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regulators.cir
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executable file
·2436 lines (2308 loc) · 69.9 KB
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* C:\Arquivos de Programas\LTC\SwCADIII\lib\sub\regulators.lib
* LM7805 model.
* No need to use .inc - I've set the .asy symbol to remove the need for .inc.
* (I used the symbol of LT1084, just replaced the LT1084 by LMxxxx and LTC.LIB by regulators.lib)
.SUBCKT LM7805 1 2 3
* In GND Out
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 640
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7805
* Pinouts are the same as 7805.
.SUBCKT LM7806 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 1.294K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7806
* Pinouts are the same as 7805.
* Pinouts are the same as 7805.
.SUBCKT LM7808 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 2.60K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7808
.SUBCKT LM7809 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 3.256K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7809
* Pinouts are the same as 7805.
.SUBCKT LM7812 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 5.22K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7812
* Pinouts are the same as '05
.SUBCKT LM7815 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 7.18K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7815
* Pinouts are the same as 7805.
.SUBCKT LM7818 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 9.142K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7818
* Pinouts are the same as 7805.
.SUBCKT LM7824 1 2 3
QT6 23 10 2 Q_NPN 0.1
QT7 5 4 10 Q_NPN 0.1
QT5 7 6 5 Q_NPN 0.1
QT1 1 9 8 Q_NPN 0.1
QT3 11 8 7 Q_NPN 0.1
QT2 11 13 12 Q_NPN 0.1
QT17 1 15 14 Q_NPN 10
C2 10 23 4P
R16 12 5 500
R12 16 2 12.1K
QT18 17 23 16 Q_NPN 0.1
D1 18 19 D_D
R11 20 21 850
R5 22 3 100
QT14 24 18 2 Q_NPN 0.1
R21 6 2 2.67K
R20 3 6 13.07K
DZ2 25 26 D_5V1
R19 1 26 16K
R18 14 3 250M
R17 25 14 380
R15 25 15 1.62K
QT16 1 20 15 Q_NPN 1
QT15 2 24 21 Q_PNP 0.1
*OFF
R14 21 24 4K
C1 27 24 20P
R13 19 2 4K
QT13 24 27 18 Q_NPN 0.1
QT12 20 25 22 Q_NPN 1
*OFF
QT11 20 28 2 Q_NPN 0.1
*OFF
QT10 20 11 1 Q_PNP 0.1
R10 17 27 16.5K
R9 5 4 1.9K
R8 4 23 26
R7 10 2 1.2K
R6 29 2 1K
QT9 11 11 1 Q_PNP 0.1
QT8 27 16 29 Q_NPN 0.1
QT4 15 6 17 Q_NPN 0.1
DZ1 2 9 D_5V6
R4 1 9 80K
R3 28 2 830
R2 13 28 4.97K
R1 8 13 7K
.MODEL D_5V1 D( IS=10F N=1.16 BV=5.1 IBV=0.5M CJ0 = 1P TT = 10p )
.MODEL D_5V6 D( IS=10F N=1.16 BV=5.6 IBV=5U CJ0 = 1P TT = 10p )
.MODEL Q_NPN NPN( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL Q_PNP PNP( IS=10F NF=1.16 NR=1.16 BF=80 CJC=1P CJE=2P
+ TF=10P TR=1N )
.MODEL D_D D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.ENDS LM7824
* Identical.
.SUBCKT LM7905 1 2 3
DD4 4 5 D_6V3_0
DD2 6 2 D_3V9_0
DD1 7 2 D_4V7_0
DD3 8 3 D_6V3_0
C2 9 10 5P
C1 2 9 15P
QTU15 10 9 3 Q_PNP_0 1.000
R17 11 12 4.2K
QTU22 3 10 13 Q_NPN_0 3.000
R18 8 5 15.65K
R20 13 14 1K
R19 4 14 75
QTU31 12 11 4 Q_NPN_1 1.000
R16 15 1 160
R24 16 1 1.8k
C3 17 1 10P
QTU30 18 12 15 Q_NPN_1 1.000
QTU29 10 16 1 Q_NPN_1 1.000
R15 19 1 400
QTU28 10 20 19 Q_NPN_1 1.000
R14 21 1 200
QTU27 17 20 21 Q_NPN_1 1.000
R11 22 23 1K
R10 24 25 1K
QTU19 18 27 26 Q_NPN_1 1.000
R9 2 18 7.1K
QTU8 16 18 2 Q_PNP_0 1.000
QTU7 28 18 2 Q_PNP_0 1.000
QTU6 18 18 2 Q_PNP_0 1.000
QTU5 11 29 2 Q_PNP_0 1.000
QTU4 20 29 2 Q_PNP_0 1.000
QTU3 1 29 2 Q_PNP_0 1.000
QTU2 1 29 2 Q_PNP_0 1.000
R13 28 1 400
R12 30 1 400
QTU18 29 29 31 Q_NPN_1 1.000
QTU1 29 29 2 Q_PNP_0 1.000
R6 31 32 6.5K
R7 32 27 5.6K
R8 27 26 950
QTU10 33 6 26 Q_PNP_0 1.000
QTU17 34 35 33 Q_PNP_0 1.000
R5 36 1 2K
QTU24 34 34 36 Q_NPN_1 1.000
R1 37 6 6.3K
R2 37 38 670
R3 38 35 550
QTU9 38 35 6 Q_PNP_0 1.000
R4 39 1 2K
QTU23 35 34 39 Q_NPN_1 1.000
QTU16 1 7 35 Q_PNP_0 1.000
JT1 7 1 1 J_2N3458_N
QTU14 3 17 23 Q_PNP_0 1.000
QTU13 17 17 23 Q_PNP_0 1.000
QTU12 17 17 25 Q_PNP_0 1.000
QTU11 9 17 25 Q_PNP_0 1.000
QTU32 3 13 14 Q_NPN_2 10.000
QTU26 9 20 28 Q_NPN_1 1.000
QTU25 20 20 30 Q_NPN_1 1.000
QTU21 2 40 22 Q_NPN_1 1.000
QTU20 2 37 24 Q_NPN_1 1.000
R21 2 40 4.29K
R22 40 3 500
R23 14 1 500M
.MODEL J_2N3458_N NJF( VTO=-3.05 BETA=699.53U LAMBDA=6M RD=1 RS=1
+ CGD=2.81P CGS=2.91P M=227.1M PB=500M IS=114.41F
+ VTOTC=-2.5M BETATCE=-500M KF=0 AF=1 )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_3V9_0 D( IS=10F N=1.24 BV=3.9 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_4V7_0 D( IS=10F N=1.24 BV=4.7 IBV=1M CJ0 = 1P TT = 10p )
.MODEL Q_PNP_0 PNP( IS=10F NF=1.04 NR=1.04 BF=50 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=45)
.MODEL Q_NPN_0 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_1 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_2 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.ENDS LM7905
* Identical.
.SUBCKT LM7906 1 2 3
DD4 4 5 D_6V3_0
DD2 6 2 D_3V9_0
DD1 7 2 D_4V7_0
DD3 8 3 D_6V3_0
C2 9 10 5P
C1 2 9 15P
QTU15 10 9 3 Q_PNP_0 1.000
R17 11 12 4.2K
QTU22 3 10 13 Q_NPN_0 3.000
R18 8 5 15.65K
R20 13 14 1K
R19 4 14 75
QTU31 12 11 4 Q_NPN_1 1.000
R16 15 1 160
R24 16 1 1.8k
C3 17 1 10P
QTU30 18 12 15 Q_NPN_1 1.000
QTU29 10 16 1 Q_NPN_1 1.000
R15 19 1 400
QTU28 10 20 19 Q_NPN_1 1.000
R14 21 1 200
QTU27 17 20 21 Q_NPN_1 1.000
R11 22 23 1K
R10 24 25 1K
QTU19 18 27 26 Q_NPN_1 1.000
R9 2 18 7.1K
QTU8 16 18 2 Q_PNP_0 1.000
QTU7 28 18 2 Q_PNP_0 1.000
QTU6 18 18 2 Q_PNP_0 1.000
QTU5 11 29 2 Q_PNP_0 1.000
QTU4 20 29 2 Q_PNP_0 1.000
QTU3 1 29 2 Q_PNP_0 1.000
QTU2 1 29 2 Q_PNP_0 1.000
R13 28 1 400
R12 30 1 400
QTU18 29 29 31 Q_NPN_1 1.000
QTU1 29 29 2 Q_PNP_0 1.000
R6 31 32 6.5K
R7 32 27 5.6K
R8 27 26 950
QTU10 33 6 26 Q_PNP_0 1.000
QTU17 34 35 33 Q_PNP_0 1.000
R5 36 1 2K
QTU24 34 34 36 Q_NPN_1 1.000
R1 37 6 6.3K
R2 37 38 670
R3 38 35 550
QTU9 38 35 6 Q_PNP_0 1.000
R4 39 1 2K
QTU23 35 34 39 Q_NPN_1 1.000
QTU16 1 7 35 Q_PNP_0 1.000
JT1 7 1 1 J_2N3458_N
QTU14 3 17 23 Q_PNP_0 1.000
QTU13 17 17 23 Q_PNP_0 1.000
QTU12 17 17 25 Q_PNP_0 1.000
QTU11 9 17 25 Q_PNP_0 1.000
QTU32 3 13 14 Q_NPN_2 10.000
QTU26 9 20 28 Q_NPN_1 1.000
QTU25 20 20 30 Q_NPN_1 1.000
QTU21 2 40 22 Q_NPN_1 1.000
QTU20 2 37 24 Q_NPN_1 1.000
R21 2 40 4.29K
R22 40 3 1.17K
R23 14 1 500M
.MODEL J_2N3458_N NJF( VTO=-3.05 BETA=699.53U LAMBDA=6M RD=1 RS=1
+ CGD=2.81P CGS=2.91P M=227.1M PB=500M IS=114.41F
+ VTOTC=-2.5M BETATCE=-500M KF=0 AF=1 )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_3V9_0 D( IS=10F N=1.24 BV=3.9 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_4V7_0 D( IS=10F N=1.24 BV=4.7 IBV=1M CJ0 = 1P TT = 10p )
.MODEL Q_PNP_0 PNP( IS=10F NF=1.04 NR=1.04 BF=50 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=45)
.MODEL Q_NPN_0 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_1 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_2 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.ENDS LM7906
* Identical.
.SUBCKT LM7908 1 2 3
DD4 4 5 D_6V3_0
DD2 6 2 D_3V9_0
DD1 7 2 D_4V7_0
DD3 8 3 D_6V3_0
C2 9 10 5P
C1 2 9 15P
QTU15 10 9 3 Q_PNP_0 1.000
R17 11 12 4.2K
QTU22 3 10 13 Q_NPN_0 3.000
R18 8 5 15.65K
R20 13 14 1K
R19 4 14 75
QTU31 12 11 4 Q_NPN_1 1.000
R16 15 1 160
R24 16 1 1.8k
C3 17 1 10P
QTU30 18 12 15 Q_NPN_1 1.000
QTU29 10 16 1 Q_NPN_1 1.000
R15 19 1 400
QTU28 10 20 19 Q_NPN_1 1.000
R14 21 1 200
QTU27 17 20 21 Q_NPN_1 1.000
R11 22 23 1K
R10 24 25 1K
QTU19 18 27 26 Q_NPN_1 1.000
R9 2 18 7.1K
QTU8 16 18 2 Q_PNP_0 1.000
QTU7 28 18 2 Q_PNP_0 1.000
QTU6 18 18 2 Q_PNP_0 1.000
QTU5 11 29 2 Q_PNP_0 1.000
QTU4 20 29 2 Q_PNP_0 1.000
QTU3 1 29 2 Q_PNP_0 1.000
QTU2 1 29 2 Q_PNP_0 1.000
R13 28 1 400
R12 30 1 400
QTU18 29 29 31 Q_NPN_1 1.000
QTU1 29 29 2 Q_PNP_0 1.000
R6 31 32 6.5K
R7 32 27 5.6K
R8 27 26 950
QTU10 33 6 26 Q_PNP_0 1.000
QTU17 34 35 33 Q_PNP_0 1.000
R5 36 1 2K
QTU24 34 34 36 Q_NPN_1 1.000
R1 37 6 6.3K
R2 37 38 670
R3 38 35 550
QTU9 38 35 6 Q_PNP_0 1.000
R4 39 1 2K
QTU23 35 34 39 Q_NPN_1 1.000
QTU16 1 7 35 Q_PNP_0 1.000
JT1 7 1 1 J_2N3458_N
QTU14 3 17 23 Q_PNP_0 1.000
QTU13 17 17 23 Q_PNP_0 1.000
QTU12 17 17 25 Q_PNP_0 1.000
QTU11 9 17 25 Q_PNP_0 1.000
QTU32 3 13 14 Q_NPN_2 10.000
QTU26 9 20 28 Q_NPN_1 1.000
QTU25 20 20 30 Q_NPN_1 1.000
QTU21 2 40 22 Q_NPN_1 1.000
QTU20 2 37 24 Q_NPN_1 1.000
R21 2 40 4.29K
R22 40 3 3.28K
R23 14 1 500M
.MODEL J_2N3458_N NJF( VTO=-3.05 BETA=699.53U LAMBDA=6M RD=1 RS=1
+ CGD=2.81P CGS=2.91P M=227.1M PB=500M IS=114.41F
+ VTOTC=-2.5M BETATCE=-500M KF=0 AF=1 )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_3V9_0 D( IS=10F N=1.24 BV=3.9 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_4V7_0 D( IS=10F N=1.24 BV=4.7 IBV=1M CJ0 = 1P TT = 10p )
.MODEL Q_PNP_0 PNP( IS=10F NF=1.04 NR=1.04 BF=50 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=45)
.MODEL Q_NPN_0 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_1 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_2 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.ENDS LM7908
* Identical.
.SUBCKT LM7909 1 2 3
DD4 4 5 D_6V3_0
DD2 6 2 D_3V9_0
DD1 7 2 D_4V7_0
DD3 8 3 D_6V3_0
C2 9 10 5P
C1 2 9 15P
QTU15 10 9 3 Q_PNP_0 1.000
R17 11 12 4.2K
QTU22 3 10 13 Q_NPN_0 3.000
R18 8 5 15.65K
R20 13 14 1K
R19 4 14 75
QTU31 12 11 4 Q_NPN_1 1.000
R16 15 1 160
R24 16 1 1.8k
C3 17 1 10P
QTU30 18 12 15 Q_NPN_1 1.000
QTU29 10 16 1 Q_NPN_1 1.000
R15 19 1 400
QTU28 10 20 19 Q_NPN_1 1.000
R14 21 1 200
QTU27 17 20 21 Q_NPN_1 1.000
R11 22 23 1K
R10 24 25 1K
QTU19 18 27 26 Q_NPN_1 1.000
R9 2 18 7.1K
QTU8 16 18 2 Q_PNP_0 1.000
QTU7 28 18 2 Q_PNP_0 1.000
QTU6 18 18 2 Q_PNP_0 1.000
QTU5 11 29 2 Q_PNP_0 1.000
QTU4 20 29 2 Q_PNP_0 1.000
QTU3 1 29 2 Q_PNP_0 1.000
QTU2 1 29 2 Q_PNP_0 1.000
R13 28 1 400
R12 30 1 400
QTU18 29 29 31 Q_NPN_1 1.000
QTU1 29 29 2 Q_PNP_0 1.000
R6 31 32 6.5K
R7 32 27 5.6K
R8 27 26 950
QTU10 33 6 26 Q_PNP_0 1.000
QTU17 34 35 33 Q_PNP_0 1.000
R5 36 1 2K
QTU24 34 34 36 Q_NPN_1 1.000
R1 37 6 6.3K
R2 37 38 670
R3 38 35 550
QTU9 38 35 6 Q_PNP_0 1.000
R4 39 1 2K
QTU23 35 34 39 Q_NPN_1 1.000
QTU16 1 7 35 Q_PNP_0 1.000
JT1 7 1 1 J_2N3458_N
QTU14 3 17 23 Q_PNP_0 1.000
QTU13 17 17 23 Q_PNP_0 1.000
QTU12 17 17 25 Q_PNP_0 1.000
QTU11 9 17 25 Q_PNP_0 1.000
QTU32 3 13 14 Q_NPN_2 10.000
QTU26 9 20 28 Q_NPN_1 1.000
QTU25 20 20 30 Q_NPN_1 1.000
QTU21 2 40 22 Q_NPN_1 1.000
QTU20 2 37 24 Q_NPN_1 1.000
R21 2 40 4.29K
R22 40 3 4.33K
R23 14 1 500M
.MODEL J_2N3458_N NJF( VTO=-3.05 BETA=699.53U LAMBDA=6M RD=1 RS=1
+ CGD=2.81P CGS=2.91P M=227.1M PB=500M IS=114.41F
+ VTOTC=-2.5M BETATCE=-500M KF=0 AF=1 )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_3V9_0 D( IS=10F N=1.24 BV=3.9 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_4V7_0 D( IS=10F N=1.24 BV=4.7 IBV=1M CJ0 = 1P TT = 10p )
.MODEL Q_PNP_0 PNP( IS=10F NF=1.04 NR=1.04 BF=50 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=45)
.MODEL Q_NPN_0 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_1 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_2 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.ENDS LM7909
* Identical.
.SUBCKT LM79XX Input Output Ground PARAMS:
+ Av_feedback=1660, R1_Value=4615,
+ Rbg_Tc1=8.13E-5, Rbg_Tc2=0.0,
+ Rout_Value=0.01, Rreg_Value=9.1k ;1.2k
*
* SERIES 3-TERMINAL NEGATIVE REGULATOR
*
* Note: This regulator is based on the LM79XX series of
* regulators (also the LM120 and LM320). The
* LM79XX regulators are unstable and will
* oscillate unless a 1 uFarad solid tantalum
* capacitor is placed on the output with an ESR
* betweed .5 and 1.5. This model is stable without
* a capacitor on the output. When performing
* simulations a 1 uFarad capacitor should still be
* placed on the output. However, it it not necessary
* to include a resistor in series with this capacitor
* to model the ESR of the capacitor. See the
* comments and circuit description of the x_LM78XX
* regulator for more information on this model.
*
* Band-gap voltage source:
*
Vbg 100 0 DC -7.4V
Sbg 100 101 Ground Input Sbg1
Rbg 101 0 Rbg1 1
.MODEL Rbg1 RES (Tc1={Rbg_Tc1},Tc2={Rbg_Tc2})
Ebg 102 0 Input Ground 1
Rreg 102 101 {Rreg_Value}
.MODEL Sbg1 VSWITCH (Ron=1 Roff=1MEG Von=3.7 Voff=3)
*
* Feedback stage
*
Rfb 9 8 1MEG
Cfb 8 Ground 265PF
* Eopamp 105 0 VALUE={2250*v(101,0)+Av_feedback*v(Ground,8)}
Vgainf 200 0 {Av_feedback}
Rgainf 200 0 1
Eopamp 105 0 POLY(3),(101,0),(Ground,8),(200,0) 0 2250 0 0 0 0 0 0 1
Ro 105 106 1k
D1 108 106 Dlim
D2 106 107 Dlim
.MODEL Dlim D (Vj=0.7)
Vl1 108 102 DC 1
Vl2 0 107 DC 1
*
* Quiescent current modelling
*
Gq (Ground,Input),(9,Input) 9.0E-7
R1 9 Ground {R1_Value} TC=0.001
Fl (Ground,0) Vmon 3.0E-4
*
* Output Stage
*
Q1 9 5 6 Npn1
Q2 9 6 7 Npn1 10
.MODEL Npn1 NPN (Bf=50 Is=1E-14)
* Efb 4 Ground VALUE={v(Input,Ground)+v(0,106)}
Efb 4 Ground POLY(2) (Input,Ground) (0,106) 0 1 1
Rb 4 5 1k TC=0.003
Re 6 7 2k
Rsc 7 Input 0.13 TC=1.136E-3,-7.806E-6
Rout 9 Imon {Rout_Value}
Vmon Imon Output DC 0.0
*
* Current Limit
*
Qcl1 54 52 53 Npn1
Qcl3 Input 54 5 Pnp1
.MODEL Pnp1 PNP (Bf=250 Is=1E-14)
Rcl3 5 54 1.8k
Qcl2 52 52 51 Npn1
Veset 53 Input DC 0.3v
Ibias Input 52 DC 300u
Rcl1 50 51 20k
Rcl2 51 7 115
Dz1 50 9 Dz
.MODEL Dz D (Is=0.05p Rs=3 Bv=7.11 Ibv=0.05u)
.ENDS
.SUBCKT LM7912 INPUT GROUND OUTPUT
x1 Input Output Ground LM79XX PARAMS:
+ Av_feedback=694, R1_Value=11076,
+ Rbg_Tc1=-9.50E-7, Rbg_Tc2=-6.53E-7,
+ Rout_Value=0.01, Rreg_Value=9.1k
.ENDS
* Identical.
.SUBCKT LM7915 1 2 3
DD4 4 5 D_6V3_0
DD2 6 2 D_3V9_0
DD1 7 2 D_4V7_0
DD3 8 3 D_6V3_0
C2 9 10 5P
C1 2 9 15P
QTU15 10 9 3 Q_PNP_0 1.000
R17 11 12 4.2K
QTU22 3 10 13 Q_NPN_0 3.000
R18 8 5 15.65K
R20 13 14 1K
R19 4 14 75
QTU31 12 11 4 Q_NPN_1 1.000
R16 15 1 160
R24 16 1 1.8k
C3 17 1 10P
QTU30 18 12 15 Q_NPN_1 1.000
QTU29 10 16 1 Q_NPN_1 1.000
R15 19 1 400
QTU28 10 20 19 Q_NPN_1 1.000
R14 21 1 200
QTU27 17 20 21 Q_NPN_1 1.000
R11 22 23 1K
R10 24 25 1K
QTU19 18 27 26 Q_NPN_1 1.000
R9 2 18 7.1K
QTU8 16 18 2 Q_PNP_0 1.000
QTU7 28 18 2 Q_PNP_0 1.000
QTU6 18 18 2 Q_PNP_0 1.000
QTU5 11 29 2 Q_PNP_0 1.000
QTU4 20 29 2 Q_PNP_0 1.000
QTU3 1 29 2 Q_PNP_0 1.000
QTU2 1 29 2 Q_PNP_0 1.000
R13 28 1 400
R12 30 1 400
QTU18 29 29 31 Q_NPN_1 1.000
QTU1 29 29 2 Q_PNP_0 1.000
R6 31 32 6.5K
R7 32 27 5.6K
R8 27 26 950
QTU10 33 6 26 Q_PNP_0 1.000
QTU17 34 35 33 Q_PNP_0 1.000
R5 36 1 2K
QTU24 34 34 36 Q_NPN_1 1.000
R1 37 6 6.3K
R2 37 38 670
R3 38 35 550
QTU9 38 35 6 Q_PNP_0 1.000
R4 39 1 2K
QTU23 35 34 39 Q_NPN_1 1.000
QTU16 1 7 35 Q_PNP_0 1.000
JT1 7 1 1 J_2N3458_N
QTU14 3 17 23 Q_PNP_0 1.000
QTU13 17 17 23 Q_PNP_0 1.000
QTU12 17 17 25 Q_PNP_0 1.000
QTU11 9 17 25 Q_PNP_0 1.000
QTU32 3 13 14 Q_NPN_2 10.000
QTU26 9 20 28 Q_NPN_1 1.000
QTU25 20 20 30 Q_NPN_1 1.000
QTU21 2 40 22 Q_NPN_1 1.000
QTU20 2 37 24 Q_NPN_1 1.000
R21 2 40 4.29K
R22 40 3 10.66K
R23 14 1 500M
.MODEL J_2N3458_N NJF( VTO=-3.05 BETA=699.53U LAMBDA=6M RD=1 RS=1
+ CGD=2.81P CGS=2.91P M=227.1M PB=500M IS=114.41F
+ VTOTC=-2.5M BETATCE=-500M KF=0 AF=1 )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )