📄 nsvreg.lib
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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 13.08K
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 LM7824C
*
*=======================================
*LM120C National Semiconductor
* Connections: Input
* | Gnd
* | | Output
* | | |
.SUBCKT LM120C 1 2 3
QTQ2 4 1 1 J_N_0 1.000
DD3 5 3 D_7V5_0
DD2 6 2 D_5V7_0
DD1 4 2 D_6V3_0
R17 7 8 3K
QTQ8 9 7 8 Q_NPN_0 1.000
R18 2 10 4K
QTQ9 10 9 7 Q_NPN_0 1.000
R17_2 7 11 10K
R17_3 11 12 15K
C2 13 9 10P
C1 14 9 20P
QTQ11 9 16 15 Q_NPN_0 1.000
R19 15 14 20K
R19_2 17 15 20K
R19_3 13 18 75
R13 16 1 20K
QTQ1 19 19 20 Q_NPN_0 1.000
R7 2 19 1.4K
R17_4 11 18 600
QTQ10 3 7 21 Q_NPN_1 3.000
R18_2 5 22 20K
R20 21 23 2K
R19_4 22 23 150
QTQ20 18 12 22 Q_NPN_0 1.000
QTQ19 8 13 1 Q_NPN_0 1.000
QTQ18 9 14 1 Q_NPN_0 1.000
QTQ17 15 17 1 Q_NPN_0 1.000
QTQ2_2 16 19 2 Q_PNP_0 1.000
R13_2 24 1 6K
R6 20 25 7K
R5 25 26 15K
QTQ5 27 6 26 Q_PNP_0 1.000
R2 28 1 1K
QTQ15 27 27 28 Q_NPN_0 1.000
R1 29 1 750
QTQ14 6 27 29 Q_NPN_0 1.000
QTQ13 1 4 6 Q_PNP_0 1.000
QTQ7 9 31 30 Q_PNP_0 1.000
QTQ6 15 31 32 Q_PNP_0 1.000
QTQ12 3 21 23 Q_NPN_2 10.000
QTQ16 31 27 24 Q_NPN_0 1.000
QTQ4 2 33 30 Q_NPN_3 1.000
QTQ3 2 25 32 Q_NPN_0 1.000
R19_5 2 33 1.5K
R17_5 33 3 1.5K
R23 23 1 50M
.MODEL J_N_0 NJF( VTO=-7 )
.MODEL D_7V5_0 D( IS=10F N=1.24 BV=7.5 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_5V7_0 D( IS=10F N=1.24 BV=5.7 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL Q_NPN_0 NPN( IS=10F NF=1.54 NR=1.54 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_1 NPN( IS=10F NF=1.54 NR=1.54 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_PNP_0 PNP( IS=10F NF=1.54 NR=1.54 BF=50 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=145)
.MODEL Q_NPN_2 NPN( IS=10F NF=1.54 NR=1.54 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.MODEL Q_NPN_3 NPN( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=90)
.ENDS LM120C*
*=======================================
*LM137C National Semiconductor
* Connections: Input
* | Gnd
* | | Output
* | | |
.SUBCKT LM137C 1 2 3
QTU37 4 5 3 Q_PNP_0 1.000
QTU36 6 5 3 Q_PNP_0 1.000
QTU35 7 5 3 Q_PNP_0 1.000
QTU29 8 8 9 Q_PNP_0 1.000
QTU28 10 8 9 Q_PNP_0 1.000
QTU33 5 11 3 Q_PNP_0 1.000
DD3 12 13 D_D_0 0.0900
DD6 14 15 D_6V3_0
DD2 16 3 D_6V3_1
DD5 3 17 D_D_1
DD1 3 18 D_D_2
DD4 3 19 D_D_1
QTU43 20 22 21 Q_PNP_1 1.000
QTU40 23 24 7 Q_PNP_0 1.000
QTU39 1 25 7 Q_PNP_0 1.000
QTU41 21 27 26 Q_PNP_1 1.000
QTU34 28 5 3 Q_PNP_0 1.000
QTU32 29 11 3 Q_PNP_0 1.000
QTU38 30 3 13 Q_PNP_2 0.09000
QTU31 31 8 32 Q_PNP_0 1.000
QTU30 8 8 32 Q_PNP_0 1.000
QTU19 33 34 14 Q_NPN_0 1.000
QTU20 33 34 35 Q_NPN_0 1.000
QTU16 22 36 1 Q_NPN_0 1.000
QTU17 27 37 20 Q_NPN_0 1.000
QTU15 21 37 38 Q_NPN_0 1.000
QTU14 8 37 39 Q_NPN_0 1.000
QTU13 17 37 40 Q_NPN_0 1.000
QTU9 21 4 1 Q_NPN_0 1.000
QTU8 4 6 1 Q_NPN_0 1.000
QTU7 6 23 1 Q_NPN_0 1.000
QTU6 24 25 41 Q_NPN_0 1.000
QTU5 25 42 1 Q_NPN_0 1.000
QTU4 29 42 43 Q_NPN_0 1.000
QTU22 3 45 44 Q_NPN_1 10.0
QTU21 3 46 45 Q_NPN_2 3.000
QTU23 3 47 27 Q_NPN_0 1.000
QTU12 30 31 17 Q_NPN_0 1.000
QTU11 31 10 17 Q_NPN_0 1.000
QTU10 10 10 17 Q_NPN_0 1.000
QTU3 5 28 29 Q_NPN_0 1.000
QTU2 19 48 32 Q_NPN_0 1.000
QTU1 19 49 9 Q_NPN_0 1.000
R37 36 33 15K
R36 16 15 18K
R35 15 14 100K
R34 35 50 10
R33 14 35 150
R32 51 34 12K
C5 33 34 2P
R31 51 33 390
R30 21 51 12K
C4 22 36 5P
R29 21 22 6.8K
R28 20 1 500
R27 40 39 6K
R26 38 1 2.4K
R25 40 1 500
R24 50 1 40M
R23 4 52 20K
R22 52 1 4K
R21 23 52 8K
R20 41 1 4.2K
R19 7 24 12K
R18 43 1 600
R17 42 25 270
R16 37 42 1K
R15 28 37 4K
R14 11 5 750
R13 5 18 60K
R12 18 16 100K
R11 44 50 200M
R10 45 44 250
R9 21 46 100
R8 31 53 5K
C3 53 30 15P
C2 48 30 15P
R7 3 26 220
R6 30 47 2K
R5 54 47 800
C1 3 54 25P
R4 2 19 60
R3 48 12 20K
R2 19 48 2K
R1 19 49 2K
.MODEL Q_PNP_0 PNP( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=45)
.MODEL D_D_0 D( IS=1F N=1.14 CJ0 = 1P TT = 10p )
.MODEL D_6V3_0 D( IS=10F N=1.04 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_6V3_1 D( IS=10F N=1.04 BV=6.3 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_D_1 D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.MODEL D_D_2 D( IS=1F N=1.16 CJ0 = 1P TT = 10p )
.MODEL Q_PNP_1 PNP( IS=10F NF=1.04 NR=1.04 BF=100 CJC=1P CJE=2P
+ TF=10P TR=1N VAF=45)
.MODEL Q_PNP_2 PNP( IS=10F NF=1.14 NR=1.14 BF=100 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 LM137C*
*=======================================
*LM7905C National Semiconductor
* Connections: Input
* | Gnd
* | | Output
* | | |
.SUBCKT LM7905C 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 LM7905C*
*=======================================
*LM7912C National Semiconductor
* Connections: Input
* | Gnd
* | | Output
* | | |
.SUBCKT LM7912C 1 2 3
R23 4 1 500M
DD4 5 6 D_9V1_0
DD3 7 3 D_9V1_0
DD2 8 2 D_6V3_0
DD1 9 2 D_6V3_0
R21 2 10 4K
C2 11 12 5P
C1 2 11 15P
QTU14 12 11 3 Q_PNP_0 1.000
R17 13 14 4.2K
QTU29 3 12 15 Q_NPN_0 3.000
R18 7 6 15.65K
R20 15 4 1K
R19 5 4 75
QTU28 14 13 5 Q_NPN_1 1.000
R16 16 1 160
R24 17 1 1.8K
C3 18 1 10P
QTU27 19 14 16 Q_NPN_1 1.000
QTU26 12 17 1 Q_NPN_1 1.000
R15 20 1 400
QTU25 12 21 20 Q_NPN_1 1.000
R14 22 1 200
QTU24 18 21 22 Q_NPN_1 1.000
R11 23 24 1K
R10 25 26 1K
QTU17 19 28 27 Q_NPN_1 1.000
R9 2 19 7.1K
QTU8 17 19 2 Q_PNP_0 1.000
QTU7 29 19 2 Q_PNP_0 1.000
QTU6 19 19 2 Q_PNP_0 1.000
QTU5 13 30 2 Q_PNP_0 1.000
QTU4 21 30 2 Q_PNP_0 1.000
QTU3 1 30 2 Q_PNP_0 1.000
QTU2 1 30 2 Q_PNP_0 1.000
R13 29 1 400
R12 31 1 400
QTU16 30 30 32 Q_NPN_1 1.000
QTU1 30 30 2 Q_PNP_0 1.000
R6 32 33 6.5K
R7 33 28 5.6K
R8 28 27 950
QTU9 34 8 27 Q_PNP_0 1.000
R5 35 1 2K
QTU21 34 34 35 Q_NPN_1 1.000
R4 36 1 2K
QTU20 8 34 36 Q_NPN_1 1.000
QTU15 1 9 8 Q_PNP_0 1.000
JT1 9 1 1 J_2N3370_N
QTU13 3 18 24 Q_PNP_0 1.000
QTU12 18 18 24 Q_PNP_0 1.000
QTU11 18 18 26 Q_PNP_0 1.000
QTU10 11 18 26 Q_PNP_0 1.000
QTU30 3 15 4 Q_NPN_2 10.000
QTU23 11 21 29 Q_NPN_1 1.000
QTU22 21 21 31 Q_NPN_1 1.000
QTU19 2 10 23 Q_NPN_1 1.000
QTU18 2 33 25 Q_NPN_1 1.000
R22 10 3 12.5K
.MODEL J_2N3370_N NJF( VTO=-649.51M BETA=766.31U LAMBDA=9M RD=1 RS=1
+ CGD=2.79P CGS=2.91P M=227.1M PB=500M IS=114.6F
+ VTOTC=-2.5M BETATCE=-500M KF=0 AF=1 )
.MODEL D_9V1_0 D( IS=10F N=1.24 BV=9.1 IBV=1M CJ0 = 1P TT = 10p )
.MODEL D_6V3_0 D( IS=10F N=1.24 BV=6.3 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 LM7912C*
*=======================================
*LM7915C National Semiconductor
* Connections: Input
* | Gnd
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