kicad/spice/copy/sub/LT1584.lib

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2022-04-08 21:49:19 -06:00
* Copyright <20> Linear Technology Corp. 2014. All rights reserved.
*
.subckt LT1580-2.5 1 2 3 4 5 6
Q1 C N003 4 0 NOUT temp=27
Q2 N002 3 N005 0 N temp=27
D1 6 N002 DBG1
C1 N002 3 100f
C2 N002 1 50p Rser=100k
C3 6 N002 200f Rpar=233Meg
C4 1 N005 50p Rser=10 Rpar=10.974k
C5 3 N005 100f
C6 6 N005 200f
G1 3 X N002 3 1<>
C7 X 3 500f Rpar=1Meg
C8 6 X 150f
R3 5 C 61m
S1 3 X 5 C SCL
G3 N002 1 5 C 72n
B1 6 N003 I=(.5+.5*tanh((V(C,4)-115m)/10m))*dnlim(310m*V(X,3),1.69m, 100u)
D2 N003 4 DBETA
R1 3 1 208.732
R2 1 2 207
.model N NPN(BF=125 Is=1e-16)
.model NOUT NPN (BF=280 IKF=9.5 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBETA D(Ron=1 Roff=1Meg vfwd=500m epsilon=100m ilimit=4m)
.model DBG1 D(Ron=100 Roff=1G vfwd=600m epsilon=400m ilimit=50u)
.model SCL SW(Ron=1 Roff=100Meg vt=489m vh=-50m)
.model DMINI D(Ron=100 Roff=1Meg vfwd=500m epsilon=100m ilimit=3m)
.ends LT1580-2.5
*
.subckt LT1580 1 2 3 4 5 6
Q1 C N003 4 0 NOUT temp=27
Q2 N002 3 N005 0 N temp=27
D1 6 N002 DBG1
C1 N002 3 100f
C2 N002 1 50p Rser=100k
C3 6 N002 200f Rpar=233Meg
C4 1 N005 50p Rser=10 Rpar=10.974k
C5 3 N005 100f
C6 6 N005 200f
G1 3 X N002 3 1<>
C7 X 3 500f Rpar=1Meg
C8 6 X 150f
R3 5 C 61m
S1 3 X 5 C SCL
G3 N002 1 5 C 72n
B1 6 N003 I=(.5+.5*tanh((V(C,4)-115m)/10m))*dnlim(310m*V(X,3),1.69m, 100u)
D2 N003 4 DBETA
.model N NPN(BF=125 Is=1e-16)
.model NOUT NPN (BF=280 IKF=9.5 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBETA D(Ron=1 Roff=1Meg vfwd=500m epsilon=100m ilimit=4m)
.model DBG1 D(Ron=100 Roff=1G vfwd=600m epsilon=400m ilimit=50u)
.model SCL SW(Ron=1 Roff=100Meg vt=489m vh=-50m)
.model DMINI D(Ron=100 Roff=1Meg vfwd=500m epsilon=100m ilimit=3m)
.ends LT1580
*
.subckt LT1581-2.5 1 2 3 4 5 6
R4 1 2 207
Q1 C N003 4 0 NOUT temp=27
Q2 N002 3 N005 0 N temp=27
D1 6 N002 DBG1
C1 N002 3 100f
C2 N002 1 50p Rser=100k
C3 6 N002 200f Rpar=195Meg
C4 1 N005 50p Rser=10 Rpar=9.0684k
C5 3 N005 100f
C6 6 N005 200f
G1 3 X N002 3 1<>
C7 X 3 500f Rpar=1Meg
C8 6 X 150f
R5 5 C 30.8m
S1 3 X 5 C SCL
G2 N002 1 5 C 121n
B1 6 N003 I=(.5+.5*tanh((V(C,4)-130m)/10m))*dnlim(750m*V(X,3),1.05m,100u)
D2 N003 4 DBETA
R1 3 1 209.111
.model N NPN(BF=125 Is=1e-16)
.model NOUT NPN (BF=280 IKF=16 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBETA D(Ron=1 Roff=1Meg vfwd=500m epsilon=100m ilimit=4m)
.model DBG1 D(Ron=100 Roff=1G vfwd=630m epsilon=400m ilimit=60u)
.model SCL SW(Ron=1 Roff=100Meg vt=339m vh=-50m)
.model DMINI D(Ron=100 Roff=1Meg vfwd=500m epsilon=100m ilimit=3m)
.ends LT1581-2.5
*
.subckt LT1581 1 2 3 4 5 6
Q1 C N003 4 0 NOUT temp=27
Q2 N002 3 N005 0 N temp=27
D1 6 N002 DBG1
C1 N002 3 100f
C2 N002 1 50p Rser=100k
C3 6 N002 200f Rpar=195Meg
C4 1 N005 50p Rser=10 Rpar=9.0684k
C5 3 N005 100f
C6 6 N005 200f
G1 3 X N002 3 1<>
C7 X 3 500f Rpar=1Meg
C8 6 X 150f
R3 5 C 30.8m
S1 3 X 5 C SCL
G3 N002 1 5 C 121n
B1 6 N003 I=(.5+.5*tanh((V(C,4)-130m)/10m))*dnlim(750m*V(X,3),1.05m,100u)
D2 N003 4 DBETA
.model N NPN(BF=125 Is=1e-16)
.model NOUT NPN (BF=280 IKF=16 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBETA D(Ron=1 Roff=1Meg vfwd=500m epsilon=100m ilimit=4m)
.model DBG1 D(Ron=100 Roff=1G vfwd=630m epsilon=400m ilimit=60u)
.model SCL SW(Ron=1 Roff=100Meg vt=339m vh=-50m)
.model DMINI D(Ron=100 Roff=1Meg vfwd=500m epsilon=100m ilimit=3m)
.ends LT1581
*
.subckt LT1584-3.3 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 254
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),uplim(53m,71.9m-6.4m*V(3,2),1m),5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1584-3.3
*
.subckt LT1584-3.38 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),uplim(53m,71.9m-6.4m*V(3,2),1m),5m)
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 263.9
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1584-3.38
*
.subckt LT1584-3.45 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 272.5
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),uplim(53m,71.9m-6.4m*V(3,2),1m),5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1584-3.45
*
.subckt LT1584-3.6 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),uplim(53m,71.9m-6.4m*V(3,2),1m),5m)
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 291.1
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1584-3.6
*
.subckt LT1584 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 1 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 1 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),uplim(53m,71.9m-6.4m*V(3,2),1m),5m)
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=100)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1584
*
.subckt LT1585-3.3 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 254
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),31.35m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1585-3.3
*
.subckt LT1585-3.38 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 263.9
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),31.35m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1585-3.38
*
.subckt LT1585-3.45 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 272.5
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),31.35m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1585-3.45
*
.subckt LT1585-3.6 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 291.1
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),31.35m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1585-3.6
*
.subckt LT1585 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 1 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 1 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),31.35m,5m)
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1585
*
.subckt LT1587-3.3 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 254
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),24.8m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1587-3.3
*
.subckt LT1587-3.38 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 263.9
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),24.8m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1587-3.38
*
.subckt LT1587-3.45 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 272.5
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),24.8m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1587-3.45
*
.subckt LT1587-3.6 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 N007 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 N007 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
R2 N004 N007 156
R3 N007 1 291.1
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),24.8m,5m)
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1587-3.6
*
.subckt LT1587 1 2 3
Q1 3 N002 N004 0 NOUT temp=27
Q2 N003 N004 N006 0 N temp=27
D1 3 N003 DBG1
C2 N003 N004 100f
C4 N003 1 30p Rser=100k
C3 3 N003 200f Rpar=250Meg
C1 1 N006 100p Rser=10 Rpar=10k
C5 N004 N006 100f
B1 3 N002 I=uplim(dnlim(250m*V(X,2),13u,10u),24.8m,5m)
R4 2 N004 90<39>
C6 3 N006 200f
G1 N004 X N003 N004 1<>
C8 X N004 500f Rpar=1Meg
C7 3 X 150f
.model N NPN(BF=125 Is=1.13e-16)
.model NOUT NPN (BF=150 IS=1e-12 Cjc=100p Cje=100p VAF=1000)
.model DBG1 D(Ron=100 Roff=1G vfwd=650m epsilon=400m ilimit=55u)
.ends LT1587