📄 bb.lib
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*
*
* This file contains the folowing subcircuits:
*
* ACF2101M/BB BUF600X1/BB BUF600X2/BB
* BUF601X1/BB BUF601X2/BB BUF634X/BB
* INA101/BB A1_101/BB A2_101/BB
* A3_101/BB INA101E/BB A1_101E/BB
* A2_101E/BB A3_101E/BB INA102/BB
* A1_102/BB A2_102/BB A3_102/BB
* INA102E/BB A1_102E/BB A2_102E/BB
* A3_102E/BB INA103/BB A1_103/BB
* A2_103/BB A3_103/BB INA103E/BB
* A1_103E/BB A2_103E/BB A3_103E/BB
* INA105/BB A3_105/BB INA105E/BB
* A3_105E/BB INA106/BB A3_106/BB
* INA106E/BB A3_106E/BB INA110/BB
* A1_110/BB A2_110/BB A3_110/BB
* INA110E/BB A1_110E/BB A2_110E/BB
* A3_110E/BB INA111/BB A1_111/BB
* A2_111/BB A3_111/BB INA111E/BB
* A1_111E/BB A2_111E/BB A3_111E/BB
* INA114/BB A1_114/BB A2_114/BB
* A3_114/BB INA114E/BB A1_114E/BB
* A2_114E/BB A3_114E/BB INA115/BB
* A1_115/BB A3_115/BB INA115E/BB
* A1_115E/BB A3_115E/BB INA117/BB
* A3_117/BB INA117E/BB A3_117E/BB
* INA118/BB A1_118/BB A2_118/BB
* A3_118/BB INA118E/BB A1_118E/BB
* A2_118E/BB A3_118E/BB INA120/BB
* A1_120/BB A2_120/BB A3_120/BB
* INA120E/BB A1_120E/BB A2_120E/BB
* A3_120E/BB INA131/BB A1_131/BB
* A3_131/BB INA131E/BB A1_131E/BB
* A3_131E/BB ISO120X/BB ISO121X/BB
* ISO130X/BB IVC102M/BB OPA/BB
* LOG100M/BB OPA1/BB OPA2/BB
* MPC100X1/BB MUX1/BB MPC100X2/BB
* MUX2/BB MPC102X1/BB MUX1/BB_R_1
* MPC104X1/BB MUX1/BB_R_2 OPA101/BB
* OPA1013/BB OPA1013E/BB OPA101E/BB
* OPA102/BB OPA102E/BB OPA111/BB
* OPA111E/BB OPA121/BB OPA121E/BB
* OPA124/BB OPA124E/BB OPA128/BB
* OPA128E/BB OPA129/BB OPA129E/BB
* OPA130/BB OPA131/BB OPA131E/BB
* OPA132/BB OPA134/BB OPA177/BB
* OPA177E/BB OPA2107/BB OPA2107E/BB
* OPA2111/BB OPA2111E/BB OPA2130/BB
* OPA2131/BB OPA2131E/BB OPA2132/BB
* OPA2234/BB OPA2234E/BB OPA234/BB
* OPA234E/BB opa237/BB OPA2541/BB
* OPA2541E/BB OPA2544/BB OPA2604/BB
* OPA2604E/BB OPA2604M/BB OPA2658X/BB
* OPA27/BB OPA27E/BB OPA27H/BB
* OPA27HE/BB OPA27M/BB OPA37/BB
* OPA37E/BB OPA404/BB OPA404E/BB
* OPA4130/BB OPA4131/BB OPA4131E/BB
* OPA4132/BB OPA4234/BB OPA4234E/BB
* OPA445/BB OPA445E/BB OPA4658X/BB
* OPA501/BB OPA501E/BB OPA502/BB
* OPA502E/BB OPA511/BB OPA511E/BB
* OPA512/BB OPA512E/BB OPA541/BB
* OPA541E/BB OPA544/BB OPA602/BB
* OPA602E/BB OPA603X/BB XN4LC/BB
* XN16HC/BB XP4LC/BB XP16HC/BB
* OPA604/BB OPA604E/BB OPA604M/BB
* OPA606/BB OPA606E/BB OPA620/BB
* OPA620E/BB OPA620X/BB OPA621/BB
* OPA621E/BB OPA621X/BB OPA622X1/BB
* DB/BB DT/BB CB/BB
* BC/BB OPA622X2/BB DB/BB_R_1
* DT/BB_R_1 CB/BB_R_1 BC/BB_R_1
* OPA623X1/BB DT/BB_R_2 CB/BB_R_2
* BC/BB_R_2 OPA623X2/BB DT/BB_R_3
* CB/BB_R_3 BC/BB_R_3 OPA627/BB
* OPA627E/BB OPA628M/BB OPA637/BB
* OPA637E/BB OPA640X/BB OPA641X/BB
* OPA642X/BB OPA643X/BB OPA644X/BB
* OPA646X/BB OPA648X/BB OPA650X/BB
* OPA651M/BB OPA651X/BB OPA655M/BB
* OPA658X/BB OPA660X1/BB MDB/BB
* MDT/BB MBC/BB OPA660X2/BB
* MDB/BB_R_1 MDT/BB_R_1 MBC/BB_R_1
* OPA671M/BB OPA675M OPA676M
* OPA77/BB OPA77E/BB OPT101/BB
* OPT201KP/BB OPAMP/BB OPT202/BB
* OPAMP/BB_R_1 OPT209/BB OPAMP/BB_R_2
* OPT211/BB OPAMP/BB_R_3 OPT301/BB
* OPAMP/BB_R_4 PGA206/BB AND/BB
* XOR/BB NOR/BB OPAMP/BB_R_5
* PGA207/BB AND/BB_R_1 XOR/BB_R_1
* NOR/BB_R_1 OPAMP/BB_R_6 RCV/BB
* UAF42/BB AMP_UAF/BB UAF42E/BB
* AMP_UAFE/BB VCA610M/BB
*
*
* This file contains the following models:
*
* DCLAMP - D NI - NPN PI - PNP
* NIM - NPN PIM - PNP NIJ - NPN
* PIJ - PNP NI_R_1 - NPN PI_R_1 - PNP*
* NI_R_2 - NPN PI_R_2 - PNP PIM_R_1 - PNP
* NIM_R_1 - NPN PI_R_3 - PNP NI_R_3 - NPN
* PIJ_R_1 - PNP NIJ_R_1 - NPN NI_R_4 - NPN
* PI_R_4 - PNP NIJ_R_2 - NPN PIJ_R_2 - PNP
* NI_R_5 - NPN PI_R_5 - PNP NIJ_R_3 - NPN
* PIJ_R_3 - PNP N - NPN P - LPNP
* PS - PNP PC05 - PJF
*
*** ------------------------------------------------------------------------
* | 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. |
* ------------------------------------------------------------------------
* |-------------------------------------------------------------|
* | This macro models 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. |
* | |
* |-------------------------------------------------------------|
* ACF2101M/BB (switched integrator) MULTIPLE POLE/ZERO MACROMODEL
*
* Created 2-14-92 BCB
*
* REV.B 3/21/92 BCB input bias current correction circuitry added
*
*
* 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 Spice. 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 3 31 2 37 6 32 33 36 34 35 7 4 30
* Amp input stage (2nd pole @ 35M Hz)
*
J11 15 2 14 JX
J12 16 13 14 JX
C12 15 16 18.2E-12
R13 15 7 796
R14 16 7 796
ISS 14 4 1.11E-3
VOS 13 3 0.5E-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)
*
R27 7 21 2.45E9
R28 4 21 2.45E9
C22 7 21 100E-12
C23 4 21 100E-12
G21 7 21 POLY(1) 15 16 1.751E-3 1.256E-3
G22 21 4 POLY(1) 16 15 1.751E-3 1.256E-3
V21 22 3 0.409
V22 23 4 1.885
D21 21 22 DX
D22 23 21 DX
* Amp correction current and output stage
*
IPS 7 30 9E-3
RPS 7 30 100E3
R9 7 71 100E3
R10 4 71 100E3
D91 21 6 DX
D92 6 21 DX
D93 7 94 DX
D94 7 95 DX
D95 4 94 DY
D96 4 95 DY
G91 7 6 21 7 .020387
G92 4 6 21 4 .020387
G95 94 4 6 21 .020387
G96 95 4 21 6 .020387
R91 7 6 49.051
R92 4 6 49.051
CINT 37 6 CC 100E-12
* Switches
*
SH1 31 2 34 30 SWH
SH2 31 2 31 30 SWT
SR 2 6 36 30 SWH
SS 6 32 35 30 SWS
SC 3 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-15 BV=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/BB - DIAMOND BUFFER MACROMODEL SIMPLIFIED VERSION
*
* CREATED 8/92 KL
* REV.B 7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS
*
* NOTE : THIS MACRO MODEL WILL CONVERGE QUICKER BY USING THE
* NODESETS V(Xyour.21)=+4.2847 AND V(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
C208 8 0 2E-12
I21 21 24 0.1E-6
**
V41 1 41 1.5
V42 42 5 1.5
**
C33 33 0 2E-12
C39 39 0 0.02E-12
C40 40 0 0.02E-12
**
R33 33 0 6.4E6
R34 33 4 100
RQC 22 5 590
**
Q21 21 21 1 5 PI
Q22 21 24 22 1 NI 12
Q23 24 21 1 5 PI
Q24 24 24 5 1 NI
Q29 39 21 1 5 PI
Q30 40 24 5 1 NI
Q33 5 33 39 5 PI
Q34 1 33 40 1 NI
Q41 41 39 8 1 NIL 16
Q42 42 40 8 5 PIL 16
**
.MODEL PI PNP
.MODEL NI NPN
.MODEL NIL NPN (BF = 500)
.MODEL PIL PNP (BF = 500)
.ENDS
*
* BUF600X2/BB - DIAMOND BUFFER MACROMODEL COMPLEX VERSION
*
* CREATED 8/92 KL
* REV.B 7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS
*
*
* NOTE : THIS MACROMODEL WILL CONVERGE QUICKER IF THE NODESETS
* V(Xyour.21)=+4.2902, V(Xyour.24)=-4.2910,
* V(Xyour.27)=+4.2131 AND
* 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
**
I21 21 24 0.1E-6
RQC 22 5 730
C204 4 0 2E-12
C208 8 0 2E-12
**
Q21 21 21 1 5 PI
Q22 21 24 22 1 NI 12
Q23 24 21 1 5 PI
Q24 24 24 5 1 NI
Q25 28 21 1 5 PI
Q26 27 24 5 1 NI
Q27 27 27 1 5 PIJ 1.4
Q28 28 28 5 1 NIJ 1.4
Q29 31 27 1 5 PIJ 1.4
Q30 32 28 5 1 NIJ 1.4
Q31 31 31 35 1 NIJ 2
Q32 32 32 36 5 PIJ 2
Q33 28 4 35 5 PIJ
Q34 27 4 36 1 NIJ
Q35 35 35 34 1 NIJ
Q36 36 36 34 5 PIJ
Q37 1 31 39 1 NIJ 6
Q38 5 32 40 5 PIJ 6
Q39 39 39 41 1 NIJ 6
Q40 40 40 41 5 PIJ 6
Q41 1 39 8 1 NIJ 16
Q42 5 40 8 5 PIJ 16
**
.MODEL NI NPN
.MODEL PI PNP
*
.MODEL PIJ PNP
+(BF = 110 IS = 0.1567E-16
+CJC = 0.029E-12 AF = 1.000 NE = 1.366 XTB = 2.452 BR = 12.89
+CJE = 0.017E-12 EG = 1.183 NF = 1.000 XTF = 9.000 IKF = 2.272E-3
+CJS = 0.050E-12 FC = 0.900 NR = 1.000 XTI = 2.000 IKR = 16.67E-3
+RB = 228.0 IRB = 0.000 PTF = 0.000 ISC = 5.248E-20
+RC = 48.83 KF = 0.000 VAR = 1.771 ISE = 8.040E-18
+RE = 5.065 MJC = 0.190 VJC = 0.526 ITF = 6.683E-3
+TF = 29.80E-12 MJE = 0.493 VJE = 0.816 RBM = 60.00
+TR = 65.00E-12 MJS = 0.348 VJS = 0.596 XCJC= 0.0732
+VAF = 39.00 NC = 1.634 VTF = 2.680
*
.MODEL NIJ NPN
+(BF = 110 IS = 0.1567E-16
+CJC = 0.029E-12 AF = 1.000 NE = 1.366 XTB = 2.452 BR = 12.89
+CJE = 0.017E-12 EG = 1.183 NF = 1.000 XTF = 9.000 IKF = 2.272E-3
+CJS = 0.050E-12 FC = 0.900 NR = 1.000 XTI = 2.000 IKR = 16.67E-3
+RB = 228.0 IRB = 0.000 PTF = 0.000 ISC = 5.248E-20
+RC = 48.83 KF = 0.000 VAR = 1.771 ISE = 8.040E-18
+RE = 5.065 MJC = 0.190 VJC = 0.526 ITF = 6.683E-3
+TF = 29.80E-12 MJE = 0.493 VJE = 0.816 RBM = 60.00
+TR = 65.00E-12 MJS = 0.348 VJS = 0.596 XCJC= 0.0732
+VAF = 39.00 NC = 1.634 VTF = 2.680)
*
*
.ENDS
*
* BUF601X1/BB - DIAMOND BUFFER MACROMODEL SIMPLIFIED VERSION
*
* CREATED 8/92 KL
* REV.B 7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS
*
*
* NOTE : THIS MACROMODEL WILL CONVERGE QUICKER IS THE NODESETS
* V(Xyour.21)=+4.2689 AND V(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
**
I21 21 24 0.1E-6
**
V41 1 41 1.5
V42 42 5 1.5
**
C33 33 0 2E-12
C39 39 0 0.04E-12
C40 40 0 0.04E-12
C208 8 0 2E-12
**
R33 33 0 2.4E6
R34 33 4 65
RQC 22 5 320
**
Q21 21 21 1 5 PI
Q22 21 24 22 1 NI 12
Q23 24 21 1 5 PI
Q24 24 24 5 1 NI
Q29 39 21 1 5 PI
Q30 40 24 5 1 NI
Q33 5 33 39 5 PI
Q34 1 33 40 1 NI
Q41 41 39 8 1 NIL 16
Q42 42 40 8 5 PIL 16
**
.MODEL PI PNP
.MODEL NI NPN
.MODEL NIL NPN (BF = 500)
.MODEL PIL PNP (BF = 500)
*
.ENDS
*
* BUF601X2/BB - DIAMOND BUFFER MACROMODEL COMPLEX VERSION
*
* CREATED 8/92 KL
* REV.B 7/9/93 BCB : CLARIFICATION OF NODE SET INSTRUCTIONS.
*
*
* NOTE : THIS MACROMODEL WILL CONVERGE QUICKER IF THE NODESET
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