E6 40E6 -40E6 GA60 11 12 2.432E-3 GCM06 10 99 3.779E-9 ISS3 10 DC 1.840E-3 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 419.4 RD24 12 419.4 RO185 54 RO27 99 1 RP34 4.286E3 RSS10 99 108.7E3 VB90 DC 0 VC3 53 DC 2.700 VE544 DC 2.700 VLIM78 DC 0 VLP910 DC 55 VLN0 92 DC 55 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=1.545E-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 * REV.B5/22/91 TK * REV.C3/21/92 BCB:added input bias current correction and *current and voltage noise * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA627E/BB1 2 3 4 5 * C111 12 3.182E-12 C267 23.00E-12 CSS10 99 40.45E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 419.4E6 -40E6 40E6 40E6 -40E6 GA60 11 12 2.432E-3 GCM06 10 99 3.779E-9 ISS3 10 DC 1.840E-3 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 1.6E-6 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 1.6E-6 R269 100.0E3 RD14 11 419.4 RD24 12 419.4 RO185 54 RO27 99 1 *RP34 4.286E3 RSS10 99 108.7E3 VB90 DC 0 VC3 53 DC 2.700 VE544 DC 2.700 VLIM78 DC 0 VLP910 DC 55 VLN0 92 DC 55 **************************** * OPA627 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ14.76E-31 FQ204 POLY(1) VQ24.76E-3 -1 * QUIESCIENT CURRENT RQ347.5E4 * DIFF INPUT CAPACITANCE CDIF128.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 7.0E-12 C2CM299 7.0E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1E-12 AF=1 KF=71.89E-15) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=1.545E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA628M OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "M" ISMULTIPLE POLE/ZERO TOPOLOGY * CREATED 7/16/93 BCB * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKTOPA628M/BB 32746 * * INPUT STAGE (pole @ 220M Hz) Q113215N Q2141116N R371347.75 R471447.75 C113146E-12 R5151242.55 R6161242.55 IEE1245.5E-3 EOS113POLY(1)(33,9)500E-61 R121016E3 R231016E3 CIN232E-12 IOS230.3E-6 * GAIN STAGE (pole @ 2K Hz) V217212.736 D212321DX V222242.736 D222223DX G21723POLY(1)(13,14)26.706E-3 20.94E-3 G22423POLY(1)(13,14)-26.706E-3 20.94E-3 R277234.77E6 R284234.77E6 C2272316.68E-12 C2342316.68E-12 * COMMON-MODE REJECTION STAGE (zero @ 300K Hz) R3131331E6 R3232331E6 G317331093.1623E-12 G324331093.1623E-12 L31317530.5E-3 L32324530.5E-3 * OUTPUT STAGE D32371DX D47223DX D5773DX D6774DX D7473DZ D8474DZ G147346231000 G137442361000 V3716-.9125 V4672-.9125 G11677231000 G12462341000 R23760.001 R24460.001 * CENTER OF SUPPLIES R97916.359E3 R104916.359E3 * .MODELDXD(IS=1E-15) .MODELNNPN(BF=183) .MODELDZD(IS=1E-15 BV=50) .ENDS *$ ************************************************************************** * OPA637 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/04/90 AT 11:11 * REV.B5/22/91 TK * REV.C1/8/93 Changed nodes on J2 BCB ** CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA637/BB1 2 3 4 5 * C111 12 8.221E-12 C267 3.600E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 552.6E6 -20E6 20E6 20E6 -20E6 GA60 11 12 1.810E-3 GCM06 10 99 2.868E-9 ISS3 10 DC 486.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 552.6 RD24 12 552.6 RO185 54 RO27 99 1 RP34 4.286E3 RSS10 99 411.5E3 VB90 DC 0 VC3 53 DC 2.700 VE544 DC 2.700 VLIM78 DC 0 VLP910 DC 55 VLN0 92 DC 55 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.37E-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 * REV.B5/22/91 TK * REV.C3/21/92 BCB added input bias current correction and *current and voltage noise * REV.D2/05/93 BCB Changed parameters of FB * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA637E/BB1 2 3 4 5 * C111 12 8.221E-12 C267 3.600E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 552.6E6 -60E6 60E6 60E6 -60E6 GA60 11 12 1.810E-3 GCM06 10 99 2.868E-9 ISS3 10 DC 486.0E-6 HLIM 900 VLIM 1K J1112 10 JX J212 64 10 JX G11 2 4 POLY(4) (10,2) (11,2) (4,2) (66,0) 0 1E-12 1E-12 1E-12 1.6E-6 G21 1 4 POLY(4) (10,1) (12,1) (4,1) (68,0) 0 1E-12 1E-12 1E-12 1.6E-6 R269 100.0E3 RD14 11 552.6 RD24 12 552.6 RO185 54 RO27 99 1 *RP34 4.286E3 RSS10 99 411.5E3 VB90 DC 0 VC3 53 DC 2.700 VE544 DC 2.700 VLIM78 DC 0 VLP910 DC 55 VLN0 92 DC 55 **************************** * OPA637 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ15.38E-31 FQ204 POLY(1) VQ25.38E-3 -1 * QUIESCIENT CURRENT RQ347.5E4 * DIFF INPUT CAPACITANCE CDIF128.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 7.0E-12 C2CM299 7.0E-12 * INPUT VOLTAGE NOISE VN1 6100.6 VN20620.6 DN1 6163DY DN2 6362DY EN64163 0 1 * INPUT CURRENT NOISE RN10 65 60.3865 RN2 65 66 60.3865 RN3 660 120.773 RN40 67 60.3865 RN5 67 68 60.3865 RN6 680 120.773 * .MODEL DY D(IS=1E-15 AF=1 KF=73.4E-18) .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=3.37E-3 VTO=-1) .ENDS *$ ************************************************************************** * OPA640X - WIDEBAND VOLTAGE FEEDBACK OPERATIONAL AMPLIFIER MACROMODEL * CREATED 11/21/93DS * REV.A * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : SUGGESTED TEST CIRCUIT *X183848181828080OPA640X/BB *VCC800DC 5V *VEE081DC 5V *CFB8382.15E-12 *RFB868225 *LFB83862.2E-9 *VIN850AC 1 DC 0 PWL ( 0N -1 1N 1 20N 1 21N -1 ) *RSOURCE858425 *RL820100 *CL8202E-12 * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||NEGATIVE OUTPUT POWER SUPPLY *||||OUTPUT *|||||POSITIVE POWER SUPPLY *||||||POSITIVE OUTPUT POWER SUPPLY *||||||| .SUBCKT OPA640X/BB 131411912108 * Q34414342 NPN1 10 Q33414211 PNP1 10 Q32434342 NPN1 20 Q314340411 PNP1 36 Q304237412 NPN1 36 Q29424211 PNP1 20 Q284039382 NPN1 2 Q152930312 NPN1 4 Q27133402 NPN1 24 Q26433371 PNP1 24 Q253736351 PNP1 2 Q24393842 NPN1 1 Q23363511 PNP1 1 Q142826173 PNP1 4 Q72424252 NPN1 1 Q181526163 PNP1 4 Q212115332 NPN1 2 Q223324342 NPN1 2 Q203030322 NPN1 4 Q191529302 NPN1 4 Q1177182 NPN1 12 Q102626443 PNP1 1 Q32024232 NPN1 8 Q2166192 NPN1 12 Q62726453 PNP1 1 Q112227263 PNP1 1 R3182060 R5192060 C2212220E-12 C31428E-12 R1121442E3 R821452E3 R122117250 R222420 R222220 R42322125 ISOUR2724450E-6 V128293.26 R13312280 R15322280 C830221.0E-12 C615224.6E-12 R163422320 R142116250 R925221E3 R18135450 R19384450 R2041510 R211320 R132120 I13639500E-6 * * PACKAGE PARASITICS CINV1300.75E-12 L10P66681.5E-9 L6P63641.08E-9 L2P60611.08E-9 C1P152.15E-12 C30P772.0425E-12 C29P52.15E-12 C2P62.15E-12 L5P657.7E-9 C3P612.0425E-12 C4P6164.05E-12 C8P72.15E-12 C9P642.0425E-12 C10P6468.05E-12 C14P22.15E-12 C15P682.0125E-12 C16P12.15E-12 C17P712.0125E-12 C18P7174.05E-12 C22P32.15E-12 C23P742.0425E-12 C24P7477.05E-12 C31P7780.05E-12 C35P42.15E-12 C36P802.0125E-12 L1P626.7E-9 L9P692.7E-9 L14P701.7E-9 L15P72711.5E-9 L18P733.7E-9 L19P75741.08E-9 L22P765.7E-9 L23P78771.08E-9 L27P794.7E-9 L28P81801.5E-9 L31P822.7E-9 L13P267.7E-9 R1P6162.01 R2P1360.1 R6P6465.01 R7P1463.1 R11P6869.01 R12P1166.1 R16P6768.01 R17P7170.01 R18P872.1 R22P7473.01 R23P1075.1 R27P7776.01 R28P1278.1 R33P8079.01 R34P981.1 R38P8082.01 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS *$ ************************************************************************** * OPA641X - WIDEBAND VOLTAGE FEEDBACK OPERATIONAL AMPLIFIER MACROMODEL *CREATED7/11/94DY * REV. A * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||NEGATIVE OUTPUT POWER SUPPLY *||||OUTPUT *|||||POSITIVE POWER SUPPLY *||||||POSITIVE OUTPUT POWER SUPPLY *||||||| .SUBCKT OPA641X/BB131411912108 * Q34414342 NPN1 10 Q33414211 PNP1 10 Q32434342 NPN1 20 Q314340411 PNP1 36 Q304237412 NPN1 36 Q29424211 PNP1 20 Q284039382 NPN1 2 Q152930312 NPN1 4 Q27133402 NPN1 24 Q26433371 PNP1 24 Q253736351 PNP1 2 Q24393842 NPN1 1 Q23363511 PNP1 1 Q142826173 PNP1 4 Q72424252 NPN1 1 Q181526163 PNP1 4 Q212115332 NPN1 2 Q223324342 NPN1 2 Q203030322 NPN1 4 Q191529302 NPN1 4 Q1177182 NPN1 12 Q102626443 PNP1 1 Q32024232 NPN1 8 Q2166192 NPN1 12 Q62726453 PNP1 1 Q112227263 PNP1 1 R3182060 R5192060 C2212220E-12 C31428E-12 R1121442K R821452K R122117250 R222420 R222220 R42322125 ISOUR2724DC 450E-6 V12829DC 3.2 R13312280 R15322280 C830220.6E-12 C615222.3E-12 R163422320 R142116250 R925221K R18135500 R19384500 R2041510 R211320 R132120 I13639DC 500E-6 C4652.0E-12 * PACKAGE PARASITICS CINV1300.75E-12 L10P56581.5E-9 L6P53541.08E-9 L2P50511.08E-9 C1P152.15E-12 C30P672.0425E-12 C29P52.15E-12 C2P62.15E-12 L5P557.7E-9 C3P512.0425E-12 C4P5154.05E-12 C8P72.15E-12 C9P542.0425E-12 C10P5458.05E-12 C14P22.15E-12 C15P582.0125E-12 C16P12.15E-12 C17P612.0125E-12 C18P6164.05E-12 C22P32.15E-12 C23P642.0425E-12 C24P6467.05E-12 C31P6770.05E-12 C35P42.15E-12 C36P702.0125E-12 L1P526.7E-9 L9P592.7E-9 L14P601.7E-9 L15P62611.5E-9 L18P633.7E-9 L19P65641.08E-9 L22P665.7E-9 L23P68671.08E-9 L27P694.7E-9 L28P71701.5E-9 L31P722.7E-9 L13P257.7E-9 R1P5152.01 R2P1350.1 R6P5455.01 R7P1453.1 R11P5859.01 R12P1156.1 R16P5758.01 R17P6160.01 R18P862.1 R22P6463.01 R23P1065.1 R27P6766.01 R28P1268.1 R33P7069.01 R34P971.1 R38P7072.01 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS* ****************** OPA641X TEST CIRCUIT ****************** * *X183848181828080OPA641X/BB *VCC800DC 5V *VEE081DC 5V *CFB8382.15E-12 *RFB8682400 *LFB83862.2E-9 *RFF8387400 *LFF8702.2E-9 *CFF830.15E-12 *VIN850PWL ( 0N -1 1N 1 49N 1 50N -1 ) *RSOURCE858425 *RL820100 *CL8205E-12 *.ENDS *$ ************************************************************************** * OPA642X - WIDEBAND LOW DISTORTION OPERATIONAL AMPLIFIER MACROMODEL * CREATED 11/21/93DS * REV. A * * NOTE : SUGGESTED TEST CIRCUIT *X193949191929090OPA642/BB *VCC9005V *VEE0915V *RL920100 *CL9205E-12 *VIN960AC 1 DC 0 PWL ( 0NS -1 1N 1 20N 1 21N -1 ) *RSOURCE969420 *RFB959220 *LFB93952.2E-9 *CFB9392.19E-12 ** |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||NEGATIVE OUTPUT POWER SUPPLY *||||OUTPUT *|||||POSITIVE POWER SUPPLY *||||||POSITIVE OUTPUT POWER SUPPLY *||||||| .SUBCKT OPA642X/BB 131411912108 * Q11635403 PNP1 4 Q31735413 PNP1 4 Q345451531 PNP1 36 Q30115512 NPN1 20 Q143427303 PNP1 1 Q152217343 PNP1 2 Q174234373 PNP1 4 Q211536383 PNP1 4 Q252216363 PNP1 2 Q194243442 NPN1 4 Q163727313 PNP1 3 Q203827323 PNP1 3 Q234343452 NPN1 4 Q221542432 NPN1 4 Q32525211 PNP1 20 Q26474611 PNP1 1 Q285047461 PNP1 2 Q243627333 PNP1 1 Q315148492 NPN1 2 Q27484942 NPN1 1 Q29415501 PNP1 20 Q36535211 PNP1 20 Q37535442 NPN1 20 Q92425233 PNP1 2 Q132326273 PNP1 1 Q35545442 NPN1 20 Q52023242 NPN1 8 Q4176192 NPN1 12 Q2167182 NPN1 12 Q335250532 NPN1 36 Q82627293 PNP1 1 Q122727283 PNP1 1 R261320 R2432120 R12140250 R42141250 R2182075 R5192075 R272420 R2522220 R32422125 C2212218E-12 C31418E-12 R235355 ISOUR2625500E-6 R112128500 R82129500 R925221250 R122130500 R132131166 R172132166 R153735160 R163538160 R192133500 R144422320 R184522320 C843220.5E-12 C615220.56E-12 R21146400 C716511E-12 R22494400 C1172211E-12 I14748500E-6 CA4528.8E-12 CA12228.8E-12 CA222214.4E-12 CA34214.4E-12 * PACKAGE PARASITICS CINV1300.75E-12 L10P66681.5E-9 L6P63641.08E-9 L2P60611.08E-9 C1P152.15E-12 C30P772.0425E-12 C29P52.15E-12 C2P62.15E-12 L5P657.7E-9 C3P612.0425E-12 C4P6164.05E-12 C8P72.15E-12 C9P642.0425E-12 C10P6468.05E-12 C14P22.15E-12 C15P682.0125E-12 C16P12.15E-12 C17P712.0125E-12 C18P7174.05E-12 C22P32.15E-12 C23P742.0425E-12 C24P7477.05E-12 C31P7780.05E-12 C35P42.15E-12 C36P802.0125E-12 L1P626.7E-9 L9P692.7E-9 L14P701.7E-9 L15P72711.5E-9 L18P733.7E-9 L19P75741.08E-9 L22P765.7E-9 L23P78771.08E-9 L27P794.7E-9 L28P81801.5E-9 L31P822.7E-9 L13P267.7E-9 R1P6162.01 R2P1360.1 R6P6465.01 R7P1463.1 R11P6869.01 R12P1166.1 R16P6768.01 R17P7170.01 R21P872.1 R22P7473.01 R26P1075.1 R27P7776.01 R31P1278.1 R33P8079.01 R37P981.1 R38P8082.01 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS *$ ************************************************************************** * OPA643X -WIDEBAND LOW DISTORTION OPERATIONAL AMPLIFIER MACROMODEL * CREATED 11/21/93 DS * REV.A * * NOTE : SUGGESTED TEST CIRCUIT *X193949191929090OPA643/BB *VCC9005V *VEE0915V *RL920100 *CL9205E-12 *VIN960AC 1 DC 0 PWL ( 0NS -0.2 1N 0.2 20N 0.2 21N -0.2 ) *RSOURCE969420 *RFB9592400 *LFB93952.2E-9 *CFB9392.19E-12 *RFF9397100 *LFF9702.2E-9 *CFF930.19E-12 *.END * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||NEGATIVE OUTPUT POWER SUPPLY *||||OUTPUT *|||||POSITIVE POWER SUPPLY *||||||POSITIVE OUTPUT POWER SUPPLY *||||||| .SUBCKT OPA643X/BB 131411912108 * Q11635403 PNP1 4 Q31735413 PNP1 4 Q345451531 PNP1 36 Q30115512 NPN1 20 Q143427303 PNP1 1 Q152217343 PNP1 2 Q174234373 PNP1 4 Q211536383 PNP1 4 Q252216363 PNP1 2 Q194243442 NPN1 4 Q163727313 PNP1 3 Q203827323 PNP1 3 Q234343452 NPN1 4 Q221542432 NPN1 4 Q32525211 PNP1 20 Q26474611 PNP1 1 Q285047461 PNP1 2 Q243627333 PNP1 1 Q315148492 NPN1 2 Q27484942 NPN1 1 Q29415501 PNP1 20 Q36535211 PNP1 20 Q37535442 NPN1 20 Q92425233 PNP1 2 Q132326273 PNP1 1 Q35545442 NPN1 20 Q52023242 NPN1 8 Q4176192 NPN1 12 Q2167182 NPN1 12 Q335250532 NPN1 36 Q82627293 PNP1 1 Q122727283 PNP1 1 R261320 R2432120 R12140250 R42141250 R2182045 R5192045 R272420 R2522220 R32422125 C2212220E-12 C31420E-12 R235355 ISOUR2625500E-6 R112128500 R82129500 R925221250 R122130500 R132131166 R172132166 R153735160 R163538160 R192133500 R144422320 R184522320 C843220.75E-12 C615220.55E-12 R21146400 C71653.5E-12 R22494400 C117223.5E-12 I14748500E-6 CA4522.8E-12 CA12222.8E-12 CA222216E-12 CA34216E-12 * PACKAGE PARASITICS CINV1300.75E-12 L10P66681.5E-9 L6P63641.08E-9 L2P60611.08E-9 C1P152.15E-12 C30P772.0425E-12 C29P52.15E-12 C2P62.15E-12 L5P657.7E-9 C3P612.0425E-12 C4P6164.05E-12 C8P72.15E-12 C9P642.0425E-12 C10P6468.05E-12 C14P22.15E-12 C15P682.0125E-12 C16P12.15E-12 C17P712.0125E-12 C18P7174.05E-12 C22P32.15E-12 C23P742.0425E-12 C24P7477.05E-12 C31P7780.05E-12 C35P42.15E-12 C36P802.0125E-12 L1P626.7E-9 L9P692.7E-9 L14P701.7E-9 L15P72711.5E-9 L18P733.7E-9 L19P75741.08E-9 L22P765.7E-9 L23P78771.08E-9 L27P794.7E-9 L28P81801.5E-9 L31P822.7E-9 L13P267.7E-9 R1P6162.01 R2P1360.1 R6P6465.01 R7P1463.1 R11P6869.01 R12P1166.1 R16P6768.01 R17P7170.01 R21P872.1 R22P7473.01 R26P1075.1 R27P7776.01 R31P1278.1 R33P8079.01 R37P981.1 R38P8082.01 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS *$ ************************************************************************** * OPA644X - LOW DISTORTION CURRENT FEEDBACK OPERATIONAL AMPLIFIER MACROMODEL * CREATED 12/21/93 DS * REV.A ** |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : SUGGESTED TEST CIRCUIT * *X193949191929090OPA644X/BB *VEE091DC 5V *VCC900DC 5V *VIN960PWL ( 0NS -2 1N 2 49N 2 50N -2 ) *V0960AC 1 DC 0 SIN ( 0 1 1MEG 0 0 0 ) *RIN969450 *CLOAD9205E-12 *RLOAD920100 *RFB9592400 *LFB93952.2E-9 *CFB9392.19E-12 *.END * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||NEGATIVE OUTPUT POWER SUPPLY *||||OUTPUT *|||||POSITIVE POWER SUPPLY *||||||POSITIVE OUTPUT POWER SUPPLY *||||||| .SUBCKT OPA644X/BB 131411912108 * Q112921263 PNP1 2 Q143024282 NPN1 2 Q41148162 NPN2 3 Q42449161 PNP2 3 Q61924272 NPN1 2 Q91719242 NPN1 1 Q81820223 PNP1 1 Q445148522 NPN2 36 Q455049521 PNP2 36 Q101822213 PNP1 1 Q38436481 PNP1 20 Q173230543 PNP1 2 Q39136492 NPN1 20 Q12292972 NPN1 2 Q13303073 PNP1 2 Q163129542 NPN1 2 Q43515111 PNP2 20 Q46505042 NPN2 20 Q47525111 PNP2 20 Q48525042 NPN2 20 Q32021253 PNP1 2 C21420E-12 C1171828E-12 ISOUR2019DC 700E-6 R342420 R221820 R331320 R131720 R727181E3 R28241810E3 R1028181E3 R2652510 R517251E3 R27172110E3 R917261E3 R183839266 C815162.0E-12 C317201.5E-12 C417191.5E-12 C1236180.3E-12 C1PP18222.4E-12 C2PP4216E-12 C4PP1921.2E-12 C3PP2021.2E-12 C8PP1621.6E-12 C12PP1820.24E-12 F11733V1 1 V11731DC 2.1V V23218DC 2.1V F23318V2 1 V33359DC 0 F31559V3 1 IOUT1148DC 1.8E-3 IOUT2494DC 1.8E-3 RE30395933.7 RE2937382950 CE2937380.42E-12 CU29373532.32E-15 G1353837 38 0.0305 R029353839.84E3 CO293526.69E-15 RB291537160 RB3359406.2E3 CS333620.195E-12 RO33363530.67E3 G2363534 35 0.0188 CE3334350.405E-12 RE3334352364 CU33343632.5E-15 RBB334034120 RE31465935.1 RE3244451300 CE3244450.613E-12 G3434544 45 0.0295 CU32444337.83E-15 RO32434519.12E3 CO324320.15E-12 RO34364365.36E3 CO343628.57E-15 CU34423627.82E-15 RE3442435319 CE3442430.279E-12 G4364342 43 0.0194 RB3459416.2E3 RB321544120 R194546266 RBB344142160 R205935500 R215943500 C6385920E-15 C7455920E-15 R31581080 R45841080 E159458 4 1 R665410 * PACKAGE PARASITICS CINV1300.75E-12 L10P66681.5E-9 L6P63641.08E-9 L2P60611.08E-9 C1P152.15E-12 C30P772.0425E-12 C29P52.15E-12 C2P62.15E-12 L5P657.7E-9 C3P612.0425E-12 C4P6164.05E-12 C8P72.15E-12 C9P642.0425E-12 C10P6468.05E-12 C14P22.15E-12 C15P682.0125E-12 C16P12.15E-12 C17P712.0125E-12 C18P7174.05E-12 C22P32.15E-12 C23P742.0425E-12 C24P7477.05E-12 C31P7780.05E-12 C35P42.15E-12 C36P802.0125E-12 L1P626.7E-9 L9P692.7E-9 L14P701.7E-9 L15P72711.5E-9 L18P733.7E-9 L19P75741.08E-9 L22P765.7E-9 L23P78771.08E-9 L27P794.7E-9 L28P81801.5E-9 L31P822.7E-9 L13P267.7E-9 R1P6162.01 R2P1360.1 R6P6465.01 R7P1463.1 R11P6869.01 R12P1166.1 R16P6768.01 R17P7170.01 R18P872.1 R22P7473.01 R23P1075.1 R27P7776.01 R28P1278.1 R33P8079.01 R34P981.1 R38P8082.01 C37P162.15E-12 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL NPN2 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 1.831E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 1.065E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .MODEL PNP2 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 3.053E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 0.571E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS *$ ************************************************************************** * OPA646X - LOW POWER, WIDE BANDWIDTH OPERATIONAL AMPLIFIER MACROMODEL * CREATED 11/21/93 DS * REV.A * * NOTE : SUGGESTED TEST CIRCUIT *X183848181828080OPA646X/BB *VCC8005V *VEE0815V *VIN850AC 1 DC 0 PWL ( 0N -1 1N 1 20N 1 21N -1 ) *RSOURCE858425 *RL820100 *CL8205E-12 *CFB8382.15E-12 *RFB868225 *LFB83862.2E-9 *.END ** |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||NEGATIVE OUTPUT POWER SUPPLY *||||OUTPUT *|||||POSITIVE POWER SUPPLY *||||||POSITIVE OUTPUT POWER SUPPLY *||||||| .SUBCKT OPA646X/BB 131411912108 * Q31142411 NPN1 36 Q32443411 PNP1 36 Q304240432 NPN1 20 Q29436431 PNP1 1 Q28135422 NPN1 1 Q274340421 PNP1 20 Q243624372 NPN1 2 Q153032312 NPN1 1 Q223915452 NPN1 2 Q213815441 PNP1 2 Q193526341 PNP1 2 Q112926173 PNP1 1 Q72424252 NPN1 1 Q161526163 PNP1 1 Q233636451 PNP1 4 Q203535442 NPN1 4 Q252117392 NPN1 2 Q262230383 PNP1 2 Q183232332 NPN1 1 Q171530322 NPN1 1 Q102227263 PNP1 1 Q32024232 NPN1 2 Q2166192 NPN1 4 Q1177182 NPN1 4 Q62726283 PNP1 1 R31820350 R51920350 R192420 R222220 R42322500 R821282.2E3 R1121171E3 R1321161E3 R1741510 R123122320 R143322320 R163722400 R152134400 R181320 R132120 C2212228E-12 C31428E-12 C632220.65E-12 C715220.75E-12 R925221E3 ISOUR2724200E-6 V129302.352 * PACKAGE PARASITICS CINV1300.75E-12 R38P8082.01 R33P8079.01 R28P1278.1 R27P7776.01 R23P1075.1 R22P7473.01 R18P872.1 R17P7170.01 R16P6768.01 R14P1166.1 R11P6869.01 R9P1463.1 R6P6465.01 R4P1360.1 R1P6162.01 C6P6164.05E-12 C12P6468.05E-12 L13P267.7E-9 L4P60611.08E-9 L8P63641.08E-9 L12P66681.5E-9 L31P822.7E-9 L28P81801.5E-9 L27P794.7E-9 L23P78771.08E-9 L22P765.7E-9 L19P75741.08E-9 L18P733.7E-9 L15P72711.5E-9 L14P701.7E-9 L9P692.7E-9 L1P626.7E-9 C36P802.0125E-12 C35P42.15E-12 C31P7780.05E-12 C24P7477.05E-12 C23P742.0425E-12 C22P32.15E-12 C18P7174.05E-12 C17P712.0125E-12 C16P12.15E-12 C15P682.0125E-12 C14P22.15E-12 C9P642.0425E-12 C8P72.15E-12 C3P612.0425E-12 L5P657.7E-9 C2P62.15E-12 C29P52.15E-12 C30P772.0425E-12 C1P152.15E-12 R34P981.1 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS *$ ************************************************************************** * OPA648X ULTRA WIDE-BAND CURRENT FEEDBACK AMPLIFIER * CREATED 8/24/94DY *REV. A * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA648X/BB9108117* Q141920212 NPN1 2 Q152020222 NPN1 2 Q162319202 NPN1 2 Q2232341 PNP1 2 Q4282331 PNP1 2 Q1181842 NPN1 2 Q3271832 NPN1 2 Q73327261 PNP1 2 Q62626251 PNP1 2 Q52726241 PNP1 2 Q82831292 NPN1 2 Q93131302 NPN1 2 Q103228312 NPN1 2 Q283736351 PNP1 2 Q304038392 NPN1 2 Q424342132 NPN1 36 Q404341121 PNP1 36 Q311334371 PNP1 20 Q321234402 NPN1 20 Q414242132 NPN1 20 Q394141121 PNP1 20 Q334137432 NPN1 20 Q354240431 PNP1 20 Q293839132 NPN1 2 Q273635121 PNP1 2 Q384042132 NPN1 1 Q373741121 PNP1 1 Q22333362 NPN1 4 Q231233342 NPN1 2 Q251332341 PNP1 2 Q24323261 PNP1 4 Q111716141 PNP1 2 Q131817161 PNP1 2 Q121616151 PNP1 2 ISOUR1719DC 0.7E-3 R1921310 R1811210 R512141K R612151K R721131K R822131K R11224240 R21225240 R32913240 R43013240 CCOMP6130.7E-12 R2443510 I23638DC 0.5E-3 R221235400 R233913400 C31256E-12 * Package Parasitics CINV900.75E-12 L6P61621.5E-9 L4P58591.08E-9 L2P55561.08E-9 C1P62.15E-12 C14P682.0425E-12 C13P52.15E-12 C2P32.15E-12 L3P604.7E-9 C3P562.0425E-12 C4P5659.05E-12 C5P42.15E-12 C6P592.0425E-12 C7P5962.05E-12 C8P22.15E-12 C9P622.0125E-12 C10P12.15E-12 C11P652.0425E-12 C12P6568.05E-12 L1P573.7E-9 L5P632.7E-9 L7P641.7E-9 L8P66651.08E-9 L9P675.7E-9 L10P69681.08E-9 L11P270.7E-9 R1P5657.01 R2P955.1 R3P5960.01 R4P1058.1 R5P6263.01 R6P861.1 R16P7062.01 R7P6564.01 R8P766.1 R9P6867.01 R10P1169.1 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS* ****************** OPA648X TEST CIRCUIT ****************** * *X18081848283OPA648X/BB *VCC830DC 5V *VEE084DC 5V *RFB8582250 *VIN870PWL ( 0N -1 1N 1 20N 1 21N -1 ) *vin87 0 ac 1 *RL0AD820100 *LFB80852.2E-9 *CLOAD8205E-12 *CFB80820.15E-12 *RSOUR878150 *RFF8086250 *CFF8000.15E-12 *LFF8602.2E-9 *.ENDS *$ ************************************************************************** * OPA650XWIDEBAND, LOW POWER VOLTAGE FEEDBACK OP AMP MACROMODEL * CREATED1/12/95DY * REV.A* * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA650X/BB1314111210* * Input Stage and Current Source Q2166192 NPN1 4 Q1177182 NPN1 4 Q32024232 NPN1 2 R31820300 R51920300 R42322500 ISOUR2724DC 370E-6 Q62726283 PNP1 1 Q72424252 NPN1 1 Q10227263 PNP1 1 R821282K R925221K R222220 R132120 C12724.6E-12 * Gain Stage Q112926173 PNP1 1 Q153032312 NPN1 1 Q164626163 PNP1 1 Q174730322 NPN1 1 Q183232332 NPN1 1 R1121171K R1321161K R123122320 R143322320 R184647500 V12930DC 2.4 C232220.4E-12 C446221.0E-12 C347220.35E-12 * Output Stage Q193526343 PNP1 2 Q203535442 NPN1 2 Q213847443 PNP1 2 Q223946452 NPN1 2 Q233636453 PNP1 2 Q243624372 NPN1 2 Q252117392 NPN1 2 Q262231383 PNP1 2 Q274340423 PNP1 10 Q28335422 NPN1 2 Q29236433 PNP1 2 Q304240432 NPN1 10 Q31342412 NPN1 48 Q32243413 PNP1 48 R1741510 R163722500 R1521341K * Package Parasitics R11P1265.1 R10P6463.01 R9P1062.1 R8P6160.01 R7P5758.01 R6P1156.1 R5P5859.01 R4P1453.1 R3P5455.01 R2P1350.1 R1P5152.01 C3P5154.05E-12 C6P5458.05E-12 L7P257.7E-9 L2P50511.08E-9 L4P53541.08E-9 L6P56581.5E-9 L11P65641.08E-9 L10P635.7E-9 L9P62611.08E-9 L8P603.7E-9 L5P592.7E-9 L1P526.7E-9 C11P6164.05E-12 C10P612.0425E-12 C9P32.15E-12 C8P582.0125E-12 C7P22.15E-12 C5P542.0425E-12 C4P72.15E-12 C2P512.0425E-12 L3P557.7E-9 C1P62.15E-12 C12P52.15E-12 C13P642.0425E-12 * * Models Used .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS * ****************** OPA650 TEST CIRCUIT ****************** * *VCC800DC 5V *VEE081DC 5V *VIN850PWL ( 0N -2 1N 2 50N 2 51N -2 ) *RL820100 *CL8205E-12 *CFB8382.15E-12 *CFF18300.75E-12 *RIN858425 *RFB868225 *LFB83862.2E-9 *X828384818280OPA650X/BB *.ENDS *$ ************************************************************************** * OPA651xWIDEABND, LOW POWER VOLTAGE FEEDBACK OP AMP MACROMODEL * STABLE IN GAINS >=2V/V* CREATED 5/4/95DY * REV. A * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA651X/BB 1314111210* * Input Stage and Current Source Q1177182 NPN1 4 Q2166192 NPN1 4 Q32024232 NPN1 2 Q62726283 PNP1 1 Q72424252 NPN1 1 Q10227263 PNP1 1 ISOUR2724DC 370E-6 R132120 R222220 R31820100 R51920100 R42322500 R821282K R925221K C12724.5E-12 C52122.5E-12 * Gain Stage Q112926173 PNP1 1 Q153032312 NPN1 1 Q164626163 PNP1 1 Q174730322 NPN1 1 Q183232332 NPN1 1 V12930DC 2.4 R1121171K R1321161K R123122320 R143322320 C232220.1E-12 C347220.6E-12 C446220.6E-12 C6651.5E-12 * Output Stage Q193526343 PNP1 2 Q203535442 NPN1 2 Q213847443 PNP1 2 Q223946452 NPN1 2 Q233636453 PNP1 2 Q243624372 NPN1 2 Q252117392 NPN1 2 Q262231383 PNP1 2 Q274340423 PNP1 10 Q28335422 NPN1 2 Q29236433 PNP1 2 Q304240432 NPN1 10 Q31342412 NPN1 48 Q32243413 PNP1 48 R1521341K R163722500 R1741510 R184647500 * Package Parasitics R1P5152.01 R2P1350.1 R3P5455.01 R4P1453.1 R5P5859.01 R6P1156.1 R7P5758.01 R8P6160.01 R9P1062.1 R10P6463.01 R11P1265.1 L1P526.7E-9 L2P50511.08E-9 L3P557.7E-9 L4P53541.08E-9 L5P592.7E-9 L6P56581.5E-9 L7P257.7E-9 L8P603.7E-9 L9P62611.08E-9 L10P635.7E-9 L11P65641.08E-9 C1P62.15E-12 C2P512.0425E-12 C3P5154.05E-12 C4P72.15E-12 C5P542.0425E-12 C6P5458.05E-12 C7P22.15E-12 C8P582.0125E-12 C9P32.15E-12 C10P612.0425E-12 C11P6164.05E-12 C12P52.15E-12 C13P642.0425E-12 CINV60.75E-12 * * Models Used .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS* ********************** OPA651X TEST CIRCUIT ************************ * *X848384818280OPA651X/BB *VCC800DC 5V *VEE081DC 5V *VIN850PWL ( 0N -1 1N 1 50N 1 51N -1 ) *RIN858425 *RLOAD820100 *CLOAD8205E-12 *CFB8382.15E-12 *RFB8682400 *LFB83862.2E-9 *RFF8387400 *LFF8702.2E-9 *CFF8300.15E-12 *.ENDS *$ ************************************************************************** * OPA655Moperational amplifier "macromodel" subscircuit * using Multiple pole-zero topology * created5/28/96sb * Rev.A7/20/96BB * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * Notes: * 1. The output stage includes a parasitic capacitance (C5=1pF) from the output *node to ground.* 2. For better convergence during transient analysis set: *.OPTIONSITL4=40 * * Node assignments: *-In*|+In *||Negative Supply *|||Output *||||Positive Supply *||||| .SUBCKT OPA655M/BB23467 ** Input Stage R1125E11 R2135E11 R371519.2 R471619.2 *2nd POLE at 260MHz C115161.1E-11 ISS14414E-3 IOS232E-12 EOS122POLY(1)7090.5E-31 J1151214JX J216314JX * Second Stage R772315385 R842315385 *1st POLE at 300KHz C272334.5E-12 C342334.5E-12 G1723POLY(1) 151610E-30.052 G2234POLY(1) 161510E-30.052 V1780.5V V21040.5V D1238DX D21023DX R9791E4 R10941E4 *Pole at 800MHz R117201E6 R122041E6 C117200.2E-16 C122040.2E-16 G37202391E-6 G42049231E-6 *Pole at 2.5GHz R307301E6 R314301E6 C307306.3E-17 C314306.3E-17 G307302091E-6 G313049201E-6 *Common Mode Stage R1971701E6 R2070721E6 L37710.851 L47240.851 G7770195.623E-10 G8704915.623E-10 *Pole at 1500MHz R217801E6 R224801E6 C217801.1E-16 C224801.1E-16 G97802091E-6 G108049201E-6 *Output Stage R2378164 R2481464 L581881.8E-9 R58861 C5601E-12 G118177801.5625E-2 G124818041.5625E-2 G1384480811.5625E-2 G1485481801.5625E-2 V382811.64 V481831.64 D38082DX D48380DX D5784DX D6785DX D7484DY D8485DY * .MODEL JXNJF(BETA=0.205VTO=-1.55IS=2.5E-12CGD=5E-13 AF=3.5KF=8E-10) .MODEL DXD(IS=1E-15) .MODEL DYD(IS=1E-15BV=20) .ENDS *$ ************************************************************************** * OPA658XWIDEBAND, LOW-POWER CURRENT-FEEDBACK OP AMP MACROMODEL * CREATED 11/24/94DY * REV. A * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * CONNECTIONS:INVERTING INPUT *|NON-INVERTING INPUT *||NEGATIVE POWER SUPPLY *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||.SUBCKT OPA658X/BB 897106* * Input Stage ISOUR11113DC 0.5MA ISOUR21412DC 0.5MA Q2141441 PNP1 2 Q4181431 PNP1 2 Q1131342 NPN1 2 Q3151332 NPN1 2 R5111220K C31300.3E-12 C41400.1E-12 R1611110 R1721210 C111121E-12 * Gain Stage Q72415371 PNP1 6 Q63717201 PNP1 6 Q51537161 PNP1 6 Q81819222 NPN1 3 Q91923212 NPN1 3 Q102618192 NPN1 3 R11116300 R21120300 R32212100 R42112100 R123717600 R61923200 C225120.4E-12 * Output Stage Q21133362 NPN1 48 Q22235361 PNP1 48 Q111226281 PNP1 3 Q121124302 NPN1 3 Q203534331 PNP1 10 Q193334352 NPN1 10 Q132929282 NPN1 3 Q17129332 NPN1 2 Q143131301 PNP1 3 Q18231351 PNP1 2 Q152937271 PNP1 6 Q163119322 NPN1 3 R91127300 R103212100 R7242580 R8252680 R1136510 * Package Parasitics CINV80.75E-12 L6P49481.5E-9 L4P46451.08E-9 L2P43421.08E-9 C8P552.0425E-12 L3P444.7E-9 C1P422.0425E-12 C2P4245.05E-12 C3P452.0425E-12 C4P4548.05E-12 C5P482.0125E-12 C6P522.0425E-12 C7P5255.05E-12 L1P413.7E-9 L5P472.7E-9 L7P511.7E-9 L8P53521.08E-9 L9P545.7E-9 L10P56551.08E-9 L11P250.7E-9 R1P4241.1 R2P843.1 R3P4544.1 R4P946.1 R5P4847.1 R6P749.1 R11P5048.025 R7P5251.1 R8P653.1 R9P5554.1 R10P1056.1 * * MODELS USED .MODEL NPN1 NPN + IS= 4.647E-17BF= 2.293E+02NF= 1.000E+00VAF = 4.398E+01 + IKF = 7.233E-03ISE= 1.222E-14NE= 2.000E+00BR= 3.695E+01 + NR= 1.000E+00VAR= 1.494E+00IKR = 1.667E+05ISC = 1.057E-14 + NC= 1.653E+00RB= 3.170E+02IRB = 0.000E+00RBM = 1.500E+02 + RE= 1.133E+01RC= 2.768E+01CJE = 2.070E-14VJE = 7.414E-01 + MJE = 4.950E-01TF= 1.150E-11XTF = 2.452E+01VTF = 1.029E+00 + ITF = 1.878E-02PTF= 0.000E+00CJC = 3.661E-14VJC = 6.465E-01 + MJC = 4.509E-01XCJC = 1.270E-01TR= 3.240E-10CJS = 5.326E-14 + VJS = 5.291E-01MJS= 4.389E-01XTB = 1.218E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 8.614E-01 * .MODEL PNP1 PNP + IS= 2.628E-17BF= 1.478E+02NF= 1.000E+00VAF = 3.106E+01 + IKF = 3.115E-03ISE= 8.930E-17NE= 1.283E+00BR= 3.061E+03 + NR= 1.000E+00VAR= 1.448E+00IKR = 5.000E-03ISC = 1.061E-14 + NC= 1.634E+00RB= 2.794E+02IRB = 0.000E+00RBM = 1.544E+02 + RE= 7.452E+00RC= 1.142E+02CJE = 2.038E-14VJE = 7.470E-01 + MJE = 4.930E-01TF= 1.434E-11XTF = 2.216E+01VTF = 1.072E+00 + ITF = 2.397E-02PTF= 0.000E+00CJC = 6.106E-14VJC = 7.743E-01 + MJC = 5.185E-01XCJC = 8.499E-02TR= 6.500E-10CJS = 2.855E-13 + VJS = 9.063E-01MJS= 4.931E-01XTB = 1.181E+00EG= 1.184E+00 + XTI = 2.000E+00KF= 0.000E+00AF= 1.000E+00FC= 9.014E-01 * .ENDS * ****************** OPA658 TEST CIRCUIT ****************** * *X16061636562OPA658X/BB *VCC620DC 5V *VEE063DC 5V *RFB6665400 *VIN670PWL ( 0N -1 1N 1 20N 1 21N -1 ) *RL650100 *LFB60662.2E-9 *CL6505E-12 *CFB60650.15E-12 *RSOUR676150 *CFF6000.15E-12 *RFF6064400 *LFF6402.2E-9 *.ENDS *$ ************************************************************************** * OPA660X1 = MDB + MDT + MBC OPERATIONAL TRANSCONDUCTANCE AMPLIFIER *AND BUFFER SIMPLIFIED MACROMODEL VERSION * CREATED 8/92 KL * REV.B7/9/93 BCB: CLARIFCATION OF NODE SET INSTRUCTIONS * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * NOTE : FOR QUICKER CONVERSION USE THE NODESET V(Xyour.13)=+4.2758 AND *V(Xyour.14)=-4.2774 IN THE ROOT SIMULATION FILE. ("Xyour" IS *THE DEVICE NAME USED IN THE ROOT FILE.) * * CONNECTIONS:IQ ADJUST *| E (EMITTER) *| | B (BASE) *| | | NEGATIVE SUPPLY *| | | | BUFFER IN *| | | | | BUFFER OUT *| | | | | | POSITIVE SUPPLY *| | | | | | | C (COLLECTOR) *| | | | | | | | .SUBCKT OPA660X1/BB 1 2 3 4 5 6 7 8 * X1 4 5 6 7 13 14 MDB/OPA660X1; Diamond Buffer DB X2 2 3 4 7 8 13 14 MDT/OPA660X1 ; Diamond Transistor DT X3 1 4 7 13 14 MBC/OPA660X1; Biasing Circuit BC C2011 02.0E-12 C2022 03.3E-12 C2066 02.0E-12 C2088 04.2E-12 * .ENDS * *Diamond Buffer MDB .SUBCKT MDB/OPA660X14 5 6 7 13 14 C7171 00.06E-12 C7272 00.06E-12 C7373 02.00E-12 R7373 590 Q7171 137PI/OPA660X12 Q7272 144NI/OPA660X12 Q734 73 71PI/OPA660X1 Q747 73 72NI/OPA660X1 Q757 716NI/OPA660X17 Q764 726PI/OPA660X17 * .ENDS * *Diamond Transistor MDT .SUBCKT MDT/OPA660X12 3 4 7 8 13 14 R2323 390 C2121 00.06E-12 C2222 00.06E-12 C2323 02.00E-12 C2525 028E-12 C2626 028E-12 Q2121 137PI/OPA660X12 Q2222 144NI/OPA660X12 Q234 23 21PI/OPA660X1 Q247 23 22NI/OPA660X1 Q2525 212NI/OPA660X17 Q2626 222PI/OPA660X17 Q2725 257PIJ/OPA660X1 Q2826 264NIJ/OPA660X1 Q298 257PIJ/OPA660X1 Q308 264NIJ/OPA660X1 * .ENDS * * Biasing Circuit MBC .SUBCKT MBC/OPA660X11 4 7 13 14 R122122450E3 R1231221100 Q12113 137PI/OPA660X1 Q12213 14 122NI/OPA660X19 Q12314 137PI/OPA660X1 Q12414 144NI/OPA660X1 * .ENDS * .MODEL NI/OPA660X1NPN .MODEL PI/OPA660X1PNP .MODEL NIJ/OPA660X1NPN (VAF=100) .MODEL PIJ/OPA660X1PNP (VAF=100) *$ ************************************************************************** * OPA660X2 = MDB + MDT + MBC OPERATIONAL TRANSCONDUCTANCE AMPLIFIER *AND BUFFER COMPLEX MACROMODEL VERSION *CREATED8/92KL *REV.A * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * |-------------------------------------------------------------| * * CONNECTIONS:IQ ADJUST *| E (EMITTER) *| | B (BASE) *| | | NEGATIVE SUPPLY *| | | | BUFFER IN *| | | | | BUFFER OUT *| | | | | | POSITIVE SUPPLY *| | | | | | | C (COLLECTOR) *| | | | | | | | .SUBCKT OPA660X2/BB 1 2 3 4 5 6 7 8 *X1 4 5 6 7 13 14 MDB/OPA660X2; Diamond Buffer DB X2 2 3 4 7 8 13 14 MDT/OPA660X2; Diamond Transistor DT X3 1 4 7 13 14 MBC/OPA660X2; Biasing Circuit BC C2011 02E-12 C2022 02E-12 C2033 02E-12 C2055 02E-12 C2066 02E-12 C2088 02E-12 * .ENDS * *Diamond Buffer MDB .SUBCKT MDB/OPA660X24 5 6 7 13 14 R77 77 5 25 Q71 74 137 7 PI/OPA660X22.8 Q72 73 144 4 NI/OPA660X22.8 Q73 73 737 7 PIJ/OPA660X218 Q74 74 744 4 NIJ/OPA660X218 Q75 79 737 7 PIJ/OPA660X218 Q76 80 744 4 NIJ/OPA660X218 Q77 74 77 79 7 PIJ/OPA660X2Q78 73 77 80 4 NIJ/OPA660X2Q79 79 79 78 4 NIJ/OPA660X26 Q80 80 80 78 7 PIJ/OPA660X26 Q817 796 4 NIJ/OPA660X218 Q824 806 7 PIJ/OPA660X218 * .ENDS * *Diamond Transistor MDT .SUBCKT MDT/OPA660X22 3 4 7 8 13 14 R27 27 3 25 R33 33 7 50 R34 34 4 50 R35 35 7 50 R36 36 4 50 C382 0 2.2E-12 Q21 24 137 7 PI/OPA660X22.8 Q22 23 144 4 NI/OPA660X22.8 Q23 23 237 7 PIJ/OPA660X218 Q24 24 244 4 NIJ/OPA660X218 Q25 29 237 7 PIJ/OPA660X218 Q26 30 244 4 NIJ/OPA660X218 Q27 24 27 29 7 PIJ/OPA660X2Q28 23 27 30 4 NIJ/OPA660X2Q29 29 29 28 4 NIJ/OPA660X26 Q30 30 30 28 7 PIJ/OPA660X26 Q31 31 292 4 NIJ/OPA660X218 Q32 32 302 7 PIJ/OPA660X218 Q33 31 31 33 7 PIJ/OPA660X218 Q34 32 32 34 4 NIJ/OPA660X218 Q358 31 35 7 PIJ/OPA660X218 Q368 32 36 4 NIJ/OPA660X218 * .ENDS * * Biasing Circuit MBC .SUBCKT MBC/OPA660X21 4 7 13 14 R122 122 4 50E3 R123 122 1 100 C121 121 0 10E-12 C124 124 0 10E-12I121 121 124 0.1E-6 E1313 0121 01 E1414 0124 01 Q121 121 1217 7 PI/OPA660X2Q122 121 124 122 4 NI/OPA660X227 Q123 124 1217 7 PI/OPA660X2Q124 124 1244 4 NI/OPA660X2Q1254137 7 PI/OPA660X232 * .ENDS * * BIPOLAR TRANSISTOR MODELS .MODEL NI/OPA660X2NPN .MODEL PI/OPA660X2PNP .MODEL NIJ/OPA660X2NPN (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) * .MODEL PIJ/OPA660X2PNP (BF= 110 IS= 0.1567E-16 +CJC = 0.029E-12 AF= 1.000NE= 1.366XTB = 2.452BR= 12.89 +CJE = 0.017E-12 EG= 1.183NF= 1.000XTF = 9.000IKF = 2.272E-3 +CJS = 0.050E-12 FC= 0.900NR= 1.000XTI = 2.000IKR = 16.67E-3 +RB= 228.0IRB = 0.000PTF = 0.000ISC = 5.248E-20 +RC= 48.83KF= 0.000VAR = 1.771ISE = 8.040E-18 +RE= 5.065MJC = 0.190VJC = 0.526ITF = 6.683E-3 +TF= 29.80E-12 MJE = 0.493VJE = 0.816RBM = 60.00 +TR= 65.00E-12 MJS = 0.348VJS = 0.596XCJC= 0.0732 +VAF = 39.00NC= 1.634VTF = 2.680) *$ ************************************************************************** * *** MACRO MODEL--OPA671M * Created 1-8-92 BCB * REV.B6-3-92 BCB (added TC for Aol, Is, PSR, and GBWP) * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation.| * || * |The users should carefully note the following factors| * |regarding this model.| * || * |-------------------------------------------------------------| * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| *||||| *||||| *||||| *||||| .SUBCKT OPA671M/BB 31 3274 36 * * Input and output parasitics CINP1 314 1.1P CINP234 1.9P LINP3 31 4N CINM1 324 1.1P CINM224 1.9P LINM2 32 4N COUT1 364 2.2P COUT264 2.2P LOUT6 36 75N CDIF123 4.5P R112 13 5E12 R12133 5E12 * Input stage (2nd pole @ 56M Hz) and GBW product vs temperature J11 152 14 JX J12 16 12 14 JX G1124 POLY(3) (15,2) (14,2) (4,2) 0 1E-12 1E-12 1E-12 G12 124 POLY(3) (16,12) 14,12) (4,12) 0 1E-12 1E-12 1E-12 C12 15 16 CX 3.336E-12 R13 154 426 R14 164 426 EOS 123 POLY(2) 81 71 63 4 0.5E-3 1 1 ISS7 14 0.666E-3 * Gain stage (80dB)[over temperature] and first pole (@ 6K HZ) R277 21 4.26E6 TC=-0.55E-2 R284 21 4.26E6 TC=-0.55E-2 C227 21 6.2267E-12 C234 21 6.2267E-12 G217 21 POLY(1) 15 16 9.35E-3 2.347E-3 G22 214 POLY(1) 16 15 9.35E-3 2.347E-3 V217 22 2.89 V22 234 2.89 D21 21 22 DX D22 23 21 DX * power supply voltage vs current and supply center reference * quiescent error current and supply current vs temperature R97 71 4.5E3 R10 4 71 4.5E3 R15 74 20.724E3 TC=-1E-3 G10 74 7 4 -0.5 * Power-supply rejection vs temperature GPSR1 63 4 7 22 207.1204E-6 GPSR2 63 4 7 4 -19.9526E-6 R6163 4 1 TC=27.5E-3 * Common-mode gain network -92dB, zero at 400kHz R82 82 811 L827 82 .3979E-6 R83 81 831 L83 834 .3979E-6 G827 81 13 71 25E-6 G83 814 71 13 25E-6 * correction current and output stage D91 21 92 DX D92 93 21 DX D937 94 DX D947 95 DX D954 94 DY D964 95 DY V93 926 1.39 V946 93 1.05 G9176 217 25E-3 G9246 214 25E-3 G95 9446 21 25E-3 G96 954 216 25E-3 R9176 40 R9246 40 * .MODEL JX PJF(BETA=2E-3 VTO=-2 IS=2.5E-12 AF=1 KF=19E-18) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15BV=50) .MODEL CX CAP(TC1=-.008) .ENDS *$ ************************************************************************** * *** MACRO MODEL--OPA675M * Created 3-23-92 BCB * REV.A * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation. | * || * |The users should carefully note the following factors| * |regarding this model.| * || * |-------------------------------------------------------------| * *This model includes the device characteristics as well as *package parasitics.If you are using the product in die * form, the package parasitics no longer apply. * * CONNECTIONS:NON-INVERTING INPUT A *|INVERTING INPUT A *||COMPENSATION PIN (see note above) *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||NEGATIVE POWER SUPPLY *||||||NON-INVERTING INPUT B *|||||||INVERTING INPUT B *||||||||ECL *|||||||||NOT ECL *||||||||||GND *||||||||||| .SUBCKT OPA675M/BB12587 10 16 15 13 12 11 * * Output and comp cap bond pad and pin parasitics LOUT38 2.5N COUT13 11 2.2P COUT28 11 2.2P CCPP1 190 1.1P CCPP250 1.1P LCPP195 10N * common mode reference R117 99 382 R12 10 99 382 * Side A bond pad and pin parasitics LM2 102 5N CM1211 1.1P CM2 10211 1.1P LP1 101 5N CP1111 1.1P CP2 10111 1.1P * Side A input stage (2nd pole @ 569M Hz) Q1110 102 114 QX Q2111 113 115 QX R5114 116 1065 R6115 116 1065 RIN1 1024 2.107E3 RIN2 1014 2.107E3 CIN102 101 2P IOS101 102 0.8U VOS113 101 250E-6 * Side B bond pad and pin parasitics LM_215 202 5N CM1_21511 1.1P CM2_2 20211 1.1P LP_216 201 5N CP1_21611 1.1P CP2_2 20111 1.1P * Side B input stage (2nd pole @ 569M Hz) Q1_2110 202 214 QX Q2_2111 213 215 QX R5_2214 216 1065 R6_2215 216 1065 RIN1_2 2026 2.107E3 RIN2_2 2016 2.107E3 CIN_2202 201 2P IOS_2201 202 0.8U VOS_2213 201 250E-6 * SWOP AMP switch RSW1 995 997 1 CSW1 99711 1000P RSW2 996 998 1 CSW2 99811 1000P Q11116 997 999 QY Q12216 998 999 QY C1111610 1.1P C1221610 1.1P IEE99910 0.9452E-3 VECL1 13 995 1 VECL2 12 996 1 * Common-input stage load for both sides C1 110 111 1.2485E-13 R37 110 1120 R47 111 1120 * first gain stage (36dB) R97 118 18.11K R10 10 118 18.11K G17 118 110 111 3.4E-3 G210 118 110 111 3.4E-3 E1722 POLY(1) 7 99 -1.847 1 E22310 POLY(1) 99 10 -1.847 1 D1 11822 DX D223 118 DX * second gain stage (1st pole @ 1.5M Hz {determined by device * and pad parasitics}, 34dB) and external compensation stage R77 19 56.14K R8 10 19 56.14K C37 19 0.791P C4 10 19 0.791P G37 19 POLY(1) 118 99 6.48E-30.8928E-3 G4 19 10 POLY(1) 99 118 6.48E-30.8928E-3 V37 20 2.667 V4 21 10 2.352 D3 19 20 DX D4 21 19 DX * pole stage @ 800 MHz G607 60 19 99 1E-6 G61 10 60 19 99 1E-6 R607 60 1E6 R61 10 60 1E6 C607 60 198.9E-18 C61 10 60 198.9E-18 * pole stage @ 2 GHz G807 80 60 99 1E-6 G81 10 80 60 99 1E-6 R807 80 1E6 R81 10 80 1E6 C807 80 795.8E-19 C81 10 80 795.8E-19 * pole stage @ 200 MHz G907 90 80 99 1E-6 G91 10 90 80 99 1E-6 R907 90 1E6 R91 10 90 1E6 C907 90 795.8E-18 C91 10 90 795.8E-18 * pole stage @ 20 GHz G1007 100 90 99 1E-6 G101 10 100 90 99 1E-6 R1007 100 1E6 R101 10 100 1E6 C1007 100 795.8E-20 C101 10 100 795.8E-20 * pole stage @ 20 GHz G1107 119 100 99 1E-6 G111 10 119 100 99 1E-6 R1107 119 1E6 R111 10 119 1E6 C1107 119 795.8E-20 C111 10 119 795.8E-20 * zero / pole pair @(fz = 142 MHz ,fp = 569 MHz) G1207 120 119 99 1E-6 G12110 120 119 99 1E-6 R120781 3E6 R1238210 3E6 R12181 120 1E6 R122 12082 1E6 L120781 839.1E-6 L1231082 839.1E-6 * correction current and output stage D5751 DX D6752 DX D7 12053 DX D854 120 DX D91051 DY D10 1052 DY V5533 -.05 V6354 -.05 G773 120 7 .03333 G8103 120 10 .03333 G95110 3 120 .03333 G10 5210 120 3 .03333 R1573 30 R16 103 30 * .MODEL QY NPN(BF=400) .MODEL QX NPN(BF=41) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *$ ************************************************************************** * *** MACRO MODEL--OPA676M * Created 1/13/92BCB * REV.B2/8/93 :BCB: TTL switch overdrove into saturation. Reduced voltage *amplitude to npn switch. * * |-------------------------------------------------------------| * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation.| * || * |The users should carefully note the following factors| * |regarding this model.| * || * |-------------------------------------------------------------| * * 1. This model includes the device characteristics as well as *package parasitics.If you are using the product in die * form, the package parasitics no longer apply. * * Your feedback and suggestions on this model will be appreciated! * * Bonnie Baker * Burr-Brown Corporation * 6730 S. Tucson Blvd. * Tucson, Arizona * (800) 548-6132(WATS line) * *NON-INVERTING INPUT A *|INVERTING INPUT A *||COMPENSATION PIN (see note above) *|||OUTPUT *||||POSITIVE POWER SUPPLY *|||||NEGATIVE POWER SUPPLY *||||||NON-INVERTING INPUT B *|||||||INVERTING INPUT B *||||||||NOT TTL *|||||||||GND *|||||||||| .SUBCKT OPA676M/BB12587 10 16 15 12 11 * * Output and comp cap bond pad and pin parasitics LOUT38 2.5N COUT13 11 2.2P COUT28 11 2.2P CCPP1 190 1.1P CCPP250 1.1P LCPP195 10N * common mode reference R117 99 382 R12 10 99 382 * Side A bond pad and pin parasitics LM2 102 5N CM1211 1.1P CM2 10211 1.1P LP1 101 5N CP1111 1.1P CP2 10111 1.1P * Side A input stage (2nd pole @ 569M Hz) Q1110 102 114 QX Q2111 113 115 QX R5114 116 1065 R6115 116 1065 RIN1 1024 2.107E3 RIN2 1014 2.107E3 CIN102 101 2P IOS101 102 0.8U VOS113 101 250E-6 * Side B bond pad and pin parasitics LM_215 202 5N CM1_21511 1.1P CM2_2 20211 1.1P LP_216 201 5N CP1_21611 1.1P CP2_2 20111 1.1P * Side B input stage (2nd pole @ 569M Hz) Q1_2110 202 214 QX Q2_2111 213 215 QX R5_2214 216 1065 R6_2215 216 1065 RIN1_2 2026 2.107E3 RIN2_2 2016 2.107E3 CIN_2202 201 2P IOS_2201 202 0.8U VOS_2213 201 250E-6 * SWOP AMP switch RSW113 997 1 CSW1 99711 1000P RSW2 996 998 1 CSW2 99811 1000P Q11116 997 999 QY Q12216 998 999 QY C1111610 2.75P C1221610 2.75P IEE99910 0.9452E-3 ETTL1 1311 POLY(1) 12,11 -1.8 -0.42 ETTL2 996 11 POLY(1) 12,11 -3.9 0.42 RTTL2 1211 1E6 * Common-input stage load for both sides C1 110 111 1.2485E-13 R37110 1120 R47111 1120 * first gain stage (36dB) R97 118 18.11K R10 10 118 18.11K G17 118 110 111 3.4E-3 G210 118 110 111 3.4E-3 E1722 POLY(1) 7 99 -1.847 1 E22310 POLY(1) 99 10 -1.847 1 D1 11822 DX D223 118 DX * second gain stage (1st pole @ 1.5M Hz {determined by device * and pad parasitics}, 34dB) and external compensation stage R77 19 56.14K R8 10 19 56.14K C37 19 0.791P C4 10 19 0.791P G37 19 POLY(1) 118 99 6.48E-30.8928E-3 G4 19 10 POLY(1) 99 118 6.48E-30.8928E-3 V37 20 2.667 V4 21 10 2.352 D3 19 20 DX D4 21 19 DX * pole stage @ 800 MHz G607 60 19 99 1E-6 G61 10 60 19 99 1E-6 R607 60 1E6 R61 10 60 1E6 C607 60 198.9E-18 C61 10 60 198.9E-18 * pole stage @ 2 GHz G807 80 60 99 1E-6 G81 10 80 60 99 1E-6 R807 80 1E6 R81 10 80 1E6 C807 80 795.8E-19 C81 10 80 795.8E-19 * pole stage @ 200 MHz G907 90 80 99 1E-6 G91 10 90 80 99 1E-6 R907 90 1E6 R91 10 90 1E6 C907 90 795.8E-18 C91 10 90 795.8E-18 * pole stage @ 20 GHz G1007 100 90 99 1E-6 G101 10 100 90 99 1E-6 R1007 100 1E6 R101 10 100 1E6 C1007 100 795.8E-20 C101 10 100 795.8E-20 * pole stage @ 20 GHz G1107 119 100 99 1E-6 G111 10 119 100 99 1E-6 R1107 119 1E6 R111 10 119 1E6 C1107 119 795.8E-20 C111 10 119 795.8E-20 * zero / pole pair @(fz = 142 MHz ,fp = 569 MHz) G1207 120 119 99 1E-6 G12110 120 119 99 1E-6 R120781 3E6 R1238210 3E6 R12181 120 1E6 R122 12082 1E6 L120781 839.1E-6 L1231082 839.1E-6 * correction current and output stage D5751 DX D6752 DX D7 12053 DX D854 120 DX D91051 DY D10 1052 DY V5533 -.05 V6354 -.05 G773 1207 .03333 G8103 12010 .03333 G951103 120 .03333 G10 5210 1203 .03333 R157330 R16 10330 * .MODEL QY NPN(BF=400) .MODEL QX NPN(BF=41) .MODEL DX D(IS=1E-15) .MODEL DY D(IS=1E-15 BV=50) .ENDS *$ ************************************************************************** * OPA77 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 15:33 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT OPA77/BB1 2 3 4 5 * C111 12 40.00E-12 C267 80.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 1.326E9 -1E9 1E9 1E9 -1E9 GA60 11 12 301.6E-6 GCM06 10 99 30.16E-12 IEE104 DC 20.00E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 3.316E3 RC23 12 3.316E3 RE113 10 729.2 RE214 10 729.2 REE10 99 9.999E6 RO185 30 RO27 99 30 RP34 15.15E3 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 22 VLN0 92 DC 22 * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10.00E3) .ENDS *$ ************************************************************************** * OPA77E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * CREATED USING PARTS RELEASE 4.03 ON 09/20/90 AT 15:29 * REV.A * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *||||OUTPUT *||||| .SUBCKT OPA77E/BBINP INN345 * C111 12 40.00E-12 C267 80.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 1.326E9 -1E9 1E9 1E9 -1E9 GA60 11 12 301.6E-6 GCM06 10 99 30.16E-12 IEE104 DC 20.00E-6 HLIM 900 VLIM 1K Q1112 13 QX Q2121 14 QX R269 100.0E3 RC13 11 3.316E3 RC23 12 3.316E3 RE113 10 729.2 RE214 10 729.2 REE10 99 9.999E6 RO185 30 RO27 99 30 *RP34 15.15E3 VB90 DC 0 VC3 53 DC 1.500 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 22 VLN0 92 DC 22 **************************** * OPA77 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ10.976E-31 FQ204 POLY(1) VQ20.976E-3 -1 * QUIESCIENT CURRENT RQ343.0E4 * DIFF INPUT CAPACITANCE CDIF121.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 1.5E-12 C2CM299 1.5E-12 * INPUT PROTECTION R1ININP 1500 D1A1 VD1 DX D1BVD1 2DX R2ININN 2500 D2A2 VD2 DX D2BVD2 1DX * .MODEL DX D(IS=800.0E-18) .MODEL QX NPN(IS=800.0E-18 BF=10.00E3) .ENDS *$ ************************************************************************** *OPT101P,W *** MACROMODEL-- Copyright 1994 Burr-Brown Corp. *Bandwidth: 14kHz,Iq = 0.12mA, Single-Supply: +2.7 - +36V *REV.A12-13-94EM ** Users should very carefully note the following factors regarding this * model: * *This macromodel, although similar to the commonly used *Boyle model, has limitations on many characteristics. * *Use this macromodel to model both OPT101P (PDIP), and OPT101W (SIP). *The inverting input is used on the SIP to connect a current source to, *much like the photodiode acts as a current source on the real devices. * *Modeled behavior includes: *Offset Voltage (initially set to 7.5mV) *Input bias current (initially set to 200pA) *Current limit and load-dependant output swing *Quiescent Current, including the effect of Vpin3 *Input Impedance *Open Loop Gain *Large-signal dynamic behavior **Behavior that is not modeled includes: *Changes in parameters over temperature *Noise *Parameter variation for Monte Carlo analysis *Over-voltage effects*Slew Rate * *This macromodel may not accurately model all aforementioned behaviour *with other than the internal 1meg-ohm feedback resistor, and feedback *capacitors. * *While reasonable care has been taken in their preparation, we cannot *be responsible for correct application on any and all computer *systems. * *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. * * Connections:vs *|inverting input *||vpin3 *|||feedback *||||vout *|||||common *|||||| .subckt OPT101/BBvs in vpd feed vout com * c111 12 1E-12 c267 1E-12 cee10 99 9E-12 cpar in feed 5.5e-12 cfin vout 9e-12 cphoto in com 1200e-12 ; photodiode capacitance dcvout 53 dx de54vout dx dlp90 91 dx dln92 90 dx dp4 vs dx egnd 990 poly(2) (vs,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 1.061E9 -1E9 1E9 1E9 -1E9 ga60 11 12 22.5E-6 gcm06 10 99 314.2E-12 ieevs 10 dc 10.00E-6 hlim 900 vlim 1K q111in 13 qx q2121 14 qx jpded vout vout jp ; JFET pulldown r269 100e3 rc144 11 79.58E3 rc244 12 79.58E3 re113 10 74.40E3 re214 10 74.40E3 ree10 99 20.00E6 ro18 vout 3 ro27 99 3 rpvs 4 2.8e6 rfin feed 1e6 ; internal 1meg vb90 dc 0 vcvs 53 dc 1.815 ve544 dc 0 vlim78 dc 0 vlp910 dc 15 vln0 92 dc 15 vls4 44 dc 0.7 vped 1 com dc 7.5e-3 ; offset voltage vbulk 4 0 dc 0 vdrain ed vpd dc 0 iqvs 4 dc 100u fdrain vs 4 vdrain 1 * .model dx D(Is=800.0E-18) .model qx PNP(Is=800.0E-18 Bf=25.00E3) .model jp PJF(VTO=-1.2 BETA=72U LAMBDA=7M) .ends *$ ************************************************************************** * OPT201 INTEGRATED PHOTODIODE AND AMPLIFIER MACROMODEL * CREATED USING PARTS 3/18/93 WM * REV.A **------------------------------------------------------------* * | NOTE: USE AN EXTERNAL CURRENT SOURCE BETWEEN PINS 2 AND 8* * |TO MODEL THE CURRENT GENERATED BY THE PHOTODIODE.* *------------------------------------------------------------* * * connections:COM *| -IN *| | +V *| | | -V *| | | | OUT *| | | | | 1MEG *| | | | | | .subckt OPT201KP/BB 8 2 1 3 5 4 * X18 2 1 3 55OPAMP_201 *PHOTODIODE AND FEEDBACK COMPONENTS RFB2 41E6 ROUT55 575 CFB55 240E-12 RPHOTO 2 8100E6 CPHOTO 2 84000E-12 DPHOTO 2 8DIODE * .MODEL DIODED .ENDS *OPAMP MODEL .SUBCKT OPAMP_2011 2 3 4 5 C111 12 10.49E-12 C267 45.00E-12 CSS10 99 61.36E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 29.43E9 -30E9 30E9 30E9 -30E9 GA60 11 12 107.4E-6 GCM06 10 99 1.074E-9 ISS3 10 DC 117.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 9.307E3 RD24 12 9.307E3 RO185 75 RO27 99 2 RP34 75.00E3 RSS10 99 1.709E6 VB90 DC 0 VC3 53 DC 1. VE544 DC .5 VLIM78 DC 0 VLP910 DC 15 VLN0 92 DC 15 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=58.E-6 VTO=-1) .ENDS *$ ************************************************************************** * OPT202 INTEGRATED PHOTODIODE AND AMPLIFIER MACROMODEL* Bandwidth 50KHz, Iq = 1.4mA * CREATED USING PARTS 4/15/94 WM * REV. A * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * *------------------------------------------------------------* * | NOTE: USE AN EXTERNAL CURRENT SOURCE BETWEEN PINS 2 AND 8** |TO MODEL THE CURRENT GENERATED BY THE PHOTODIODE.* *------------------------------------------------------------* * * PHOTODIODE AND FEEDBACK COMPONENTS* * connections:COM *| -IN *| | V+ *| | | V- *| | | | Vo *| | | | | RFB,1MEG *| | | | | |.subckt OPT202/BB8 2 1 3 5 4 * X18 2 1 3 55OPAMP_202 RFB2 41MEG ROUT55 55 CFB55 23pF RPHOTO 2 8100MEG CPHOTO 2 8600pF DPHOTO 2 8DIODE * .MODEL DIODED .ends * * OPAMP MODEL.subckt OPAMP_2021 2 3 4 5 c111 12 5.715E-12 c267 1.000E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 99.47E6 -99E6 99E6 99E6 -99E6 ga60 11 12 100.5E-6 gcm06 10 99 503.8E-12 iss3 10 dc 4.000E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.947E3 rd24 12 9.947E3 ro185 75 ro27 99 100 rp34 75.00E3 rss10 99 50.00E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=250.0E-15 Beta=2.527E-3 Vto=-1) .ends *$ ************************************************************************** * OPT209INTEGRATED PHOTODIODE AND AMPLIFIER MACROMODEL* Bandwidth 16kHz, Iq = 0.4mA * CREATED USING PARTS 4/27/94 WM * REV. A * REV. B 11 June 97 NPA: added missing period in .MODEL DIODE D * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * *------------------------------------------------------------* * | NOTE: USE AN EXTERNAL CURRENT SOURCE BETWEEN PINS 2 AND 8** |TO MODEL THE CURRENT GENERATED BY THE PHOTODIODE.* *------------------------------------------------------------* * * PHOTODIODE AND FEEDBACK COMPONENTS* * connections:COM *| -IN *| | V+ *| | | V- *| | | | Vo *| | | | | RFB,1MEG *| | | | | |.subckt OPT209/BB8 2 1 3 5 4 * X18 2 1 3 55OPAMP_209 RFB2 41MEG ROUT55 55 CFB55 210pF RPHOTO 2 81000MEG CPHOTO 2 8600pF DPHOTO 2 8DIODE .MODEL DIODED .ends * * OPAMP MODEL.subckt OPAMP_2091 2 3 4 5 c111 12 12.63E-12 c267 4.000E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 99.7E6 -99E6 99E6 99E6 -99E6 ga60 11 12 100.5E-6 gcm06 10 99 1.005E-9 iss3 10 dc 16.00E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.947E3 rd24 12 9.947E3 ro185 75 ro27 99 100 rp34 75.00E3 rss10 99 12.50E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=250.0E-15 Beta=631.7E-6 Vto=-1) .ends *$ ************************************************************************** * OPT211 INTEGRATED PHOTODIODE AND AMPLIFIER MACROMODEL* CREATED USING PARTS 12/6/94 WM * REV.A20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * *------------------------------------------------------------ * | NOTE: USE AN EXTERNAL CURRENT SOURCE BETWEEN PINS 2 AND 8|* |TO MODEL THE CURRENT GENERATED BY THE PHOTODIODE.| *------------------------------------------------------------ **PHOTODIODE AND FEEDBACK COMPONENTS* * * connections:COM *| -IN *| | +V *| | | -V *| | | | OUT *| | | | | PHOTO *| | | | | |.subckt OPT211/BB8 2 1 3 5 7 * X18 2 1 3 5OPAMP_211 *Photodiode RPHOTO271000GIG CPHOTO27600pF DPHOTO27DIODE CSUB2880pF .MODEL DIODE D .ENDS * *OPAMP MODEL* .subckt OPAMP_2111 2 3 4 5 c111 12 5.715E-12 c267 1.000E-12 dc5 53 dx de545 dx dlp90 91 dx dln92 90 dx dp43 dx egnd 990 poly(2) (3,0) (4,0) 0 .5 .5 fb7 99 poly(5) vb vc ve vlp vln 0 99E7 -99E7 99E7 99E7 -99E7 ga60 11 12 100.5E-6 gcm06 10 99 503.8E-12 iss3 10 dc 4.000E-6 hlim 900 vlim 1K j1112 10 jx j2121 10 jx r269 100.0E3 rd14 11 9.947E3 rd24 12 9.947E3 ro185 5 ro27 99 5 rp34 75.00E3 rss10 99 50.00E6 vb90 dc 0 vc3 53 dc .6 ve544 dc .6 vlim78 dc 0 vlp910 dc 20 vln0 92 dc 20 * .model dx D(Is=800.0E-18) .model jx PJF(Is=250.0E-15 Beta=2.527E-3 Vto=-1) .ends *$ ************************************************************************** * OPT301 INTEGRATED PHOTODIODE AND AMPLIFIER MACROMODEL* CREATED USING PARTS 3/18/93 WM *REV.A *REV.B 7 June 97 NPA added text: Model optical input as an equivalent photodiode *current into SJ (pin 2). *REV.C20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * *------------------------------------------------------------* * | NOTE: USE AN EXTERNAL CURRENT SOURCE BETWEEN PINS 2 AND 8** |TO MODEL THE CURRENT GENERATED BY THE PHOTODIODE.* *------------------------------------------------------------* * * connections:COM *| -IN *| | +V *| | | -V *| | | | OUT *| | | | | 1MEG *| | | | | |.subckt OPT301/BB8 2 1 3 5 4 * X18 2 1 3 55OPAMP_301 *PHOTODIODE AND FEEDBACK COMPONENTS RFB2 41E6 ROUT55 575 CFB55 240E-12 RPHOTO 2 8100E6 CPHOTO 2 84000E-12 DPHOTO 2 8DIODE .MODEL DIODED .ENDS * *OPAMP MODEL .SUBCKT OPAMP_3011 2 3 4 5 C111 12 10.49E-12 C267 45.00E-12 CSS10 99 61.36E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 29.43E9 -30E9 30E9 30E9 -30E9 GA60 11 12 107.4E-6 GCM06 10 99 1.074E-9 ISS3 10 DC 117.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD14 11 9.307E3 RD24 12 9.307E3 RO185 75 RO27 99 2 RP34 75.00E3 RSS10 99 1.709E6 VB90 DC 0 VC3 53 DC 1. VE544 DC .5 VLIM78 DC 0 VLP910 DC 15 VLN0 92 DC 15 * .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=500.0E-15 BETA=58.E-6 VTO=-1) .ENDS *$ ************************************************************************** * PGA206 HIGH SPEED PROGRAMMABLE GAIN AMPLIFIER * Rev. ACreated 5/30/96 BCB * REV. B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * REV. C24 JUNE 97 NPA: ADDED NOTE: DRIVE A0 & A1 INPUTS WITH VDC SOURCES *TO PREVENT POSSIBLE NON-CONVERGENCE. * * connections:V01 *|VIN- *||VIN+ *|||V- *||||VO2 *|||||REF *||||||VO *|||||||SENSE *||||||||V+ *|||||||||DIG GND *||||||||||A0 *|||||||||||A1 *|||||||||||| .SUBCKTPGA206/BB1458910111213141516 * XG15150145955NOR_206 XG451501456AND_206 XG256511458XOR_206 XG356501457XOR_206 XA14311381OPAMP_206 XA25301389OPAMP_206 XA3404113811OPAMP_206 R1A2726625 R2A26251.25E3 R3A25242.5E3 R4AB24231.25E3 R1B2021625 R2B21221.25E3 R3B22232.5E3 R1C274110000 R2C411210000 R3C204010000.2 R4C401010000 CF341123E-12 CF440103E-12 CF131110E-12 CF230910E-12 RO112715 RO292015 S131275914SW S231265714SW S331255814SW S431245514SW S530235514SW S630225814SW S730215714SW S830205914SW GA015141550-100 GA116141651-100 RA015500.01 RA116510.01 IVPS14130.2E-3 IVMS8141.5E-3 * .MODEL SW VSWITCH(RON=1 ROFF=1000G VON=0.15 VOFF=0.1) .ENDS * .SUBCKT AND_20616151475 D717116DX D727115DX D737172DX D747273DX Q71747314QX Q72757414QX R7180714E3 R7280748E3 R7373767E3 R7480751E3 VBIAS14762 VSUP80145 * .MODELDX D(IS=1E-15) .MODELQXNPN(IS=800E-18 BF=500) .ENDS * .SUBCKTXOR_206 57 17 14 88 * Logic cell - X-OR Gate R525751450 R535752450 Q50555114QX Q52535214QX R5680552000 Q51555314QX Q53515414QX * A1 for switch 3, A0 for switch 2 R545317450 R555417450 Q54885514QX R5780882000 VSUP80142.5 * .MODEL QX NPN(IS=800E-18 BF=500) .ENDS * .SUBCKT NOR_206 16 15 14 85 86 * Logic cell - NOR R611661450 Q60856114QX R621563450 R6080853E3 Q61856314QX VSUP80142 Q62868514QX R6386802000 * * Models .MODEL QX NPN(IS=800E-18 BF=500) .ENDS * * PGA206 operational amplifier "macromodel" subcircuit * created using Parts release 5.2 on 05/30/96 at 07:47 * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPAMP_2061 2 3 4 5 * C111 12 7.002E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 265.3E6 -30E6 30E6 30E6 -30E6 GA60 11 12 754.0E-6 GCM06 10 99 754.0E-12 ISS104 DC 600.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD13 11 1.326E3 RD23 12 1.326E3 RO185 10 RO27 99 5 RP34 8.036E3 RSS10 99 333.3E3 VB90 DC 0 VC3 53 DC 2.300 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 * .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=1.000E-12 BETA=947.5E-6 VTO=-1) .ENDS *$ ************************************************************************** * PGA207 HIGH SPEED PROGRAMMABLE GAIN AMPLIFIER * REV.ACreated 5/30/96 BCB * REV.B20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * REV.C24 JUNE 97 NPA: ADDED NOTE: DRIVE A0 & A1 INPUTS WITH VDC SOURCES *TO PREVENT POSSIBLE NON-CONVERGENCE. * *connections:V01 *|VIN- *||VIN+ *|||V- *||||VO2 *|||||REF *||||||VO *|||||||SENSE *||||||||V+ *|||||||||DIG GND *||||||||||A0 *|||||||||||A1 *|||||||||||| .SUBCKTPGA207/BB1458910111213141516 * XG15150145955NOR_207 XG451501456AND_207 XG256511458XOR_207 XG356501457XOR_207 XA14311381OPAMP_207 XA25301389OPAMP_207 XA3404113811OPAMP_207 R1A2726625 R2A26251.875E3 R3A25243.125E3 R4AB24231.25E3 R1B2021625 R2B21221.875E3 R3B22233.125E3 R1C274110000 R2C411210000 R3C204010000.2 R4C401010000 CF341123E-12 CF440103E-12 CF131110E-12 CF230910E-12 RO112715 RO292015 S131275914SW S231265714SW S331255814SW S431245514SW S530235514SW S630225814SW S730215714SW S830205914SW GA015141550-100 GA116141651-100 RA015500.01 RA116510.01 IVPS14130.2E-3 IVMS8141.5E-3 * .MODEL SW VSWITCH(RON=1 ROFF=1000G VON=0.15 VOFF=0.1) .ENDS * .SUBCKTAND_20716151475 D7171 16 DX D7271 15 DX D7371 72 DX D7472 73 DX Q7174 73 14 QX Q7275 74 14 QX R7180 71 4E3 R7280 74 8E3 R7373 76 7E3 R7480 75 1E3 VBIAS 14 76 2 VSUP 80 14 5 * .MODELDX D(IS=1E-15) .MODELQX NPN(IS=800E-18 BF=500) .ENDS * .SUBCKTXOR_207 57 17 14 88 * Logic cell - X-OR Gate R525751450 R535752450 Q50555114QX Q52535214QX R5680552000 Q51555314QX Q53515414QX * A1 for switch 3, A0 for switch 2 R545317450 R555417450 Q54885514QX R5780882000 VSUP80142.5 * .MODEL QX NPN(IS=800E-18 BF=500) .ENDS * .SUBCKT NOR_207 16 15 14 85 86 * Logic cell - NOR R611661450 Q60856114QX R621563450 R6080853K Q61856314QX VSUP80142 Q62868514QX R6386802000 * * Models .MODEL QX NPN(IS=800E-18 BF=500) .ENDS * * PGA207 operational amplifier "macromodel" subcircuit * created using Parts release 5.2 on 05/30/96 at 07:47 * * connections:non-inverting input *| inverting input *| | positive power supply *| | | negative power supply *| | | | output *| | | | | .SUBCKT OPAMP_2071 2 3 4 5 * C111 12 7.002E-12 C267 20.00E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 265.3E6 -30E6 30E6 30E6 -30E6 GA60 11 12 754.0E-6 GCM06 10 99 754.0E-12 ISS104 DC 600.0E-6 HLIM 900 VLIM 1E3 J1112 10 JX J2121 10 JX R269 100.0E3 RD13 11 1.326E3 RD23 12 1.326E3 RO185 10 RO27 99 5 RP34 8.036E3 RSS10 99 333.3E3 VB90 DC 0 VC3 53 DC 2.300 VE544 DC 1.500 VLIM78 DC 0 VLP910 DC 10 VLN0 92 DC 10 * .MODEL DX D(IS=800.0E-18) .MODEL JX NJF(IS=1.000E-12 BETA=947.5E-6 VTO=-1) .ENDS *$ ************************************************************************** * UAF42 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * SUBCIRCUIT AMP_UAF CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 14:54 * UAF42 = 4x AMP_UAF + PRECISION RESISTORS AND CAPS * REV. B1/3/94/JA CHANGED THE ENTIRE MACRO MODEL FILE TO BE A UAF42 *INSTEAD OF A SINGLE OP AMP CONTAINED IN THE UAF42. *NODE ASSIGNMENTS OF SUBCKT UAF42 ARE THE SAME AS THE DIP *PACKAGE UAF42 PINOUT. * REV.C20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * UAF42 SUB-CIRCUIT * CONNECTIONS:LOW-PASS OUTPUT *| V IN 3 *| | V IN 2 *| | | AUX AMP NON-INVERTING INPUT *| | | | AUX AMP INVERTING INPUT *| | | | | AUX AMP OUTPUT *| | | | | | BAND-PASS OUTPUT *| | | | | | | FREQUENCY ADJ1 *| | | | | | | | NEGATIVE POWER SUPPLY *| | | | | | | | | POSITIVE POWER SUPPLY *| | | | | | | | | |GROUND *| | | | | | | | | ||V IN 1 *| | | | | | | | | |||HIGH-PASS OUTPUT *| | | | | | | | | ||||FREQUENCY ADJ2 *| | | | | | | | | ||||| .SUBCKT UAF42/BB1 2 3 4 5 6 7 8 9 10 11 12 13 14 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| |POSITIVE POWER SUPPLY *| ||NEGATIVE POWER SUPPLY *| ||| OUTPUT *| ||| | X13 12 10 9 13AMP_UAF * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|| |NEGATIVE POWER SUPPLY *|| || OUTPUT *|| || | X211 8 10 9 7AMP_UAF * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *|||NEGATIVE POWER SUPPLY *|||| OUTPUT *|||| | X311 14 10 9 1AMP_UAF * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | |NEGATIVE POWER SUPPLY *| | || OUTPUT *| | || | X44 5 10 9 6AMP_UAF * R1 121 50K R2 12 13 50K R437 50K R3A 32 100K R3B 32 100K C178 1000P C21 14 1000P C3 13 14 1P * .ENDS * * AMP_UAF OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT AMP_UAF1 2 3 4 5 * C111 12 8.938E-12 C267 15.00E-12 CSS10 99 8.077E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 99.42E6 -10E6 10E6 10E6 -10E6 GA60 11 12 424.1E-6 GCM06 10 99 6.722E-9 ISS3 10 DC 300.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 2.358E3 RD24 12 2.358E3 RO185 75 RO27 99 75 RP34 20.00E3 RSS10 99 666.7E3 VB90 DC 0 VC3 53 DC 3.500 VE544 DC 3.500 VLIM78 DC 0 VLP910 DC 25 VLN0 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 * SUBCIRCUIT AMP_UAFE CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 14:54 * UAF42E = 4x AMP_UAFE + PRECISION RESISTORS AND CAPS * REV.B3/21/92 BCB added input bias current error correction to AMP_UAFE * REV.C1/3/94JAChanged the entire macro model file to be *a UAF42 instead of a single op amp contained in the UAF42 * REV.D20 JUNE 97 NPA: MOVED LEGAL DISCLAIMER TO BEGINNING OF FILE * * UAF42E SUB-CIRCUIT * CONNECTIONS:LOW-PASS OUTPUT *| V IN 3 *| | V IN 2 *| | | AUX AMP NON-INVERTING INPUT *| | | | AUX AMP INVERTING INPUT *| | | | | AUX AMP OUTPUT *| | | | | | BAND-PASS OUTPUT *| | | | | | | FREQUENCY ADJ1 *| | | | | | | | NEGATIVE POWER SUPPLY *| | | | | | | | | POSITIVE POWER SUPPLY *| | | | | | | | | |GROUND *| | | | | | | | | ||V IN 1 *| | | | | | | | | |||HIGH-PASS OUTPUT *| | | | | | | | | ||||FREQUENCY ADJ2 *| | | | | | | | | ||||| .SUBCKT UAF42E/BB1 2 3 4 5 6 7 8 9 10 11 12 13 14 * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| |POSITIVE POWER SUPPLY *| || NEGATIVE POWER SUPPLY *| ||| OUTPUT *| ||| | X13 12 10 9 13AMP_UAFE * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *|| POSITIVE POWER SUPPLY *|| | NEGATIVE POWER SUPPLY *|| || OUTPUT *|| || | X211 8 10 9 7AMP_UAFE * * CONNECTIONS:NON-INVERTING INPUT *|INVERTING INPUT *||POSITIVE POWER SUPPLY *||| NEGATIVE POWER SUPPLY *|||| OUTPUT *|||| | X311 14 10 9 1AMP_UAFE * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | || OUTPUT *| | || | X44 5 10 9 6AMP_UAFE * R1 12 13 50K R2 121 50K R337 50K R4A 32 100K R4B 32 100K C178 1000P C21 14 1000P C3 13 14 1P * .ENDS * * AMP_UAFE OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * * CONNECTIONS:NON-INVERTING INPUT *| INVERTING INPUT *| | POSITIVE POWER SUPPLY *| | | NEGATIVE POWER SUPPLY *| | | | OUTPUT *| | | | | .SUBCKT AMP_UAFE 1 2 3 4 5 * C111 12 8.938E-12 C267 15.00E-12 CSS10 99 8.077E-12 DC5 53 DX DE545 DX DLP90 91 DX DLN92 90 DX DP43 DX EGND 990 POLY(2) (3,0) (4,0) 0 .5 .5 FB7 99 POLY(5) VB VC VE VLP VLN 0 99.42E6 -10E6 10E6 10E6 -10E6 GA60 11 12 424.1E-6 GCM06 10 99 6.722E-9 ISS3 10 DC 300.0E-6 HLIM 900 VLIM 1K J1112 10 JX J2121 10 JX G11 2 4 POLY(3) (10,2) (11,2) (4,2) 0 1E-12 1E-12 1E-12 G21 1 4 POLY(3) (10,1) (12,1) (4,1) 0 1E-12 1E-12 1E-12 R269 100.0E3 RD14 11 2.358E3 RD24 12 2.358E3 RO185 75 RO27 99 75 *RP34 20.00E3 RSS10 99 666.7E3 VB90 DC 0 VC3 53 DC 3.500 VE544 DC 3.500 VLIM78 DC 0 VLP910 DC 25 VLN0 92 DC 25 **************************** * UAF42 "E" - ENHANCEMENTS **************************** * OUTPUT SUPPLY MIRROR FQ30 20 POLY(1) VLIM 01 DQ120 21 DX DQ222 20 DX VQ1210 0 VQ2220 0 FQ130 POLY(1) VQ10.950E-31 FQ204 POLY(1) VQ20.950E-3 -1 * QUIESCIENT CURRENT RQ341.2E5 * DIFF INPUT CAPACITANCE CDIF122.0E-12 * COMMON MODE INPUT CAPACITANCE C1CM199 3.0E-12 C2CM299 3.0E-12 **************************** .MODEL DX D(IS=800.0E-18) .MODEL JX PJF(IS=5.000E-12 BETA=299.8E-6 VTO=-1) .ENDS *$ *---------------------------------------------------------------------------- * VCA610M VOLTAGE CONTROLLED AMPLIFIER "MACROMODEL" SUBCIRCUIT * "M" ISMULTIPLE POLE/ZERO TOPOLOGY * CREATED 6/16/93 BCB * REV.A ** |-------------------------------------------------------------| * |This macro model is being supplied 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.| * || * |Neither this library nor any part may be copied without| * |the express written consent of Burr-Brown Corporation.| * || * |The users should carefully note the following factors| * |regarding this model.| * || * |-------------------------------------------------------------| * * CONNECTIONS:NON-INVERTING INPUT *|GROUND *||GAIN CONTROL, VC *|||OUTPUT *||||POSITIVE SUPPLY VOLTAGE *|||||NEGATIVE SUPPLY VOLTAGE *||||||INVERTING INPUT *||||||| .SUBCKTVCA610M/BB1235678 * CONTROL VOLTAGE Q17313P C1371E-12 Q27213P I1613384E-6 Q310117N R26102 E1117POLY(1) (3,0) 0.45-0.11911 G3120POLY(1) (10,6) 0 1 R3120139 C31201.145E-9 G167POLY(1) (6,10) 13.5102E-3 -0.489 G207POLY(1) (6,10) 1.7958E-3 2.939E-3 * INPUT STAGE Q0120126N C01101E-12 Q0221826N C02801E-12 R0120271E3 D012927DX D03629DX R0221281E3 D022428DX D04624DX IS2672.32E-3 * GAIN STAGE 1 R313101E6 G31310POLY(2) (8,1) (12,0) 0 0 0 0 1E-6 0 * GAIN STAGE 2 R41414420E3 C414144265.25E-15 G4141440311E-3 D414143DX E414443POLY(1) (3,0) 100.2 14.87 R42414520E3 C424145265.25E-15 G4241450311E-3 D424241DX E424245POLY(1)(3,0) 100.2 14.87 E434406020 E440450720 * OUTPUT STAGE E51550 41 0 50E-3 D535551DX D545255DX D55653DX D56654DX D57753DZ D58754DZ G5453755550E-3 G5354755550E-3 V535150.1833 V545520.1833 G515665550E-3 G527555750E-3 R536520 R547520 .MODEL N NPN (IS=1E-12 BF=193) .MODEL P PNP (IS=1E-12 BF=96) .MODELDXD(IS=1E-15 BV=200) .MODELDZD(IS=1E-15 BV=50) .ENDS *$
Kailyn Chen:
这是很老的一款器件了,是TI收购的BB公司的产品,官网已经查不到相关资料了 ,也没有spice模型可参考。
建议更换其他产品,或者把您的应用需求说一下,帮您选择替代产品。
user5117859:
回复 Kailyn Chen:
用于设计激光器的驱动电路的双宽带跨导运算放大器
user5117859:
回复 Will Wang47:
我需要用于设计激光器驱动电路的跨导运算放大器,希望电路驱动能力够高
Kailyn Chen:
回复 user5117859:
看下LMH6624。
Will Wang47:
回复 user5117859:
TI的跨导放大器有OPA861,OPA860,OPA615,LMH6601. 可以参考下面这个页面查阅:
www.ti.com/…/products.html