analog.lib

EWB-v5.1电路仿真设计-11.0M.zip

D6 55 45 DX
VC1 59 99 5
VC2 50 55 5
*
* NEGATIVE ZERO AT 1MHZ
*
E4 51 98 45 98 1E6
R38 51 52 1E6
R39 52 98 1
FNZ2 51 52 VNZ2 -1
ENZ2 53 98 51 52 1
VNZ2 54 98 0
CNZ2 53 54 159F
*
* A2 OUTPUT STAGE
*
GSY 99 50 99 50 29.2U
EIN2 99 56 POLY(1) 52 98 1.75608 46.605E-3
RIN 46 56 10K
Q316 50 46 47 QP375 1.778
Q310 50 47 48 QP375 5.925
Q318 49 48 57 50 QP350 9.913
I4 99 47 4.75U
I5 99 48 9.5U
VSC 99 57 0.03
FSC 58 99 VSC 1
QSC 46 58 99 QP350 1
RSC 99 58 48
*
* MODELS USED
*
.MODEL QP350 PNP(IS=1.4E-15 BF=70 CJE=.012P CJC=.06P RE=20 RB=350
+RC=200)
.MODEL QP375 PNP(IS=1.4E-15 CJE=.01P CJC=.05P RE=20 RC=400 RB=100)
.MODEL QP AKO:QP350 PNP(BF=150 VA=100)
.MODEL DX D(CJO=1F RS=.1)
.ENDS
* AD626A SPICE Macro-model              Rev. A, 11/95
*                                       ARG / ADSC
*
* This version of the AD626 model simulates the worst-case
* parameters of the 'A' grade. The worst-case parameters
* used correspond to those in the data sheet.
*
* Copyright 1995 by Analog Devices
*
* Refer to "README.DOC" file for License Statement. Use of
* this model indicates your acceptance of the terms and pro-
* visions in the License Statement.
*
* Node assignments
*                non-inverting input
*                |  inverting input
*                |  |  positive supply
*                |  |  |  negative supply
*                |  |  |  |  output  
*                |  |  |  |  |  gain=100
*                |  |  |  |  |  |  ground  
*                |  |  |  |  |  |  |  filter
*                |  |  |  |  |  |  |  |
.SUBCKT AD626A   1  2  99 50 49 30 90 31
*
* A1 INPUT ATTENUATORS, GAIN, AND OFFSET RESISTORS
*
R1 1 3 200K
R2 2 4 200K
RS1 3 16 1K
RS2 4 18 1K
R3 3 5 41K
R4 4 6 41K
R5 5 6 4.158K TC=-3.3U
R6 5 0 540
R7 6 0 540
R9 6 7 10K
R11 5 0 10K
C1 16 0 5P
C2 17 0 5P
*
* A1 INPUT STAGE AND POLE AT 1MHZ
*
I1 99 8 7.55U
Q1 11 16 9 QP 1
Q2 12 17 10 QP 1
R21 11 50 13.7934K
R22 12 50 13.7934K
R23 8 9 6.89705K
R24 8 10 6.89705K
C3 11 12 5.769P
EOS 61 17 POLY(1) 33 98 78.2U 7.585
ETC 18 61 POLY(1) 60 0 -49.665M 1
ITC 0 60 49.665U
RTC 60 0 1K TC=-81.8U
*
* GAIN STAGE AND DOMINANT POLE AT 120HZ
*
EREF 98 0 POLY(2) 99 0 50 0 0 0.5 0.5
G1 98 13 12 11 72.4983U
R25 13 98 13.7934E6
C4 13 98 96.154P
D1 13 99 DX
D2 50 13 DX
*
* COMMON MODE STAGE WITH ZERO AT 2.5KHZ
*
ECM 32 98 POLY(2) 1 98 2 98 0 0.5 0.5
R28 32 33 1E6
R29 33 98 10
CCM 32 33 63.36P
*
* NEGATIVE ZERO AT 0.6MHZ
*
E1 23 98 13 98 1E6
R26 23 24 1E3
R27 24 98 1E-3
FNZ 23 24 VNZ -1
ENZ 25 98 23 24 1
VNZ 26 98 DC 0
CNZ 25 26 265P
*
* POLE AT 5MHZ
*
G2 98 20 24 98 1E-6
R30 20 98 1E6
C5 20 98 32F
*
* A1 OUTPUT STAGE
*
EIN1 99 27 POLY(1) 20 98 1.5102 1.124
Q216 50 27 28 QP375 3.444
Q218 7 29 99 QP350 9.913
R31 28 29 27K
I2 99 29 4.75U
R8 7 50 10K
R12 7 31 100K
*
* A2 INPUT STAGE
*
I3 99 34 2.516667U
Q3 35 31 37 QP 1
Q4 36 39 38 QP 1
R32 35 50 106.103K
R33 36 50 106.103K
R34 34 37 85.414K
R35 34 38 85.414K
R10 41 0 10K
R13 49 50 10K
R14 41 30 552.13 TC=-7U
R15 41 49 10K
R17 39 41 95K
*
* A2 1ST GAIN STAGE AND SLEW RATE
*
G3 98 42 36 35 30.159U
R36 42 98 1E6
E2 99 43 POLY(1) 99 98 -0.473 1
E3 44 50 POLY(1) 98 50 -0.473 1
D3 42 43 DX
D4 44 42 DX
*
* A2 2ND GAIN STAGE AND DOMINANT POLE AT 12HZ
*
G4 98 45 42 98 2.5U
R37 45 98 132.629E6
C7 45 98 100P
D5 45 59 DX
D6 55 45 DX
VC1 59 99 5
VC2 50 55 5
*
* NEGATIVE ZERO AT 1MHZ
*
E4 51 98 45 98 1E6
R38 51 52 1E6
R39 52 98 1
FNZ2 51 52 VNZ2 -1
ENZ2 53 98 51 52 1
VNZ2 54 98 0
CNZ2 53 54 159F
*
* A2 OUTPUT STAGE
*
GSY 99 50 99 50 39.4U
EIN2 99 101 POLY(1) 52 98 0 46.605E-3;1.6901 46.605E-3
VOS 101 56 {VOS}
RIN 46 56 10K
Q316 50 46 47 QP375 1.778
Q310 50 47 48 QP375 5.925
Q318 49 48 57 50 QP350 9.913
I4 99 47 4.75U
I5 99 48 9.5U
VSC 99 57 0.23
FSC 58 99 VSC 1
QSC 46 58 99 QP350 1
RSC 99 58 44
*
* MODELS USED
*
.MODEL QP350 PNP(IS=1.4E-15 BF=70 CJE=.012P CJC=.06P RE=20 RB=350
+RC=200)
.MODEL QP375 PNP(IS=1.4E-15 CJE=.01P CJC=.05P RE=20 RC=400 RB=100)
.MODEL QP AKO:QP350 PNP(BF=150 VA=100)
.MODEL DX D(CJO=1F RS=.1)
.ENDS
* AD626B SPICE Macro-model              Rev. A, 11/95
*                                       ARG / ADSC
*
* This version of the AD626 model simulates the worst-case
* parameters of the 'B' grade. The worst-case parameters
* used correspond to those in the data sheet.
*
* Copyright 1995 by Analog Devices
*
* Refer to "README.DOC" file for License Statement. Use of
* this model indicates your acceptance of the terms and pro-
* visions in the License Statement.
*
* Node assignments
*                non-inverting input
*                |  inverting input
*                |  |  positive supply
*                |  |  |  negative supply
*                |  |  |  |  output  
*                |  |  |  |  |  gain=100
*                |  |  |  |  |  |  ground  
*                |  |  |  |  |  |  |  filter
*                |  |  |  |  |  |  |  |
.SUBCKT AD626B   1  2  99 50 49 30 90 31
*
* A1 INPUT ATTENUATORS, GAIN, AND OFFSET RESISTORS
*
R1 1 3 200K
R2 2 4 200K
RS1 3 16 1K
RS2 4 18 1K
R3 3 5 41K
R4 4 6 41K
R5 5 6 4.201K TC=-13.5U
R6 5 0 540
R7 6 0 540
R9 6 7 10K
R11 5 0 10K
C1 16 0 5P
C2 17 0 5P
*
* A1 INPUT STAGE AND POLE AT 1MHZ
*
I1 99 8 7.55U
Q1 11 16 9 QP 1
Q2 12 17 10 QP 1
R21 11 50 13.7934K
R22 12 50 13.7934K
R23 8 9 6.89705K
R24 8 10 6.89705K
C3 11 12 5.769P
EOS 61 17 POLY(1) 33 98 35.61U 1.698
ETC 18 61 POLY(1) 60 0 -49.665M 1
ITC 0 60 49.665U
RTC 60 0 1K TC=-81.8U
*
* GAIN STAGE AND DOMINANT POLE AT 120HZ
*
EREF 98 0 POLY(2) 99 0 50 0 0 0.5 0.5
G1 98 13 12 11 72.4983U
R25 13 98 13.7934E6
C4 13 98 96.154P
D1 13 99 DX
D2 50 13 DX
*
* COMMON MODE STAGE WITH ZERO AT 1.78KHZ
*
ECM 32 98 POLY(2) 1 98 2 98 0 0.5 0.5
R28 32 33 1E6
R29 33 98 10
CCM 32 33 283P
*
* NEGATIVE ZERO AT 0.6MHZ
*
E1 23 98 13 98 1E6
R26 23 24 1E3
R27 24 98 1E-3
FNZ 23 24 VNZ -1
ENZ 25 98 23 24 1
VNZ 26 98 DC 0
CNZ 25 26 265P
*
* POLE AT 5MHZ
*
G2 98 20 24 98 1E-6
R30 20 98 1E6
C5 20 98 32F
*
* A1 OUTPUT STAGE
*
EIN1 99 27 POLY(1) 20 98 1.5102 1.124
*VOS 101 27 {VOS}
Q216 50 27 28 QP375 3.444
Q218 7 29 99 QP350 9.913
R31 28 29 27K
I2 99 29 4.75U
R8 7 50 10K
R12 7 31 100K
*
* A2 INPUT STAGE
*
I3 99 34 2.516667U
Q3 35 31 37 QP 1
Q4 36 39 38 QP 1
R32 35 50 106.103K
R33 36 50 106.103K
R34 34 37 85.414K
R35 34 38 85.414K
R10 41 0 10K
R13 49 50 10K
R14 41 30 553.35 TC=-5U
R15 41 49 10K
R17 39 41 95K
*
* A2 1ST GAIN STAGE AND SLEW RATE
*
G3 98 42 36 35 30.159U
R36 42 98 1E6
E2 99 43 POLY(1) 99 98 -0.473 1
E3 44 50 POLY(1) 98 50 -0.473 1
D3 42 43 DX
D4 44 42 DX
*
* A2 2ND GAIN STAGE AND DOMINANT POLE AT 12HZ
*
G4 98 45 42 98 2.5U
R37 45 98 132.629E6
C7 45 98 100P
D5 45 59 DX
D6 55 45 DX
VC1 59 99 5
VC2 50 55 5
*
* NEGATIVE ZERO AT 1MHZ
*
E4 51 98 45 98 1E6
R38 51 52 1E6
R39 52 98 1
FNZ2 51 52 VNZ2 -1
ENZ2 53 98 51 52 1
VNZ2 54 98 0
CNZ2 53 54 159F
*
* A2 OUTPUT STAGE
*
GSY 99 50 99 50 39.4U
EIN2 99 56 POLY(1) 52 98 1.9561 46.605E-3
RIN 46 56 10K
Q316 50 46 47 QP375 1.778
Q310 50 47 48 QP375 5.925
Q318 49 48 57 50 QP350 9.913
I4 99 47 4.75U
I5 99 48 9.5U
VSC 99 57 0.23
FSC 58 99 VSC 1
QSC 46 58 99 QP350 1
RSC 99 58 44
*
* MODELS USED
*
.MODEL QP350 PNP(IS=1.4E-15 BF=70 CJE=.012P CJC=.06P RE=20 RB=350
+RC=200)
.MODEL QP375 PNP(IS=1.4E-15 CJE=.01P CJC=.05P RE=20 RC=400 RB=100)
.MODEL QP AKO:QP350 PNP(BF=150 VA=100)
.MODEL DX D(CJO=1F RS=.1)
.ENDS
* AMP02 SPICE Macro-model                 2/90, Rev. A
*                                          DFB / PMI
*
* Copyright 1990 by Analog Devices, Inc.
*
* Refer to "README.DOC" file for License Statement.  Use of this model
* indicates your acceptance with the terms and provisions in the License Statement.
*
* Node assignments
*
*              non-inverting input
*              |   inverting input
*              |   |   positive supply    
*              |   |   |   negative supply
*              |   |   |   |  output
*              |   |   |   |  |   rg1
*              |   |   |   |  |   |  rg2            
*              |   |   |   |  |   |  | reference(usually ground)   
*              |   |   |   |  |   |  |   |
.SUBCKT AMP02  203 202 99  50 32 207 208 205
*
*input protection network
*
J201 215 217 202 JX 40
J202 217 217 215 JX 40
J203 218 218 216 JX 40
J204 216 218 203 JX 40 
D201 215 220 DX
D202 219 215 DX
D203 219 216 DX
D204 216 220 DX
V202 219 50 3.6
V203 99 220 3.6
*
*input offset voltage
*
IVOS 215 50 100E-9 
*(this saves a node by using the protection FET's
*as offset voltage generators)
*
*input currents
*
IB1 99 202 97E-9 
*(the latter term is mostly compensation for IVOS)
IB2 203 50 1.8E-9
*
*input stage
*
Q201 210 213 207 50 NX
Q202 211 214 208 50 NX
E203 213 0 215 207 10K
E204 214 0 216 208 10K
I201 207 50 50E-6
I202 208 50 50.04E-6 
*(the 0.04U models the output offset voltage
*and saves yet another node)
*
*differential gain stage and pole
*
R201 251 207 25K
R202 250 208 25K
R203 99 210 20K
R204 99 211 20K
V201 99 212 1
RV201 99 212 1E6
E201 251 32 212 210 1E6
E202 250 32 212 211 1E6
C210 251 210 8E-12
C211 250 211 8E-12
*
*output resistor network
*
R208 32 2 25.002K
*(R208 is  imbalanced to model CMRR)
R207 2 221 24K
R210 251 221 1K
R205 222 3 24K
R211 250 222 1K
R206 3 205 25K
V204 99 223 3
V205 224 50 3
D205 221 223 DX
D206 222 223 DX
D207 224 221 DX
D208 224 222 DX
*
* output amplifier
*
R3 5 50 1K
R4 6 50 1K
I1 99 4 200E-6
J1 5 2 4 JX
J2 6 3 4 JX
C2 5 6 30E-12
*
R5 9 99 180E6
R6 9 50 180E6
C3 9 99 40E-12
C4 9 50 40E-12
G1 99 9 POLY(1) 5 6 4.5M 1.4M
G2 9 50 POLY(1) 6 5 4.5M 1.4M
V2 99 8 2.5
V3 10 50 2.5
D1 9 8 DX
D2 10 9 DX
*
D5 9 28 DX
D6 29 9 DX
*
R26 26 99 111E3
R27 26 50 111E3
R28 27 99 300
R29 27 50 300
L3 27 32 1.1E-6
G17 30 50 9 27 3.333E-3
G18 31 50 27 9 3.333E-3
G19 27 99 99 9 3.333E-3
G20 50 27 9 50 3.333E-3
V6 28 27 2.6
V7 27 29 2.6
D7 99 30 DX
D8 99 31 DX
D9 50 30 DY
D10 50 31 DY
*
* non-linear models
*
.MODEL JX PJF (BETA=20E-6 VTO=-2.0 IS=1E-16)
.MODEL DX D (IS=1E-15)
.MODEL DY D (IS=1E-15 BV=50)
.MODEL NX NPN (IS=1E-16 BF=10000 RE=50)
.ENDS
* AMP04  SPICE Macro-model              Rev. A, 5/94
*                                       JCB / PMI
*
* Copyright 1994 by Analog Devices
*
* Refer to "README.DOC" file for License Statement.  Use of
* this model indicates your acceptance of the terms and pro-
* visions in the License Statement.
*
* Node assignments
*                IN+
*                |  IN-
*                |  |  V+
*                |  |  |  V-
*                |  |  |  |  Vout
*                |  |  |  |  |  Rgain1
*                |  |  |  |  |  |  Rgain2
*                |  |  |  |  |  |  |  REF    
*                |  |  |  |  |  |  |  |
.SUBCKT AMP04    3  2  7  4  6  1  8  5
*
* INPUT STAGE
*
R1   2    9    2E3
R2   9   11    2E9
R3   11  12    2E9
R4   3   12    2E3
IB1  2   98    22E-9
IB2  3   98    21E-9
VOS  12  13    25E-6
D1   9   10    DY
D2   1   10    DY
D3   12  14    DY
D4   8   14    DY
*
* 1ST AMP GAIN STAGE, POLE AT 0.44 HZ
*
EREF 98   0    (60,0) 1
G1   98  15    9   1   1E-3
R5   98  15    1E9
C1   98  15    362E-12
* SECOND POLE AT 1 MHZ 
G3   98  16    15  98  1E-6
R6   98  16    1E6
C2   98  16    159E-15
* OUTPUT STAGE
E2   22  98    16  98  1
R14  22   1    200
*
* 2ND AMP GAIN STAGE, POLE AT 0.44 HZ
*
G2   98  17    13  23  1E-3
R7   98  17    1E9
C3   98  17    362E-12
* SECOND POLE AT 1 MHZ 
G4   98  18    17  98  1E-6
R8   98  18    1E6
C4   98  18    159E-15
* CMRR STAGE
E1   98  19    POLY(2) (2,98) (3,98) 0 5 5
R9   19  20    1E6
R10  20  98    1
* OUTPUT STAGE
E3   21  98    18  98  1
R11  21   8    11E3
R12  21  23    11E3
R13  23   5    100.2E3
*