Datasheet Archive Saved by the Datasheet Archive: 18/04/2010


opltc3.lib

**********
* (C) COPYRIGHT LINEAR TECHNOLOGY CORPORATION 1998
* All rights reserved.
*
* Linear Technology Corporation hereby grants the users of this
* macromodel a non-exclusive, nontransferrable license to use this
* macromodel under the following conditions:
*
* The user agrees that this macromodel is licensed from Linear
* Technology and agrees that the macromodel may be used, loaned,
* given away or included in other model libraries as long as this
* notice and the model in its entirety and unchanged is included.
* No right to make derivative works or modifications to the
* macromodel is granted hereby. All such rights are reserved.
*
* This model is provided as is. Linear Technology makes no
* warranty, either expressed or implied about the suitability or
* fitness of this model for any particular purpose. In no event
* will Linear Technology be liable for special, collateral,
* incidental or consequential damages in connection with or arising
* out of the use of this macromodel. It should be remembered that
* models are a simplification of the actual circuit.
*
* Linear Technology reserves the right to change these macromodels
* without prior notice. Contact Linear Technology at 1630 McCarthy
* Blvd., Milpitas, CA, 95035-7417 or telephone (408) 432-1900 for
* datasheets on the actual amplifiers or the latest macromodels.
* Also check our website at:
*
* www.linear-tech.com
*
* LT and LTC are registered trademarks of Linear Technology Corporation
***************
* OPLTC3.LIB 1/28/98
* RELEASE 3.2 (website only)
* A library of Linear Technology SPICE subcircuit definitions
*
* This library of macromodels is being supplied to LTC users as an
* aid to circuit designs. While the models reflect reasonably
* close similarity to corresponding devices in performance terms,
* their use is not suggested as a replacement for breadboarding.
* Simulation should be used as a forerunner or a supplement to
* traditional lab testing.
*
* Users should very carefully note the following factors regarding
* these models: Model performance in general will reflect typical
* baseline specs for a given device, and certain aspects of per-
* formance may not be modeled fully. While reasonable care has
* been taken in their preparation, we cannot be responsible for
* correct application on any and all computer systems. Model users
* are hereby notified that these models are supplied "as is", with
* no direct or implied responsibility on the part of LTC for their
* operation within a customer circuit or system. Further, Linear
* Technology Corporation reserves the right to change these models
* without prior notice.
*
* In all cases, the current data sheet information for a given real
* device is your final design guideline, and is the only actual
* performance guarantee. For further technical information, refer
* to individual device data sheets. Your feedback and suggestions
* on these models is appreciated!
*
* Linear Technology Corporation
* 1630 McCarthy Blvd.
* Milpitas, CA 95035-7417
* voice: (408) 432-1900
* fax: (408) 434-0507
*
* Model updates are immediately posted to our website at:
*
* www.linear-tech.com
*
* This file contains the following models:
*
* Name connections
*
* LT1056A 3 2 7 4 6
* LT1077A 3 2 7 4 6
* LT1101A 1 2 3 4 5 6 7 8
* LT1102 1 2 3 4 5 6 7 8
* LT1102A 1 2 3 4 5 6 7 8
* LT1124 3 2 7 4 6
* LT1125 3 2 7 4 6
* LT1126 3 2 7 4 6
* LT1127 3 2 7 4 6
* LT1169 3 2 7 4 6
* LT1206 3 2 7 4 6 8
* LT1207 3 2 7 4 6 8
* LT1210 3 2 7 4 6 8
* LT1251 1 2 3 4 5 6 7 8 9 10 11 12 13 14
* LT1256 1 2 3 4 5 6 7 8 9 10 11 12 13 14
* LT1259 3 2 7 4 6
* LT1328 IN FILTER FSW GND DATA VCC MODE VBIAS
* LT1351 3 2 7 4 6
* LT1352 3 2 7 4 6
* LT1353 3 2 7 4 6
* LT1354 3 2 7 4 6
* LT1355 3 2 7 4 6
* LT1356 3 2 7 4 6
* LT1357 3 2 7 4 6
* LT1358 3 2 7 4 6
* LT1359 3 2 7 4 6
* LT1360 3 2 7 4 6
* LT1361 3 2 7 4 6
* LT1362 3 2 7 4 6
* LT1363 3 2 7 4 6
* LT1364 3 2 7 4 6
* LT1365 3 2 7 4 6
* LT1366 3 2 7 4 6
* LT1367 3 2 7 4 6
* LT1413 1 2 3 4 5
* LT1413A 1 2 3 4 5
* LT1490 1 2 3 4 5
* LT1491 3 2 7 4 6
* LT1497 3 2 7 4 6
* LT1498 3 2 7 4 6
* LT1499 3 2 7 4 6
* LT2078 3 2 7 4 6
* LT2078A 3 2 7 4 6
* LT2079 3 2 7 4 6
* LT2079A 3 2 7 4 6
* LT2178 3 2 7 4 6
* LT2178A 3 2 7 4 6
* LT2179 3 2 7 4 6
* LT2179A 3 2 7 4 6
* LTC1047 3 2 7 4 6
* LTC1051A 3 2 7 4 6
* LTC1100 1 2 3 4 5 6 7 8
* LTC1100A 1 2 3 4 5 6 7 8
* LTC1151 3 2 7 4 6
*******************
* Macromodel connections:
*
* The LTC model library has one basic connection type.
* Almost all of the op amp models use a conventional 8-pin, single op amp
* pinout. This means the connection node numbers match the pin numbers
* on an actual "standard" 8-pin, single op amp package:
*
* CONNECTIONS: + - V+ V- O
*.SUBCKT LT1078A 3 2 7 4 6
*
* Even if the op amp is a dual, quad, or has a non-"standard" pinout
* or package, it still uses this node order and numbering system to denote
* the five pins/nodes essential to any op amp.
*
* Some amplifiers have compensation pins, and nodes 1 and 8 are used for
* this purpose. Compensation nodes are listed after the first 5 connections:
*
* CONNECTIONS: + - V+ V- O CA CB
*.SUBCKT LM101A 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
*
* A few devices have other features, such as the reference on the LM10C. For
* this model nodes 1 and 8 match the pins: 1=ref out, 8=ref feedback. In
* other cases node numbers 1 and 8 may not match the physical pinout
* of the actual device, but are still used by the subcircuit to designate
* connections to the extra features. There are several cases where, to avoid
* confusion, nodes connecting to the extra features carry the pin name,
* instead of the pin number.
*
* The 1006, 1013, 1014, and 1490 node connections are in the + - V+ V- O
* order, but the nodes are named 1-2-3-4-5.
*
* Several devices have unusual features or functions and do not follow the
* 3-2-7-4-6 connection convention. For these special cases the node
* connections are explained at the beginning of the model. Examples include:
*
* LT1251 video fader
* LT1256 video fader
* LT1228 OTA/CFA
* LT1100 instrumentation amplifier
* LT1101 instrumentation amplifier
* LT1102 instrumentation amplifier
*
* The whole purpose for following the 3-2-7-4-6 convention is to simplify
* swapping models within a circuit file, making it easy to compare the
* response of various amplifiers. It is important to note that when a
* model is called within a circuit file, you are allowed to name the nodes
* as you see fit; only the ORDER and QUANTITY of the connections is
* important.
***********
*SRC=LT1056A;LT1056A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1056A 3 2 7 4 6
* INPUT
VCM2 40 4 2.0000E+00
RD1 40 80 8.1618E+02
RD2 40 90 8.1618E+02
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4.0000E-12
RG1 2 102 2.0000E+00
RG2 3 103 2.0000E+00
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5000E-11
ISS 7 12 6.4000E-04
GOSIT 7 12 90 80 3.2000E-04
* INTERMEDIATE
GCM 0 8 12 0 1.2252E-08
GA 8 0 80 90 1.2252E-03
R2 8 0 1.0000E+05
C2 1 8 3.0000E-11
GB 1 0 8 0 6.6312E+01
RO2 1 0 4.9000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 1.7495E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+03
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 2.9633E+00
RPLA 7 70 1.0000E+04
RPLB 7 131 1.0000E+05
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 2.9633E+00
RNLA 60 4 1.0000E+04
RNLB 141 4 1.0000E+05
*
IP 7 4 4.3600E-03
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF (IS=1.1000E-11 BETA=1.1728E-03 VTO=-1.000000E+00)
.MODEL JM2 PJF (IS=9.0000E-12 BETA=1.1728E-03 VTO=-9.999500E-01)
.MODEL DM1 D (IS=1.0000E-15)
.MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DM4 D (IS=1.0000E-09)
.ENDS LT1056A
**********
*SRC=LT1077A;LT1077A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1077A 3 2 7 4 6
X_LT1077A 3 2 7 4 6 LT1078A
.ENDS LT1077A
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1078A 3 2 7 4 6
* INPUT
RC1 4 80 2.653E+04
RC2 4 90 2.653E+04
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 6.000E+02
RB2 3 103 6.000E+02
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 4.000E-01
C1 80 90 8.660E-12
RE1 10 12 4.958E+03
RE2 11 12 4.958E+03
IEE 7 12 2.412E-06
RE 12 0 8.292E+07
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.501E-10
GA 8 0 80 90 3.770E-05
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 2.449E+02
* OUTPUT
RO1 1 110 1.000E+02
RO2A 1 0 1.083E+03
RO2B 6 110 8.170E+02
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.490E+00
VE 14 4 7.911E-01
IP 7 4 4.259E-05
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP (IS=8.000E-16 BF=1.992E+02)
.MODEL QM2 PNP (IS=8.009E-16 BF=2.008E+02)
.MODEL DM1 D (IS=3.718E-24)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1078A
**********
*SRC=LT1101A;LT1101A;Opamps;LT-"LTxxx";
*SYM=LT1101A
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
* IN+ IN- VP VN OUT GND GA GB
* 6 3 5 4 8 1 2 7
.SUBCKT LT1101A 1 2 3 4 5 6 7 8
*
R90A 1 2 828E3
R9A 2 100 82.8E3
RA 100 101 9.2E3
RB 101 102 9.2E3
R9B 102 7 82.8E3
R90B 7 8 828E3
*
XA 3 100 5 4 101 LT1078A
XB 6 102 5 4 8 LT1078A
*
RINA 3 0 7E9
RINB 6 0 7E9
*
.ENDS LT1101A
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1102;LT1102;Opamps;LT-"LTxxx";
*SYM=LTC1100
*
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
*
* GND GA IN- VN VP IN+ GB OUT
.SUBCKT LT1102 1 2 3 4 5 6 7 8
*
R90A 1 2 162000
R9A 2 100 16200
RA 100 101 1800
RB 101 102 1800
R9B 102 7 16200
R90B 7 8 162000
*
XA 3 100 5 4 101 LT1057
XB 6 102 5 4 8 LT1057
*
RINA 3 0 1E12
RINB 6 0 1E12
*
.ENDS LT1102
*INCLUDE OPLTC3.LIB
*****
.SUBCKT LT1057 3 2 7 4 6
* INPUT
VCM2 40 4 2.0000E+00
RD1 40 80 1.0610E+03
RD2 40 90 1.0610E+03
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4.0000E-12
RG1 2 102 2.0000E+00
RG2 3 103 2.0000E+00
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5000E-11
ISS 7 12 5.2000E-04
GOSIT 7 12 90 80 2.6000E-04
* INTERMEDIATE
GCM 0 8 12 0 1.1865E-08
GA 8 0 80 90 9.4248E-04
R2 8 0 1.0000E+05
C2 1 8 3.0000E-11
GB 1 0 8 0 3.3892E+01
RO2 1 0 9.9000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 2.0774E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+03
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 2.9575E+00
RPLA 7 70 1.0000E+04
RPLB 7 131 1.0000E+05
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 2.9575E+00
RNLA 60 4 1.0000E+04
RNLB 141 4 1.0000E+05
*
IP 7 4 1.1800E-03
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF (IS=9.0000E-12 BETA=8.5410E-04 VTO=-1.000000E+00)
.MODEL JM2 PJF (IS=5.0000E-12 BETA=8.5410E-04 VTO=-9.998000E-01)
.MODEL DM1 D (IS=1.0000E-15)
.MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DM4 D (IS=1.0000E-09)
.ENDS LT1057
**********
*SRC=LT1102A;LT1102A;Opamps;LT-"LTCxxx";
*SYM=LTC1100
*
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
*
* GND GA IN- VN VP IN+ GB GA
.SUBCKT LT1102A 1 2 3 4 5 6 7 8
*
R90A 1 2 162000
R9A 2 100 16200
RA 100 101 1800
RB 101 102 1800
R9B 102 7 16200
R90B 7 8 162000
*
XA 3 100 5 4 101 LT1057A
XB 6 102 5 4 8 LT1057A
*
RINA 3 0 1E12
RINB 6 0 1E12
*
.ENDS LT1102A
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1057A 3 2 7 4 6
* INPUT
VCM2 40 4 2.0000E+00
RD1 40 80 1.0610E+03
RD2 40 90 1.0610E+03
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4.0000E-12
RG1 2 102 2.0000E+00
RG2 3 103 2.0000E+00
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5000E-11
ISS 7 12 5.6000E-04
GOSIT 7 12 90 80 2.8000E-04
* INTERMEDIATE
GCM 0 8 12 0 9.4248E-09
GA 8 0 80 90 9.4248E-04
R2 8 0 1.0000E+05
C2 1 8 3.0000E-11
GB 1 0 8 0 3.8027E+01
RO2 1 0 9.9000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 2.0852E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+03
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 2.9595E+00
RPLA 7 70 1.0000E+04
RPLB 7 131 1.0000E+05
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 2.9595E+00
RNLA 60 4 1.0000E+04
RNLB 141 4 1.0000E+05
*
IP 7 4 1.0400E-03
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF (IS=6.5000E-12 BETA=7.9309E-04 VTO=-1.000000E+00)
.MODEL JM2 PJF (IS=3.5000E-12 BETA=7.9309E-04 VTO=-9.998500E-01)
.MODEL DM1 D (IS=1.0000E-15)
.MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DM4 D (IS=1.0000E-09)
.ENDS LT1057A
**********
*SRC=LT1124;LT1124;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
* CONNECTIONS: + - V+V-O
.SUBCKT LT1124 3 2 7 4 6
* INPUT
RC1 7 80 80
RC2 7 90 80
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
C1 80 91 10NF
RE1 10 12 -73
RE2 11 12 -73
IEE 12 4 3.40E-04
RE 12 0 1.0100E+06
*
RXC1 91 90 25
CXC1 91 90 400E-12
RXC2 8 98 20K
C2 1 98 29E-12
CXC2 98 8 40.000E-12
* INTERMEDIATE
GCM 0 8 12 0 3.4887E-09
GA 8 0 80 90 5.5292E-03
R2 8 0 1.0000E+05
GB 1 0 8 0 7.2964E+01
RO2 1 0 7.4000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 3.6430E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+01
D1 18 19 DM1
VOD1 19 20 0.0000E+00
D2 20 21 DM1
VOD2 21 18 0.0000E+00
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 2.6370E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 2.6370E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 2.1020E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=17.8E+03)
.MODEL QM2 NPN (IS=8.0077E-16 BF=37.8E+03)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1124
**********
*SRC=LT1125;LT1125;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1125 3 2 7 4 6
X_LT1125 3 2 7 4 6 LT1124
.ENDS LT1125
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1124 3 2 7 4 6
* INPUT
RC1 7 80 80
RC2 7 90 80
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
C1 80 91 10NF
RE1 10 12 -73
RE2 11 12 -73
IEE 12 4 3.40E-04
RE 12 0 1.0100E+06
*
RXC1 91 90 25
CXC1 91 90 400E-12
RXC2 8 98 20K
C2 1 98 29E-12
CXC2 98 8 40.000E-12
* INTERMEDIATE
GCM 0 8 12 0 3.4887E-09
GA 8 0 80 90 5.5292E-03
R2 8 0 1.0000E+05
GB 1 0 8 0 7.2964E+01
RO2 1 0 7.4000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 3.6430E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+01
D1 18 19 DM1
VOD1 19 20 0.0000E+00
D2 20 21 DM1
VOD2 21 18 0.0000E+00
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 2.6370E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 2.6370E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 2.1020E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=17.8E+03)
.MODEL QM2 NPN (IS=8.0077E-16 BF=37.8E+03)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1124
**********
*SRC=LT1126;LT1126;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
* CONNECTIONS: + - V+V-O
.SUBCKT LT1126 3 2 7 4 6
* INPUT
RC1 7 80 58
RC2 7 90 58
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
C1 80 91 10NF
RE1 10 12 -72
RE2 11 12 -72
IEE 12 4 400E-6
RE 12 0 1.0100E+06
*
RXC1 91 90 12
CXC1 91 90 2NF
RXC2 8 98 10K
C2 1 98 18.000E-12
CXC2 98 8 1E-12
* INTERMEDIATE
GCM 0 8 12 0 7.1360E-09
GA 8 0 80 90 1.1310E-02
R2 8 0 1.0000E+05
*C2 1 8 1.8000E-11
GB 1 0 8 0 3.5671E+01
RO2 1 0 7.4000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 3.6430E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+01
D1 18 19 DM1
VOD1 19 20 0.0000E+00
D2 20 21 DM1
VOD2 21 18 0.0000E+00
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 2.6370E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 2.6370E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 2.4020E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=20E+03)
.MODEL QM2 NPN (IS=8.0077E-16 BF=50E+03)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=5.2800E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1126
**********
*SRC=LT1127;LT1127;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1127 3 2 7 4 6
X_LT1127 3 2 7 4 6 LT1126
.ENDS LT1127
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1169;LT1169;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1169 3 2 7 4 6
* INPUT
RD1 4 80 6.0058E+02
RD2 4 90 6.0058E+02
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 1.5000E-12
RG1 2 102 2.0000E+00
RG2 3 103 2.0000E+00
C1 80 90 5.3139E-12
ISS 7 12 2.1000E-04
* INTERMEDIATE
GCM 0 8 12 0 2.9609E-08
GA 8 0 80 90 1.6650E-03
R2 8 0 1.0000E+05
C2 1 8 5.0000E-11
GB 1 0 8 0 7.6649E+02
RO2 1 0 3.5000E+01
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 1.6520E+01
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+03
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 3.1324E+00
RPLA 7 70 1.0000E+04
RPLB 7 131 1.0000E+05
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 3.1324E+00
RNLA 60 4 1.0000E+04
RNLB 141 4 1.0000E+05
*
IP 7 4 5.0900E-03
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF (IS=5.2500E-12 BETA=6.6009E-03 VTO=-1.000000E+00)
.MODEL JM2 PJF (IS=2.7500E-12 BETA=6.6009E-03 VTO=-9.994000E-01)
.MODEL DM1 D (IS=1.0000E-15)
.MODEL DM2 D (IS=8.0000E-16 BV=4.8000E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DM4 D (IS=1.0000E-09)
.ENDS LT1169
**********
*SRC=LT1206;LT1206;Opamps;LT-"LTxxx";
*SYM=LTCOMP2
* PIN 8 IS OUTPUT COMPENSATION
*
.SUBCKT LT1206 3 2 7 4 6 8
*
Q2A 4 3 10 QPI
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11A 7 QPI 0.55
Q6A 13 11A 7 QPI
RBC 11 11A 60
Q7A 4 9 12 QPI
Q8A 12 12 13 QPI
Q9A 7 13 14 QNI
Q10A 4 9 14 QPI
Q11A 7 15 16 QNI 24
RSCA 16 6 1.2
RBA 14 15 50
IBA 7 10 DC 750U
ROA 7 10 73K
DIA 10 7 DCC 2
*
Q2B 7 3 110 QNI
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111B 4 QNI 0.55
Q6B 113 111B 4 QNI
RBD 111 111B 60
Q7B 7 9 112 QNI
Q8B 112 112 113 QNI
Q9B 4 113 114 QPI
Q10B 7 9 114 QNI
Q11B 4 115 116 QPI 24
RSCB 6 116 1.2
RBB 114 115 50
IBB 110 4 DC 750U
ROB 110 4 73K
DIB 4 110 DCC 2
*
CM1 7 11 70PF
CM2 111 4 70PF
CM3 9 0 2PF
CM4 9 18 8PF
*
RIB 7 11 75K
RC 2 200 10
R9 9 0 250K
R10 18 8 500
R11 8 17 100
D1 9 6 DCC
D2 6 9 DCC
D3 9 7 DCC 1.4
D4 4 9 DCC 1.4
*
EC 17 0 9 0 1
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN BF=150 TF=400P
.MODEL QPI PNP BF=150 TF=400P
*
.ENDS LT1206
**********
*SRC=LT1207;LT1207;Opamps;LT-"LTxxx";
*SYM=LTCOMP2
*
.SUBCKT LT1207 3 2 7 4 6 8
X_LT1207 3 2 7 4 6 8 LT1206
.ENDS LT1207
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1210;LT1210;Opamps;LT-"LTxxx";
*SYM=LTCOMP2
*PIN 8 IS OUTPUT COMPENSATION
*
.SUBCKT LT1210 3 2 7 4 6 8
*
Q2A 4 3A 10 QPI
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11A 7 QPI 0.55
Q6A 13 11A 7 QPI
RBC 11 11A 60
Q7A 4 9 12 QPI
Q8A 12 12 13 QPI
Q9A 7 13 14 QNI 2
Q10A 4 9 14 QPI 2
Q11A 7 15 16 QNI 48
RSCA 16 6A .3
RBA 14 15 12
IBA 7 10 DC 750U
ROA 7 10 73K
DIA 10 7 DCC 2
*
Q2B 7 3A 110 QNI
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111B 4 QNI 0.55
Q6B 113 111B 4 QNI
RBD 111 111B 60
Q7B 7 9 112 QNI
Q8B 112 112 113 QNI
Q9B 4 113 114 QPI 2
Q10B 7 9 114 QNI 2
Q11B 4 115 116 QPI 48
RSCB 6A 116 .3
RBB 114 115 12
IBB 110 4 DC 750U
ROB 110 4 73K
DIB 4 110 DCC 2
*
CM1 7 11 100PF
CM2 111 4 100PF
CM3 9 0 2PF
CM4 9 18 8PF
*
RIB 7 11 75K
RC 2 200 10
R9 9 0 250K
R10 18 8 500
R11 8 17 100
D1 9 6A DCC
D2 6A 9 DCC
D3 9 7 DCC 1.4
D4 4 9 DCC 1.4
*
EC 17 0 9 0 1
*
LINP 3 3A 5N
LOUT 6A 6 5N
KIO LINP LOUT .7
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN BF=150 TF=400P
.MODEL QPI PNP BF=150 TF=400P
*
.ENDS LT1210
**********
*SRC=LT1251;LT1251;Opamps;LT-"LTxxx";40MHz Video Fader
*SYM=LT1251
* LT1251 VIDEO FADER
*
* CONNECTIONS: AS PER DATASHEET PINOUT
*1=FIRST NON-INVERTING INPUT
*2=FIRST INVERTING INPUT
*3=CONTROL VOLTAGE INPUT
*4=CONTROL CURRENT INPUT
*5=CONTROL RESISTOR, RC
*6=NULL INPUT
*7=NEGATIVE SUPPLY
*8=OUTPUT
*9=POSITIVE SUPPLY
*10=FULL SCALE RESISTOR, RFS
*11=FULL SCALE CURRENT INPUT
*12=FULL SCALE VOLTAGE INPUT
*13=SECOND INVERTING INPUT
*14=SECOND NON-INVERTING INPUT
*
.SUBCKT LT1251 1 2 3 4 5 6 7 8 9 10 11 12 13 14
*
*FIRST INPUT STAGE
IB1 1 0 500NA
RI1 1 0 17MEG
C1 1 0 1.5PF
*E1 2A 0 VALUE={LIMIT (V(1),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
BE1 2A 0 V=V(1) < (V(8N)+0.4) ? (V(8N)+0.4) : V(1) > (V(8P)-0.4+V(EN)/30) ?
+ (V(8P)-0.4+V(EN)/30) : V(1)
VOS1 2A 2B 2.5MV
R1 2B 2 27
C2 2 0 1PF
*
*SECOND INPUT STAGE
IB2 14 0 450NA
RI2 14 0 17MEG
C14 14 0 1.5PF
*E2 13A 0 VALUE={LIMIT (V(14),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
BE2 2A 0 V=V(14) < (V(8N)+0.4) ? (V(8N)+0.4) : V(14) > (V(8P)-0.4+V(EN)/30) ?
+ (V(8P)-0.4+V(EN)/30) : V(14)
VOS2 13A 13B 1.5MV
R2 13B 13 27
C13 13 0 1PF
*
*CONTROL AMP
IBC 3 0 -300NA
RIC 3 0 100MEG
C3 3 0 1PF
R3 3 3A 1600
CBWC 3A 0 10PF
EC 3B 0 3A 0 1.0
VOSC 3B 4 5MV
C4 4 0 1PF
RC 4 5 5K
C5 5 0 1PF
*
*FULL SCALE AMP
IBFS 12 0 -300NA
RIFS 12 0 100MEG
C12 12 0 1PF
R12 12 12A 1600
CBWFS 12A 0 10PF
EFS 12B 0 12A 0 1.0
VOSFS 12B 11 -5MV
C11 11 0 1PF
RFS 11 10 5K
C10 10 0 1PF
*
*GENERATING K
*EK K 0 TABLE {I(VOSC)/I(VOSFS)} = (-100,0) (0.04,0) (0.1,0.11)
*+ (0.9,0.907) (0.95,1.0) (100,1.0)
AEK 99 K TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-100 0 0.04 0 0.1 0.11 0.9 0.907 0.95 1.0 100 1.0] )
BEK 99 0 V=I(VOSC)/I(VOSFS)
RDUMMY K 0 1MEG
RNOISE1 EN 0 200K
RNOISE2 EN 0 200K
*GENERATES 40.7NV/RTHZ
*
*NULL CIRCUIT
BGNULL 7 6A I=I(VOSFS)
RN1 6A 7 200
VNULL 6A 6B 0.0V
RN2 6B 6 400
C6 6 7 1PF
*
*OUTPUT STAGE
BE6 8A 0
+ V=(1.8MEG*(I(VOS1)*V(K)+I(VOS2)*(1-V(K))-I(VNULL)+0.10UA+0.0007*V(EN)))
RG 8A 8B 1.8MEG
CG 8B 0 3.4PF
E8 8C 0 8B 0 1.0
V8 8C 8D 0.0V
R8 8D 8 11
*
*OUTPUT SWING AND CURRENT LIMIT
DP 8B 8P D1
VDP 8P 9 -1.4V
DN 8N 8B D1
VDN 8N 7 1.4V
.MODEL D1 D
*GCL 8B 0 TABLE {I(V8)}=(-1,-1) (-0.04,0) (0.04,0) (1,1)
AGCL 991 8B TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-1 -1 -0.04 0 0.04 0 1 1] )
BGCL 991 0 I=(I(V8))
*
*SUPPLY CURRENT
BGQ 9 7 I=(1MA+24*I(VOSFS)+(V(7)-V(9))/20K)
*GCC 9 0 TABLE (I(V8))=(-1,0) (0,0) (1,1)
AGCC 992 9 TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-1 0 0 0 1 1] )
BGCC 992 0 I=(I(V8))
*GEE 7 0 TABLE (I(V8))=(-1,-1) (0,0) (1,0)
AGEE 993 7 TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-1 -1 0 0 1 0] )
BGEE 993 0 I=(I(V8))
*
.ENDS LT1251
**********
*SRC=LT1256;LT1256;Opamps;LT-"LTxxx";
*SYM=LT1251
* LT1256 VIDEO FADER
*
* CONNECTIONS: AS PER DATASHEET PINOUT
*1=FIRST NON-INVERTING INPUT
*2=FIRST INVERTING INPUT
*3=CONTROL VOLTAGE INPUT
*4=CONTROL CURRENT INPUT
*5=CONTROL RESISTOR, RC
*6=NULL INPUT
*7=NEGATIVE SUPPLY
*8=OUTPUT
*9=POSITIVE SUPPLY
*10=FULL SCALE RESISTOR, RFS
*11=FULL SCALE CURRENT INPUT
*12=FULL SCALE VOLTAGE INPUT
*13=SECOND INVERTING INPUT
*14=SECOND NON-INVERTING INPUT
*
.SUBCKT LT1256 1 2 3 4 5 6 7 8 9 10 11 12 13 14
*
*FIRST INPUT STAGE
IB1 1 0 500NA
RI1 1 0 17MEG
C1 1 0 1.5PF
*E1 2A 0 VALUE={LIMIT (V(1),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
BE1 2A 0 V=V(1) < (V(8N)+0.4) ? (V(8N)+0.4) : V(1) > (V(8P)-0.4+V(EN)/30) ?
+ (V(8P)-0.4+V(EN)/30) : V(1)
VOS1 2A 2B 2.5MV
R1 2B 2 27
C2 2 0 1PF
*
*SECOND INPUT STAGE
IB2 14 0 450NA
RI2 14 0 17MEG
C14 14 0 1.5PF
*E2 13A 0 VALUE={LIMIT (V(14),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
BE2 2A 0 V=V(14) < (V(8N)+0.4) ? (V(8N)+0.4) : V(14) > (V(8P)-0.4+V(EN)/30) ?
+ (V(8P)-0.4+V(EN)/30) : V(14)
VOS2 13A 13B 1.5MV
R2 13B 13 27
C13 13 0 1PF
*
*CONTROL AMP
IBC 3 0 -300NA
RIC 3 0 100MEG
C3 3 0 1PF
R3 3 3A 1600
CBWC 3A 0 10PF
EC 3B 0 3A 0 1.0
VOSC 3B 4 5MV
C4 4 0 1PF
RC 4 5 5K
C5 5 0 1PF
*
*FULL SCALE AMP
IBFS 12 0 -300NA
RIFS 12 0 100MEG
C12 12 0 1PF
R12 12 12A 1600
CBWFS 12A 0 10PF
EFS 12B 0 12A 0 1.0
VOSFS 12B 11 -5MV
C11 11 0 1PF
RFS 11 10 5K
C10 10 0 1PF
*
*GENERATING K
*EK K 0 TABLE {I(VOSC)/I(VOSFS)} = (-100,0) (0,0) (0.2,0.21)
*+ (0.9,0.9) (1.0,1.0) (100,1.0)
AEK 99 K TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-100 0 0 0 0.2 0.21 0.9 0.9 1.0 1.0 100 1.0] )
BEK 99 0 V=I(VOSC)/I(VOSFS)
RDUMMY K 0 1MEG
RNOISE1 EN 0 200K
RNOISE2 EN 0 200K
*GENERATES 40.7NV/RTHZ
*
*NULL CIRCUIT
BGNULL 7 6A I=(I(VOSFS))
RN1 6A 7 200
VNULL 6A 6B 0.0V
RN2 6B 6 400
C6 6 7 1PF
*
*OUTPUT STAGE
BE6 8A 0
+ V=(1.8MEG*(I(VOS1)*V(K)+I(VOS2)*(1-V(K))-I(VNULL)+0.10UA+0.0007*V(EN)))
RG 8A 8B 1.8MEG
CG 8B 0 3.4PF
E8 8C 0 8B 0 1.0
V8 8C 8D 0.0V
R8 8D 8 11
*
*OUTPUT SWING AND CURRENT LIMIT
DP 8B 8P D1
VDP 8P 7 -1.4V
DN 8N 8B D1
VDN 8N 9 1.4V
.MODEL D1 D
*GCL 8B 0 TABLE {I(V8)}=(-1,-1) (-0.04,0) (0.04,0) (1,1)
AGCL 991 8B TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-1 -1 -0.04 0 0.04 0 1 1] )
BGCL 991 0 I=(I(V8))
*
*SUPPLY CURRENT
BGQ 9 7 I=(1MA+24*I(VOSFS)+(V(7)-V(9))/20K)
*GCC 9 0 TABLE (I(V8))=(-1,0) (0,0) (1,1)
AGCC 992 9 TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-1 0 0 0 1 1] )
BGCC 992 0 I=(I(V8))
*GEE 7 0 TABLE (I(V8))=(-1,-1) (0,0) (1,0)
AGEE 993 7 TABLE
.MODEL TABLE PWL2 ( XY_ARRAY=[-1 -1 0 0 1 0] )
BGEE 993 0 I=(I(V8))
*
.ENDS LT1256
**********
*SRC=LT1259;LT1259;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1259 3 2 7 4 6
*
Q2A 4 3 10 QPI 0.5
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11 7 QPI
Q6A 12 11 7 QPI 2
Q7A 4 9 12 QPI
Q8A 7 12 13 QNI 10
RSCA 13 6 12
IBA 7 10 DC 50UA
RBA 7 10 73K
DIA 10 7 DCC 2.0
*
Q2B 7 3 110 QNI 0.5
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111 4 QNI
Q6B 112 111 4 QNI 2
Q7B 7 9 112 QNI
Q8B 4 112 113 QPI 10
RS 6 113 12
IBB 110 4 DC 50UA
RBB 110 4 73K
DIB 4 110 DCC 2.0
*
CM1 7 11 1PF
CM2 111 4 1PF
*
RIB 7 11 75K
RC 2 200 75
R9 9 0 250K
D1 9 6 DC
D2 6 9 DC
D3 9 7 DCC .55
D4 4 9 DCC .55
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN TF=225PS
.MODEL QPI PNP TF=225PS
*
.ENDS LT1259
**********
*SRC=LT1328;LT1328;Opamps;LT-"LTxxx";4Mbps IrDA Infrared Receiver
*SYM=LT1328
.SUBCKT LT1328 IN FILTER FSW GND DATA VCC MODE VBIAS
* PIN NUMBER 1 2 3 4 5 6 7 8
* PREAMP
GPREAMP 0 VPG NVB IN 7.7E-3
QC1 VPG VPG VC1 NPN
VC1 VC1 GND DC 4
QC2 VC2 VC2 VPG NPN
VC2 VC2 GND DC 1
RPREG VPG 0 200K
CPREG VPG 0 10PF
EPREAMP PREOUT1 0 VPG 0 1
RFB IN PREOUT1 50K
RBPRE PREOUT1 RB 1K
REPRE IN RE 25
QPRE VCC RB RE NPN 10X
QDPRE IN IN PREOUT1 NPN
*
* BIAS
VBIAS NVB 0 DC 1.4V
*
* AC LOOP
GAC 0 FILTER PREOUT1 NVB 16.7E-6
EAC NAC 0 FILTER 0 1
RFILTER FILTER 0 10MEG
QC3 FILTER FILTER VC3 NPN
VC3 VC3 GND DC 4
QC4 VC4 VC4 FILTER NPN
VC4 VC4 GND DC 1
RIN IN NAC 2K
*
* THRESHOLD
VT VP1 PREOUT1 DC .7V
RVP VP1 VP 10K
QP VCC VP NEP NPN
QB VCC PRE VBIAS NPN
RBQB PRE VP 2K
RTH NEP PREOUT 500
IP PREOUT GND DC 10U
IB VBIAS GND DC 10U
*
* COMPARATOR
GCOMP 0 NCOMP VBIAS PREOUT 2
QC5 NCOMP NCOMP VC5 NPN
VC5 VC5 GND DC 4.3V
QC6 VC6 VC6 NCOMP NPN
VC6 VC6 GND DC .7V
*
QC7 NCT NCT NCOMP NPN
QC8 NCT NCT NCO NPN
QC9 NCOMP NCOMP NCB NPN
QC10 NCO NCO NCB NPN
ICT VCC NCT DC 400UA
ICB NCB GND DC 2MA
CCOMP NCO 0 10PF
QC11 NCO NCO VC11 NPN
VC11 VC11 GND DC 3.6
QC12 VC12 VC12 NCO NPN
VC12 VC12 GND DC 1.2
*TCOMP NCO 0 NCOT 0 ZO=100MEG TD=100NS
*ECOMP DATA 0 LAPLACE {V(NCO)} = {EXP(-S*200N)} ; DELAYED 0-1 PULSE
VECOMP DATA 0 PULSE 0 1 200N
*
* FILTER SWITCH
RF MODE NSW 10K
QF1 NSW NSW NSWE NPN
RF2 NSWE NSWB 5K
QF2 FSW NSWB GND NPN 50X
ICC VCC 0 DC 1.6mA
IEE 0 GND DC -8.2mA
.MODEL NPN NPN (BF=200 IS=1E-16 NF=1 NE=1.5 NC=2); NK=.5
*
.ENDS LT1328
**********
*SRC=LT1351;LT1351;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1351 3 2 7 4 6
* INPUT
RC1 7 80 1894.7 ;3.7894E+03
RC2 7 90 1894.7 ;3.7894E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 4.5MHZ
C1 80 90 9.34E-12 ;4.67E-12
RE1 10 12 +3.7709E+03
RE2 11 12 +3.7709E+03
IEE 12 4 2.8000E-03
RE 12 0 7.1428E+04
* INTERMEDIATE
GCM 8 0 12 0 5.2654E-09
GA 8 0 78 0 2.6389E-04
R2 8 0 255E+06
C2 8 0 12.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 20MHZ
GX1 0 28 90 80 2E-06 ;1E-06
RX1 28 0 1E+06
CX1 28 0 7.69E-15
*POLE AT 45MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 3.54E-15
*POLE AT 45MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 3.54E-15
*ZERO AT 4.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 35.4E-03
*POLE AT 9MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 17.7E-15
*POLE AT 300MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 .531E-15
*OUTPUT
EB 1 0 8 0 1
RO2 1 6 160
RF 8 99 20E+03
CF 99 6 7.5E-12
*
* CURRENT LIMIT
ECL 18 1 6 1 .103
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.0182E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.0182E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.2550E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=8.0000E+04)
.MODEL QM2 NPN (IS=8.0621E-16 BF=1.1200E+05)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1351
**********
*SRC=LT1352;LT1352;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1352 3 2 7 4 6
X_LT1352 3 2 7 4 6 LT1351
.ENDS LT1352
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1353;LT1353;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1353 3 2 7 4 6
X_LT1353 3 2 7 4 6 LT1351
.ENDS LT1353
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1354;LT1354;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1354 3 2 7 4 6
* INPUT
RC1 7 80 1.3263E+03
RC2 7 90 1.3263E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 75MHZ
C1 80 90 0.8E-12
RE1 10 12 +1.3133E+03
RE2 11 12 +1.3133E+03
IEE 12 4 4.0002E-03
RE 12 0 4.9998E+04
* INTERMEDIATE
GCM 8 0 12 0 1.0650E-08
GA 8 0 78 0 7.5398E-04
R2 8 0 21.9E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 75MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 2.12E-15
*POLE AT 75MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 2.12E-15
*POLE AT 75MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 2.12E-15
*ZERO AT 12.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 12.7E-03
*POLE AT 25MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 6.37E-15
*POLE AT 75MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 2.12E-15
*
EB 1 0 8 0 1
RO2 1 6 5.000E+01
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.375
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.2317E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.2317E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.3000E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=2.2222E+04)
.MODEL QM2 NPN (IS=8.0847E-16 BF=2.8571E+04)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1354
**********
*SRC=LT1355;LT1355;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1355 3 2 7 4 6
* INPUT
RC1 7 80 1.3263E+03
RC2 7 90 1.3263E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 75MHZ
C1 80 90 0.8E-12
RE1 10 12 +1.3133E+03
RE2 11 12 +1.3133E+03
IEE 12 4 4.0002E-03
RE 12 0 4.9998E+04
* INTERMEDIATE
GCM 8 0 12 0 1.0650E-08
GA 8 0 78 0 7.5398E-04
R2 8 0 21.9E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 75MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 2.12E-15
*POLE AT 75MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 2.12E-15
*POLE AT 75MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 2.12E-15
*ZERO AT 12.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 12.7E-03
*POLE AT 25MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 6.37E-15
*POLE AT 75MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 2.12E-15
*
EB 1 0 8 0 1
RO2 1 6 5.000E+01
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.375
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.2317E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.2317E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.3000E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=2.2222E+04)
.MODEL QM2 NPN (IS=8.0847E-16 BF=2.8571E+04)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1355
**********
*SRC=LT1356;LT1356;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1356 3 2 7 4 6
* INPUT
RC1 7 80 1.3263E+03
RC2 7 90 1.3263E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 75MHZ
C1 80 90 0.8E-12
RE1 10 12 +1.3133E+03
RE2 11 12 +1.3133E+03
IEE 12 4 4.0002E-03
RE 12 0 4.9998E+04
* INTERMEDIATE
GCM 8 0 12 0 1.0650E-08
GA 8 0 78 0 7.5398E-04
R2 8 0 21.9E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 75MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 2.12E-15
*POLE AT 75MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 2.12E-15
*POLE AT 75MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 2.12E-15
*ZERO AT 12.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 12.7E-03
*POLE AT 25MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 6.37E-15
*POLE AT 75MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 2.12E-15
*
EB 1 0 8 0 1
RO2 1 6 5.000E+01
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.375
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.2317E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.2317E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.3000E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=2.2222E+04)
.MODEL QM2 NPN (IS=8.0847E-16 BF=2.8571E+04)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1356
**********
*SRC=LT1357;LT1357;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1357 3 2 7 4 6
* INPUT
RC1 7 80 6.3662E+02
RC2 7 90 6.3662E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 150MHZ
C1 80 90 0.834E-12
RE1 10 12 +6.2798E+02
RE2 11 12 +6.2798E+02
IEE 12 4 6.0002E-03
RE 12 0 3.3332E+04
* INTERMEDIATE
GCM 8 0 12 0 2.2188E-08
GA 8 0 78 0 1.5708E-03
R2 8 0 17.4E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 150MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 01.06E-15
*POLE AT 150MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 1.06E-15
*POLE AT 150MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 1.06E-15
*ZERO AT 30MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 5.31E-03
*POLE AT 60MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 2.65E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
EB 1 0 8 0 1
RO2 1 6 46
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.395
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.2486E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.2486E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.4000E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=2.1429E+04)
.MODEL QM2 NPN (IS=8.0463E-16 BF=3.0000E+04)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1357
**********
*SRC=LT1358;LT1358;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1358 3 2 7 4 6
* INPUT
RC1 7 80 6.3662E+02
RC2 7 90 6.3662E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 150MHZ
C1 80 90 0.834E-12
RE1 10 12 +6.2798E+02
RE2 11 12 +6.2798E+02
IEE 12 4 6.0002E-03
RE 12 0 3.3332E+04
* INTERMEDIATE
GCM 8 0 12 0 2.2188E-08
GA 8 0 78 0 1.5708E-03
R2 8 0 17.4E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 150MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 01.06E-15
*POLE AT 150MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 1.06E-15
*POLE AT 150MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 1.06E-15
*ZERO AT 30MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 5.31E-03
*POLE AT 60MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 2.65E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
EB 1 0 8 0 1
RO2 1 6 46
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.395
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.2486E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.2486E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.4000E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=2.1429E+04)
.MODEL QM2 NPN (IS=8.0463E-16 BF=3.0000E+04)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1358
**********
*SRC=LT1359;LT1359;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1359 3 2 7 4 6
* INPUT
RC1 7 80 6.3662E+02
RC2 7 90 6.3662E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 150MHZ
C1 80 90 0.834E-12
RE1 10 12 +6.2798E+02
RE2 11 12 +6.2798E+02
IEE 12 4 6.0002E-03
RE 12 0 3.3332E+04
* INTERMEDIATE
GCM 8 0 12 0 2.2188E-08
GA 8 0 78 0 1.5708E-03
R2 8 0 17.4E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 150MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 01.06E-15
*POLE AT 150MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 1.06E-15
*POLE AT 150MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 1.06E-15
*ZERO AT 30MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 5.31E-03
*POLE AT 60MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 2.65E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
EB 1 0 8 0 1
RO2 1 6 46
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.395
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.2486E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.2486E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 -.4000E-02
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=2.1429E+04)
.MODEL QM2 NPN (IS=8.0463E-16 BF=3.0000E+04)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1359
**********
*SRC=LT1360;LT1360;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1360 3 2 7 4 6
* INPUT
RC1 7 80 7.9577E+02
RC2 7 90 7.9577E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0E-12
*INPUT POLE AT 300MHZ
C1 80 90 0.333E-12
RE1 10 12 +7.7947E+02
RE2 11 12 +7.7947E+02
IEE 12 4 3.2006E-03
RE 12 0 6.2488E+04
* INTERMEDIATE
GCM 8 0 12 0 3.1565E-08
GA 8 0 78 0 1.2566E-03
R2 8 0 5.47E+06
C2 8 0 3.7E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 0.53E-15
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 0.53E-15
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 0.53E-15
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 2.65E-03
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 200MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 0.796E-15
*
EB 1 0 8 0 1
RO2 1 6 30
RF 8 99 1000
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.46
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.0231E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.0231E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 7.9940E-04
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=4.7059E+03)
.MODEL QM2 NPN (IS=8.0934E-16 BF=6.1538E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1360
**********
*SRC=LT1361;LT1361;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1361 3 2 7 4 6
* INPUT
RC1 7 80 7.9577E+02
RC2 7 90 7.9577E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0E-12
*INPUT POLE AT 300MHZ
C1 80 90 0.333E-12
RE1 10 12 +7.7947E+02
RE2 11 12 +7.7947E+02
IEE 12 4 3.2006E-03
RE 12 0 6.2488E+04
* INTERMEDIATE
GCM 8 0 12 0 3.1565E-08
GA 8 0 78 0 1.2566E-03
R2 8 0 5.47E+06
C2 8 0 3.7E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 0.53E-15
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 0.53E-15
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 0.53E-15
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 2.65E-03
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 200MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 0.796E-15
*
EB 1 0 8 0 1
RO2 1 6 30
RF 8 99 1000
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.46
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.0231E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.0231E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 7.9940E-04
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=4.7059E+03)
.MODEL QM2 NPN (IS=8.0934E-16 BF=6.1538E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1361
**********
*SRC=LT1362;LT1362;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1362 3 2 7 4 6
* INPUT
RC1 7 80 7.9577E+02
RC2 7 90 7.9577E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0E-12
*INPUT POLE AT 300MHZ
C1 80 90 0.333E-12
RE1 10 12 +7.7947E+02
RE2 11 12 +7.7947E+02
IEE 12 4 3.2006E-03
RE 12 0 6.2488E+04
* INTERMEDIATE
GCM 8 0 12 0 3.1565E-08
GA 8 0 78 0 1.2566E-03
R2 8 0 5.47E+06
C2 8 0 3.7E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 0.53E-15
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 0.53E-15
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 0.53E-15
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 2.65E-03
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 200MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 0.796E-15
*
EB 1 0 8 0 1
RO2 1 6 30
RF 8 99 1000
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.46
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 3.0231E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 3.0231E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 7.9940E-04
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=4.7059E+03)
.MODEL QM2 NPN (IS=8.0934E-16 BF=6.1538E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1362
**********
*SRC=LT1363;LT1363;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1363 3 2 7 4 6
* INPUT
RC1 7 80 5.6841E+02
RC2 7 90 5.6841E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 300MHZ
C1 80 90 0.467E-12
RE1 10 12 +5.5532E+02
RE2 11 12 +5.5532E+02
IEE 12 4 4.0012E-03
RE 12 0 4.9985E+04
* INTERMEDIATE
GCM 8 0 12 0 5.5634E-08
GA 8 0 78 0 1.7593E-03
R2 8 0 3.69E+06
C2 8 0 3.85E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 0.53E-15
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 0.53E-15
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 0.53E-15
*ZERO AT 85MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 1.87E-03
*POLE AT 170MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 0.937E-15
*POLE AT 500MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 0.318E-15
*
EB 1 0 8 0 1
RO2 1 6 20
RF 8 99 800
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.36
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 2.9317E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 2.9317E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 1.9988E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03)
.MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1363
**********
*SRC=LT1364;LT1364;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1364 3 2 7 4 6
* INPUT
RC1 7 80 5.6841E+02
RC2 7 90 5.6841E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 300MHZ
C1 80 90 0.467E-12
RE1 10 12 +5.5532E+02
RE2 11 12 +5.5532E+02
IEE 12 4 4.0012E-03
RE 12 0 4.9985E+04
* INTERMEDIATE
GCM 8 0 12 0 5.5634E-08
GA 8 0 78 0 1.7593E-03
R2 8 0 3.69E+06
C2 8 0 3.85E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 0.53E-15
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 0.53E-15
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 0.53E-15
*ZERO AT 85MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 1.87E-03
*POLE AT 170MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 0.937E-15
*POLE AT 500MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 0.318E-15
*
EB 1 0 8 0 1
RO2 1 6 20
RF 8 99 800
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.36
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 2.9317E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 2.9317E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 1.9988E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03)
.MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1364
**********
*SRC=LT1365;LT1365;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1365 3 2 7 4 6
* INPUT
RC1 7 80 5.6841E+02
RC2 7 90 5.6841E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.0000E-12
*INPUT POLE AT 300MHZ
C1 80 90 0.467E-12
RE1 10 12 +5.5532E+02
RE2 11 12 +5.5532E+02
IEE 12 4 4.0012E-03
RE 12 0 4.9985E+04
* INTERMEDIATE
GCM 8 0 12 0 5.5634E-08
GA 8 0 78 0 1.7593E-03
R2 8 0 3.69E+06
C2 8 0 3.85E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 0.53E-15
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 0.53E-15
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 0.53E-15
*ZERO AT 85MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 1.87E-03
*POLE AT 170MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 0.937E-15
*POLE AT 500MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 0.318E-15
*
EB 1 0 8 0 1
RO2 1 6 20
RF 8 99 800
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.36
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1.0000E+00
VC 13 6 2.9317E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1.0000E+00
VE 6 14 2.9317E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 1.9988E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03)
.MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3 D (IS=1.0000E-16)
.ENDS LT1365
**********
*SRC=LT1366;LT1366;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1366 3 2 7 4 6
Q3 18 10 14 PL1 1
Q4 19 11 14 PL1 1.006
Q3C 19 10 10 PL1 2
Q4C 18 11 11 PL1 2
Q5 16 15 14 PL1 1
Q2 13 10 17 NL1 1
Q1 12 11 17 NL1 1.006
RINP 10 3 500
RINN 11 2 500
R3 4 18 5K
R1 12 7 5K
RCMP 14 7 12MEG
R4 4 19 5K
RI 21 24 8K
R2 13 7 5K
ROUT1 22 6 31.2
ROUT2 22 0 80K
RCMN 4 17 12MEG
RO1 0 20 25MEG
RPS1 4 20 1600MEG
RPS2 20 7 1600MEG
C1 12 13 8.6PF
C2 18 19 8.6PF
CI 24 6 12PF
CCMP 14 7 1.6PF
CCMN 4 17 1.6PF
CF 20 6 71.5PF
CPS2 20 7 0.1PF
CPS1 4 20 0.1PF
VESAT 26 4 0.814
VCSAT 7 25 0.814
VSENSE 16 4 0
F1 17 4 VSENSE 1
VLS 7 15 1.4
GN1 7 20 13 12 400U
GP1 20 4 19 18 400U
GOUT 0 22 0 24 21E-3
I1 7 14 5U
IOS 3 2 1NA
IQ 7 4 345U
E1 21 0 20 0 1.31
EOUT 23 0 6 0 1
DI2 11 7 DM1
DI1 10 7 DM1
DC1 20 0 DMX
DO1 6 25 DM1
DO2 26 6 DM1
DL1 23 22 DMX
DL2 22 23 DMX
DC2 0 20 DMX
DSUB 4 7 DM2
.MODEL PL1 PNP
+ IS=570E-18
+ BF=263 BR=0.17 VAF=115
+ TF=42E-9 TR=7.7E-6
+ CJE=0.115PF VJE=0.62 MJE=0.44 FC=0.5
+ CJC=0.948PF VJC=0.62 MJC=0.44
+ CJS=2.695PF VJS=0.60 MJS=0.36
.MODEL NL1 NPN
+ IS=1.33E-15
+ BF=240 BR=0.22 VAF=80
+ TF=42E-9 TR=7.7E-6
+ CJE=0.078PF VJE=0.62 MJE=0.44 FC=0.5
+ CJC=0.749PF VJC=0.62 MJC=0.44
+ CJS=0.000PF VJS=0.60 MJS=0.36
.MODEL DM1 D IS=8E-16
.MODEL DMX D IS=3.4E-24
.MODEL DM2 D IS=8E-16 BV=39
.ENDS LT1366
**********
*SRC=LT1367;LT1367;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1367 3 2 7 4 6
X_LT1367 3 2 7 4 6 LT1366
.ENDS LT1367
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1413;LT1413;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
* CONNECTIONS FOLLOW 3-2-7-4-6 CONVENTION IN SPITE OF NODE NUMBERS
*
.SUBCKT LT1413 1 2 3 4 5
*
C1 11 12 8.661E-12
C2 6 7 30.00E-12
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100.0E3
RC1 4 11 8.841E3
RC2 4 12 8.841E3
RE1 13 10 4.519E3
RE2 14 10 4.519E3
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL QM1 PNP (IS=8.000E-16 BF=3.974E+02)
.MODEL QM2 PNP (IS=8.019E-16 BF=4.027E+02)
.ENDS LT1413
**********
*SRC=LT1413A;LT1413A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
* CONNECTIONS FOLLOW 3-2-7-4-6 CONVENTION, IN SPITE OF NODE NUMBERS
*
.SUBCKT LT1413A 1 2 3 4 5
* INPUT
C1 11 12 8.661E-12
C2 6 7 30.00E-12
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100.0E3
RC1 4 11 8.841E3
RC2 4 12 8.841E3
RE1 13 10 4.519E3
RE2 14 10 4.519E3
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL QM1 PNP (IS=8.000E-16 BF=4.969E+02)
.MODEL QM2 PNP (IS=8.012E-16 BF=5.031E+02)
.ENDS LT1413A
**********
*SRC=LT1490;LT1490;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*CONNECTIONS IN+ IN- V+ V- OUT
.SUBCKT LT1490 1 2 3 4 5
*
IBP 303 0 DC -3.9675E-09
RBP 303 0 RMOD 1E6
.MODEL RMOD R TC1=-1.6154E-02
*
IBN 304 0 DC -3.7860E-09
RBN 304 0 RMOD2 1E6
.MODEL RMOD2 R TC1=-1.4615E-02
*
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -0.85E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
*
GCV2 0 309 POLY(3) 3 0 1 0 2 0 0.0E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
*
GBP 111 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 20.0E-9 3.6E-6
GBN 112 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 22.0E-9 3.20E-6
*
ROFF1 301 0 RMOD3 1.00022E+00
.MODEL RMOD3 R TC1=-2.0000E-06
ROFF2 302 0 1.0000E+00
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000E+09
*
GCM1 0 20 POLY(2) 111 0 112 0 0 5.0000E-04 5.0000E-04
RCM4 21 0 1.000000E+03
RCM5 20 0 1.0000E+06
LCM 20 21 7.2343E-02
ECM 113 111 20 0 1.25892E-05
RCM3 113 111 1E12
*
GRP1 1 111 1 111 1.0000E-03
GRP2 2 112 2 112 1.0000E-03
DIP1 4 111 DX
DIP2 4 112 DX
*
CIN 111 112 3.95E-12
RDIFF 111 112 1.7E+07
* COMMON MODE RESISTANCE COMMENTED OUT
* FOR CORRECT BIAS MODELING AT HIGH INPUT VOLTAGES
* RCM1 111 99 11E+06
* RCM2 112 99 11E+06
GIN 99 10 113 114 0.022273
RCC 10 99 4.4896E+03
C1 10 99 1.41798E-10
DSRP 10 11 DX
VSRP 11 99 DC 5.35
DSRN 12 10 DX
VSRN 12 99 DC -3.85
GA 60 99 10 99 1.0E-5
*
GR 99 60 605 606 2.41668
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
RP1 601 99 2.0000E+04
CP1 60 601 1.3263E-10
RP11 60 99 1.0000E+04
GP1 99 6 60 99 1.0000E-04
*
R2 6 99 1.0000E+03
C2 6 7 6.3819E-10
GB 7 99 6 99 2731.5
R01 7 99 6.8222E+02
R02 7 50 1.6427E+03
R03 50 51 1.0750E+02
*
* R04 51 5 1.2501E+01
R04 51 5 1.7501E+01
*
R05 5 99 1.0000E+12
DOP 50 51 DO
DON 51 50 DO
DSUB 4 5 DX
*
EVLP 53 0 POLY(2) 3 99 50 99 1.024 -1.0 1.0
DLVP 53 90 DX
EVLN 54 0 POLY(2) 4 99 50 99 -1.024 -1.0 1.0
DLVN 90 54 DX
*
ELIM1 91 0 7 50 2.5406E-02
ELIM2 92 0 7 50 2.5406E-02
DLP 91 90 DX
DLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 5.1074E-01
*
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 38.0E-6
RP 3 4 2.5000E+06
GV 31 0 7 50 6.0877E-04
DP1 3 31 DX
DP2 32 4 DX
EGV 31 32 POLY(1) 3 4 -1.0 1.0
*
.MODEL DX D IS=8.0000E-16 VJ=1.0 RS=0 XTI=0
.MODEL DR D IS=8.0000E-16 KF=1.9244E-19 RS=0 XTI=0
.MODEL DO D IS=2.2260E-06 RS=0 XTI=0
*
.ENDS LT1490
**********
*SRC=LT1491;LT1491;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1491 3 2 7 4 6
X_LT1491 3 2 7 4 6 LT1490
.ENDS LT1491
*INCLUDE OPLTC3.LIB
**********
*SRC=LT1497;LT1497;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1497 3 2 7 4 6
*
Q1A 4 33 10 QP
Q2A 4 33 110 QP
Q3A 11 10 22 QN 0.45X
Q4A 11 11 14 QP
RBC 11 11A 300
Q5A 9 11A 16 QP
Q6A 12 11A 17 QP 2X
Q7A 4 9 12 QP 2X
Q8A 15 18 13 QN 21X
RBA 12 18 150
RSCA 13 6 2.4
IBA 7 10 370U
ROA 7 10 80K
DIA 10 7 DCC 3X
*
Q1B 7 33 110 QN
Q2B 7 33 10 QN
Q3B 111 110 22 QP 0.55X
Q4B 111 111 114 QN
RBD 111 111B 300
Q5B 9 111B 116 QN
Q6B 112 111B 117 QN 2X
Q7B 7 9 112 QN 2X
Q8B 115 118 113 QP 21X
RBB 112 118 150
RSCB 6 113 2.4
IBB 110 4 370U
ROB 110 4 80K
DIB 4 110 DCC 3X
*
RIP 3 33 .01
RIM 2 22 15
RIB 7 11 120K
R4A 14 15 400
R5A 16 15 400
R6A 17 7 200
RBSA 7 15 6
R4B 114 115 400
R5B 116 115 400
R6B 117 4 200
RBSB 4 115 6
R9A 7 9 1200K
R9B 9 4 1200K
C9 9 4 3PF
D1 9 6 DCC
D2 6 9 DCC
D3 9 7 DCC 2X
D4 4 9 DCC 2X
CMA 7 11 4PF
CMB 111 4 4PF
IB 7 4 600UA
*
.MODEL DCC D CJO=3PF VJ=0.57 M=0.36
.MODEL QN NPN BF=150 TF=400P
.MODEL QP PNP BF=150 TF=400P
.ENDS LT1497
**********
*SRC=LT1498;LT1498;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
.SUBCKT LT1498 3 2 7 4 6
*
Q4 17 11 18 P1 1.006
Q3 16 10 15 P1 1
Q5 33 32 14 P1 1
QIC2 10 10 11 P1 1
QIC1 11 11 10 P1 1
Q4C 16 11 11 P1 1.5
Q3C 17 10 10 P1 1.5
Q1 12 11 20 N1 1.006
Q2 13 10 21 N1 1
Q2C 12 10 10 N1 1.5
Q1C 13 11 11 N1 1.5
*
RINP 10 3 200
RINN 11 2 200
R1 12 7 2K
RCMP 14 7 12MEG
R4 4 17 2K
R2 13 7 2K
ROUT1 27 6 31.2
ROUT2 27 0 50K
RCMN 4 19 12MEG
RPS1 4 22 1600MEG
RPS2 22 7 1600MEG
RI 23 24 4K
RC1 22 26 400
RO1 0 22 9MEG
RC3 29 22 2K
RC2 25 24 100
R3 4 16 2K
REQ4 18 14 450
REQ3 14 15 450
REQ1 20 19 450
REQ2 19 21 450
*
C1 12 13 1PF
C2 16 17 1PF
CCMP 14 7 1.6PF
CCMN 4 19 1.6PF
CC1 26 6 10P
CPS2 22 7 0.1PF
CC2 25 6 20P
CC3 29 0 50P
CINP 10 0 5P
CINN 11 0 5P
CPS1 4 22 0.1PF
*
VESAT 30 4 0.814
VCSAT 7 31 0.814
VSENSE 33 4 0
FSENSE 19 4 VSENSE 1
VLS 7 32 1.4
GN1 7 22 13 12 290U
GP1 22 4 17 16 340U
GOUT 0 27 0 24 22E-3
I1 7 14 75U
IOS 3 2 5NA
IQ 7 4 1.9MA
E1 23 0 22 0 6
EOUT 28 0 6 0 1
*
DI2 11 7 DM1
DI1 10 7 DM1
DC1 22 0 DMX
DO1 6 31 DM1
DO2 30 6 DM1
DL1 28 27 DMX
DL2 27 28 DMX
DC2 0 22 DMX
DSUB 4 7 DM2
*
.MODEL N1 NPN
+ IS=400E-18
+ BF=150
+ RB=340
+ TF=400PS
.MODEL P1 PNP
+ IS=400E-18
+ BF=150
+ RB=400
+ TF=410PS
.MODEL DM1 D IS=8E-16
.MODEL DMX D IS=3.4E-24
.MODEL DM2 D IS=8E-16 BV=39
.ENDS LT1498
**********
*SRC=LT1499;LT1499;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT1499 3 2 7 4 6
X_LT1499 3 2 7 4 6 LT1498
.ENDS LT1499
*INCLUDE OPLTC3.LIB
**********
*SRC=LT2078;LT2078;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2078 3 2 7 4 6
X_LT2078 3 2 7 4 6 LT1078
.ENDS LT2078
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1078 3 2 7 4 6
* INPUT
RC1 4 80 2.653E+04
RC2 4 90 2.653E+04
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 6.000E+02
RB2 3 103 6.000E+02
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 4.000E-01
C1 80 90 8.660E-12
RE1 10 12 4.958E+03
RE2 11 12 4.958E+03
IEE 7 12 2.412E-06
RE 12 0 8.292E+07
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.501E-10
GA 8 0 80 90 3.770E-05
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 2.449E+02
* OUTPUT
RO1 1 110 1.000E+02
RO2A 1 0 1.083E+03
RO2B 6 110 8.170E+02
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.490E+00
VE 14 4 7.911E-01
IP 7 4 4.259E-05
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP (IS=8.000E-16 BF=1.992E+02)
.MODEL QM2 PNP (IS=8.012E-16 BF=2.008E+02)
.MODEL DM1 D (IS=3.718E-24)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1078
**********
*SRC=LT2078A;LT2078A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2078A 3 2 7 4 6
X_LT2078A 3 2 7 4 6 LT1078A
.ENDS LT2078A
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1078A 3 2 7 4 6
* INPUT
RC1 4 80 2.653E+04
RC2 4 90 2.653E+04
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 6.000E+02
RB2 3 103 6.000E+02
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 4.000E-01
C1 80 90 8.660E-12
RE1 10 12 4.958E+03
RE2 11 12 4.958E+03
IEE 7 12 2.412E-06
RE 12 0 8.292E+07
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.501E-10
GA 8 0 80 90 3.770E-05
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 2.449E+02
* OUTPUT
RO1 1 110 1.000E+02
RO2A 1 0 1.083E+03
RO2B 6 110 8.170E+02
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.490E+00
VE 14 4 7.911E-01
IP 7 4 4.259E-05
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP (IS=8.000E-16 BF=1.992E+02)
.MODEL QM2 PNP (IS=8.009E-16 BF=2.008E+02)
.MODEL DM1 D (IS=3.718E-24)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1078A
**********
*SRC=LT2079;LT2079;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2079 3 2 7 4 6
X_LT2079 3 2 7 4 6 LT1078
.ENDS LT2079
*INCLUDE OPLTC3.LIB
**********
*SRC=LT2079A;LT2079A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2079A 3 2 7 4 6
X_LT2079A 3 2 7 4 6 LT1078A
.ENDS LT2079A
*INCLUDE OPLTC3.LIB
**********
*SRC=LT2178;LT2178;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2178 3 2 7 4 6
X_LT2178 3 2 7 4 6 LT1178
.ENDS LT2178
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1178 3 2 7 4 6
* INPUT
RC1 4 80 8.842E+04
RC2 4 90 8.842E+04
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 6.000E+02
RB2 3 103 6.000E+02
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 4.000E-01
C1 80 90 8.660E-12
RE1 10 12 1.933E+04
RE2 11 12 1.933E+04
IEE 7 12 7.560E-07
RE 12 0 2.646E+08
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 8.984E-11
GA 8 0 80 90 1.131E-05
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 5.780E+02
* OUTPUT
RO1 1 110 1.000E+02
RO2A 1 0 1.083E+03
RO2B 6 110 8.170E+02
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.480E+00
VE 14 4 7.806E-01
IP 7 4 1.424E-05
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP (IS=8.000E-16 BF=1.240E+02)
.MODEL QM2 PNP (IS=8.012E-16 BF=1.261E+02)
.MODEL DM1 D (IS=6.881E-16)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1178
**********
*SRC=LT2178A;LT2178A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2178A 3 2 7 4 6
X_LT2178A 3 2 7 4 6 LT1178A
.ENDS LT2178A
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LT1178A 3 2 7 4 6
* INPUT
RC1 4 80 8.842E+04
RC2 4 90 8.842E+04
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 6.000E+02
RB2 3 103 6.000E+02
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 4.000E-01
C1 80 90 8.660E-12
RE1 10 12 1.933E+04
RE2 11 12 1.933E+04
IEE 7 12 7.560E-07
RE 12 0 2.646E+08
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 8.984E-11
GA 8 0 80 90 1.131E-05
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 5.780E+02
* OUTPUT
RO1 1 110 1.000E+02
RO2A 1 0 1.083E+03
RO2B 6 110 8.170E+02
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.480E+00
VE 14 4 7.806E-01
IP 7 4 1.424E-05
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP (IS=8.000E-16 BF=1.240E+02)
.MODEL QM2 PNP (IS=8.009E-16 BF=1.261E+02)
.MODEL DM1 D (IS=6.881E-16)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1178A
**********
*SRC=LT2179;LT2179;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2179 3 2 7 4 6
X_LT2179 3 2 7 4 6 LT1178
.ENDS LT2179
*INCLUDE OPLTC3.LIB
**********
*SRC=LT2179A;LT2179A;Opamps;LT-"LTxxx";
*SYM=LTOPAMP
*
.SUBCKT LT2179A 3 2 7 4 6
X_LT2179A 3 2 7 4 6 LT1178A
.ENDS LT2179A
*INCLUDE OPLTC3.LIB
**********
*SRC=LTC1047;LTC1047;Opamps;LT-"LTCxxx";
*SYM=LTOPAMP
.SUBCKT LTC1047 3 2 7 4 6
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 6.6315E+03
RD2 4 90 6.6315E+03
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5.0000E-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5000E-11
ISS 7 12 2.4000E-05
* INTERMEDIATE
GCM 0 8 12 0 4.7686E-11
GA 8 0 80 90 1.5080E-04
R2 8 0 1.0000E+05
C2 1 8 3.0000E-11
GB 1 0 8 0 3.3324E+04
RO2 1 0 1.9900E+02
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 2.8534E+02
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+01
D1 18 19 DM1
VOD1 19 20 0.0000E+00
D2 20 21 DM1
VOD2 21 18 1.9974E+00
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 1.3894E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 1.3894E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 1.7600E-04
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS (KP=9.4748E-04 VTO=-1.1000000E+00)
.MODEL PM2 PMOS (KP=9.4748E-04 VTO=-1.1000020E+00)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DMG1 D (IS=7E-12 N=2.31)
.MODEL DMG2 D (IS=6.3E-12 N=2.31)
.ENDS LTC1047
**********
*SRC=LTC1051A;LTC1051A;Opamps;LT-"LTCxxx";
*SYM=LTOPAMP
*
.SUBCKT LTC1051A 3 2 7 4 6
X_LTC1051A 3 2 7 4 6 LTC1051
.ENDS LTC1051A
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LTC1051 3 2 7 4 6
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2.1221E+03
RD2 4 90 2.1221E+03
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5.0000E-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5000E-11
ISS 7 12 1.2000E-04
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 1.4902E-10
GA 8 0 80 90 4.7124E-04
R2 8 0 1.0000E+05
C2 1 8 3.0000E-11
GB 1 0 8 0 1.0664E+04
RO2 1 0 1.9900E+02
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 1.7955E+02
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+01
D1 18 19 DM1
VOD1 19 20 0.0000E+00
D2 20 21 DM1
VOD2 21 18 2.6932E+00
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 1.4332E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 1.4332E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 8.8000E-04
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS (KP=1.8506E-03 VTO=-1.1000000E+00)
.MODEL PM2 PMOS (KP=1.8506E-03 VTO=-1.1000005E+00)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=1.9800E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DMG1 D (IS=7E-12 N=2.31)
.MODEL DMG2 D (IS=6.3E-12 N=2.31)
.ENDS LTC1051
**********
*SRC=LTC1100;LTC1100;Opamps;LT-"LTCxxx";
*SYM=LTC1100
*
* LTC1100(A) MODEL USES LT1101/1102 8-PIN PINOUT CONVENTION.
* FOR 16-PIN LTC1100CS SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10,
* OTHERWISE GAIN=100. GAIN=10 FEATURE IS NOT AVAILABLE IN 8-PIN DEVICE.
* 8 PIN DEVICE IS FIXED GAIN=100 (LEAVE MODEL PINS 2 AND 7 OPEN).
* (RES3)
*
* GND GA IN- VN VP IN+ GB OUT
.SUBCKT LTC1100 1 2 3 4 5 6 7 8
*
R90A 1 2 225K
R9A 2 100 22.5K
RA 100 101 2.5K
RB 101 102 2.5K
R9B 102 7 22.5K
R90B 7 8 225K
*
XA 3 100 5 4 101 LTC1051
XB 6 102 5 4 8 LTC1051
*
.ENDS LTC1100
*INCLUDE OPLTC3.LIB
**********
*SRC=LTC1100A;LTC1100A;Opamps;LT-"LTCxxx";
*SYM=LTC1100
*
.SUBCKT LTC1100A 1 2 3 4 5 6 7 8
X_LTC1100A 1 2 3 4 5 6 7 8 LTC1100
.ENDS LTC1100A
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LTC1100 1 2 3 4 5 6 7 8
*
R90A 1 2 225K
R9A 2 100 22.5K
RA 100 101 2.5K
RB 101 102 2.5K
R9B 102 7 22.5K
R90B 7 8 225K
*
XA 3 100 5 4 101 LTC1051
XB 6 102 5 4 8 LTC1051
*
.ENDS LTC1100
*INCLUDE OPLTC3.LIB
**********
*SRC=LTC1151;LTC1151;Opamps;LT-"LTCxxx";
*SYM=LTOPAMP
*
.SUBCKT LTC1151 3 2 7 4 6
X_LTC1151 3 2 7 4 6 LTC1150
.ENDS LTC1151
*INCLUDE OPLTC3.LIB
**********
.SUBCKT LTC1150 3 2 7 4 6
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2.1221E+03
RD2 4 90 2.1221E+03
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5.0000E-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5000E-11
ISS 7 12 9.0000E-05
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 2.6500E-11
GA 8 0 80 90 4.7124E-04
R2 8 0 1.0000E+05
C2 1 8 3.0000E-11
GB 1 0 8 0 1.0664E+05
RO2 1 0 1.9900E+02
* OUTPUT
RSO 1 6 1.0000E+00
ECL 18 0 1 6 2.9675E+02
GCL 0 8 20 0 1.0000E+00
RCL 20 0 1.0000E+01
D1 18 19 DM1
VOD1 19 20 5.9605E-08
D2 20 21 DM1
VOD2 21 18 2.6708E+00
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1.0000E+00
VC 13 6 1.4253E+00
RPLA 7 70 1.0000E+01
RPLB 7 131 1.0000E+03
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1.0000E+00
VE 6 14 1.4253E+00
RNLA 60 4 1.0000E+01
RNLB 141 4 1.0000E+03
*
IP 7 4 7.1000E-04
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS (KP=2.4674E-03 VTO=-1.1000000E+00)
.MODEL PM2 PMOS (KP=2.4674E-03 VTO=-1.1000005E+00)
.MODEL DM1 D (IS=1.0000E-20)
.MODEL DM2 D (IS=8.0000E-16 BV=3.9600E+01)
.MODEL DM3 D (IS=1.0000E-16)
.MODEL DMG1 D (IS=7E-12 N=2.31)
.MODEL DMG2 D (IS=6.3E-12 N=2.31)
.ENDS LTC1150
**********

 

 

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