kicad/spice/copy/sub/LTC.lib

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2022-04-08 21:49:19 -06:00
* Copyright (c) 1998-2019 Analog Devices, Inc. All rights reserved.
*
.subckt LT1001 1 2 3 4 5
A1 0 N004 0 0 0 0 X 0 OTA g=150u Iout=7u Cout=28p en=9.8n enk=4 Vhigh=1e308 Vlow=-1e308
A2 2 1 0 0 0 0 0 0 OTA g=0 in=.1p ink=70
C2 N004 0 .75p Rpar=100K noiseless
R1 3 X 10G noiseless
R2 X 4 10G noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
D1 5 X X
C3 N005 0 .075p Rpar=1Meg noiseless
D4 2 1 DI
C5 2 1 1p Rpar=80Meg
C7 3 5 .2p
C8 5 4 .2p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.3), V(4)+.9, .3)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.899,.3), V(4)+.899, .3)+1n*V(2)
B3 0 N005 I=1u*dnlim(uplim(V(x),V(3)-.9,.5), V(4)+.9,.5)+1p*V(x)
C9 3 1 .5p Rpar=1.12T noiseless
C4 1 4 .5p Rpar=1.12T noiseless
C6 2 4 .5p Rpar=1.12T noiseless
C10 3 2 .5p Rpar=1.12T noiseless
.model X D(Ron=10K Roff=1T Vfwd=.82 Vrev=.82 epsilon=.1 revepsilon=.1)
.model N VDMOS(Vto=-300m Kp=50m)
.model P VDMOS(Vto=300m Kp=50m pchan)
.model DI D(Ron=1.15K Roff=1G Vfwd=1 Vrev=1 epsilon=1 revepsilon=1 noiseless)
.ends LT1001
*
.subckt LT1006 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=31f ink=85
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 .12p Rpar=1Meg noiseless
C2 2 1 1p Rpar=417Meg noiseless
C3 3 5 .2p
C4 5 4 .2p
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-1.0,.1), V(4)-0.4, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-0.99,.1), V(4)-0.41, .1)+1n*V(2)
C6 3 1 .5p Rpar=20G noiseless
C7 1 4 .5p noiseless Rpar=20G
C8 2 4 .5p Rpar=20G noiseless
C9 3 2 .5p Rpar=20G noiseless
A2 0 N003 0 0 0 0 X 0 OTA g=0.14m Iout=13.8u en=21n enk=2 Vhigh=1e308 Vlow=-1e308
C10 N003 0 1.2p Rpar=100K noiseless
D2 1 3 DBIAS temp=27
D3 2 3 DBIAS temp=27
D4 X 3 XU
D5 4 X XD
D1 N004 5 YU
D6 5 N004 YD
G1 0 N004 X 0 1<>
C5 X 4 16p
C11 3 X 16p
.model XU D(Ron=1K Roff=50G Vfwd=-.64 epsilon=.3 noiseless)
.model XD D(Ron=1K Roff=50G Vfwd=-8m epsilon=.1 noiseless)
.model YU D(Ron=40K Roff=1T Vfwd=.9 epsilon=.1 noiseless)
.model YD D(Ron=100K Roff=1T Vfwd=0.4 epsilon=.1 noiseless)
.model N VDMOS(Vto=-120m Kp=50m mtriode=1)
.model P VDMOS(Vto=120m Kp=50m mtriode=1 pchan)
.model DBIAS D(Is=8.8n Rs=100 N=2 noiseless)
.ends LT1006
*
.subckt LT1007 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=0.4p ink=120
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C1 N005 0 0.02f Rpar=1Meg noiseless
C2 2 1 1p Rpar=21G noiseless
C3 3 5 .2p
C4 5 4 .2p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.4,.1), V(4)+2.4, .1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.39,.1), V(4)+2.39, .1)
C6 3 1 .5p Rpar=21G noiseless
C7 1 4 .5p noiseless Rpar=21G
C8 2 4 .5p Rpar=21G noiseless
C9 3 2 .5p Rpar=21G noiseless
A2 0 N004 0 0 0 0 X 0 OTA g=0.51m Iout=19.2u Cout=6.98p en=2.3n enk=2 Vhigh=1e308 Vlow=-1e308
C10 N004 0 72.3f Rpar=100K noiseless
C17 N009 0 72.8p noiseless Rser=721.6 Rpar=1000
G12 0 N009 N008 0 1m
C12 N008 0 45.74p noiseless Rser=1.739k Rpar=1000
G2 0 N008 X 0 1m
G1 0 N011 N010 0 1m
L1 N011 0 55.9<EFBFBD> Rser=1.58k Rpar=2.7241379310345K Cpar=1.48p noiseless
G3 0 N010 N009 0 1m
L2 N010 0 83.1<EFBFBD> Rser=2.34K Rpar=1.74626865671643K Cpar=3.36p noiseless
D2 2 1 DI
D3 3 4 DCPOW
D4 N005 5 Y
D5 5 N005 Y
D1 X 3 X
D6 4 X X
G5 0 N005 N011 0 1<>
.model X D(Ron=1K Roff=100G Vfwd=-1.2 epsilon=1 noiseless)
.model Y D(Ron=10k Roff=1T Vfwd=1.2 epsilon=.1 noiseless)
.model N VDMOS(Vto=-360m Kp=20m mtriode=1)
.model P VDMOS(Vto=360m Kp=20m mtriode=1 pchan)
.model DI D(Ron=5000 Roff=100G Vfwd=1 Vrev=1 epsilon=1 revepsilon=1 noiseless)
.model DCPOW D(Ron=100.0 Roff=1G Vfwd=1.0 Vrev=100.0 ilimit=1.37m noiseless)
.ends LT1007
*
.subckt LT1008 1 2 3 4 5 6 7
A1 2 1 0 0 0 0 0 0 OTA g=0 in=5.6f ink=117
C1 2 4 .1p Rpar=1.5T noiseless
C2 3 2 .1p Rpar=1.5T noiseless
C6 3 1 .1p Rpar=1.5T noiseless
C9 1 4 .1p Rpar=1.5T noiseless
M1 3 N008 5 5 N temp=27
M2 4 N008 5 5 P temp=27
C10 N008 0 1f Rpar=1Meg noiseless
C11 3 5 .5p
C12 5 4 .5p
D4 N008 5 Y
D5 5 N008 Y
G2 0 N008 N009 0 1<>
D2 3 N006 DLOADA
D3 3 6 DLOADB
C14 3 N006 50p
C16 3 6 50p
D6 N013 4 DTAIL
R3 3 N007 4.2K noiseless
R1 7 N009 3K noiseless
Q5 N009 N011 N014 0 NM1 temp=27
D7 N011 N014 DQ23 temp=27
C13 N014 4 2p
D8 N014 4 D300u
D9 N009 N014 D6u
G1 3 N014 N009 N014 100m vto=670m dir=1
M3 N006 2 N013 N013 NIN temp=27
M4 6 N012 N013 N013 NIN temp=27
C4 N013 4 1p
D10 2 1 DIN
A2 0 0 1 1 1 1 N012 1 OTA g=.1 linear rout=10 en=14n enk=4.8 vlow=-1e308 vhigh=1e308
G3 N009 N014 N009 3 1m vto=-.75 dir=1
C3 N009 4 1p
C5 N006 2 1p
C17 6 N012 1p
C18 7 4 1p
S3 3 N006 1 3 SINUL
S1 3 6 2 3 SINUL
C19 6 N009 3p
C15 3 N007 1p
Q21 N011 N006 N007 0 PM1 temp=27
Q22 N009 6 N007 0 PM1 temp=27
C20 N006 4 1p
C21 6 4 1p
.model N VDMOS(Vto=-80m Kp=25m)
.model P VDMOS(Vto=80m Kp=25m pchan)
.model Y D(Ron=1k Roff=1T Vfwd=800m epsilon=100m noiseless)
.model NIN VDMOS(vto=700m Kp=6m)
.model NM1 NPN BF=100 Is=1e-16 tf=.3n Rb=500 Cjc=.5p Cje=.5p noiseless
.model PM1 PNP BF=100 BR=20 Xtb=1 Is=1.355e-15 Vaf=980 Var=20 nf=1.0115 Ikf=.0001 Ikr=.416m Tf=10n Isc=1.23e-14 nc=1.094
+ tr=100n Ise=1.914e-14 ne=1.7053 Irb=1.726e-04 Rc=290 rb=250 trb1=7m rbm=10 noiseless
+ Cjc=.5p Vjc=.7671 mjc=.3163 Cje=.5p Vje=.7671 mje=.3163
.model DLOADA D(Ron=23k Roff=1g vfwd=500m epsilon=150m noiseless)
.model DLOADB D(Ron=21.8703k Roff=1g vfwd=500m epsilon=150m noiseless)
.model DTAIL D(Ron=4k Roff=100Meg vfwd=200m epsilon=100m ilimit=13.9u noiseless)
.model DL1 D(Ron=560 Roff=1g vfwd=1 epsilon=100m ilimit=15u noiseless)
.model DIN D(Ron=1k Roff=1g vfwd= 1.1 epsilon=100m noiseless)
.model D300U D(Ron=100 Roff=1g vfwd=100m epsilon=50m ilimit=300u noiseless)
.model D6U D(Ron=100 Roff=1g vfwd=500m epsilon=100m ilimit=6u noiseless)
.model DQ23 D(Is=2.4e-16 n=1.0 noiseless)
.model SINUL SW(level=2 Ron=5k Roff=1G vt=-850m vh=100m noiseless)
.ends LT1008
*
.subckt LT1010 1 2 3 4 5
Q21 3 N008 N005 0 LPNPS temp=27
Q29 4 N006 N007 0 NPN1 temp=27
D1 2 N005 DIBIAS1
Q3 N002 N005 N007 0 NPN1 temp=27
R4 N006 N005 200 noiseless
C2 N006 N007 2p Rpar=3k noiseless
R3 5 N007 7 noiseless
Q30 N007 N012 3 0 NPN2 temp=27
A1 2 4 0 0 0 0 N004 0 OTA g=200u linear vlow=.5 vhigh=19 ref=.8 Rout=1Meg Cout=5p
Q1 N002 N002 2 0 LPNP temp=27
C1 N012 3 100f Rpar=8k noiseless
C6 2 4 200f Rpar=300 noiseless
Q2 2 2 4 0 NPNB temp=27
G1 3 N012 N011 0 .5m
Q4 N006 N002 2 0 LPNP temp=27
C5 2 N005 2p
S1 N012 3 3 N007 SLSAT
G3 N006 3 N007 5 50m vto=1.9 dir=1
D2 1 N007 DCLM
G5 N012 3 5 N007 50m vto=2.1 dir=1
G4 0 N011 N004 0 1<>
L2 N011 0 32m Rser=1Meg noiseless
C4 2 N002 20f
A2 0 0 1 1 1 1 N008 1 OTA g=.1 Rout=10 linear en=17n enk=300 vlow=-1e308 vhigh=1e308
A3 0 1 0 0 0 0 0 0 OTA g=0 in=13p ink=1.1k
.model LPNPS PNP(BF=50 BR=30 Is=1e-15 VAF=1000 VAR=1000 Tf=10n Cjc=1p Cje=100f rb=200 IKF=150u noiseless)
.model LPNP PNP(BF=40 BR=40 Is=1e-16 VAF=1000 VAR=1000 Tf=80n Cjc=1p Cje=1p IKF=100u rb=10 noiseless)
.model NPN1 NPN(BF=100 BR=20 Is=1e-16 Cjc=1p Cje=1p TF=1n IKF=200m Rb=20 noiseless)
.model NPN2 NPN(BF=100 BR=20 Is=1e-16 Cjc=1p Cje=1p TF=500p IKF=200m Rb=10 noiseless)
.model NPNB NPN(BF=100 BR=20 Is=1e-27 Cjc=1p Cje=1p TF=15n IKF=200m Rb=20 noiseless)
.model SLSAT SW(Ron=100 Roff=8k vt=-3.2 vh=-3 noiseless)
.model DCLM D(Ron=70 Roff=1g vfwd=6.5 epsilon=700m vrev=5.4 revepsilon=700m noiseless)
.model DIBIAS1 D(Ron=1 Roff=1Meg Vfwd=1 epsilon=10m ilimit=500u noiseless)
.ends LT1010
*
.subckt LT1012 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=6f ink=120
B1 0 N006 I=10u*dnlim(uplim(V(1),V(3)-.65,.1), V(4)+0.65, .1)+1n*V(1)
B2 N006 0 I=10u*dnlim(uplim(V(2),V(3)-.64,.1), V(4)+.64, .1)+1n*V(2)
C6 3 1 .1p Rpar=1.5T noiseless
C7 1 4 .1p noiseless Rpar=1.5T
C8 2 4 .1p Rpar=1.5T noiseless
C9 3 2 .1p Rpar=1.5T noiseless
C10 N006 0 448f Rpar=100K noiseless
M1 3 N008 5 5 N temp=27
M2 4 N008 5 5 P temp=27
C1 N008 0 44.8f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N008 5 YU
D6 5 N008 YD
G1 0 N008 N003 0 1<>
C2 2 1 1p
A3 0 N006 0 0 0 0 N007 0 OTA g=1m linear en=13n enk=2.5 Vhigh=1e308 Vlow=-1e308
G4 0 N004 N005 0 1m
L1 N005 0 1.54m Cpar=29.8p Rser=3.31k Rpar=1.43290043290044k
L2 N004 0 304<30> Cpar=13.6p Rser=2.07k Rpar=1.93457943925235k noiseless
A2 0 N004 0 0 0 0 N003 0 OTA g=415u iout=20.9u Vhigh=1e308 Vlow=-1e308
C11 N003 0 113p Rser=10k noiseless
C12 N007 0 1.13n Rpar=1k noiseless
G2 0 N005 N007 0 1m
D2 3 4 DC
D3 2 1 DIN
A4 0 N004 N010 0 0 0 N003 0 OTA g=40u asym isource=20u isink=-40u vlow=-1e308 vhigh=1e308
C13 N010 0 100p Rpar=1k noiseless
B3 0 N010 I=(.5m+.5m*tanh((V(2,1)-1)/50m))+(.5m+.5m*tanh((V(1,2)-1)/50m))
R1 3 N003 10G noiseless
G3 N003 0 N003 3 5m dir=1 vto=-.6
G5 0 N003 4 N003 5m dir=1 vto=-.6
R2 N003 4 10G noiseless
C14 N008 5 30f Rser=10k noiseless
.model YU D(Ron=1.1k Roff=1T Vfwd=1.09 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=1 epsilon=.1 noiseless)
.model DIN D(Ron=10 Roff=50Meg vfwd=900m epsilon=200m vrev=900m revepsilon=200m noiseless)
.model DC D(Ron=1k, Roff=1T Vfwd=1 ilimit=332u noiseless)
.model N VDMOS(Vto=-40m Kp=60m)
.model P VDMOS(Vto=40m Kp=60m pchan)
.ends LT1012
*
.subckt LT1013 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=15f ink=60
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)-0.4, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)-0.41, .1)+1n*V(2)
C6 3 1 .1p Rpar=20G noiseless
C7 1 4 .1p noiseless Rpar=20G
C8 2 4 .1p Rpar=20G noiseless
C9 3 2 .1p Rpar=20G noiseless
C10 N003 0 1f Rpar=100K noiseless
D1 N005 3 XU
D4 4 N005 XD
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 12f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N004 5 YU
D6 5 N004 YD
G1 0 N004 N005 0 1<>
C2 2 1 1f Rpar=435Meg noiseless
A2 0 N006 0 0 0 0 N005 0 OTA g=160u iout=9.59u Cout=23.4p Vhigh=1e308 Vlow=-1e308
G2 0 N006 N007 0 1m
L2 N006 0 .457m Cpar=5.08p Rser=1.29k Rpar=4.448275862068965k noiseless
A3 0 N003 0 0 0 0 N007 0 OTA g=1m linear en=20.2n enk=2 Vhigh=1e308 Vlow=-1e308
C11 N007 0 532p Rpar=1k noiseless
D2 2 3 DBIAS
D3 1 3 DBIAS
.model XU D(Ron=1K Roff=100G Vfwd=-.72 epsilon=1.0 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-.114 epsilon=1.0 noiseless)
.model YU D(Ron=500 Roff=1T Vfwd=.77 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=.74 epsilon=.1 noiseless)
.model DBIAS D(Ron=1k Roff=1T Vrev=0.6 revilimit=12n noiseless)
.model N VDMOS(Vto=-100m Kp=70m)
.model P VDMOS(Vto=100m Kp=70m pchan)
.ends LT1013
*
.subckt LT1016 1 2 3 4 5 6 7 8
A3 5 6 0 0 0 0 N016 0 SCHMITT Vt=1.5 Vh=0 tau=3n
B1 0 VD0 I=10u*dnlim(uplim(V(2),V(1)-1.4,.1), V(4)+1.15,.1)+1n*V(2)
B2 VD0 0 I=10u*dnlim(uplim(V(3),V(1)-1.39,.1), V(4)+1.14, .1)+1n*V(3)
C1 VD0 0 .01f Rpar=100K noiseless
A1 0 VD0 0 0 0 0 N006 0 OTA g=11m iout=75u Vlow=-1e308 Vhigh=1e308 Cout=1f
C5 1 7 .1p
C6 7 6 .1p
G5 0 N002 N006 0 68n
D5 0 N006 DLAT
G2 0 N011 0 N006 68n
A2 N009 0 N016 0 0 0 N006 0 OTA g=500u linear Vlow=-1e308 Vhigh=1e308
D1 0 N009 DLAT
C3 N009 0 1f
G3 0 N009 0 N006 500<30>
C4 3 4 1.75p
C10 2 4 1.75p
D13 1 4 DP1
D14 1 6 DP2
D3 N002 1 XU
D4 6 N002 XD
M1 1 N003 7 7 N temp=27
M2 6 N007 7 7 P temp=27
D15 N003 6 DVLU1
R6 N003 N002 4G
D16 N003 6 DVLU2
R7 N007 N002 4G
D17 6 N007 DVLD
C2 N002 0 .04f
C7 1 8 .1p
C8 8 6 .1p
D7 N011 1 XU
D8 6 N011 XD
M3 1 N012 8 8 N temp=27
M4 6 N014 8 8 P temp=27
D18 N012 6 DVLU1
R8 N012 N011 4G
D19 N012 6 DVLU2
R9 N014 N011 4G
D20 6 N014 DVLD
C9 N011 0 .04f
C11 1 3 1.75p
C12 1 2 1.75p
D2 3 2 DBIASC
D6 2 4 DBIAS
D9 3 4 DBIAS
D10 1 5 DLATCH
.model DBIAS D(Ron=1k Roff=10G Vfwd=1 epsilon=.1 ilimit=2.5u)
.model DBIASC D(Ron=1 Roff=10G Vfwd= 1u Vrev=1u
+ epsilon=200u revepsilon=200u ilimit=2.5u revilimit=2.5u)
.model DLATCH D(Ron=1k Roff=10Meg Vfwd=1 epsilon=.1 ilimit=500u)
.model DP1 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=3m)
.model DP2 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=17.7m)
.model XU D(Ron=1k Roff=1.7G Vfwd=6.8 epsilon=.1)
.model XD D(Ron=1k Roff=637Meg Vfwd=9 epsilon=.1)
.model DVLU1 D(Ron=1.5G Roff=100G Vfwd=1.1 epsilon=2.5)
.model DVLU2 D(Ron= 5Meg Roff=100G Vfwd=3.5 epsilon=.1)
.model DVLD D(Ron= 5Meg Roff=100G Vfwd=-150m epsilon=.1)
.model DLAT D(Ron=1 Roff=10k Vfwd=500m Vrev=500m epsilon=5m revepsilon=5m)
.model N VDMOS(Vto= -300m kp=230m rds=2k)
.model P VDMOS(Vto= 400m Kp=25m rds=2k pchan )
.ends LT1016
*
.subckt LT1022 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.8f ink=1
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.9,.1), V(4)+2.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.89,.1), V(4)+2.89, .1)+1n*V(2)
C6 3 1 1p Rpar=4T noiseless
C7 1 4 1p noiseless Rpar=4T
C8 2 4 1p Rpar=4T noiseless
C9 3 2 1p Rpar=4T noiseless
A2 0 N004 0 0 0 0 N006 0 OTA g=8.4u iout=3.6u Cout=172.8f en=14n enk=10 Vhigh=1e308 Vlow=-1e308
C10 N004 0 20f Rpar=100K noiseless
D1 N006 3 X
D4 4 N006 X
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C1 N005 0 11.9f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N005 5 Y
D6 5 N005 Y
G1 0 N005 N006 0 1<>
D3 3 4 DC
.model X D(Ron=1K Roff=100G Vfwd=-1.95 epsilon=1.0 noiseless)
.model Y D(Ron=1k Roff=1T Vfwd=0.865 epsilon=0.1 noiseless)
.model N VDMOS(Vto=-500m Kp=40m)
.model P VDMOS(Vto=500m Kp=40m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=200u noiseless)
.ends LT1022
*
.subckt LT1028 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.9p ink=250 incm=2.4p incmk=250
M1 3 N009 5 5 N temp=27
M2 4 N009 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.7,.1), V(4)+2.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.69,.1), V(4)+2.69, .1)+1n*V(2)
C6 3 1 2.5p Rpar=1.2G noiseless
C7 1 4 2.5p noiseless Rpar=1.2G
C8 2 4 2.5p Rpar=1.2G noiseless
C9 3 2 2.5p Rpar=1.2G noiseless
A2 0 N004 0 0 0 0 N010 0 OTA g=630u Iout=17.51u en=.85n+freq*36u/(8k*freq+(freq-400k)**2) Vlow=-1e308 Vhigh=1e308 Cout= 1.35p enk=3
C10 N004 0 1f Rpar=100K noiseless
D4 N010 3 X
D5 4 N010 X
D1 N009 5 Y
D6 5 N009 Y
D7 3 4 DP
C11 2 1 12.5p Rpar=20k noiseless
G3 0 N007 N006 0 1m
L3 N007 0 63.3<EFBFBD> Rser=1.081k Rpar=13.3456790123457k noiseless
G4 0 N005 N010 0 1m
L4 N005 0 1.437m Rser=2.25k Rpar=1.8k Cpar=70.46p noiseless
G5 0 N006 N005 0 1m
L5 N006 0 86.112<EFBFBD> noiseless Rpar=3.127659574468084k Cpar=1.8p Rser=1.47k
C1 N008 0 140.4p noiseless Rser=416.7 Rpar=1k
G1 0 N008 N007 0 1m
C2 N009 0 140.4f noiseless Rser=416.7k Rpar=1Meg
G2 0 N009 N008 0 1<>
D2 2 1 DIN
.model X D(Ron=1K Roff=100G Vfwd=-2 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=1.18 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=40m)
.model P VDMOS(Vto=200m Kp=40m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=6.602m noiseless)
.model DIN D(Ron=100 Roff=1T Vfwd=1.8 Vrev=1.8 noiseless)
.ends LT1028
*
.subckt LT1037 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.38p ink=120
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C1 N007 0 318f Rser=0 Rpar=1Meg noiseless
C2 2 1 1p
C3 3 5 .2p
C4 5 4 .2p
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)-2.4,.1), V(4)+2.4, .1)+1n*V(1)
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)-2.39,.1), V(4)+2.39, .1)+1n*V(2)
C6 3 1 .5p Rpar=21G noiseless
C7 1 4 .5p noiseless Rpar=21G
C8 2 4 .5p Rpar=21G noiseless
C9 3 2 .5p Rpar=21G noiseless
C10 N005 0 25f Rpar=100K noiseless
D2 2 1 DI
D3 3 4 DCPOW
G4 0 N007 N004 0 1<>
D1 N007 5 Y
D4 5 N007 Y
D5 N008 3 X
D6 4 N008 X
A3 0 N005 0 0 0 0 N008 0 OTA G=.51m Iout=25u Cout=1.35p en=2.3n enk=2 Vhigh=1e308 Vlow=-1e308
G3 0 N004 N006 0 1m
L3 N004 0 0.1m Rser=1.1K Rpar=11K Cpar=0.18p noiseless
G5 0 N006 N008 0 1m
L4 N006 0 46.6<EFBFBD> Rser=1.96K Rpar=2.04166666666667K Cpar=1.92p noiseless
.model X D(Ron=1K Roff=78G Vfwd=-1.35 epsilon=1 noiseless)
.model Y D(Ron=10k Roff=1T Vfwd=1.35 epsilon=.1 noiseless)
.model N VDMOS(Vto=-360m Kp=20m mtriode=1)
.model P VDMOS(Vto=360m Kp=20m mtriode=1 pchan)
.model DI D(Ron=1k Roff=100G Vfwd=1 Vrev=1 epsilon=1 revepsilon=1 noiseless)
.model DCPOW D(Ron=100.0 Roff=1G Vfwd=1.0 Vrev=100.0 ilimit=1.37m noiseless)
.ends LT1037
*
*CCM Fri Jan 3 12:04:23 1998
* S1A S2A CA+ S3A S4A CA- OSC VDD VSS
.SUBCKT LTC1043 7 8 11 13 14 12 16 4 17
.IC V(20)=0
RIN1 16 17 1.0E9
RIN2 16 20 50
DINP 20 4 DX
DINN 17 20 DX
COSC 20 17 2.4e-11
GBIAS 20 17 POLY(2) 4 17 73 17 0.0 -4.0E-6 -8.0E-6
GINV 17 73 72 20 1.0E-1
RINV1 73 17 1.0E4
CINV1 73 17 2.2E-10
DINV1 73 74 DX
VINV1 74 17 DC -0.86
DINV2 75 73 DX
EINV2 75 17 POLY(1) 17 4 0.8 1.0
GTV 17 72 4 17 1.16E-3
RTV 72 17 1.0E3
RHYST 73 72 1.4E3
GSCS 17 76 73 17 2.5E-3
RSCS 76 17 1.0E3
DSCS 77 76 DX
VSDN2 77 17 DC -4.2
EST1 24 17 76 17 1.0
RST1 24 25 113
RST2 25 26 85
DST1 24 26 DX
CST1 25 17 1.2E-9
EST2 44 17 POLY(1) 17 76 -5 1
RST3 44 45 113
RST4 45 46 85
DST2 44 46 DX
CST2 45 17 1.2E-9
XS1A 7 11 25 4 17 X1LTC1043
XS2A 8 11 45 4 17 X1LTC1043
XS3A 13 12 25 4 17 X1LTC1043
XS4A 14 12 45 4 17 X1LTC1043
RPC 4 17 25000
.MODEL DX D IS=8e-16 RS=0 XTI=0
.ENDS LTC1043
*
.SUBCKT X1LTC1043 1 2 25 14 15 ;NESTED SUBCIRCUIT--DO NOT CALL
GSW 1 31 POLY(2) 25 15 1 31 0 0 6e-13 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 2.56E-6
RTC 33 15 995.41 TC=-0.002298
GTC 15 33 31 2 0.001
GPK1 15 50 POLY(2) 1 15 14 15 0 1.0E-3 -0.0006
RPK1 50 15 1.0E3
DPK1 50 51 DX
RPK2 51 15 1.0E4
GPK2 15 52 POLY(2) 1 15 51 15 0 1.0E-3 -1.4E-3
RPK3 52 15 1.0E3
GSV1 15 53 TABLE {V(14,15)}=
+ (3.0, 6.8E-3) (5.0, 4.15E-3) (7.0, 2.9E-3) (9.0, 2.25E-3) (10.0, 1.95E-3)
+ (12.0, 1.58E-3) (15.0, 1.23E-3) (18.0, 1.0E-3)
RSV1 53 15 1.0E3
GSV2 15 54 POLY(2) 53 15 52 15 0 0 0 0 1.0E-3
RSV2 54 15 1.0E3
GON 31 2 POLY(2) 33 15 54 15 0 0.009972 0 0 0 0 0 0 -3.437e-5
RON1 1 31 1.0E12
RON2 31 2 1.0E9
CDS 1 2 5e-13
CDG 2 15 1e-12
CSG 1 15 1e-12
.MODEL DX D IS=8e-16 RS=0 XTI=0
.ENDS X1LTC1043
*
.subckt LTC1047 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.5f
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 .5p Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 X0 I=10u*dnlim(uplim(V(1),V(3)-1.0,.1), V(4)-0.4, .1)+1n*V(1)
B2 X0 0 I=10u*dnlim(uplim(V(2),V(3)-.99,.1), V(4)-0.41, .1)+1n*V(2)
C9 3 2 6p Rser=100 noiseless
A2 0 X0 0 0 0 0 N006 0 OTA g=7m Iout=832u Cout=4n en=168n Vhigh=1e308 Vlow=-1e308
C10 X0 0 .1p Rpar=100K noiseless
D1 N004 5 YU
D6 5 N004 YD
G4 0 N005 N006 0 1m
D7 3 4 DP
G3 N006 0 N006 3 10m dir=1 vto=.25
G6 0 N006 4 N006 10m dir=1 vto=-.2
R4 3 N006 10G
R5 N006 4 10G
C12 N005 0 50p Rpar=1k noiseless
G2 0 N004 N005 0 1<>
C2 3 1 6p Rser=100 noiseless
C6 2 4 6p Rser=100 noiseless
C7 1 4 6p Rser=100 noiseless
.model YU D(Ron=10K Roff=1T Vfwd=.7 epsilon=.4 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=.6 epsilon=.4 noiseless)
.model N VDMOS(Vto=-40m Kp=2m)
.model P VDMOS(Vto=30m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=57.1u noiseless)
.ends LTC1047
*
.subckt LTC1049 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2f
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 894f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)-0.3, .1)+1n*V(1)
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 1p Rser=100 noiseless
C10 N005 0 10f Rpar=100K noiseless
D1 N004 5 YU
D6 5 N004 YD
D7 3 4 DP
G3 N007 0 N007 3 60m dir=1 vto=-.1
G6 0 N007 4 N007 60m dir=1 vto=-.2
R4 3 N007 1G
R5 N007 4 1G
G2 0 N004 N006 0 1<>
C2 3 1 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 1 4 1p Rser=100 noiseless
G1 0 N006 N007 0 1m
L2 N006 0 815<31> Rser=1.69k Rpar=2.44927536231884057968k Cpar=11.7p noiseless
R3 3 4 200k noiseless
A2 0 N005 0 0 0 0 N007 0 OTA g=205m Iout=18m en=29n+(58n+ 1n*min(max(freq,3k),10k)**.5)/(1.2+ (max(freq,10k)/10k)**3.5) Cout=22n Vlow=-1e308 Vhigh=1e308
.model YU D(Ron=10K Roff=1T Vfwd=.7 epsilon=.4 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=.6 epsilon=.4 noiseless)
.model N VDMOS(Vto=-200m Kp=2m)
.model P VDMOS(Vto=200m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=57.6u noiseless)
.ends LTC1049
*
.subckt LTC1050 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2f
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 176f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)-0.3, .1)+1n*V(1)
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 1p Rser=100 noiseless
C10 N005 0 100f Rpar=100K noiseless
D1 N004 5 YU
D6 5 N004 YD
D7 3 4 DP
G3 X 0 X 3 500m dir=1 vto=-.25
G6 0 X 4 X 500m dir=1 vto=-.2
R4 3 X 1G
R5 X 4 1G
G2 0 N004 N006 0 1<>
C2 3 1 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 1 4 1p Rser=100 noiseless
G1 0 N006 X 0 1m
R3 3 4 20k noiseless
L1 N006 0 246<34> Rser=2.05k Rpar=1.95238095238095238123k Cpar=10.9p noiseless
A2 0 N005 0 0 0 0 X 0 OTA g=205m Iout=82m en=22n+(58n+ 1n*min(max(freq,1.2k),2.6k)**.65)/(1.3+ (max(freq,2.6k)/2.6k)**.8 +1e-16*freq**4) Cout=20n Vlow=-1e308 Vhigh=1e308
.model YU D(Ron=10K Roff=1T Vfwd=.4 epsilon=.4 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=1.2 epsilon=.4 noiseless)
.model N VDMOS(Vto=-150m Kp=20m)
.model P VDMOS(Vto=150m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=276.6u noiseless)
.ends LTC1050
*
.subckt LTC1051 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2f
M1 3 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C1 N006 0 470f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)-0.3, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 1p Rser=100 noiseless
C10 N007 0 1f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N006 YD
D7 3 4 DP
G3 N004 0 N004 3 100m dir=1 vto=0
G6 0 N004 4 N004 100m dir=1 vto=0
R4 3 N004 1G
R5 N004 4 1G
G2 0 N006 N008 0 1<>
C2 3 1 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 1 4 1p Rser=100 noiseless
R3 3 4 22k noiseless
G4 0 N008 N004 0 1m
L2 N008 0 262<36> Rser=1.16k Rpar=7.25k Cpar=1.1p noiseless
C11 N004 0 .8n Rser=200 noiseless
A3 0 N005 0 0 0 0 N004 0 OTA g=20.5m Iout=3.6m Vlow=-1e308 Vhigh=1e308
A2 0 N007 0 0 0 0 N005 0 OTA g=1u linear en=67n/(max(freq,2.6k)/2.6k)**.8 Cout=200f Rout=1Meg Vlow=-1e308 Vhigh=1e308
.model YU D(Ron=10K Roff=1T Vfwd=.4 epsilon=.4 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=1.2 epsilon=.4 noiseless)
.model N VDMOS(Vto=-200m Kp=15m)
.model P VDMOS(Vto=200m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=200.825u noiseless)
.ends LTC1051
*
.subckt LTC1052 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.6f
M1 3 N008 5 5 N temp=27
M2 4 N008 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N006 I=10u*dnlim(uplim(V(1),V(3)-1.3,.1), V(4)-0.3, .1)+1n*V(1)
B2 N006 0 I=10u*dnlim(uplim(V(2),V(3)-1.29,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 1p Rser=100 noiseless
C10 N006 0 1f Rpar=100K noiseless
D1 N008 5 YU
D6 5 N008 YD
D7 3 4 DP
G3 N004 0 N004 3 600m dir=1 vto=-.1
G6 0 N004 4 N004 600m dir=1 vto=-.1
R4 3 N004 1G
R5 N004 4 1G
C2 3 1 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 1 4 1p Rser=100 noiseless
R3 3 4 22k noiseless
G4 0 N008 N004 0 1<>
A3 0 N005 0 0 0 0 N004 0 OTA g=60.5m Iout=22.5m Cout=5n Vlow=-1e308 Vhigh=1e308
C8 N008 0 1f Rpar=1Meg noiseless
L2 N007 0 39.3m Rser=123k Rpar=534.78k Cpar=31.8f noiseless
G2 0 N005 N007 0 .1<EFBFBD>
C11 N005 0 100f Rpar=10Meg noiseless
D2 N005 N007 DLS
A2 0 N006 0 0 0 0 N007 0 OTA g=12u linear en=103.5n+6n*(70m*min(max(freq,70),140) -63m*min(max(freq,140),350)) Vlow=-1 Vhigh=1
.model YU D(Ron=10K Roff=1T Vfwd=.4 epsilon=.5 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=.5 epsilon=.4 noiseless)
.model N VDMOS(Vto=-200m Kp=15m)
.model P VDMOS(Vto=200m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.900825m noiseless)
.model DLS D(Roff=1G Ron=100k Vfwd=1.3 Vrev=1.3 epsilon=100m revepsilon=100m noiseless)
.ends LTC1052
*
.subckt LT1055 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.8f ink=100
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-2.9,.1), V(4)+2.9, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-2.89,.1), V(4)+2.89, .1)+1n*V(2)
C6 3 1 2p Rpar=4T noiseless
C7 1 4 2p noiseless Rpar=4T
C8 2 4 2p Rpar=4T noiseless
C9 3 2 2p Rpar=4T noiseless
A2 0 N003 0 0 0 0 X 0 OTA g=8.4u asym isource=3.21u isink=-11u Cout=279f en=14n enk=20 Vhigh=1e308 Vlow=-1e308
C10 N003 0 1f Rpar=100K noiseless
D1 X 3 X
D4 4 X X
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 21f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N004 5 Y
D6 5 N004 Y
G1 0 N004 X 0 1<>
D3 3 4 DC
.model X D(Ron=1K Roff=100G Vfwd=-1.86 epsilon=1.0 noiseless)
.model Y D(Ron=1k Roff=1T Vfwd=.805 epsilon=0.1 noiseless)
.model N VDMOS(Vto=-300m Kp=60m)
.model P VDMOS(Vto=300m Kp=60m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=100u noiseless)
.ends LT1055
*
.subckt LT1056 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.8f ink=100
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-2.9,.1), V(4)+2.9, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-2.89,.1), V(4)+2.89, .1)+1n*V(2)
C6 3 1 2p Rpar=4T noiseless
C7 1 4 2p noiseless Rpar=4T
C8 2 4 2p Rpar=4T noiseless
C9 3 2 2p Rpar=4T noiseless
A2 0 N003 0 0 0 0 X 0 OTA g=8.4u asym isource=3.28u isink=-9.84u Cout=205f en=15n enk=28 Vhigh=1e308 Vlow=-1e308
C10 N003 0 1f Rpar=100K noiseless
D1 X 3 X
D4 4 X X
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 22f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N004 5 Y
D6 5 N004 Y
G1 0 N004 X 0 1<>
D3 3 4 DC
.model X D(Ron=1K Roff=100G Vfwd=-1.86 epsilon=1.0 noiseless)
.model Y D(Ron=1k Roff=1T Vfwd=.805 epsilon=0.1 noiseless)
.model N VDMOS(Vto=-300m Kp=60m)
.model P VDMOS(Vto=300m Kp=60m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=2.3m noiseless)
.ends LT1056
*
.subckt LT1057 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.5f ink=100
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)-.7,.1), V(4)+3.4, .1)+1n*V(1)
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)-.69,.1), V(4)+3.39, .1)+1n*V(2)
C6 3 1 2p Rpar=2T noiseless
C7 1 4 2p noiseless Rpar=2T
C8 2 4 2p Rpar=2T noiseless
C9 3 2 2p Rpar=2T noiseless
A2 0 N005 0 0 0 0 N006 0 OTA g=7u asym isource=2.98u isink=-4.4u cout=220f en=13n enk=28 Vhigh=1e308 Vlow=-1e308
C10 N005 0 1f Rpar=100K noiseless
D1 N006 3 X
D4 4 N006 X
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 12f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N004 5 YU
D6 5 N004 YD
G1 0 N004 N006 0 1<>
C2 5 N004 10f Rser=10k noiseless
.model X D(Ron=1K Roff=100G Vfwd=-1.8 epsilon=1.0 noiseless)
.model YU D(Ron=500 Roff=1T Vfwd=1.30 epsilon=0.1 noiseless)
.model YD D(Ron=500 Roff=1T Vfwd = 1.24 epsilon=0.1 noiseless)
.model N VDMOS(Vto=-400m Kp=20m)
.model P VDMOS(Vto=400m Kp=20m pchan)
.ends LT1057
*
.subckt LT1078 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=20f ink=60
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 914f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)-0.4, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)-0.41, .1)+1n*V(2)
C6 3 1 .5p Rpar=24G noiseless
C7 1 4 .5p noiseless Rpar=24G
C8 2 4 .5p Rpar=24G noiseless
C9 3 2 .5p Rpar=24G noiseless
A2 0 N003 0 0 0 0 X 0 OTA g=21u Iout=1.03u Cout=14.6p en=28n enk=.7 Vhigh=1e308 Vlow=-1e308
C10 N003 0 10f Rpar=100K noiseless
D2 3 1 DBIAS
D3 3 2 DBIAS
D4 X 3 XU
D5 4 X XD
D1 N004 5 Y
D6 5 N004 Y
G1 0 N004 N009 0 1<>
G2 0 N008 N007 0 1m
L1 N008 0 1.68m Rser=1.39k Rpar=3.564102564102564k Cpar=28.01p noiseless
C11 5 N004 8p noiseless Rser=100k
G4 0 N009 N008 0 1m
C12 N009 0 5.15n Rpar=1e3
G5 0 N007 X 0 1m
L3 N007 0 2.63m noiseless Rser=1100.833965125099 Rpar=10917.2932330827
R3 2 1 857Meg noiseless
D7 3 4 DP
.model XU D(Ron=1K Roff=100G Vfwd=-.624 epsilon=.3 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-15.3m epsilon=.1 noiseless)
.model Y D(Ron=100K Roff=1T Vfwd=.5 epsilon=.1 noiseless)
.model N VDMOS(Vto=-10m Kp=50m)
.model P VDMOS(Vto=10m Kp=50m pchan)
.model DBIAS D(Roff=1T Ron=1k Vfwd=1 ilimit=6n noiseless)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=35.4u noiseless)
.ends LT1078
*
.subckt LT1097 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=8f ink=140
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.7,.1), V(4)+.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.69,.1), V(4)+.69, .1)+1n*V(2)
C6 3 1 .5p Rpar=4T noiseless
C7 1 4 .5p noiseless Rpar=4T
C8 2 4 .5p Rpar=4T noiseless
C9 3 2 .5p Rpar=4T noiseless
A2 0 N004 0 0 0 0 N005 0 OTA g=52.5u iout=2.4u cout=12p en=14n enk=2.5 Vhigh=1e308 Vlow=-1e308
C10 N004 0 400f Rpar=100K noiseless
D1 N005 3 X
D4 4 N005 X
M1 3 N003 5 5 N temp=27
M2 4 N003 5 5 P temp=27
C1 N003 0 40f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N003 5 YU
D6 5 N003 YD
G1 0 N003 N005 0 1<>
C2 2 1 .1p Rpar=80Meg noiseless
D2 3 4 DP
.model X D(Ron=1K Roff=100G Vfwd=-.95 epsilon=1.0 noiseless)
.model YU D(Ron=500 Roff=1T Vfwd=.98 epsilon=0.1 noiseless)
.model YD D(Ron=500 Roff=1T Vfwd = .915 epsilon=0.1 noiseless)
.model N VDMOS(Vto=-17m Kp=30m)
.model P VDMOS(Vto=17m Kp=30m pchan)
.model DP D(Ron=1k Roff=1T Vfwd=0.7 ilimit=345.5u noiseless)
.ends LT1097
*
.subckt LTC1100 1 2 3 4 5 6 7 8
M1 5 N007 N001 N001 N temp=27
M2 4 N007 N001 N001 P temp=27
C3 5 N001 .5p
C4 N001 4 .5p
B1 0 N005 I=10u*dnlim(uplim(V(3),V(5)-1.3,.1), V(4)-0.3, .1)+1n*V(3)
B2 N005 0 I=10u*dnlim(uplim(V(2),V(5)-1.29,.1), V(4)-0.31, .1)+1n*V(2)
C9 5 2 1p Rser=100 noiseless
C10 N005 0 1f Rpar=100K noiseless
D1 N007 N001 YU
D6 N001 N007 YD
G3 N003 0 N003 5 600m dir=1 vto=-.1
G6 0 N003 4 N003 600m dir=1 vto=-.1
R4 5 N003 1G
R5 N003 4 1G
C2 5 3 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 3 4 1p Rser=100 noiseless
R3 5 4 7.5k noiseless
G4 0 N007 N003 0 1<>
A3 0 N004 0 0 0 0 N003 0 OTA g=60.5m Iout=22.5m Cout=5n Vlow=-1e308 Vhigh=1e308
C8 N007 0 1f Rpar=1Meg noiseless
L2 N006 0 39.3m Rser=123k Rpar=534.78k Cpar=31.8f noiseless
G2 0 N004 N006 0 .1<EFBFBD>
C11 N004 0 100f Rpar=10Meg noiseless
D2 N004 N006 DLS
M3 5 N016 8 8 N temp=27
M4 4 N016 8 8 P temp=27
C1 5 8 .5p
C5 8 4 .5p
B3 0 N014 I=10u*dnlim(uplim(V(6),V(5)-1.3,.1), V(4)-0.3, .1)+1n*V(6)
B4 N014 0 I=10u*dnlim(uplim(V(7),V(5)-1.29,.1), V(4)-0.31, .1)+1n*V(7)
C12 5 7 1p Rser=100 noiseless
C13 N014 0 1f Rpar=100K noiseless
D3 N016 8 YU
D4 8 N016 YD
G1 N012 0 N012 5 600m dir=1 vto=-.1
G5 0 N012 4 N012 600m dir=1 vto=-.1
R1 5 N012 1G
R2 N012 4 1G
C14 5 6 1p Rser=100 noiseless
C15 7 4 1p Rser=100 noiseless
C16 6 4 1p Rser=100 noiseless
G7 0 N016 N012 0 1<>
A5 0 N013 0 0 0 0 N012 0 OTA g=60.5m Iout=22.5m Cout=5n Vlow=-1e308 Vhigh=1e308
C17 N016 0 1f Rpar=1Meg noiseless
L1 N015 0 39.3m Rser=123k Rpar=534.78k Cpar=31.8f noiseless
G8 0 N013 N015 0 .1<EFBFBD>
C18 N013 0 100f Rpar=10Meg noiseless
D8 N013 N015 DLS
D5 5 4 DP
R8 2 1 247.5k
R9 N001 2 2.5k
R7 N001 7 2.5k
R6 8 7 247.5k
A1 0 N005 0 0 0 0 N006 0 OTA g=12u linear en=70.5n -5.5p*min(max(freq,100),8k) Vlow=-1 Vhigh=1
A2 0 N014 0 0 0 0 N015 0 OTA g=12u linear en=70.5n -5.5p*min(max(freq,100),8k) Vlow=-1 Vhigh=1
.model YU D(Ron=20K Roff=1T Vfwd=.3 epsilon=.5 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=.5 epsilon=.4 noiseless)
.model N VDMOS(Vto=-200m Kp=15m)
.model P VDMOS(Vto=200m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.378m noiseless)
.model DLS D(Roff=1G Ron=100k Vfwd=1.3 Vrev=1.3 epsilon=100m revepsilon=100m noiseless)
.ends LTC1100
*
.subckt LT1101 1 2 3 4 5 6 7 8
R1 1 2 828E3
R2 2 100 82800
R3 100 101 9.2E3
R4 101 102 9.2E3
R5 102 7 82800
R6 7 8 828E3
X1 3 100 5 4 101 LT1078
X2 6 102 5 4 8 LT1078
.ends LT1101
*
* GND GA IN- VN VP IN+ GB OUT
.subckt LT1102 1 2 3 4 5 6 7 8
R1 1 2 162000
R2 2 100 16200
R3 100 101 1800
R4 101 102 1800
R5 102 7 16200
R6 7 8 162000
X1 3 100 5 4 101 LT1057
X2 6 102 5 4 8 LT1057
R7 3 0 1E12
R8 6 0 1E12
.ends LT1102
*
.subckt LT1112 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=8f ink=140
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)-.65,.1), V(4)+0.65, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)-.64,.1), V(4)+.64, .1)+1n*V(2)
C6 3 1 .1p Rpar=1.5T noiseless
C7 1 4 .1p noiseless Rpar=1.5T
C8 2 4 .1p Rpar=1.5T noiseless
C9 3 2 .1p Rpar=1.5T noiseless
C10 N007 0 448f Rpar=100K noiseless
M1 N006 N009 5 5 N temp=27
M2 N012 N009 5 5 P temp=27
C1 N009 0 44.8f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N009 5 YU
D6 5 N009 YD
G1 0 N009 N003 0 1<>
C2 2 1 1p
A3 0 N007 0 0 0 0 N008 0 OTA g=1m linear en=13n enk=2.5 Vhigh=1e308 Vlow=-1e308
G4 0 N004 N005 0 1m
L1 N005 0 1.54m Cpar=29.8p Rser=3.31k Rpar=1.43290043290044k
L2 N004 0 304<30> Cpar=13.6p Rser=2.07k Rpar=1.93457943925235k noiseless
A2 0 N004 0 0 0 0 N003 0 OTA g=415u iout=29u Vhigh=1e308 Vlow=-1e308
C11 N003 0 113p Rser=10k noiseless
C12 N008 0 1.13n Rpar=1k noiseless
G2 0 N005 N008 0 1m
D2 3 4 DC
D3 2 1 DIN
A4 0 N004 N011 0 0 0 N003 0 OTA g=40u asym isource=20u isink=-40u vlow=-1e308 vhigh=1e308
C13 N011 0 100p Rpar=1k noiseless
B3 0 N011 I=(.5m+.5m*tanh((V(2,1)-1)/50m))+(.5m+.5m*tanh((V(1,2)-1)/50m))
R1 3 N003 10G noiseless
G3 N003 0 N003 N006 5m dir=1 vto=-.85
G5 0 N003 N012 N003 5m dir=1 vto=-.85
R2 N003 4 10G noiseless
R3 3 N006 150 noiseless
R4 N012 4 150 noiseless
.model YU D(Ron=1.1k Roff=1T Vfwd=1.15 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=1.1 epsilon=.1 noiseless)
.model DIN D(Ron=10 Roff=50Meg vfwd=900m epsilon=200m vrev=900m revepsilon=200m noiseless)
.model DC D(Ron=1k, Roff=1T Vfwd=1 ilimit=334u noiseless)
.model N VDMOS(Vto=-40m Kp=20m)
.model P VDMOS(Vto=40m Kp=20m pchan)
.ends LT1112
*
.subckt LT1113 1 2 3 4 5
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 430f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+3.9, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+3.89, .1)+1n*V(2)
C6 3 1 7p Rpar=200G noiseless
C7 1 4 7p noiseless Rpar=200G
C8 2 4 7p Rpar=200G noiseless
C9 3 2 7p Rpar=200G noiseless
A2 0 N003 0 0 0 0 N006 0 OTA g=100.8u Iout=10.869u Cout=2.78p en=4.5n enk=120 Vhigh=1e308 Vlow=-1e308
C10 N003 0 10f Rpar=100K noiseless
D2 3 1 DBIAS
D3 3 2 DBIAS
D4 N006 3 X
D5 4 N006 X
D1 N004 5 Y
D6 5 N004 Y
G2 0 N005 N006 0 1m
L1 N005 0 166<36> Rser=1.04k Rpar=26k Cpar=63.7f noiseless
D7 3 4 DP
G1 0 N004 N005 0 1<>
A3 2 1 0 0 0 0 0 0 OTA g=0 in=1f incm=1e-17*freq/(1+1e-12*freq**2)
.model X D(Ron=1K Roff=100G Vfwd=-1.22 epsilon=.3 noiseless)
.model Y D(Ron=10K Roff=1T Vfwd=0.8 epsilon=.1 noiseless)
.model N VDMOS(Vto=-220m Kp=55m)
.model P VDMOS(Vto=220m Kp=55m pchan)
.model DBIAS D(Roff=1T Ron=1k Vfwd=1 ilimit=300p noiseless)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=3.97m noiseless)
.ends LT1113
*
.subckt LT1116 1 2 3 4 5 6 7 8
A3 5 6 0 0 0 0 N010 0 SCHMITT Vt=1.5 Vh=0 tau=3n
B1 0 VD0 I=10u*dnlim(uplim(V(2),V(1)-2.4,.1), V(4)-.1,.1)+1n*V(2)
B2 VD0 0 I=10u*dnlim(uplim(V(3),V(1)-2.39,.1), V(4)-0.11, .1)+1n*V(3)
C1 VD0 0 .01f Rpar=100K noiseless
A1 0 VD0 0 0 0 0 VD1 0 OTA g=11m iout=75u Vlow=-1e308 Vhigh=1e308 Cout=1f
C5 1 7 .1p
C6 7 6 .1p
G5 0 X VD1 0 60n
D5 0 VD1 DLAT
G2 0 XN 0 VD1 60n
A2 N005 0 N010 0 0 0 VD1 0 OTA g=500u linear Vlow=-1e308 Vhigh=1e308
D1 0 N005 DLAT
C3 N005 0 1f
G3 0 N005 0 VD1 500<30>
C4 3 4 1.75p
C10 2 4 1.75p
D13 1 4 DP1
D14 1 6 DP2
D3 X 1 XU
D4 6 X XD
M1 1 VN 7 7 N temp=27
M2 6 VP 7 7 P temp=27
R6 VN X 4G
D16 VN 6 DVLU2
R7 VP X 4G
D17 6 VP DVLD
C7 1 8 .1p
C8 8 6 .1p
D7 XN 1 XU
D8 6 XN XD
M3 1 N007 8 8 N temp=27
M4 6 N008 8 8 P temp=27
R8 N007 XN 4G
D19 N007 6 DVLU2
R9 N008 XN 4G
D20 6 N008 DVLD
C11 1 3 1.75p
C12 1 2 1.75p
D6 1 3 DBIAS
D9 1 2 DBIAS
D10 1 5 DLATCH
A4 0 VD1 0 0 0 0 X 0 OTA g=80n asym isource=1u isink=0 Vlow=-1e308 Vhigh=1e308 Cout=.09f
A5 VD1 0 0 0 0 0 XN 0 OTA g=80n asym isource=1u isink=0 Vlow=-1e308 Vhigh=1e308 Cout=.09f
.model DBIAS D(Ron=10k Roff=10G Vfwd=1.35 epsilon=.1 ilimit=10u)
.model DLATCH D(Ron=1k Roff=10Meg Vfwd=1 epsilon=.1 ilimit=500u)
.model DP1 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=5m)
.model DP2 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=18.2m)
.model XU D(Ron=1k Roff=1.7G Vfwd=1 epsilon=.1)
.model XD D(Ron=1k Roff=637Meg Vfwd=8.5 epsilon=.1)
.model DVLU1 D(Ron=1.5G Roff=100G Vfwd=1.1 epsilon=2.5)
.model DVLU2 D(Ron= 5Meg Roff=100G Vfwd=3.5 epsilon=.1)
.model DVLD D(Ron= 5Meg Roff=100G Vfwd=-580m epsilon=.1)
.model DLAT D(Ron=1 Roff=10k Vfwd=560m Vrev=560m epsilon=5m revepsilon=5m)
.model N VDMOS(Vto= -300m kp=230m rds=2k)
.model P VDMOS(Vto= 400m Kp=580m rds=2k pchan )
.ends LT1116
*
.subckt LT1122 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2f ink=2
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-3.9,.1), V(4)+3.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-3.89,.1), V(4)+3.89, .1)+1n*V(2)
C6 3 1 2p Rpar=1T noiseless
C7 1 4 2p noiseless Rpar=1T
C8 2 4 2p Rpar=1T noiseless
C9 3 2 2p Rpar=1T noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=10.6u Iout=10.49u en=14n enk=210 Vlow=-1e308 Vhigh=1e308 Cout= 130f
C10 N004 0 31.33f Rpar=100K noiseless
D4 N007 3 X
D5 4 N007 X
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N006 N007 0 1m
L4 N006 0 25.9<EFBFBD> Cpar=1.3p Rser=2.29k Rpar=1.775193798449612403K noiseless
C1 N005 0 3.83f Rpar=1Meg noiseless
G4 0 N005 N006 0 1<>
.model X D(Ron=1K Roff=100G Vfwd=-2.5 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=2.0 epsilon=.1 noiseless)
.model N VDMOS(Vto=-330m Kp=50m)
.model P VDMOS(Vto=330m Kp=50m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=4.78m noiseless)
.ends LT1122
*
.subckt LT1124 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.3p ink=100
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.1,.1), V(4)+2.1, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.09,.1), V(4)+2.09, .1)+1n*V(2)
C6 3 1 .1p
C7 1 4 .1p
C8 2 4 .1p
C9 3 2 .1p
A2 0 N004 0 0 0 0 N007 0 OTA g=.34m Iout=18.7u en=2.7n enk=2.3 Vlow=-1e308 Vhigh=1e308 Cout= 4.1p
C10 N004 0 1.5f Rpar=100K noiseless
D4 N007 3 X
D5 4 N007 X
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N006 N007 0 1m
L4 N006 0 141<34> Cpar=5.89p Rser=1.96k Rpar=2.0416666666666666667K noiseless
C2 N005 0 .457p Rpar=1Meg Rser=244.5k noiseless
G1 0 N005 N006 0 1<>
D2 2 1 DIN
.model X D(Ron=1K Roff=100G Vfwd=-1.26 epsilon=.1 noiseless)
.model Y D(Ron=100 Roff=1T Vfwd=.83 epsilon=.1 noiseless)
.model N VDMOS(Vto=-320m Kp=40m)
.model P VDMOS(Vto=320m Kp=40m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.252m noiseless)
.model DIN D(Roff=1T Ron=1k Vfwd=1 Vrev=1 noiseless)
.ends LT1124
*
.subckt LT1126 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.3p ink=100
M1 3 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.1,.1), V(4)+2.1, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.09,.1), V(4)+2.09, .1)+1n*V(2)
C6 3 1 .1p
C7 1 4 .1p
C8 2 4 .1p
C9 3 2 .1p
A2 0 N004 0 0 0 0 N008 0 OTA g=412.3m Iout=14.5m en=2.7n enk=2.3 Vlow=-1e308 Vhigh=1e308 Cout= 4.15u
C10 N004 0 22.7f Rpar=100K noiseless
D4 N006 3 X
D5 4 N006 X
D1 N006 5 Y
D6 5 N006 Y
D7 3 4 DP
D2 2 1 DIN
G3 0 N007 N008 0 1m
L1 N007 0 144.7<EFBFBD> Cpar=.285p Rpar=11k Rser=1.1k noiseless
G2 0 N005 N007 0 1m
L2 N005 0 144.7<EFBFBD> Cpar=.285p Rpar=11k Rser=1.1k noiseless
G1 0 N006 N005 0 82.46n
C2 N006 0 2.63e-17
D3 0 N008 DCL
.model X D(Ron=1K Roff=100G Vfwd=-1.2 epsilon=.1 noiseless)
.model Y D(Ron=100 Roff=1T Vfwd=.83 epsilon=.1 noiseless)
.model N VDMOS(Vto=-320m Kp=40m)
.model P VDMOS(Vto=320m Kp=40m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.552m noiseless)
.model DIN D(Roff=1T Ron=1k Vfwd=1 Vrev=1 noiseless)
.model DCL D(Roff=10k Ron=.1 Vfwd=20m Vrev=20m epsilon=4m noiseless)
.ends LT1126
*
.subckt LT1128 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.9p ink=250
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N008 I=10u*dnlim(uplim(V(1),V(3)-2.7,.1), V(4)+2.7, .1)+1n*V(1)
B2 N008 0 I=10u*dnlim(uplim(V(2),V(3)-2.69,.1), V(4)+2.69, .1)+1n*V(2)
C6 3 1 2.5p Rpar=1.2G noiseless
C7 1 4 2.5p noiseless Rpar=1.2G
C8 2 4 2.5p Rpar=1.2G noiseless
C9 3 2 2.5p Rpar=1.2G noiseless
A2 0 N008 0 0 0 0 X 0 OTA g=630u Iout=78.9u en=.85n+freq*36u/(8k*freq+(freq-400k)**2) Vlow=-1e308 Vhigh=1e308 Cout= 5.9p enk=3
C10 N008 0 1f Rpar=100K noiseless
D4 X 3 X
D5 4 X X
D1 N007 5 Y
D6 5 N007 Y
D7 3 4 DP
C11 2 1 12.5p Rpar=20k noiseless
D2 2 1 DIN
G1 0 N004 X 0 1m
L3 N004 0 100.47<EFBFBD> Rser=1.01636k Rpar=62.1246943765281k noiseless
G2 0 N006 N005 0 1m
L4 N006 0 1.86m Cpar=2p Rser=1.39k Rpar=3.564102564102564k noiseless
G3 0 N005 N004 0 1m
L5 N005 0 2.56m noiseless Rpar=2.086956521739131k Cpar=.103n Rser=1.92k
C1 N007 0 1.67p Rpar=1Meg Rser=58.823k noiseless
G4 0 N007 N006 0 1<>
.model X D(Ron=1K Roff=100G Vfwd=-2 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=1.375 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=31m)
.model P VDMOS(Vto=200m Kp=31m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=6.783m noiseless)
.model DIN D(Ron=100 Roff=1T Vfwd=1.8 Vrev=1.8 noiseless)
.ends LT1128
*
.subckt LTC1150 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.8f
M1 3 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C1 N006 0 400f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)-0.3, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 1p Rser=100 noiseless
C10 N007 0 1f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N006 YD
D7 3 4 DP
G3 N004 0 N004 3 600m dir=1 vto=-.5
G6 0 N004 4 N004 600m dir=1 vto=-.6
R4 3 N004 1G
R5 N004 4 1G
G2 0 N006 N008 0 1<>
C2 3 1 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 1 4 1p Rser=100 noiseless
R3 3 4 22Meg noiseless
G4 0 N008 N004 0 1m
L2 N008 0 436<33> Rser=1.3703703703703703704k Rpar=3.7k Cpar=6.63p noiseless
C8 N005 0 2.6p noiseless Rser=6.7k Rpar=500k
G1 0 N004 N005 0 20.5m
A2 0 N007 0 0 0 0 N005 0 OTA g=200u linear en=15n+(43n+ 1n*min(max(freq,350),600)**.83)/ (1.3+ (max(freq,600)/600)**1.2 +1e-14*freq**4) Vlow=-10.4 Vhigh=10.4
C12 N004 0 70n Rser=6 noiseless
.model YU D(Ron=1.5K Roff=1T Vfwd=.2 epsilon=.3 noiseless)
.model YD D(Ron=38k Roff=1T Vfwd=.1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=20m)
.model P VDMOS(Vto=200m Kp=30m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=313.73u noiseless)
.ends LTC1150
*
.subckt LTC1151 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2.2f
M1 3 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C1 N006 0 200f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)-1.6,.1), V(4)-0.3, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)-1.59,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 1p Rser=100 noiseless
C10 N007 0 1f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N006 YD
D7 3 4 DP
G3 N004 0 N004 3 600m dir=1 vto=-.5
G6 0 N004 4 N004 600m dir=1 vto=-.6
R4 3 N004 1G
R5 N004 4 1G
G2 0 N006 N008 0 1<>
C2 3 1 1p Rser=100 noiseless
C6 2 4 1p Rser=100 noiseless
C7 1 4 1p Rser=100 noiseless
R3 3 4 22Meg noiseless
G4 0 N008 N004 0 1m
L2 N008 0 383<38> Rser=1.2k Rpar=6k Cpar=2p noiseless
C8 N005 0 1p noiseless Rser=10k Rpar=500k
G1 0 N004 N005 0 2.05m
C12 N004 0 1.3n Rser=120 noiseless
A2 0 N007 0 0 0 0 N005 0 OTA g=20u linear en=15n+ 100n/ (1.5+ (max(freq,10)/10)**.8) Vlow=-1.62 Vhigh=1.62
.model YU D(Ron=1.5K Roff=1T Vfwd=.2 epsilon=.3 noiseless)
.model YD D(Ron=38k Roff=1T Vfwd=.1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=20m)
.model P VDMOS(Vto=200m Kp=30m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=313.73u noiseless)
.ends LTC1151
*
.subckt LTC1152 1 2 3 4 5 6 7 8
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.6f
B1 0 N009 I=10u*dnlim(uplim(V(1),V(3)+.4,.1), V(4)-.4, .1)+1n*V(1)
B2 N009 0 I=10u*dnlim(uplim(V(2),V(3)+.41,.1), V(4)-.41, .1)+1n*V(2)
C9 3 2 1p Rpar=1T noiseless
C10 N009 0 10f Rpar=100K noiseless
M1 3 N011 N013 N013 N temp=27
M2 4 N014 N013 N013 P temp=27
C3 3 5 1p Rpar=1G noiseless
D5 N011 N013 YU
D6 N013 N014 YD
R2 3 N012 2G noiseless
R3 N012 4 2G noiseless
A3 7 3 0 0 0 0 N010 0 SCHMITT Vt=-2 Vh=10m tau=50u
A4 N010 0 N012 N012 N012 N012 N011 N012 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-15 Rout=1k Cout=.1p
A5 N010 0 N012 N012 N012 N014 N012 N012 SCHMITT Vt=.5 Vh=10m Vhigh=15 Vlow=0 Rout=1k Cout=.1p
C4 5 4 1p Rpar=1G noiseless
C14 0 6 17p Rpar=6k noiseless
C1 2 4 1p Rpar=1T noiseless
C6 3 1 1p Rpar=1T noiseless
C7 1 4 1p Rpar=1T noiseless
A7 6 0 N010 0 0 0 N012 0 OTA g=3.2m iout=500u Cout=560p Vlow=-1e308 Vhigh=1e308
G1 N012 0 N012 3 500m dir=1 vto=.01
G2 0 N012 4 N012 500m dir=1 vto=.01
G8 3 N003 N005 3 1
G9 3 N003 8 3 2
G10 N005 3 N003 3 1
G11 8 3 N003 3 2
R6 N003 3 1G noiseless
C12 N005 3 1p Rpar=1Meg noiseless
S3 N005 N004 N010 0 SHTCP
C11 8 3 1p Rpar=100Meg noiseless
R1 4 N007 1Meg noiseless
D7 3 N007 DREF
R8 N004 3 100Meg noiseless
S4 4 N004 N004 N007 SREG
D8 3 8 DCP
G3 0 6 0 N015 167<36>
D1 3 7 DSIN
S1 N013 5 3 4 SRO
C2 3 N013 1p Rpar=1G noiseless
C15 N013 4 1p Rpar=1G noiseless
A2 0 N009 0 0 0 0 N015 0 OTA g=1m iout=100u en=130n/(1+ (freq/2e3)**1.9) Rout=1k Cout=50p Vlow=-1e308 Vhigh=1e308
S2 3 4 N010 0 SPOW
.model YU D(Ron=100 Roff=1T Vfwd=.55 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.65 epsilon=.1 noiseless)
.model N VDMOS(Vto=-100m Kp=50m)
.model P VDMOS(Vto=100m Kp=50m pchan)
.model DSIN D(Ron=10k Roff=1G Vfwd=.7 epsilon=10m ilimit=1u noiseless)
.model shutD SW(Ron=1T Roff=10k vt=.5 vh=-.1)
.model DS D(Ron=100 Roff=1G Vfwd=.2 Vrev=.2 epsilon=0.1 revepsilon=0.1 noiseless)
.model SPOW SW(level=2 Ron=500 Roff=1G vt=.5 vh=-.1 ilimit=2.06m noiseless)
.model SREG SW(level=2 Ron=100 Roff=1G vt=-.1 vh=-10m noiseless)
.model SRO SW(level=2 Ron=10 Roff=400 vt=4.7 vh=-1.2 noiseless)
.model DREF D(Ron=1k Roff=100Meg vfwd=5.2 epsilon=10m noiseless)
.model DCP D(Ron=100 Roff=100Meg vfwd=.7 epsilon=100m noiseless)
.model SHTCP SW(level=2 Ron=28k Roff=1G vt=.5 vh=-.1 ilimit=.2m noiseless)
.ends LTC1152
*
.subckt LT1167 1 2 3 4 5 6 7 8
A2 0 N014 0 0 0 0 N017 0 OTA g=27.8u Iout=5u Cout=270f en=5.3n enk=10 Vhigh=1e308 Vlow=-1e308
DU1 N017 7 XU
DD1 4 N017 XD
DU2 N006 7 XU
DD2 4 N006 XD
G2 0 N003 N006 0 1m
C3 N003 0 100f Rpar=1k
R6 N004 1 24.7k noiseless
R7 1 8 1t noiseless
R8 8 N018 24.7k noiseless
C5 7 2 .8p Rpar=2T noiseless
C6 7 1 .1p Rpar=2T noiseless
C7 7 3 .8p Rpar=2T noiseless
C8 2 4 .8p Rpar=2T noiseless
C9 1 4 .1p Rpar=2T noiseless
C10 3 4 .8p Rpar=2T noiseless
C11 7 8 .1p Rpar=2T noiseless
C12 8 4 .1p Rpar=2T noiseless
DU3 N011 7 X2U
DD3 4 N011 X2D
G1 0 N009 N011 0 1<>
CG1 N009 0 160f Rpar=1Meg noiseless
R1 N004 N005 10k noiseless
R2 N018 N012 10k noiseless
M1 7 N010 6 6 N temp=27
M2 4 N010 6 6 P temp=27
D1 N010 6 YU
D2 6 N010 YD
A1 0 N002 0 0 0 0 N006 0 OTA g=27.8u Iout=5u Cout=270f en=5.3n enk=10 Vhigh=1e308 Vlow=-1e308
A0 2 3 0 0 0 0 0 0 OTA g=0 in=57f ink=37
C13 N002 0 50f Rpar=100K noiseless
C15 N014 0 50f Rpar=100K noiseless
CG4 7 6 1p
CG5 6 4 1p
M3 7 N003 N004 N004 NINT temp=27
M4 4 N003 N004 N004 PINT temp=27
M5 7 N016 N018 N018 NINT temp=27
M6 4 N016 N018 N018 PINT temp=27
G3 0 N016 N017 0 1m
C17 N016 0 100f Rpar=1k noiseless
A3 N005 N012 0 0 0 0 N011 0 OTA g=238.8u Iout=54.2u Cout=45p en=33.5n enk=16 Vlow=-1e308 Vhigh=1e308
C1 0 N004 1p
C18 N018 0 1p
C19 1 8 5p Rser=20 noiseless
C20 2 3 .8p
C21 N004 1 5p Rser=20 noiseless
C22 8 N018 5p Rser=20 noiseless
R3 N005 6 10k noiseless
R4 N012 5 10k noiseless
C2 0 N005 1p
C14 N012 0 1p
DB2 7 4 DP
G5 0 N010 N009 0 10<31>
CG2 N010 0 2p Rpar=100k noiseless
B1 0 N002 I=10u*dnlim(uplim(V(2)-.5,V(7)-1.79,.1), V(4)+1.29, .1)+1n*V(2)
B2 0 N014 I=10u*dnlim(uplim(V(3)-.5,V(7)-1.8,.1), V(4)+1.3, .1)+1n*V(3)
B3 N002 0 I=10u*dnlim(uplim(V(1),V(7)-1.79,.1), V(4)+.5, .1)+1n*V(1)
B4 N014 0 I=10u*dnlim(uplim(V(8),V(7)-.5,.1), V(4)+.5, .1)+1n*V(8)
.model XU D(Ron=1k Roff=100g Vfwd=0 epsilon=100m noiseless)
.model XD D(Ron=1k Roff=100g Vfwd=0 epsilon=100m noiseless)
.model DP D(Ron=1k Vfwd=.6 epsilon=100m ilimit=405u noiseless)
.model NINT VDMOS(Vto=-40m Kp=100m)
.model PINT VDMOS(Vto=40m Kp=100m pchan)
.model X2U D(Ron=1k Roff=100G Vfwd=-.9 epsilon=.1 noiseless)
.model X2D D(Ron=1k Roff=100G Vfwd=-.65 epsilon=.1 noiseless)
.model YU D(Ron=50 Roff=1G Vfwd=.63 epsilon=.1 noiseless)
.model YD D(Ron=500 Roff=1G Vfwd=.65 epsilon=.1 noiseless)
.model N VDMOS(Vto=-80m Kp=100m Rds=1Meg)
.model P VDMOS(Vto=80m Kp=100m Rds=1Meg pchan)
.model DDROP D(Roff=100k Ron=5 Vfwd=150m Vrev=1 epsilon=.1 noiseless)
.ends LT1167
*
.subckt LT1168 1 2 3 4 5 6 7 8
A2 0 N019 0 0 0 0 N016 0 OTA g=27.8u Iout=400n Cout=800f en=7n enk=10 Vhigh=1e308 Vlow=-1e308
DU1 N016 7 XU
DD1 4 N016 XD
DU2 N006 7 XU
DD2 4 N006 XD
G2 0 N003 N006 0 1m
C3 N003 0 50f Rpar=1k
R6 N004 8 24.7k noiseless
R7 8 1 1t noiseless
R8 1 N017 24.7k noiseless
C5 7 2 .8p Rpar=2T noiseless
C6 7 8 .8p Rpar=2T noiseless
C7 7 3 .8p Rpar=2T noiseless
C8 2 4 .8p Rpar=2T noiseless
C9 8 4 .8p Rpar=2T noiseless
C10 3 4 .8p Rpar=2T noiseless
C11 7 1 .8p Rpar=2T noiseless
C12 1 4 .8p Rpar=2T noiseless
DU3 N011 7 X2U
DD3 4 N011 X2D
G1 0 N009 N010 0 1<>
CG1 N009 0 4p Rpar=1Meg noiseless
R1 N004 N005 30k noiseless
R2 N017 N012 30k noiseless
M1 7 N009 6 6 N temp=27
M2 4 N009 6 6 P temp=27
D1 N009 6 YU
D2 6 N009 YD
A1 0 N002 0 0 0 0 N006 0 OTA g=27.8u Iout=400n Cout=800f en=7n enk=10 Vhigh=1e308 Vlow=-1e308
A0 2 3 0 0 0 0 0 0 OTA g=0 in=29f ink=54
B1 0 N002 I=10u*dnlim(uplim(V(2),V(7)-1.09,.1), V(4)+1.79, .1)+1n*V(2)
C13 N002 0 5f Rpar=100K noiseless
C15 N019 0 5f Rpar=100K noiseless
CG4 7 6 1p
CG5 6 4 1p
M3 7 N003 N004 N004 NINT temp=27
M4 4 N003 N004 N004 PINT temp=27
M5 7 N015 N017 N017 NINT temp=27
M6 4 N015 N017 N017 PINT temp=27
G3 0 N015 N016 0 1m
C17 N015 0 50f Rpar=1k noiseless
A3 N005 N012 0 0 0 0 N011 0 OTA g=238.8u Iout=17.7u Cout=35p en=80n enk=2.5 Vlow=-1e308 Vhigh=1e308
C19 8 1 5p Rser=10 noiseless
C20 2 3 .8p
C21 N004 8 5p Rser=10 noiseless
C22 1 N017 8p Rser=10 noiseless
R3 N005 6 30k noiseless
R4 N012 5 30k noiseless
C2 0 N005 .1p
C14 N012 0 .1p
DB2 7 4 DP
G4 N002 0 8 0 10<31>
B2 0 N019 I=10u*dnlim(uplim(V(3),V(7)-1.1,.1), V(4)+1.8, .1)+1n*V(3)
G6 N019 0 1 0 10<31>
G5 0 N010 N011 0 1m
L1 N010 0 2.49m Rpar=2.78k Rser=1.56k cpar=6.4p noiseless
C1 0 N004 1p Rser=10 noiseless
C4 N017 0 1p Rser=10 noiseless
C18 6 N009 6p Rser=300k noiseless
C16 N005 N012 .1p
.model XU D(Ron=1k Roff=100g Vfwd=0 epsilon=100m noiseless)
.model XD D(Ron=1k Roff=100g Vfwd=0 epsilon=100m noiseless)
.model DP D(Ron=500 Vfwd=.6 epsilon=100m ilimit=221.4u noiseless)
.model NINT VDMOS(Vto=-15m Kp=2.8m)
.model PINT VDMOS(Vto=15m Kp=2.8m pchan)
.model X2U D(Ron=1k Roff=100G Vfwd=-.8 epsilon=.1 noiseless)
.model X2D D(Ron=1k Roff=100G Vfwd=-.65 epsilon=.1 noiseless)
.model YU D(Ron=50 Roff=1G Vfwd=1.2 epsilon=.1 noiseless)
.model YD D(Ron=500 Roff=1G Vfwd=1.4 epsilon=.1 noiseless)
.model N VDMOS(Vto=-80m Kp=40m)
.model P VDMOS(Vto=80m Kp=40m pchan)
.model DDROP D(Roff=100k Ron=5 Vfwd=150m Vrev=1 epsilon=.1 noiseless)
.ends LT1168
*
.subckt LT1169 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1f incm=3.5e-18*freq/(1+1e-12*freq**2)
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+3.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+3.8, .1)+1n*V(2)
C6 3 1 .75p Rpar=2.0e15 noiseless
C7 1 4 .75p noiseless Rpar=2.0e15
C8 2 4 .75p Rpar=2.0e15 noiseless
C9 3 2 .75p Rpar=2.0e15 noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=94.5u Iout=11.31u en=6n enk=60 Vlow=-1e308 Vhigh=1e308 Cout= 2.69p
C10 N004 0 20f Rpar=100K noiseless
D4 N007 3 X
D5 4 N007 X
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N006 N007 0 1m
L4 N006 0 132.9<EFBFBD> Cpar=8.04p Rser=3.14k Rpar=1.467289719626168224K noiseless
C2 N005 0 384f noiseless Rser=481k Rpar=1Meg
G1 0 N005 N006 0 1<>
R3 2 1 10T noiseless
D2 2 4 DBIAS
D3 1 4 DBIAS
.model X D(Ron=1K Roff=100G Vfwd=-1.24 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=1.5 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=43m)
.model P VDMOS(Vto=200m Kp=43m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=4.44m noiseless)
.model DBIAS D(Ron=10T Roff=100T epsilon=.1 Vfwd=5 noiseless)
.ends LT1169
*
.subckt LT1178 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=10f ink=120
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C1 N005 0 12.8p Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.0,.1), V(4)-0.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.99,.1), V(4)-0.41, .1)+1n*V(2)
C6 3 1 .5p Rpar=24G noiseless
C7 1 4 .5p noiseless Rpar=24G
C8 2 4 .5p Rpar=24G noiseless
C9 3 2 .5p Rpar=24G noiseless
A2 0 N004 0 0 0 0 X 0 OTA g=14.8u Iout=923n Cout=36.9p en=49n enk=.5 Vhigh=1e308 Vlow=-1e308
C10 N004 0 13.15p Rpar=100K noiseless
D2 3 1 DBIAS
D3 3 2 DBIAS
D4 X 3 XU
D5 4 X XD
D1 N005 5 YU
D6 5 N005 YD
G1 0 N005 N009 0 1<>
G2 0 N008 N010 0 1m
G4 0 N009 N008 0 1m
G5 0 N010 X 0 1m
R3 2 1 2G noiseless
D7 3 4 DP
L3 N009 0 3.18m Rser=1k noiseless
L2 N010 0 11m Rser=2.78k Rpar=1.5617977528089887641k Cpar=636p noiseless
C2 5 N005 6p Rser=10k noiseless
L1 N008 0 11m Rser=2.78k Rpar=1.5617977528089887641k Cpar=636p noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.585 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-23.4m epsilon=.1 noiseless)
.model YU D(Ron=10K Roff=1T Vfwd=1.9 epsilon=.1 noiseless)
.model YD D(Ron=10k Roff=1T Vfwd=1.22 epsilon=.1 noiseless)
.model N VDMOS(Vto=-3m Kp=9m)
.model P VDMOS(Vto=8m Kp=20m pchan)
.model DBIAS D(Roff=1T Ron=1k Vfwd=1 ilimit=3n noiseless)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=12.8u noiseless)
.ends LT1178
*
.subckt LT1187 1 2 3 4 5 6 7 8
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+2.39, .1)+1n*V(2)
M1 5 N015 4 4 NI1 temp=27
C2 3 5 2p Rpar=100k noiseless
D5 N015 4 DLIMNB
C11 5 4 2p Rpar=100k
A4 0 N005 0 0 0 0 N004 0 OTA g=1m linear en=62.6n enk=791 Vlow=-.5 Vhigh=.4
A5 N004 0 N014 N014 N014 N014 N009 N014 OTA g=550n linear cout=5f Vlow=-1e308 Vhigh=1e308
G1 4 N015 N009 N014 60n
D9 N009 N014 DLIM
C13 3 4 1000p
C1 N004 0 2.8p Rpar=1k noiseless
G2 0 N014 4 0 .5m
G4 0 N014 3 0 .5m
C18 N014 0 200p Rpar=1K noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.46p ink=614
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+2.4, .1)+1n*V(1)-27.399n
S1 N006 4 N016 0 SBIAS
C4 3 2 1p Rser=100 Rpar=50Meg noiseless
R4 2 1 100k noiseless
R5 6 7 100k noiseless
A6 8 3 0 0 0 0 N016 0 SCHMITT trise=100n tfall=100n vt=-2.1 vh=10m
D13 3 8 DSHUT
S8 4 N015 0 N016 SHUT1
D3 2 N006 DBIAS
D19 3 N006 DPOW2
A2 6 7 0 0 0 0 0 0 OTA g=0 in=1.46p ink=614
M2 3 N010 5 5 NI2 temp=27
D8 N010 N012 DLIMNT
R1 5 N012 500k
C9 N015 4 1f Rser=1k noiseless
C3 N010 5 100f
S4 4 N012 N009 N014 SNPN
C7 N010 N009 1.15f
C19 N012 4 100f
C20 3 N010 10f
D21 N010 5 Y
S6 N012 4 0 N016 SHUT2
S7 N010 4 0 N016 SHUT2
C21 N006 4 1p
D1 3 N010 DMB
C17 N010 N012 8p Rser=1 noiseless
C22 3 8 1p
C5 3 1 1p Rser=100 Rpar=50Meg noiseless
C6 3 6 1p Rser=100 Rpar=50Meg noiseless
C8 3 7 1p Rser=100 Rpar=50Meg noiseless
C12 4 2 1p Rser=100 Rpar=20Meg noiseless
C14 4 1 1p Rser=100 Rpar=20Meg noiseless
C15 4 6 1p Rser=100 Rpar=20Meg noiseless
C16 4 7 1p Rser=100 Rpar=20Meg noiseless
D2 3 4 DPOW1
C23 N008 0 3f Rpar=200K noiseless
B3 N008 0 I=10.1u*dnlim(uplim(V(7),V(3)-1.39,.1), V(4)+2.39, .1)+1n*V(7)
B4 0 N008 I=10.1u*dnlim(uplim(V(6),V(3)-1.4,.1), V(4)+2.4, .1)+1n*V(6)
A3 0 N008 0 0 0 0 N004 0 OTA g=1m linear Vlow=-.5 Vhigh=.4
C10 N005 0 3f Rpar=200K noiseless
D4 N005 0 DINLIMA
D6 N008 0 DINLIMB
D7 1 N006 DBIAS
D10 6 N006 DBIAS
D11 7 N006 DBIAS
D12 3 N006 DPOW3
.model SBIAS SW(level=2 Ron=10 Roff=1G vt=.5 vh=-.2 noiseless)
.model DBIAS D(Ron=620k Roff=1G vfwd=-6.3 epsilon=.2 ilimit=56n noiseless)
.model DSHUT D(Ron=1k Roff=110k Vfwd=1.7 epsilon=.1 ilimit=20u noiseless)
.model SPOW SW(level=2 Ron=10 Roff=1Meg vt=.5 vh=-.2 ilimit=1f noiseless)
.model DPOW1 D(Ron=1k Roff=1G vfwd=1 epsilon=.1 ilimit=.614m noiseless)
.model DPOW2 D(Ron=100 Roff=1G vfwd=1 epsilon=.1 ilimit= 1.2m noiseless)
.model DPOW3 D(Ron=1.2k Roff=1G Vfwd=.5 epsilon=.1 noiseless)
.model NI1 VDMOS(Vto=300m kp=70m lambda=.001)
.model NI2 VDMOS(Vto=400m kp=70m lambda=.001)
.model DLIM D(Ron=1k Roff=70Meg Vfwd=1 Vrev=1 epsilon=50m revepsilon=50m noiseless)
.model DLIMNB D(Ron=100k Roff=100Meg Vfwd=1.2 Vrev=-300m epsilon=.1 revepsilon=10m noiseless)
.model DLIMNT D(Ron=100 Roff=100Meg Vfwd=1 Vrev=2 epsilon=.1 revepsilon=.1 noiseless)
.model DINLIMA D(Ron=100 Roff=200k Vfwd=380m Vrev=380m epsilon=10m revepsilon=10m noiseless)
.model DINLIMB D(Ron=100 Roff=200k Vfwd=390m Vrev=390m epsilon=10m revepsilon=10m noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1 Roff=100G vt=-.8 vh=-100m noiseless)
.model SNPN SW(Ron=10 Roff=1Meg vt=170m vh=-200m noiseless)
.model DMB D(Ron=10 Roff=1Meg vfwd=.1 epsilon=.1 ilimit=100u noiseless)
.model Y D(Ron=4k Roff=1g vfwd=.95 epsilon=.1 noiseless)
.ends LT1187
*
.subckt LT1189 1 2 3 4 5 6 7 8
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+2.39, .1)+1n*V(2)
M1 5 N015 4 4 NI1 temp=27
C2 3 5 2p Rpar=100k noiseless
D5 N015 4 DLIMNB
C11 5 4 2p Rpar=100k
A4 0 N005 0 0 0 0 N004 0 OTA g=1m iout=110u en=29.4n enk=385 Vlow=-1 Vhigh=1
A5 N004 0 N014 N014 N014 N014 N009 N014 OTA g=1.3u linear cout=5f Vlow=-1e308 Vhigh=1e308
G1 4 N015 N009 N014 60n
D9 N009 N014 DLIM
C13 3 4 1000p
C1 N004 0 2.6p Rpar=1k noiseless
G2 0 N014 4 0 .5m
G4 0 N014 3 0 .5m
C18 N014 0 200p Rpar=1K noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.2p ink=673
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+2.4, .1)+1n*V(1)-11.599n
S1 N006 4 N016 0 SBIAS
C4 3 2 1p Rser=100 Rpar=50Meg noiseless
R4 2 1 100k noiseless
R5 6 7 100k noiseless
A6 8 3 0 0 0 0 N016 0 SCHMITT trise=100n tfall=100n vt=-2.1 vh=10m
D13 3 8 DSHUT
S8 4 N015 0 N016 SHUT1
D3 2 N006 DBIAS
D19 3 N006 DPOW2
A2 6 7 0 0 0 0 0 0 OTA g=0 in=1.2p ink=673
M2 3 N010 5 5 NI2 temp=27
D8 N010 N012 DLIMNT
R1 5 N012 500k
C9 N015 4 .1f Rser=1k noiseless
C3 N010 5 100f
S4 4 N012 N009 N014 SNPN
C7 N010 N009 .65f
C19 N012 4 100f
C20 3 N010 10f
D21 N010 5 Y
S6 N012 4 0 N016 SHUT2
S7 N010 4 0 N016 SHUT2
C21 N006 4 1p
D1 3 N010 DMB
C17 N010 N012 8p Rser=1 noiseless
C22 3 8 1p
C5 3 1 1p Rser=100 Rpar=50Meg noiseless
C6 3 6 1p Rser=100 Rpar=50Meg noiseless
C8 3 7 1p Rser=100 Rpar=50Meg noiseless
C12 4 2 1p Rser=100 Rpar=20Meg noiseless
C14 4 1 1p Rser=100 Rpar=20Meg noiseless
C15 4 6 1p Rser=100 Rpar=20Meg noiseless
C16 4 7 1p Rser=100 Rpar=20Meg noiseless
D2 3 4 DPOW1
C23 N008 0 3f Rpar=200K noiseless
B3 N008 0 I=10.1u*dnlim(uplim(V(7),V(3)-1.39,.1), V(4)+2.39, .1)+1n*V(7)
B4 0 N008 I=10.1u*dnlim(uplim(V(6),V(3)-1.4,.1), V(4)+2.4, .1)+1n*V(6)
A3 0 N008 0 0 0 0 N004 0 OTA g=1m iout=110u Vlow=-1 Vhigh=1
C10 N005 0 3f Rpar=200K noiseless
D4 N005 0 DINLIMA
D6 N008 0 DINLIMB
D7 1 N006 DBIAS
D10 6 N006 DBIAS
D11 7 N006 DBIAS
D12 3 N006 DPOW3
.model SBIAS SW(level=2 Ron=10 Roff=1G vt=.5 vh=-.2 noiseless)
.model DBIAS D(Ron=620k Roff=1G vfwd=-6.3 epsilon=.2 ilimit=56n noiseless)
.model DSHUT D(Ron=1k Roff=110k Vfwd=1.7 epsilon=.1 ilimit=20u noiseless)
.model SPOW SW(level=2 Ron=10 Roff=1Meg vt=.5 vh=-.2 ilimit=1f noiseless)
.model DPOW1 D(Ron=1k Roff=1G vfwd=1 epsilon=.1 ilimit=.614m noiseless)
.model DPOW2 D(Ron=100 Roff=1G vfwd=1 epsilon=.1 ilimit= 1.2m noiseless)
.model DPOW3 D(Ron=1.2k Roff=1G Vfwd=.5 epsilon=.1 noiseless)
.model NI1 VDMOS(Vto=300m kp=70m lambda=.001)
.model NI2 VDMOS(Vto=400m kp=70m lambda=.001)
.model DLIM D(Ron=1k Roff=70Meg Vfwd=1 Vrev=1 epsilon=50m revepsilon=50m noiseless)
.model DLIMNB D(Ron=100k Roff=100Meg Vfwd=1.2 Vrev=-300m epsilon=.1 revepsilon=10m noiseless)
.model DLIMNT D(Ron=100 Roff=100Meg Vfwd=1 Vrev=2 epsilon=.1 revepsilon=.1 noiseless)
.model DINLIMA D(Ron=100 Roff=200k Vfwd=170m Vrev=170m epsilon=10m revepsilon=10m noiseless)
.model DINLIMB D(Ron=100 Roff=200k Vfwd=180m Vrev=180m epsilon=10m revepsilon=10m noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1 Roff=100G vt=-.8 vh=-100m noiseless)
.model SNPN SW(Ron=10 Roff=1Meg vt=170m vh=-200m noiseless)
.model DMB D(Ron=10 Roff=1Meg vfwd=.1 epsilon=.1 ilimit=100u noiseless)
.model Y D(Ron=4k Roff=1g vfwd=.95 epsilon=.1 noiseless)
.ends LT1189
*
.subckt LT1190 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=3.37p ink=4k
M1 3 N005 5 5 N temp=27
M2 4 N012 5 5 P temp=27
C3 3 5 4p
C4 5 4 4p
B1 0 N006 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.4, .1)
B2 N006 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.39, .1)
C6 3 1 1.1p Rpar=10Meg noiseless
C7 1 4 1.1p noiseless Rpar=10Meg
C8 2 4 1.1p Rpar=10Meg noiseless
C9 3 2 1.1p Rpar=10Meg noiseless
C10 N006 0 11.9f Rpar=100K noiseless
D1 N005 5 YU
D6 5 N012 YD
D7 3 4 DP
C11 2 1 1p Rpar=130k noiseless
A3 0 N009 0 0 0 0 N008 0 OTA g=.40u Iout=1.17u Cout=1.57f en=0 Vhigh=1e308 Vlow=-1e308
D2 N008 3 XU
D3 4 N008 XD
C2 N011 0 1.19p Rpar=1k noiseless
G3 0 N007 N008 0 1<>
L2 N007 0 3.29m Rser=1Meg noiseless
G1 0 N009 N011 0 1<>
C1 N009 0 1f Rpar=1Meg noiseless
A4 N004 0 N007 N007 N007 N007 N005 N007 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-12 Rout=10Meg Cout=50f
A5 N004 0 N007 N007 N007 N012 N007 N007 SCHMITT Vt=.5 Vh=10m Vhigh=12 Vlow=0 Rout=10Meg Cout=50f
R3 3 6 500k
A6 6 4 0 0 0 0 N004 0 SCHMITT Vt=1 Vh=10m tau=100n
S1 4 3 N004 0 IQ
A2 0 N006 N004 0 0 0 N011 0 OTA g=1m linear en=11n enk=200k Vlow=-1e308 Vhigh=1e308
.model XU D(Ron=1K Roff=100G Vfwd=-.95 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-23.4m epsilon=.1 noiseless)
.model YU D(Ron=100 Roff=1T Vfwd=.49 epsilon=.01 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.87 epsilon=.1 noiseless)
.model IQ SW(Vt=.5 Vh=-.3 Ron=1.5 Roff=10Meg ilimit= 30.445m level=2)
.model N VDMOS(Vto=-50m Kp=600m)
.model P VDMOS(Vto=50m Kp=200m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=1.3m noiseless)
.ends LT1190
*
.subckt LT1191 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=3.37p ink=4k
M1 3 N006 5 5 N temp=27
M2 4 N012 5 5 P temp=27
C3 3 5 4p
C4 5 4 4p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.4, .1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.39, .1)
C6 3 1 1p Rpar=10Meg noiseless
C7 1 4 1p noiseless Rpar=10Meg
C8 2 4 1p Rpar=10Meg noiseless
C9 3 2 1p Rpar=10Meg noiseless
C10 N004 0 6.36f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N012 YD
D7 3 4 DP
C11 2 1 1p Rpar=70k noiseless
A3 0 N011 0 0 0 0 N009 0 OTA g=.945u Iout=3.3u Cout=1.86f en=0 Vhigh=1e308 Vlow=-1e308
D2 N009 3 XU
D3 4 N009 XD
C2 N011 0 637f Rpar=1k noiseless
A4 N005 0 N007 N007 N007 N007 N006 N007 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-12 Rout=10Meg Cout=50f
A5 N005 0 N007 N007 N007 N012 N007 N007 SCHMITT Vt=.5 Vh=10m Vhigh=12 Vlow=0 Rout=10Meg Cout=50f
R3 3 6 500k
A6 6 4 0 0 0 0 N005 0 SCHMITT Vt=1 Vh=10m tau=100n
S1 4 3 N005 0 IQ
A2 0 N004 N005 0 0 0 N011 0 OTA g=1m linear en=23n enk=1.6k Vlow=-1e308 Vhigh=1e308
G1 0 N008 N009 0 1m
G4 0 N007 N008 0 1m
L3 N008 0 5.09<EFBFBD> Rser=4k Cpar=318.3f Rpar=1.3333333333333333333k noiseless
L4 N007 0 5.09<EFBFBD> Rser=4k Cpar=318.3f Rpar=1.3333333333333333333k noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.95 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-23.4m epsilon=.1 noiseless)
.model YU D(Ron=100 Roff=1T Vfwd=.49 epsilon=.01 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.87 epsilon=.1 noiseless)
.model IQ SW(Vt=.5 Vh=-.3 Ron=1.5 Roff=10Meg ilimit= 30.345m level=2)
.model N VDMOS(Vto=-50m Kp=600m)
.model P VDMOS(Vto=50m Kp=200m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=1.3m noiseless)
.ends LT1191
*
.subckt LT1192 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=3.37p ink=4k
M1 3 N006 5 5 N temp=27
M2 4 N012 5 5 P temp=27
C3 3 5 4p
C4 5 4 4p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.4, .1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.39, .1)
C6 3 1 .9p Rpar=10Meg noiseless
C7 1 4 .9p noiseless Rpar=10Meg
C8 2 4 .9p Rpar=10Meg noiseless
C9 3 2 .9p Rpar=10Meg noiseless
C10 N004 0 7.92f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N012 YD
D7 3 4 DP
C11 2 1 .8p Rpar=16k noiseless
A3 0 N011 0 0 0 0 N009 0 OTA g=3.75u Iout=.47u Cout=1.52f en=0 Vhigh=1e308 Vlow=-1e308
D2 N009 3 XU
D3 4 N009 XD
C2 N011 0 19.48p Rpar=1k noiseless
A4 N005 0 N007 N007 N007 N007 N006 N007 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-12 Rout=10Meg Cout=50f
A5 N005 0 N007 N007 N007 N012 N007 N007 SCHMITT Vt=.5 Vh=10m Vhigh=12 Vlow=0 Rout=10Meg Cout=50f
R3 3 6 500k
A6 6 4 0 0 0 0 N005 0 SCHMITT Vt=1 Vh=10m tau=100n
S1 4 3 N005 0 IQ
A2 0 N004 N005 0 0 0 N011 0 OTA g=1m linear en=6.4n enk=10k Vlow=-1e308 Vhigh=1e308
G1 0 N008 N009 0 1m
G4 0 N007 N008 0 1m
L3 N008 0 17.8<EFBFBD> Rser=1.08k Cpar=20.9f Rpar=13.5k noiseless
L4 N007 0 4.08<EFBFBD> Rser=2.74k Cpar=234f Rpar=1.5747126436781609193k noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.95 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-23.4m epsilon=.1 noiseless)
.model YU D(Ron=100 Roff=1T Vfwd=.49 epsilon=.01 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.87 epsilon=.1 noiseless)
.model IQ SW(Vt=.5 Vh=-.3 Ron=1.5 Roff=10Meg ilimit= 30.345m level=2)
.model N VDMOS(Vto=-50m Kp=600m)
.model P VDMOS(Vto=50m Kp=200m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=1.3m noiseless)
.ends LT1192
*
.subckt LT1193 1 2 3 4 5 6 7 8
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.89, .1)+1n*V(2)
C10 N004 0 1f Rpar=100K noiseless
M1 5 N014 4 4 NI1 temp=27
C2 3 5 2p Rpar=100k noiseless
D5 N014 4 DLIMNB
C11 5 4 2p Rpar=100k
A4 0 N004 0 0 0 0 N005 0 OTA g=1m linear en=48.8n enk=505 Vlow=-1.11 Vhigh=1.11
A5 N005 0 N013 N013 N013 N013 N008 N013 OTA g=1.5u linear cout=12f Vlow=-1e308 Vhigh=1e308
G1 4 N014 N008 N013 60n
D9 N008 N013 DLIM
C13 3 4 1000p
C1 N005 0 3p Rpar=1k noiseless
G2 0 N013 4 0 .5m
G4 0 N013 3 0 .5m
C18 N013 0 200p Rpar=1K noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=3.4p ink=4k
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.9, .1)+1n*V(1)-13.33n
S1 N006 3 N015 0 SBIAS
C4 3 2 1p Rser=100 Rpar=9Meg noiseless
R4 2 1 100k noiseless
R5 6 7 100k noiseless
A6 8 3 0 0 0 0 N015 0 SCHMITT trise=100n tfall=100n vt=-2.1 vh=10m
D13 3 8 DSHUT
B5 N004 0 I=10u*dnlim(uplim(V(7),V(3)-1.39,.1), V(4)+1.89, .1)+1n*V(7)
B6 0 N004 I=10u*dnlim(uplim(V(6),V(3)-1.4,.1), V(4)+1.9, .1)+1n*V(6)
S8 4 N014 0 N015 SHUT1
D3 N006 2 DBIAS
D16 N006 1 DBIAS
D17 N006 6 DBIAS
D18 N006 7 DBIAS
D19 N006 4 DPOW2
A2 6 7 0 0 0 0 0 0 OTA g=0 in=3.4p ink=4k
M2 3 N009 5 5 NI2 temp=27
D8 N009 N011 DLIMNT
R1 5 N011 500k
C9 N014 4 1f Rser=1k noiseless
C3 N009 5 100f
S4 4 N011 N008 N013 SNPN
C7 N009 N008 3f
C19 N011 4 100f
C20 3 N009 10f
D21 N009 5 Y
S6 N011 4 0 N015 SHUT2
S7 N009 4 0 N015 SHUT2
C21 N006 4 1p
D1 3 N009 DMB
C17 N009 N011 8p Rser=1 noiseless
C22 3 8 1p
C5 3 1 1p Rser=100 Rpar=9Meg noiseless
C6 3 6 1p Rser=100 Rpar=9Meg noiseless
C8 3 7 1p Rser=100 Rpar=9Meg noiseless
C12 4 2 1p Rser=100 Rpar=6Meg noiseless
C14 4 1 1p Rser=100 Rpar=6Meg noiseless
C15 4 6 1p Rser=100 Rpar=6Meg noiseless
C16 4 7 1p Rser=100 Rpar=6Meg noiseless
D2 3 4 DPOW1
.model SBIAS SW(level=2 Ron=10 Roff=1G vt=.5 vh=-.2 noiseless)
.model DBIAS D(Ron=620k Roff=1G vfwd=-6.3 epsilon=.2 ilimit=400n noiseless)
.model DSHUT D(Ron=1k Roff=110k Vfwd=1.7 epsilon=.1 ilimit=20u noiseless)
.model SPOW SW(level=2 Ron=10 Roff=1Meg vt=.5 vh=-.2 ilimit=1f noiseless)
.model DPOW1 D(Ron=1k Roff=1G vfwd=1 epsilon=.1 ilimit=1.15m noiseless)
.model DPOW2 D(Ron=2.1k Roff=1G Vfwd=.5 epsilon=.1 noiseless)
.model NI1 VDMOS(Vto=300m kp=200m lambda=.001)
.model NI2 VDMOS(Vto=400m kp=200m lambda=.001)
.model DLIM D(Ron=1k Roff=70Meg Vfwd=1 Vrev=1 epsilon=50m revepsilon=50m noiseless)
.model DLIMNB D(Ron=100k Roff=100Meg Vfwd=1.2 Vrev=-300m epsilon=.1 revepsilon=10m noiseless)
.model DLIMNT D(Ron=100 Roff=100Meg Vfwd=1 Vrev=2 epsilon=.1 revepsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1 Roff=100G vt=-.8 vh=-100m noiseless)
.model SNPN SW(Ron=10 Roff=1Meg vt=200m vh=-180m noiseless)
.model DMB D(Ron=10 Roff=1Meg vfwd=.1 epsilon=.1 ilimit=100u noiseless)
.model Y D(Ron=4k Roff=1g vfwd=.9 epsilon=.1 noiseless)
.ends LT1193
*
.subckt LT1194 1 2 3 4 5 6 7 8
C10 N003 0 1f Rpar=100K noiseless
M1 5 N015 4 4 NI1 temp=27
C2 3 5 2p Rpar=100k noiseless
D5 N015 4 DLIMNB
C11 5 4 2p Rpar=100k
A4 0 N003 0 0 0 0 N002 0 OTA g=1m linear en=14.4n enk=856 Vlow=-1.11 Vhigh=1.11
A5 N002 0 N007 N007 N007 N007 N005 N007 OTA g=1.5u linear cout=6f Vlow=-1e308 Vhigh=1e308
G1 4 N015 N005 N007 60n
D9 N005 N007 DLIM
C13 3 4 1000p
C1 N002 0 1p Rpar=1k noiseless
G2 0 N007 4 0 .5m
C18 N007 0 200p Rpar=1K noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=3.4p ink=3.9k
C4 3 2 1p Rser=100 Rpar=9Meg noiseless
R4 2 1 100k noiseless
R5 6 FB 100k noiseless
B5 N003 0 I=10u*dnlim(uplim(V(FB),V(3)-1.39,.1), V(4)+1.89, .1)+1n*V(FB)
B6 0 N003 I=10u*dnlim(uplim(V(6),V(3)-1.4,.1), V(4)+1.9, .1)+1n*V(6)
D3 3 2 DBIAS
D16 3 1 DBIAS
D17 3 6 DBIAS
D18 3 FB DBIAS
D19 3 4 DPOW
A2 6 FB 0 0 0 0 0 0 OTA g=0 in=3.4p ink=3.9k
M2 3 N006 5 5 NI2 temp=27
D8 N006 N012 DLIMNT
R1 5 N012 500k
C9 N015 4 1f Rser=1k noiseless
C3 N006 5 100f
S4 4 N012 N005 N007 SNPN
C7 N006 N005 1f
C19 N012 4 100f
C20 3 N006 10f
D21 N006 5 Y
D1 3 N006 DMB
C17 N006 N012 8p Rser=1 noiseless
C5 3 1 1p Rser=100 Rpar=9Meg noiseless
C6 3 6 1p Rser=100 Rpar=9Meg noiseless
C8 3 FB 1p Rser=100 Rpar=9Meg noiseless
C12 4 2 1p Rser=100 Rpar=6Meg noiseless
C14 4 1 1p Rser=100 Rpar=6Meg noiseless
C15 4 6 1p Rser=100 Rpar=6Meg noiseless
C16 4 FB 1p Rser=100 Rpar=6Meg noiseless
R2 5 FB 4.5k
R3 FB 6 500
B3 N013 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.89, .1)+1n*V(2)
A3 0 N013 0 0 0 0 N002 0 OTA g=1m linear Vlow=-1.11 Vhigh=1.11
S1 0 N013 7 4 SWX1
S2 N013 0 8 4 SWX1
S6 N007 N008 7 4 SWVC
S3 N013 0 5 N008 SWVLIM
C21 3 N008 10f Rpar=1Meg noiseless
C23 N013 0 1f Rpar=100k noiseless
B1 0 N013 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.9, .1)+1n*V(1)-13.33n
G3 0 N007 3 0 .5m
C22 N011 4 10f Rpar=1Meg noiseless
S5 N011 N007 8 4 SWVC
S7 0 N013 N011 5 SWVLIM
C24 N007 N011 10f
C25 N008 N007 10f
C27 4 7 500f Rpar=500k noiseless
C28 4 8 500f Rpar=500k noiseless
.model DBIAS D(Ron=620k Roff=1G vfwd=-6.3 epsilon=.2 ilimit=400n noiseless)
.model DPOW D(Ron=4k Roff=1G Vfwd=.5 epsilon=.1 noiseless)
.model NI1 VDMOS(Vto=300m kp=200m lambda=.001)
.model NI2 VDMOS(Vto=400m kp=200m lambda=.001)
.model DLIM D(Ron=1k Roff=70Meg Vfwd=1 Vrev=1 epsilon=50m revepsilon=50m noiseless)
.model DLIMNB D(Ron=100k Roff=100Meg Vfwd=1.2 Vrev=-300m epsilon=.1 revepsilon=10m noiseless)
.model DLIMNT D(Ron=100 Roff=100Meg Vfwd=1 Vrev=2 epsilon=.1 revepsilon=.1 noiseless)
.model SNPN SW(Ron=10 Roff=1Meg vt=200m vh=-180m noiseless)
.model SWX1 SW(level=2 Ron=50k Roff=10G vt=-.1 vh=-.4 oneway)
.model SWVLIM SW(level=2 Ron=100 Roff=10Meg vt=-50m vh=-50m)
.model SWVC SW(level=2 Ron=1k Roff=300Meg vt=1.7 vh=-1.6)
.model DMB D(Ron=10 Roff=1Meg vfwd=.1 epsilon=.1 ilimit=100u noiseless)
.model Y D(Ron=4k Roff=1g vfwd=.9 epsilon=.1 noiseless)
.ends LT1194
*
.subckt LT1195 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2p ink=400
M1 3 N008 5 5 N temp=27
M2 4 N013 5 5 P temp=27
C3 3 5 4p
C4 5 4 4p
B1 0 N006 I=10u*dnlim(uplim(V(1),V(3)-.7,.1), V(4)+1.0, .1)
B2 N006 0 I=10u*dnlim(uplim(V(2),V(3)-.69,.1), V(4)+.99, .1)
C6 3 1 1.1p Rpar=40Meg noiseless
C7 1 4 1.1p noiseless Rpar=40Meg
C8 2 4 1.1p Rpar=40Meg noiseless
C9 3 2 1.1p Rpar=40Meg noiseless
C10 N006 0 3f Rpar=100K noiseless
D1 N008 5 Y
D6 5 N013 Y
D7 3 4 DP
C11 2 1 .1p Rpar=230k noiseless
A3 0 N009 0 0 0 0 N010 0 OTA g=.158u Iout=78n Cout=.45f en=0 Vhigh=1e308 Vlow=-1e308
D2 N010 3 X
D3 4 N010 X
C2 N011 0 7p Rpar=1k noiseless
A4 N007 0 N005 N005 N005 N005 N008 N005 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-12 Rout=10Meg Cout=50f
A5 N007 0 N005 N005 N005 N013 N005 N005 SCHMITT Vt=.5 Vh=10m Vhigh=12 Vlow=0 Rout=10Meg Cout=50f
R3 3 6 2Meg
A6 6 4 0 0 0 0 N007 0 SCHMITT Vt=1 Vh=10m tau=120n
S1 4 3 N007 0 IQ
A2 0 N006 N007 0 0 0 N011 0 OTA g=1m linear en=68n enk=520 Vlow=-1e308 Vhigh=1e308
G4 0 N004 N010 0 1m
G2 0 N005 N004 0 1m
G3 0 N009 N011 0 1m
L3 N009 0 5.72<EFBFBD> Rser=1.74k Cpar=193f Rpar=2.3513513513513513513k noiseless
L1 N004 0 5.72<EFBFBD> Rser=1.74k Cpar=193f Rpar=2.3513513513513513513k noiseless
L2 N005 0 5.72<EFBFBD> Rser=1.74k Cpar=193f Rpar=2.3513513513513513513k noiseless
.model X D(Ron=1K Roff=100G Vfwd=-.90 epsilon=.1 noiseless)
.model Y D(Ron=100 Roff=1T Vfwd=.435 epsilon=.1 noiseless)
.model IQ SW(Vt=.5 Vh=-.3 Ron=1.5 Roff=10Meg ilimit= 9.82m level=2)
.model N VDMOS(Vto=-50m Kp=300m)
.model P VDMOS(Vto=50m Kp=300m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=.8m noiseless)
.ends LT1195
*
.subckt LT1206 1 2 3 4 5 6
R2 N009 N014 10K noiseless
R3 N014 N018 10K noiseless
Q1 N005 N009 2 0 N temp=27
Q2 N019 N018 2 0 P temp=27
M1 3 N011 N013 N013 N temp=27
M2 4 N011 N013 N013 P temp=27
C4 3 5 2.2p
C5 5 4 2.2p
D1 3 N009 1uA m=81
R19 3 N005 100 noiseless
R20 N019 4 100 noiseless
G5 0 N008 N005 3 12<31>
G6 N008 0 4 N019 12<31>
D3 N016 3 X
D4 4 N016 X
C2 3 2 1p
C6 3 1 1p
C7 2 4 1p
C8 1 4 1p
A2 0 0 1 1 1 1 N014 1 OTA G=.1 Rout=10 Vhigh=100 Vlow=-100 en=3.6n Linear enk=30
A3 0 1 0 0 0 0 0 0 OTA in=2p ink=100
A4 0 2 0 0 0 0 0 0 OTA in=30p ink=30
D2 N018 4 1uA m=81
A5 N010 0 0 0 0 0 N016 0 OTA G=555u Iout=10u Vlow=-1e308 Vhigh=1e308
C3 0 N008 0.35p Rpar=1K noiseless
D5 N013 N011 Y
C9 N006 N010 .06p Rser=50K Cpar=.02p noiseless
G1 0 N010 N008 0 20m
R1 N010 0 50 noiseless
G2 0 N006 N016 0 20m
R5 N006 0 50 noiseless
G3 0 N011 N015 0 10<31>
C1 N011 0 .0035p Rpar=100K noiseless
D6 N006 N015 S
C11 N015 0 3.5p
L1 N013 5 .09<EFBFBD> Rser=5 Rpar=50 Cpar=50p noiseless
C13 3 N013 2.2p
C14 N013 4 2.2p
R7 6 N006 25 noiseless
D7 3 4 Q
C15 3 6 2.2p
C16 6 4 2.2p
.model N NPN(Cje=.25p Cjc=.25p noiseless)
.model P PNP(Cje=.25p Cjc=.25p noiseless)
.model N VDMOS(Vto=-.1 Kp=.5)
.model P VDMOS(Vto=.1 Kp=.5 pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=1K Roff=1G epsilon=.5 Vfwd=-.4 noiseless)
.model Y D(Ron=1K Roff=1G epsilon=.5 revepsilon=.5 Vfwd=1 Vrev=1 noiseless)
.model S D(Ron=100 Roff=100 Ilimit=3.25m RevIlimit=3.25m Vrev=0 noiseless)
.model Q D(Ron=100 Ilimit=16.9m epsilon=2 noiseless)
.ends LT1206
*
.subckt LT1208 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.1p ink=2k
C2 2 1 .1p Rpar=250k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=80Meg noiseless
C7 1 4 1p noiseless Rpar=80Meg
C8 2 4 1p Rpar=80Meg noiseless
C9 3 2 1p Rpar=80Meg noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=1.43m iout=2.2m Cout=4.9p en=22n enk=1k Vhigh=1e308 Vlow=-1e308
C10 N004 0 9f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C1 N005 0 .9f Rpar=1Meg noiseless
C3 3 5 5p
C4 5 4 5p
D5 N005 5 Y
D6 5 N005 Y
G1 0 N005 N006 0 1<>
D3 3 4 DC
R2 3 N007 10Meg noiseless
R3 N007 4 10Meg noiseless
G2 0 N006 N007 0 1m
C11 0 N006 .9p Rpar=1k noiseless
D1 4 1 DBIAS
D2 4 2 DBIAS
C13 5 N007 4p Rser=10k noiseless
G3 N007 0 N007 3 500m dir=1 vto=-.66
G4 0 N007 4 N007 500m dir=1 vto=-.66
.model Y D(Ron=1k Roff=1T Vfwd=.96 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=60m)
.model P VDMOS(Vto=150m Kp=60m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=6.32m noiseless)
.model DBIAS D(Ron=1k Roff=1T Vrev=1 revilimit=4u noiseless)
.ends LT1208
*
.subckt LT1210 1 2 3 4 5 6
R2 N010 N014 10K noiseless
R3 N014 N018 10K noiseless
Q1 N005 N010 2 0 N temp=27
Q2 N019 N018 2 0 P temp=27
M1 3 N011 N013 N013 N temp=27
M2 4 N011 N013 N013 P temp=27
C4 3 5 2.2p
C5 5 4 2.2p
D1 3 N010 1uA m=81
R19 3 N005 100 noiseless
R20 N019 4 100 noiseless
G5 0 N006 N005 3 12<31>
G6 N006 0 4 N019 12<31>
D3 N016 3 X
D4 4 N016 X
C2 3 2 1p
C6 3 1 1p
C7 2 4 1p
C8 1 4 1p
A2 0 0 1 1 1 1 N014 1 OTA G=.1 Rout=10 Vhigh=100 Vlow=-100 en=3n Linear enk=30
A3 0 1 0 0 0 0 0 0 OTA in=2p ink=600
A4 0 2 0 0 0 0 0 0 OTA in=40p ink=30
D2 N018 4 1uA m=81
A5 N007 0 0 0 0 0 N016 0 OTA G=555u Iout=10u Vlow=-1e308 Vhigh=1e308
C3 0 N006 .7p Rpar=1K noiseless
D5 N013 N011 Y
C9 N008 N007 .1p Rser=30K Cpar=.01p noiseless
G1 0 N007 N006 0 20m
R1 N007 0 50 noiseless
G2 0 N008 N016 0 20m
R5 N008 0 50 noiseless
G3 0 N011 N015 0 10<31>
C1 N011 0 .007p Rpar=100K noiseless
D6 N008 N015 S
C11 N015 0 7p
L1 N013 5 .03<EFBFBD> Rser=.9 Rpar=10 Cpar=250p noiseless
C13 3 N013 2.2p
C14 N013 4 2.2p
R7 6 N008 25 noiseless
D7 3 4 Q
C15 3 6 2.2p
C16 6 4 2.2p
.model N NPN(Cje=.25p Cjc=.25p noiseless)
.model P PNP(Cje=.25p Cjc=.25p noiseless)
.model N VDMOS(Vto=-.15 Kp=2)
.model P VDMOS(Vto=.15 Kp=2 pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=1K Roff=.82G epsilon=.5 Vfwd=-1.7 noiseless)
.model Y D(Ron=1K Roff=1G epsilon=.5 revepsilon=.5 Vfwd=1 Vrev=1 noiseless)
.model S D(Ron=100 Roff=100 Ilimit=6m RevIlimit=6m Vrev=0 noiseless)
.model Q D(Ron=100 Ilimit=11.9m epsilon=2 noiseless)
.ends LT1210
*
.subckt LT1211 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.2p ink=190
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)-.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)-.41, .1)+1n*V(2)
C6 3 1 5p Rpar=1G noiseless
C7 1 4 5p noiseless Rpar=1G
C8 2 4 5p Rpar=1G noiseless
C9 3 2 5p Rpar=1G noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=40u Iout=3.1u en=12n enk=1.5 Vlow=-1e308 Vhigh=1e308 Cout=500f
C10 N004 0 5f Rpar=100K noiseless
D4 N007 3 XU
D5 4 N007 XD
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N006 N007 0 1m
L4 N006 0 120<32> Cpar=1.02p Rser=1.24k Rpar=5.166666666666666667k noiseless
C1 N005 0 225f Rpar=1Meg noiseless
G4 0 N005 N006 0 1<>
D2 2 3 DBIAS
D3 1 3 DBIAS
R3 2 1 41.7Meg noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.6 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=0.1 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=.88 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=90m)
.model DBIAS D(Ron=1k Roff=1T Vrev=1 revilimit=50n noiseless)
.model P VDMOS(Vto=150m Kp=90m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.39m noiseless)
.ends LT1211
*
.subckt LT1213 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.2p ink=80
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)-.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)-.41, .1)+1n*V(2)
C6 3 1 5p Rpar=400Meg noiseless
C7 1 4 5p noiseless Rpar=400Meg
C8 2 4 5p Rpar=400Meg noiseless
C9 3 2 5p Rpar=400Meg noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=20u Iout=1.07u en=9.5n enk=1.2 Vlow=-1e308 Vhigh=1e308 Cout=124f
C10 N004 0 14f Rpar=100K noiseless
D4 N007 3 XU
D5 4 N007 XD
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N006 N007 0 1m
L4 N006 0 54.2<EFBFBD> Cpar=68.4f Rser=1.32k Rpar=4.125k noiseless
C1 N005 0 100f Rpar=1Meg noiseless
G4 0 N005 N006 0 1<>
D2 2 3 DBIAS
D3 1 3 DBIAS
R3 2 1 50Meg noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.6 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=0.1 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=.82 epsilon=.1 noiseless)
.model N VDMOS(Vto=-140m Kp=100m)
.model P VDMOS(Vto=140m Kp=100m pchan)
.model DBIAS D(Ron=1k Roff=1T Vrev=1 revilimit=80n noiseless)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=1.72m noiseless)
.ends LT1213
*
.subckt LT1215 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.5p ink=2k
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.7,.1), V(4)-.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.69,.1), V(4)-.41, .1)+1n*V(2)
C6 3 1 5p Rpar=400Meg noiseless
C7 1 4 5p noiseless Rpar=400Meg
C8 2 4 5p Rpar=400Meg noiseless
C9 3 2 5p Rpar=400Meg noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=20u Iout=4.2u en=12.5n enk=4 Vlow=-1e308 Vhigh=1e308 Cout=139f
C10 N004 0 5f Rpar=100K noiseless
D4 N007 3 XU
D5 4 N007 XD
D1 N005 5 Y
D6 5 N005 Y
G2 0 N006 N007 0 1m
L4 N006 0 23.6<EFBFBD> Cpar=344f Rser=1.35k Rpar=3.857142857142857143k noiseless
C1 N005 0 58.9f Rpar=1Meg noiseless
G4 0 N005 N006 0 1<>
D2 2 3 DBIAS
D3 1 3 DBIAS
R3 2 1 50Meg noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.63 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=0.2 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=.58 epsilon=.1 noiseless)
.model N VDMOS(Vto=-295m Kp=120m)
.model P VDMOS(Vto=295m Kp=120m pchan)
.model DBIAS D(Ron=1k Roff=1T Vrev=1 revilimit=420n noiseless)
.ends LT1215
*
.subckt LT1217 1 2 3 4 5
R2 N006 N009 10K noiseless
R3 N009 N012 10K noiseless
Q1 N004 N006 2 0 N temp=27
Q2 N013 N012 2 0 P temp=27
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C4 3 5 5p
C5 5 4 5p
D1 3 N006 1uA m=71.2
R19 3 N004 100 noiseless
R20 N013 4 100 noiseless
G5 0 N005 3 N004 5m
G6 N005 0 N013 4 5m
D3 N010 3 X
D4 4 N010 X
G3 0 N007 N010 0 10<31>
C1 N007 0 .05p Rser=80K Rpar=100K noiseless
C2 3 2 .15p
C6 3 1 .75p
C7 2 4 .15p
C8 1 4 .75p
A2 0 0 1 1 1 1 N009 1 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=6.5n enk=.1
A3 0 1 0 0 0 0 0 0 OTA in=.7p ink=.1
A4 0 2 0 0 0 0 0 0 OTA in=7p ink=.8
D2 N012 4 1uA m=71.2
A5 0 N005 0 0 0 0 N010 0 OTA G=3<> Iout=50u Cout=.1p Vlow=-1e308 Vhigh=1e308
C3 0 N005 .05p Rpar=14.5K noiseless
D5 5 N007 Y
R5 3 4 140K noiseless
.model N NPN(Cje=.56p Cjc=.15p noiseless)
.model P PNP(Cje=.56p Cjc=.15p noiseless)
.model N VDMOS(Vto=-250m Kp=20m)
.model P VDMOS(Vto=250m Kp=20m pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=1K Roff=100Meg epsilon=1 Vfwd=-1.8 noiseless)
.model Y D(Ron=5K Roff=1G epsilon=2 revepsilon=2 Vfwd=1.5 Vrev=1.5 noiseless)
.ends LT1217
*
.subckt LT1218 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=50f ink=2.5k
M1 3 N006 5 5 N temp=27
M2 4 N013 5 5 P temp=27
C3 3 5 20p Rpar=1G noiseless
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)+.3,.1), V(4)-.3, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)+.31,.1), V(4)-.31, .1)+1n*V(2)
C6 3 1 1p
C7 1 4 1p
C8 2 4 1p
C9 3 2 1p
C10 N007 0 500f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N013 YD
D7 3 4 DP
D2 N009 3 XU
D3 4 N009 XD
C2 N010 N016 5.2p noiseless
A4 N005 0 N008 N008 N008 N008 N006 N008 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-18 Rout=1k Cout=5p
A5 N005 0 N008 N008 N008 N013 N008 N008 SCHMITT Vt=.5 Vh=10m Vhigh=18 Vlow=0 Rout=1k Cout=5p
R3 3 6 1.6Meg
S1 4 3 N005 0 IQ
A2 0 N012 N005 0 0 0 N010 0 OTA g=10u iout=540n Vlow=-1e308 Vhigh=1e308
G2 0 N009 N010 0 20n
C12 N009 0 3f noiseless
A3 0 N007 N005 0 0 0 N012 0 OTA g=1m linear en=33n enk=5 Vlow=-1e308 Vhigh=1e308
C1 N012 0 50p Rpar=1k noiseless
R6 N016 0 100 noiseless
G3 0 N016 0 N009 5m
D4 0 N010 DLIM
D5 N004 1 DBIASU
D8 2 N014 DBIASD
D10 N004 2 DBIASU
R4 3 N014 416k noiseless
D9 1 N014 DBIASD
G1 0 N016 0 5 5m
C4 5 4 20p Rpar=1G noiseless
S2 N014 4 N005 0 SHBD
S3 3 N004 N005 0 SHBU
A7 6 3 0 0 0 0 N005 0 SCHMITT Vt=-1 Vh=10m tau=5u
R5 N004 4 100Meg noiseless
C11 N004 0 1f
C13 0 N014 1f
G4 0 N008 N009 0 .1<EFBFBD>
C14 N008 0 1f Rpar=10Meg noiseless
.model DBIASD D(Ron=1K Roff=10G Vfwd= 1.2 ilimit=33n noiseless)
.model DBIASU D(Ron=1Meg Roff=10G Vfwd=-0.1 ilimit=12n noiseless)
.model SHBD SW(Vt=.5 Vh=-.3 Ron=416k Roff=1G)
.model SHBU SW(Vt=.5 Vh=-.3 Ron=1k Roff=1T)
.model IQ SW(Vt=.5 Vh=-.3 Ron=1k Roff=100Meg ilimit=350.6u level=2)
.model XU D(Ron=1k Roff=10G Vfwd=1.8 epsilon=.1 noiseless)
.model XD D(Ron=1k Roff=10G Vfwd=1.11 epsilon=.1 noiseless)
.model YU D(Ron=100 Roff=1T Vfwd=1.8 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=1.11 epsilon=.1 noiseless)
.model N VDMOS(Vto=-50m Kp=10m)
.model P VDMOS(Vto=50m Kp=25m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=8u noiseless)
.model DLIM D(Ron=100k Roff=1G Vfwd=250m Vrev=250m epsilon=.1 revepsilon=.1 noiseless)
.ends LT1218
*
.subckt LT1219 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=50f ink=2.5k
M1 3 N006 5 5 N temp=27
M2 4 N013 5 5 P temp=27
C3 3 5 20p noiseless
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)+.3,.1), V(4)-.3, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)+.31,.1), V(4)-.31, .1)+1n*V(2)
C6 3 1 1p
C7 1 4 1p
C8 2 4 1p
C9 3 2 1p
C10 N007 0 1f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N013 YD
D7 3 4 DP
D2 N009 3 XU
D3 4 N009 XD
C2 N008 N016 6.2p noiseless
A4 N005 0 N010 N010 N010 N010 N006 N010 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-18 Rout=1k Cout=5p
A5 N005 0 N010 N010 N010 N013 N010 N010 SCHMITT Vt=.5 Vh=10m Vhigh=18 Vlow=0 Rout=1k Cout=5p
R3 3 6 1.6Meg
S1 4 3 N005 0 IQ
A2 0 N011 N005 0 0 0 N008 0 OTA g=10u iout=315n Vlow=-1e308 Vhigh=1e308
G2 0 N009 N008 0 20n
C12 N009 0 1f
A3 0 N007 N005 0 0 0 N011 0 OTA g=1m linear en=33n enk=5 Vlow=-1e308 Vhigh=1e308
R6 N016 0 100 noiseless
G3 0 N016 0 N009 2m
D4 0 N008 DLIM
D5 N004 1 DBIASU
D8 2 N014 DBIASD
D10 N004 2 DBIASU
R4 3 N014 416k noiseless
D9 1 N014 DBIASD
G1 0 N016 0 5 8m
C4 5 4 20p noiseless
S2 N014 4 N005 0 SHBD
S3 3 N004 N005 0 SHBU
A7 6 3 0 0 0 0 N005 0 SCHMITT Vt=-1 Vh=10m tau=5u
R5 N004 4 100Meg noiseless
C11 N004 0 1f
C13 0 N014 1f
L1 N011 0 2.51m Cpar=75.6p Rser=1.66k Rpar=2.5151515151515151515k
G4 0 N010 N009 0 .1<EFBFBD>
C1 N010 0 1f Rpar=10Meg noiseless
.model DBIASD D(Ron=1K Roff=10G Vfwd= 1.2 ilimit=33n noiseless)
.model DBIASU D(Ron=1Meg Roff=10G Vfwd=-0.1 ilimit=12n noiseless)
.model SHBD SW(Vt=.5 Vh=-.3 Ron=416k Roff=1G)
.model SHBU SW(Vt=.5 Vh=-.3 Ron=1k Roff=1T)
.model IQ SW(Vt=.5 Vh=-.3 Ron=1k Roff=100Meg ilimit=350.6u level=2)
.model XU D(Ron=1k Roff=10G Vfwd=1.8 epsilon=.1 noiseless)
.model XD D(Ron=1k Roff=10G Vfwd=1.11 epsilon=.1 noiseless)
.model YU D(Ron=100 Roff=1T Vfwd=1.8 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=1.11 epsilon=.1 noiseless)
.model N VDMOS(Vto=-50m Kp=10m)
.model P VDMOS(Vto=50m Kp=25m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=8u noiseless)
.model DLIM D(Ron=100k Roff=1G Vfwd=250m Vrev=250m epsilon=.1 revepsilon=.1 noiseless)
.ends LT1219
*
.subckt LT1220 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2p ink=1k
C2 2 1 300f Rpar=150k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=90Meg noiseless
C7 1 4 1p noiseless Rpar=90Meg
C8 2 4 1p Rpar=90Meg noiseless
C9 3 2 1p Rpar=90Meg noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=5.1m iout=4.6m Cout=18p en=17n enk=500 Vhigh=1e308 Vlow=-1e308
C10 N004 0 .1f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 4p
C4 5 4 4p
D5 N005 5 Y
D6 5 N005 Y
G1 0 N005 N006 0 1<>
D3 3 4 DC
R2 3 N007 20Meg noiseless
R3 N007 4 20Meg noiseless
L1 N005 0 6m Cpar=.295f Rser=2.25Meg Rpar=1.8Meg noiseless
G2 0 N006 N007 0 1m
C1 0 N006 2.2p Rpar=1k noiseless
C11 5 N007 15p Rser=1k noiseless
G3 N007 0 N007 5 500m dir=1 vto=1
G4 0 N007 5 N007 500m dir=1 vto=1
G5 N007 3 N007 3 500m dir=1 vto=-1.37
G6 4 N007 4 N007 500m dir=1 vto=-1.37
.model Y D(Ron=1k Roff=1T Vfwd=.85 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=80m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=7.1m noiseless)
.ends LT1220
*
.subckt LT1221 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.8p*exp(27/(freq+20)**.6)
C2 2 1 300f Rpar=80k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=90Meg noiseless
C7 1 4 1p noiseless Rpar=90Meg
C8 2 4 1p Rpar=90Meg noiseless
C9 3 2 1p Rpar=90Meg noiseless
A2 0 N004 0 0 0 0 N007 0 OTA g=5m iout=1.58m Cout=5.5p en=17n enk=500 Vhigh=1e308 Vlow=-1e308
C10 N004 0 1f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 4p
C4 5 4 4p
D5 N005 5 Y
D6 5 N005 Y
D3 3 4 DC
R2 3 N007 40Meg noiseless
R3 N007 4 40Meg noiseless
G2 0 N006 N007 0 1m
C1 0 N006 1.6p Rpar=1k noiseless
C11 5 N007 9p Rser=2k noiseless
G1 0 N005 N006 0 1m
C12 0 N005 1.6p Rpar=1k noiseless
G3 N007 0 N007 3 500m dir=1 vto=-1.37
G4 0 N007 4 N007 500m dir=1 vto=-1.37
G5 N007 0 N007 5 500m dir=1 vto=1
G6 0 N007 5 N007 500m dir=1 vto=1
.model Y D(Ron=1k Roff=1T Vfwd=.85 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=80m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=7.1m noiseless)
.ends LT1221
*
.subckt LT1222 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.8p*exp(27/(freq+20)**.6)
C2 2 1 600f Rpar=12k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=90Meg noiseless
C7 1 4 1p noiseless Rpar=90Meg
C8 2 4 1p Rpar=90Meg noiseless
C9 3 2 1p Rpar=90Meg noiseless
A2 0 N006 0 0 0 0 6 0 OTA g=18.75m iout=1.24m Cout=6p Vhigh=1e308 Vlow=-1e308
C10 N004 0 .2f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
D5 N005 5 Y
D6 5 N005 Y
D3 3 4 DC
R2 3 6 21.33Meg noiseless
R3 6 4 21.33Meg noiseless
S3 0 6 6 3 swHigh
S2 6 0 4 6 swLow
C11 5 6 10p Rser=1k
S1 0 6 6 5 swLim
S4 6 0 5 6 swLim
A3 0 N004 0 0 0 0 N006 0 OTA g=1u linear en=3n enk=150 Vhigh=1e308 Vlow=-1e308
G3 0 N005 N007 0 1<>
L1 0 N005 29.6m Cpar=1.36f Rser=10.2Meg Rpar=1.1086956521739130433Meg noiseless
G1 0 N007 6 0 1<>
L2 N007 0 29.6m Cpar=1.36f Rser=10.2Meg Rpar=1.1086956521739130433Meg noiseless
L3 N006 0 29.6m Cpar=1.36f Rser=10.2Meg Rpar=1.1086956521739130433Meg noiseless
.model Y D(Ron=1k Roff=1T Vfwd=.85 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=80m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=7.1m noiseless)
.model swHigh SW(Ron=1 Roff=1T vt= -1.3 vh=-.1)
.model swLow SW(Ron=1 Roff=1T vt= -1.3 vh=-.1)
.model swLim SW(level=2 Ron=1 Roff=1T vt=1.5 vh=-.1 ilimit=10m)
.ends LT1222
*
.subckt LT1223 1 2 3 4 5
R2 N006 N009 10K noiseless
R3 N009 N012 10K noiseless
Q1 N004 N006 2 0 N temp=27
Q2 N013 N012 2 0 P temp=27
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C4 3 5 1p
C5 5 4 1p
D1 3 N006 1uA m=72.5
R19 3 N004 100 noiseless
R20 N013 4 100 noiseless
G5 0 N005 3 N004 5m
G6 N005 0 N013 4 5m
D3 N010 3 X
D4 4 N010 X
G3 0 N007 N010 0 10<31>
C1 N007 0 .01p Rser=50K Rpar=100K noiseless
C2 3 2 .15p
C6 3 1 .75p
C7 2 4 .15p
C8 1 4 .75p
A2 0 0 1 1 1 1 N009 1 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=3.3n enk=100
A3 0 1 0 0 0 0 0 0 OTA in=2.2p ink=100
A4 0 2 0 0 0 0 0 0 OTA in=20p ink=100
D2 N012 4 1uA m=72.5
A5 0 N005 0 0 0 0 N010 0 OTA G=30<33> Iout=200u Cout=.15p Vlow=-1e308 Vhigh=1e308
C3 0 N005 .01p Rpar=7.4K noiseless
D5 5 N007 Y
R5 3 4 6.3K noiseless
.model N NPN(Cje=.56p Cjc=.15p noiseless)
.model P PNP(Cje=.56p Cjc=.15p noiseless)
.model N VDMOS(Vto=-135m Kp=105m)
.model P VDMOS(Vto=135m Kp=105m pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=1K Roff=100Meg epsilon=.1 Vfwd=-2 noiseless)
.model Y D(Ron=1K Roff=1G epsilon=.1 revepsilon=.1 Vfwd=1.1 Vrev=1.1 noiseless)
.ends LT1223
*
.subckt LT1224 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1p ink=10k
C2 2 1 300f Rpar=250k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=80Meg noiseless
C7 1 4 1p noiseless Rpar=80Meg
C8 2 4 1p Rpar=80Meg noiseless
C9 3 2 1p Rpar=80Meg noiseless
A2 0 N008 0 0 0 0 N006 0 OTA g=.7m iout=1.17m Cout=2.47p Vhigh=1e308 Vlow=-1e308
C10 N004 0 1f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
D5 N005 5 Y
D6 5 N005 Y
D3 3 4 DC
R2 3 N006 20Meg noiseless
R3 N006 4 20Meg noiseless
C11 5 N006 15p Rser=1.2k noiseless
A3 0 N004 0 0 0 0 N007 0 OTA g=1m linear Cout=1.5p en=20n enk=2.5k Rout=1k Vhigh=1e308 Vlow=-1e308
G3 0 N005 N006 0 1<>
L2 N005 0 9.28m Rser=7Meg Rpar=1.166666666666666667Meg noiseless
G4 0 N008 N007 0 1m
C12 0 N008 1.5p Rpar=1k noiseless
D2 1 4 DBIAS
D4 2 4 DBIAS
G1 N006 0 N006 5 500m dir=1 vto=2
G2 0 N006 5 N006 500m dir=1 vto=2
G5 N006 0 N006 3 500m dir=1 vto=-1.025
G6 4 N006 4 N006 500m dir=1 vto=-1.025
.model Y D(Ron=1k Roff=1T Vfwd=.85 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=80m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1 ilimit=6.1m noiseless)
.model DBIAS D(Ron=1k Roff=1G Vfwd=1 ilimit=4u noiseless)
.ends LT1224
*
.subckt LT1225 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.5p ink=100
C2 2 1 300f Rpar=70k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=80Meg noiseless
C7 1 4 1p noiseless Rpar=80Meg
C8 2 4 1p Rpar=80Meg noiseless
C9 3 2 1p Rpar=80Meg noiseless
A2 0 N004 0 0 0 0 N008 0 OTA g=4m iout=1.86m Cout=4.32p en=7n enk=1.8k Vhigh=1e308 Vlow=-1e308
C10 N004 0 5f Rpar=100K noiseless
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
D5 N007 5 Y
D6 5 N007 Y
D3 3 4 DC
R2 3 N008 10Meg noiseless
R3 N008 4 10Meg noiseless
G2 0 N006 N005 0 1<>
C11 5 N008 6p Rser=2k
G3 0 N005 N008 0 1m
C13 0 N005 2p Rpar=1k noiseless
L2 0 N006 21.2m Cpar=1.32f Rser=4meg Rpar=1.3333333333333333334Meg noiseless
D1 1 4 DBIAS
D2 2 4 DBIAS
G1 0 N007 N006 0 1<>
L1 0 N007 21.2m Cpar=1.32f Rser=4meg Rpar=1.3333333333333333334Meg noiseless
G4 N008 0 N008 5 500m dir=1 vto=5
G5 0 N008 5 N008 500m dir=1 vto=5
G6 N008 0 N008 3 500m dir=1 vto=-1.025
G7 0 N008 4 N008 500m dir=1 vto=-1.025
.model Y D(Ron=1k Roff=1T Vfwd=.85 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=80m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1 ilimit=6.1m noiseless)
.model DBIAS D(Ron=1k Roff=1G Vfwd=1 ilimit=4u noiseless)
.ends LT1225
*
.subckt LT1226 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.5p ink=200
C2 2 1 1p Rpar=15k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+1.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+1.89, .1)+1n*V(2)
C6 3 1 1p Rpar=80Meg noiseless
C7 1 4 1p noiseless Rpar=80Meg
C8 2 4 1p Rpar=80Meg noiseless
C9 3 2 1p Rpar=80Meg noiseless
A2 0 N007 0 0 0 0 N008 0 OTA g=15m iout=1.05m Cout=2.38p Vhigh=1e308 Vlow=-1e308
C10 N004 0 3f Rpar=100K noiseless
M1 3 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
D5 N006 5 Y
D6 5 N006 Y
D3 3 4 DC
R2 3 N008 20Meg noiseless
R3 N008 4 20Meg noiseless
C11 5 N008 5p Rser=2k noiseless
A3 0 N004 0 0 0 0 N007 0 OTA g=1u linear en=2.6n enk=90 Vhigh=1e308 Vlow=-1e308
G1 0 N005 N008 0 1<>
L3 N007 0 21.34m Cpar=1.318f Rser=4.69Meg Rpar=1.2710027100271002708Meg noiseless
G2 0 N006 N005 0 1<>
L1 N005 0 21.34m Cpar=1.318f Rser=4.69Meg Rpar=1.2710027100271002708Meg noiseless
L2 N006 0 21.34m Cpar=1.318f Rser=4.69Meg Rpar=1.2710027100271002708Meg noiseless
D1 2 4 DBIAS
D2 1 4 DBIAS
G3 N008 0 N008 5 500m dir=1 vto=2
G4 0 N008 5 N008 500m dir=1 vto=2
G5 N008 0 N008 3 500m dir=1 vto=-1.025
G6 0 N008 4 N008 500m dir=1 vto=-1.025
.model Y D(Ron=1k Roff=1T Vfwd=.85 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=80m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=6.1m noiseless)
.model DBIAS D(Ron=1k Roff=1G Vfwd=1 ilimit=4u noiseless)
.ends LT1226
*
.subckt LT1227 1 2 3 4 5
Q1 N005 N009 2 0 N temp=27
Q2 N016 N014 2 0 P temp=27
M1 3 N011 5 5 N temp=27
M2 4 N011 5 5 P temp=27
C4 3 5 .7p
C5 5 4 .7p
A2 0 0 1 1 1 1 N010 1 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=3.2n enk=100
A3 0 1 0 0 0 0 0 0 OTA in=1.7p ink=100
A4 0 2 0 0 0 0 0 0 OTA in=32p ink=100
C3 0 N008 3f Rpar=192K noiseless
D5 5 N011 Y
R5 3 4 10.4K noiseless
R3 3 N012 100Meg noiseless
R6 N012 4 100Meg noiseless
G8 N012 0 N012 3 10m dir=1 vto=-.8
G9 0 N012 4 N012 10m dir=1 vto=-.8
C7 N016 4 2p Rpar=185 noiseless
Q3 3 N010 N014 0 N temp=27 M=.5
Q4 4 N010 N009 0 P temp=27 M=.5
D1 3 N009 DBIAS
D2 N014 4 DBIAS
A6 4 N016 N007 N007 N007 N007 0 N007 OTA G=7u iout=5u Vlow=-1e308 Vhigh=1e308
G1 0 N011 N012 0 10<31>
L1 N011 0 1.59m Cpar=8.84f Rpar=120k Rser=600k
A1 N005 3 N004 0 0 0 N007 0 OTA G=7u iout=5u vlow=-1e308 vhigh=1e308
A7 3 N005 0 0 0 0 N004 0 OTA G=1m asym ref=1.2 isource=12u isink=-1m Rout=100k Cout=100f Vlow=.4 Vhigh=1
C1 N015 0 16f
A8 N012 N015 N006 0 0 0 N012 0 OTA G=1 linear vlow=-1e308 vhigh=1e308
R7 N012 N015 1 noiseless
A9 3 4 0 0 0 0 N006 0 OTA G=23.8n linear ref=29.8 Rout=1Meg Cout=1 Vlow=0 Vhigh=1
R8 N008 N007 1 noiseless
A10 N007 N008 N006 0 0 0 N007 0 OTA G=1 linear vlow=-1e308 vhigh=1e308
C2 3 N005 2p Rpar=185 noiseless
C6 N014 4 1p Rser=50 noiseless
C8 3 N009 1p Rser=50 noiseless
D3 3 4 DP
G2 0 N012 N007 0 24.2<EFBFBD>
C12 3 1 1.5p Rser=100
C9 1 4 1.5p Rser=100
.model DP D(Ron=100 Roff=1G vfwd=3 ilimit=3.42m noiseless)
.model DBIAS D(Ron=1k Roff=1Meg vfwd=700m epsilon=10m ilimit=450u noiseless)
.model N NPN(Cje=.1p Cjc=.2p tf=180p bf=40 Rb=300 Re=25 Vaf=1k Rc=100 noiseless)
.model P PNP(Cje=.1p Cjc=.2p tf=180p bf=40 Rb=300 Re=25 Vaf=1k Rc=100 noiseless)
.model N VDMOS(Vto=-.2 Kp=.1)
.model P VDMOS(Vto=.2 Kp=.1 pchan)
.model Y D(Ron=1K Roff=1G epsilon=.1 revepsilon=.1 Vfwd=.71 Vrev=.71 noiseless)
.ends LT1227
*
* LT1228 OTA and CFA
* SUBCIRCUIT CONNECTIONS MATCH DATASHEET PINOUT FOR 8-PIN DIP
*1=IOUT OTA/+IN CFA
*2=-IN OTA
*3=+IN OTA
*4=V-
*5=ISET CFA
*6=OUTPUT CFA
*7=V+
*8=-IN CFA
.SUBCKT LT1228 1 2 3 4 5 6 7 8
* THE OTA
Q11 5 5 21 QN 10
Q12 21 21 22 QN 10
VC 22 4 DC 0
F1 26 4 VC 0.375
F2 27 4 VC 0.25
F3 28 4 VC 0.375
F4 7 23 VC 1.6
F5 7 24 VC 1.6
VB 7 25 DC 1.4
CE1 23 7 11PF
CE2 24 7 11PF
RE13 23 32 120
RE14 24 33 120
Q13 29 25 32 QPI
Q14 1 25 33 QPI
Q15 23 3 28 QNI 9
Q16 23 3 27 QNI
Q17 23 3 26 QNI
Q18 24 2 26 QNI 9
Q19 24 2 27 QNI
Q20 24 2 28 QNI
VM 29 4 DC 1.4
FM 1 4 VM 1
DM 29 1 DC
C1 1 7 5PF
Q2A 4 1 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
Q2B 7 1 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
RC 8 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
.MODEL DC D
.MODEL QNI NPN
.MODEL QN NPN(IS=168E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=300P
.MODEL QPI PNP
.MODEL QP PNP(IS=230E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36
+TF=300P
.ENDS LT1228
*
.subckt LT1229 1 2 3 4 5
R2 N006 N009 10K noiseless
R3 N009 N012 10K noiseless
Q1 N004 N006 2 0 N temp=27
Q2 N013 N012 2 0 P temp=27
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C4 3 5 2p
C5 5 4 2p
D1 3 N006 1uA m=76
R19 3 N004 100 noiseless
R20 N013 4 100 noiseless
G5 0 N005 3 N004 5m
G6 N005 0 N013 4 5m
D3 N010 3 X
D4 4 N010 X
G3 0 N007 N010 0 1m
C1 N007 0 .3p Rser=0 Rpar=1K noiseless
C2 3 2 .15p
C6 3 1 1.5p
C7 2 4 .15p
C8 1 4 1.5p
A2 0 0 1 1 1 1 N009 1 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=3.2n enk=20
A3 0 1 0 0 0 0 0 0 OTA in=1.4p ink=40
A4 0 2 0 0 0 0 0 0 OTA in=32p ink=10
D2 N012 4 1uA m=76
A5 0 N005 0 0 0 0 N010 0 OTA G=2.1<EFBFBD> Iout=4.4u Cout=.007p Vlow=-1e308 Vhigh=1e308
C3 0 N005 .09p Rpar=4.2K noiseless
D5 5 N007 Y
R5 3 4 10K noiseless
.model N NPN(Cje=.3p Cjc=.2p noiseless)
.model P PNP(Cje=.3p Cjc=.2p noiseless)
.model N VDMOS(Vto=-.1 Kp=.5)
.model P VDMOS(Vto=.1 Kp=.5 pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=100 Roff=100Meg epsilon=.25 Vfwd=-.75 noiseless)
.model Y D(Ron=100 Roff=10G epsilon=.1 revepsilon=.1 Vfwd=.3 Vrev=.3 noiseless)
.ends LT1229
*
.subckt LTC1250 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=4f
M1 3 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C1 N006 0 100f Rpar=100k noiseless
C3 3 5 .5p
C4 5 4 .5p
B1 0 N007 I=10u*dnlim(uplim(V(1),V(3)-1.6,.1), V(4)-0.3, .1)+1n*V(1)
B2 N007 0 I=10u*dnlim(uplim(V(2),V(3)-1.59,.1), V(4)-0.31, .1)+1n*V(2)
C9 3 2 27.5p Rser=10 noiseless
C10 N007 0 1f Rpar=100K noiseless
D1 N006 5 YU
D6 5 N006 YD
D7 3 4 DP
G3 N004 0 N004 3 1 dir=1 vto=-.55
G6 0 N004 4 N004 1 dir=1 vto=-.55
R4 3 N004 1G
R5 N004 4 1G
G2 0 N006 N004 0 10<31>
C2 3 1 27.5p Rser=10 noiseless
C6 2 4 27.5p Rser=10 noiseless
C7 1 4 27.5p Rser=10 noiseless
R3 3 4 8k noiseless
C8 N005 0 400f noiseless Rser=110k Rpar=500k
G1 0 N004 N005 0 2.05m
C12 N004 0 25n noiseless
C11 5 N006 800f Rser=10k noiseless
A2 0 N007 0 0 0 0 N005 0 OTA g=633u linear en= 7n+ 33n/ (1 + (freq/400)**1.5) Vlow=-120 Vhigh=120
.model YU D(Ron=1K Roff=1T Vfwd=.5 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=.5 epsilon=.2 noiseless)
.model N VDMOS(Vto=-100m Kp=50m)
.model P VDMOS(Vto=100m Kp=50m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=1.5m noiseless)
.ends LTC1250
*
* LT1251 VIDEO FADER
* CONNECTIONS: AS PER DATASHEET PINOUT
*1=FIRST NON-INVERTING INPUT
*2=FIRST INVERTING INPUT
*3=CONTROL VOLTAGE INPUT
*4=CONTROL CURRENT INPUT
*5=CONTROL RESISTOR, RC
*6=NULL INPUT
*7=NEGATIVE SUPPLY
*8=OUTPUT
*9=POSITIVE SUPPLY
*10=FULL SCALE RESISTOR, RFS
*11=FULL SCALE CURRENT INPUT
*12=FULL SCALE VOLTAGE INPUT
*13=SECOND INVERTING INPUT
*14=SECOND NON-INVERTING INPUT
.SUBCKT LT1251 1 2 3 4 5 6 7 8 9 10 11 12 13 14
*FIRST INPUT STAGE
IB1 1 0 500NA
RI1 1 0 17MEG
C1 1 0 1.5PF
E1 2A 0 VALUE={LIMIT (V(1),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS1 2A 2B 2.5MV
R1 2B 2 27
C2 2 0 1PF
*SECOND INPUT STAGE
IB2 14 0 450NA
RI2 14 0 17MEG
C14 14 0 1.5PF
E2 13A 0 VALUE={LIMIT (V(14),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS2 13A 13B 1.5MV
R2 13B 13 27
C13 13 0 1PF
*CONTROL AMP
IBC 3 0 -300NA
RIC 3 0 100MEG
C3 3 0 1PF
R3 3 3A 1600
CBWC 3A 0 10PF
EC 3B 0 3A 0 1.0
VOSC 3B 4 5MV
C4 4 0 1PF
RC 4 5 5K
C5 5 0 1PF
*FULL SCALE AMP
IBFS 12 0 -300NA
RIFS 12 0 100MEG
C12 12 0 1PF
R12 12 12A 1600
CBWFS 12A 0 10PF
EFS 12B 0 12A 0 1.0
VOSFS 12B 11 -5MV
C11 11 0 1PF
RFS 11 10 5K
C10 10 0 1PF
*GENERATING K
EK K 0 TABLE {I(VOSC)/I(VOSFS)} = (-100,0) (0.04,0) (0.1,0.11) (0.9,0.907) (0.95,1.0) (100,1.0)
RDUMMY K 0 1MEG
RNOISE1 EN 0 200K
RNOISE2 EN 0 200K
*GENERATES 40.7NV/RTHZ
*NULL CIRCUIT
GNULL 7 6A VALUE={I(VOSFS)}
RN1 6A 7 200
VNULL 6A 6B 0.0V
RN2 6B 6 400
C6 6 7 1PF
*OUTPUT STAGE
E6 8A 0 VALUE={1.8MEG*(I(VOS1)*V(K)+I(VOS2)*(1-V(K))-I(VNULL)+0.10UA+0.0007*V(EN))}
RG 8A 8B 1.8MEG
CG 8B 0 3.4PF
E8 8C 0 8B 0 1.0
V8 8C 8D 0.0V
R8 8D 8 11
*OUTPUT SWING AND CURRENT LIMIT
DP 8B 8P D1
VDP 8P 9 -1.4V
DN 8N 8B D1
VDN 8N 7 1.4V
.MODEL D1 D
GCL 8B 0 TABLE {I(V8)}=(-1,-1) (-0.04,0) (0.04,0) (1,1)
*SUPPLY CURRENT
GQ 9 7 VALUE={1MA+24*I(VOSFS)+(V(7)-V(9))/20K}
GCC 9 0 TABLE {I(V8)}=(-1,0) (0,0) (1,1)
GEE 7 0 TABLE {I(V8)}=(-1,-1) (0,0) (1,0)
.ENDS LT1251
*
.SUBCKT LT1252 3 2 7 4 6
Q2A 4 3 10 QPI 0.5
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11 7 QPI
Q6A 12 11 7 QPI 2
Q7A 4 9 12 QPI
Q8A 7 12 13 QNI 10
RSCA 13 6 12
IBA 7 10 DC 325U
RBA 7 10 73K
DIA 10 7 DCC 3
Q2B 7 3 110 QNI 0.5
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111 4 QNI
Q6B 112 111 4 QNI 2
Q7B 7 9 112 QNI
Q8B 4 112 113 QPI 10
RSCB 6 113 12
IBB 110 4 DC 325U
RBB 110 4 73K
DIB 4 110 DCC 5
CM1 7 11 10PF
CM2 111 4 10PF
RIB 4 111 35K
RC 2 200 75
R9 9 0 250K
D1 9 6 DC
D2 6 9 DC
D3 9 7 DCC
D4 4 9 DCC
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
.MODEL QNI NPN TF=225P
.MODEL QPI PNP TF=225P
.ENDS LT1252
*
.SUBCKT LT1253 3 2 7 4 6
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
RIB 11 7 35K
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
RC 2 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
.MODEL DC D
.MODEL QN NPN(IS=200E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 TF=300P
.MODEL QP PNP(IS=170E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36 TF=300P
.ENDS LT1253
*
.SUBCKT LT1254 3 2 7 4 6
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
RIB 11 7 35K
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
RC 2 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
.MODEL DC D
.MODEL QN NPN(IS=200E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44 TF=300P
.MODEL QP PNP(IS=170E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36 TF=300P
.ENDS LT1254
*
* LT1256 VIDEO FADER
* CONNECTIONS: AS PER DATASHEET PINOUT
*1=FIRST NON-INVERTING INPUT
*2=FIRST INVERTING INPUT
*3=CONTROL VOLTAGE INPUT
*4=CONTROL CURRENT INPUT
*5=CONTROL RESISTOR, RC
*6=NULL INPUT
*7=NEGATIVE SUPPLY
*8=OUTPUT
*9=POSITIVE SUPPLY
*10=FULL SCALE RESISTOR, RFS
*11=FULL SCALE CURRENT INPUT
*12=FULL SCALE VOLTAGE INPUT
*13=SECOND INVERTING INPUT
*14=SECOND NON-INVERTING INPUT
.SUBCKT LT1256 1 2 3 4 5 6 7 8 9 10 11 12 13 14
*FIRST INPUT STAGE
IB1 1 0 500NA
RI1 1 0 17MEG
C1 1 0 1.5PF
E1 2A 0 VALUE={LIMIT (V(1),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS1 2A 2B 2.5MV
R1 2B 2 27
C2 2 0 1PF
*SECOND INPUT STAGE
IB2 14 0 450NA
RI2 14 0 17MEG
C14 14 0 1.5PF
E2 13A 0 VALUE={LIMIT (V(14),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS2 13A 13B 1.5MV
R2 13B 13 27
C13 13 0 1PF
*CONTROL AMP
IBC 3 0 -300NA
RIC 3 0 100MEG
C3 3 0 1PF
R3 3 3A 1600
CBWC 3A 0 10PF
EC 3B 0 3A 0 1.0
VOSC 3B 4 5MV
C4 4 0 1PF
RC 4 5 5K
C5 5 0 1PF
*
*FULL SCALE AMP
IBFS 12 0 -300NA
RIFS 12 0 100MEG
C12 12 0 1PF
R12 12 12A 1600
CBWFS 12A 0 10PF
EFS 12B 0 12A 0 1.0
VOSFS 12B 11 -5MV
C11 11 0 1PF
RFS 11 10 5K
C10 10 0 1PF
*
*GENERATING K
EK K 0 TABLE {I(VOSC)/I(VOSFS)} = (-100,0) (0,0) (0.2,0.21) (0.9,0.9) (1.0,1.0) (100,1.0)
RDUMMY K 0 1MEG
RNOISE1 EN 0 200K
RNOISE2 EN 0 200K
*GENERATES 40.7NV/RTHZ
*
*NULL CIRCUIT
GNULL 7 6A VALUE={I(VOSFS)}
RN1 6A 7 200
VNULL 6A 6B 0.0V
RN2 6B 6 400
C6 6 7 1PF
*OUTPUT STAGE
E6 8A 0 VALUE={1.8MEG*(I(VOS1)*V(K)+I(VOS2)*(1-V(K))-I(VNULL)+0.10UA+0.0007*V(EN))}
RG 8A 8B 1.8MEG
CG 8B 0 3.4PF
E8 8C 0 8B 0 1.0
V8 8C 8D 0.0V
R8 8D 8 11
*OUTPUT SWING AND CURRENT LIMIT
DP 8B 8P D1
VDP 8P 9 -1.4V
DN 8N 8B D1
VDN 8N 7 1.4V
.MODEL D1 D
GCL 8B 0 TABLE {I(V8)}=(-1,-1) (-0.04,0) (0.04,0) (1,1)
*SUPPLY CURRENT
GQ 9 7 VALUE={1MA+24*I(VOSFS)+(V(7)-V(9))/20K}
GCC 9 0 TABLE {I(V8)}=(-1,0) (0,0) (1,1)
GEE 7 0 TABLE {I(V8)}=(-1,-1) (0,0) (1,0)
.ENDS LT1256
*
.subckt LT1259 1 2 3 4 5
R2 N006 N009 10K noiseless
R3 N009 N012 10K noiseless
Q1 N004 N006 2 0 N temp=27
Q2 N013 N012 2 0 P temp=27
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C4 3 5 2.2p
C5 5 4 2.2p
D1 3 N006 1uA m=83.2
R19 3 N004 100 noiseless
R20 N013 4 100 noiseless
G5 0 N005 3 N004 1m
G6 N005 0 N013 4 1m
D3 N010 3 X
D4 4 N010 X
G3 0 N007 N010 0 10<31>
C1 N007 0 .008p Rpar=100K noiseless
C2 3 2 .5p
C6 3 1 1p
C7 2 4 .5p
C8 1 4 1p
A2 0 0 1 1 1 1 N009 1 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=3.6n enk=100
A3 0 1 0 0 0 0 0 0 OTA in=1.3p ink=100
A4 0 2 0 0 0 0 0 0 OTA in=45p ink=100
D2 N012 4 1uA m=83.2
A5 0 N005 0 0 0 0 N010 0 OTA G=30u Iout=25u Cout=.01p Vlow=-1e308 Vhigh=1e308
C3 0 N005 .3p Rpar=1.92K noiseless
D5 5 N007 Y
D6 3 4 1mA m=1.2
.model N NPN(Cje=.25p Cjc=.15p noiseless)
.model P PNP(Cje=.25p Cjc=.15p noiseless)
.model N VDMOS(Vto=-.5 Kp=.02)
.model P VDMOS(Vto=.5 Kp=.02 pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=1K Roff=100Meg epsilon=.2 Vfwd=-.2 noiseless)
.model Y D(Ron=1K Roff=1G epsilon=.5 revepsilon=.5 Vfwd=1.8 Vrev=1.8 noiseless)
.model 1mA D(Ron=2K Ilimit=1m epsilon=3 noiseless)
.ends LT1259
*
.SUBCKT LT1328 IN FILTER FSW GND DATA VCC MODE VBIAS
* PIN NUMBER 1 2 3 4 5 6 7 8
* PREAMP
GPREAMP 0 VPG NVB IN 7.7E-3
QC1 VPG VPG VC1 NPN
VC1 VC1 GND DC 4
QC2 VC2 VC2 VPG NPN
VC2 VC2 GND DC 1
RPREG VPG 0 200K
CPREG VPG 0 10PF
EPREAMP PREOUT1 0 VPG 0 1
RFB IN PREOUT1 50K
RBPRE PREOUT1 RB 1K
REPRE IN RE 25
QPRE VCC RB RE [GND] NPN 10X
QDPRE IN IN PREOUT1 [GND] NPN
*
* BIAS
VBIAS NVB 0 DC 1.4V
*
* AC LOOP
GAC 0 FILTER PREOUT1 NVB 16.7E-6
EAC NAC 0 FILTER 0 1
RFILTER FILTER 0 10MEG
QC3 FILTER FILTER VC3 NPN
VC3 VC3 GND DC 4
QC4 VC4 VC4 FILTER NPN
VC4 VC4 GND DC 1
RIN IN NAC 2K
*
* THRESHOLD
VT VP1 PREOUT1 DC .7V
RVP VP1 VP 10K
QP VCC VP NEP [GND] NPN
QB VCC PRE VBIAS [GND] NPN
RBQB PRE VP 2K
RTH NEP PREOUT 500
IP PREOUT GND DC 10U
IB VBIAS GND DC 10U
*
* COMPARATOR
GCOMP 0 NCOMP VBIAS PREOUT 2
QC5 NCOMP NCOMP VC5 [GND] NPN
VC5 VC5 GND DC 4.3V
QC6 VC6 VC6 NCOMP [GND] NPN
VC6 VC6 GND DC .7V
*
QC7 NCT NCT NCOMP [GND] NPN
QC8 NCT NCT NCO [GND] NPN
QC9 NCOMP NCOMP NCB [GND] NPN
QC10 NCO NCO NCB [GND] NPN
ICT VCC NCT DC 400UA
ICB NCB GND DC 2MA
CCOMP NCO 0 10PF
QC11 NCO NCO VC11 [GND] NPN
VC11 VC11 GND DC 3.6
QC12 VC12 VC12 NCO [GND] NPN
VC12 VC12 GND DC 1.2
*TCOMP NCO 0 NCOT 0 ZO=100MEG TD=100NS
ECOMP DATA 0 LAPLACE {V(NCO)} = {EXP(-S*200N)} ; 0 1
*
* FILTER SWITCH
RF MODE NSW 10K
QF1 NSW NSW NSWE NPN
RF2 NSWE NSWB 5K
QF2 FSW NSWB GND NPN 50X
ICC VCC 0 DC 1.6mA
IEE 0 GND DC -8.2mA
.MODEL NPN NPN(BF=200 IS=1E-16 NF=1 NE=1.5 NC=2 NK=.5)
.ENDS LT1328
*
*HERE IS A PHOTODIODE FOR TESTING THE LT1328, SIMILAR TO SFH-205.
*A=ANODE (COMMON), K=CATHODE (OUTPUT), AND L=LIGHT INPUT.
*DRIVE LIGHT INPUT (L) WITH A CURRENT SOURCE CONNECTED AS FOLLOWS:
*IPD A L; USE PULSE, PWL, ETC. WAVEFORMS. THE 1328PD TAKES CARE OF
*FREQUENCY RESPONSE, SETTLING, AND DIODE CAPACITANCE.
.SUBCKT LT1328PD A K L
DPD 0 K DPD
R1 L A 1
C1 L A 18N ;SETTLING TAIL FOR 125NS PULSES
GD K A L A 1.0
ET 2 A L A 0.18
R3 2 3 1
C2 3 A 1U
GT K A 3 A 1
*
.Model DPD D(IS=8.5E-10 XTI=0.5 N=1.35 IKF=390u TIKF=0
+ RS=150 TRS1=0.022 TRS2=5u CJO=72p VJ=0.4 M=0.5
+ FC=0.5 TT=10p EG=0.69 ISR=100p NR=2 BV=100 IBV=100u
+ NBV=1 IBVL=0 NBVL=1 KF=0 AF=1
.ENDS LT1328PD
*
.subckt LT1351 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.5p ink=15
C2 2 1 1p Rpar=20Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.39, .1)+1n*V(2)
C9 3 2 1.5p Rpar=1.2G noiseless
C10 N004 0 80f Rpar=100K noiseless
M1 3 N006 5 5 N temp=27
M2 4 N008 5 5 P temp=27
C3 3 5 1p Rpar=100Meg noiseless
D5 N006 5 YU
D6 5 N008 YD
D3 3 4 DC
R2 3 N007 2G noiseless
R3 N007 4 2G noiseless
C13 N007 5 6p Rser=30k noiseless
R4 3 6 3Meg noiseless
A3 6 4 0 0 0 0 S1 0 SCHMITT Vt=2 Vh=10m tau=1u
A4 S1 0 N007 N007 N007 N007 N006 N007 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-12 Rout=1k Cout=4p
A5 S1 0 N007 N007 N007 N008 N007 N007 SCHMITT Vt=.5 Vh=10m Vhigh=12 Vlow=0 Rout=1k Cout=4p
S9 N007 5 S1 0 shutD
C4 5 4 1p Rpar=100Meg noiseless
D1 XP N005 DS
G4 0 XP N010 0 .5<EFBFBD>
C14 0 XP 18f Rpar=1Meg noiseless
C1 2 4 1.5p Rpar=1.2G noiseless
C6 3 1 1.5p Rpar=1.2G noiseless
C7 1 4 1.5p Rpar=1.2G noiseless
A7 0 XP S1 0 0 0 N007 0 OTA g=168u iout=1.6m Cout=4.48p Vlow=-1e308 Vhigh=1e308
A6 0 N004 0 0 0 0 N010 0 OTA g=1m linear Cout=18p en=14n enk=10 Rout=1k Vhigh=1e308 Vlow=-1e308
A2 0 N004 0 0 0 0 N005 0 OTA g=1m linear Cout=5p en=14n enk=10 Rout=1k Vhigh=1e308 Vlow=-1e308
S1 N011 4 S1 0 swBias
D2 2 N011 DBIAS
D4 1 N011 DBIAS
G1 N007 0 N007 3 500m dir=1 vto=-.88
G2 0 N007 4 N007 500m dir=1 vto=-.88
.model YU D(Ron=100 Roff=1T Vfwd=.95 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.97 epsilon=.1 noiseless)
.model N VDMOS(Vto=-80m Kp=75m)
.model P VDMOS(Vto=80m Kp=75m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=10u noiseless)
.model DBIAS D(Ron=1Meg Roff=1G Vfwd=.6 ilimit=10n noiseless)
.model swBias SW(Ron=1Meg Roff=1T vt=.5 vh=-.1)
.model shutD SW(Ron=1T Roff=10k vt=.5 vh=-.1)
.model DS D(Ron=100 Roff=1G Vfwd=.2 Vrev=.2 epsilon=0.1 revepsilon=0.1 noiseless)
.ends LT1351
*
.subckt LT1352 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.5p ink=15
C2 2 1 1p Rpar=20Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.39, .1)+1n*V(2)
C9 3 2 1.5p Rpar=1.2G noiseless
C10 N004 0 80f Rpar=100K noiseless
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C3 3 5 1p Rpar=100Meg noiseless
D5 N007 5 YU
D6 5 N007 YD
D3 3 4 DC
R2 3 N007 2G noiseless
R3 N007 4 2G noiseless
C13 N007 5 6p Rser=30k noiseless
C4 5 4 1p Rpar=100Meg noiseless
D1 N006 N005 DS
G4 0 N006 N009 0 .5<EFBFBD>
C14 0 N006 18f Rpar=1Meg noiseless
C1 2 4 1.5p Rpar=1.2G noiseless
C6 3 1 1.5p Rpar=1.2G noiseless
C7 1 4 1.5p Rpar=1.2G noiseless
A6 0 N004 0 0 0 0 N009 0 OTA g=1m linear Cout=18p en=14n enk=10 Rout=1k Vhigh=1e308 Vlow=-1e308
A2 0 N004 0 0 0 0 N005 0 OTA g=1m linear Cout=5p en=14n enk=10 Rout=1k Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N006 0 0 0 0 N007 0 OTA g=168u iout=1.6m Cout=4.48p Vlow=-1e308 Vhigh=1e308
G1 N007 0 N007 3 500m dir=1 vto=-.88
G2 0 N007 4 N007 500m dir=1 vto=-.88
.model YU D(Ron=100 Roff=1T Vfwd=.95 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.97 epsilon=.1 noiseless)
.model N VDMOS(Vto=-80m Kp=75m)
.model P VDMOS(Vto=80m Kp=75m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=10u noiseless)
.model DBIAS D(Ron=2Meg Roff=1G Vfwd=.6 ilimit=10n noiseless)
.model DS D(Ron=100 Roff=1G Vfwd=.2 Vrev=.2 epsilon=0.1 revepsilon=0.1 noiseless)
.ends LT1352
*
.subckt LT1354 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.3p ink=200
C2 2 1 1p Rpar=11Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.5, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.49, .1)+1n*V(2)
C9 3 2 1.5p Rpar=320Meg noiseless
C10 N004 0 8f Rpar=100K noiseless
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C3 3 5 1p
D5 N007 5 YU
D6 5 N007 YD
C13 N007 5 1.5p Rser=30k noiseless
C4 5 4 1p
D1 N006 N005 DS
G4 0 N006 N009 0 .7<EFBFBD>
C14 0 N006 4f Rpar=1Meg noiseless
C1 2 4 1.5p Rpar=320Meg noiseless
C6 3 1 1.5p Rpar=320Meg noiseless
C7 1 4 1.5p Rpar=320Meg noiseless
A6 0 N004 0 0 0 0 N009 0 OTA g=1m linear Cout=4p en=10n enk=150 Rout=1k Vhigh=1e308 Vlow=-1e308
A2 0 N004 0 0 0 0 N005 0 OTA g=1m linear Cout=2p en=10n enk=150 Rout=1k Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N006 0 0 0 0 N007 0 OTA g=51.5u iout=1.6m Cout=490f Vlow=-1e308 Vhigh=1e308
R1 3 N007 2G noiseless
R2 N007 4 2G noiseless
G1 N007 0 N007 3 10m dir=1 vto=-.878
G2 0 N007 4 N007 10m dir=1 vto=-.878
.model YU D(Ron=100 Roff=1T Vfwd=.75 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.8 epsilon=.1 noiseless)
.model N VDMOS(Vto=-141m Kp=100m)
.model P VDMOS(Vto=141m Kp=100m pchan)
.model DBIAS D(Ron=1Meg Roff=1G Vfwd=.6 ilimit=80n noiseless)
.model DS D(Ron=100 Roff=1G Vfwd=.2 Vrev=.2 epsilon=0.01 revepsilon=0.01 noiseless)
.ends LT1354
*
.subckt LT1357 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.8p ink=200
C2 2 1 .1p Rpar=6Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.69, .1)+1n*V(2)
C9 3 2 1.5p Rpar=160Meg noiseless
C10 N004 0 6f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 1p
D5 N005 5 YU
D6 5 N005 YD
R2 3 N006 1G noiseless
R3 N006 4 1G noiseless
C13 N006 5 1.2p Rser=12k noiseless
C4 5 4 1p
G4 0 N008 N007 0 1<>
C14 0 N008 .6f Rpar=1Meg noiseless
C1 2 4 1.5p Rpar=160Meg noiseless
C6 3 1 1.5p Rpar=160Meg noiseless
C7 1 4 1.5p Rpar=160Meg noiseless
A6 0 N004 0 0 0 0 N007 0 OTA g=1m linear Cout=4.0p en=8n enk=100 Rout=1k Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N008 0 0 0 0 N006 0 OTA g=133u iout=.642m Cout=845f Vlow=-1e308 Vhigh=1e308
G1 0 N005 N006 0 1e-6
L1 N005 0 65.3m Rser=5.33Meg Rpar=1.23094688221709006929Meg noiseless
D1 3 4 DC
G2 N006 0 N006 3 100m dir=1 vto=-.83
G3 0 N006 4 N006 100m dir=1 vto=-.83
.model YU D(Ron=100 Roff=1T Vfwd=.76 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.78 epsilon=.1 noiseless)
.model N VDMOS(Vto=-141m Kp=100m)
.model P VDMOS(Vto=141m Kp=100m pchan)
.model DBIAS D(Ron=1Meg Roff=1G Vfwd=.6 ilimit=120n noiseless)
.model DLIM D(Ron=1 Roff=1Meg Vfwd=1.5 Vrev=1.5 epsilon=.1 revepsilon=.1 noiseless)
.model DC D(Ron=10k Roff=100Meg Vfwd=1 ilimit=1.012m noiseless)
.ends LT1357
*
.subckt LT1360 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.9p ink=90
C2 2 1 1p Rpar=5Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.6, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.59, .1)+1n*V(2)
C9 3 2 1.5p Rpar=100Meg noiseless
C10 N004 0 7f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 1p
D5 N005 5 YU
D6 5 N005 YD
R2 3 N006 42Meg noiseless
R3 N006 4 42Meg noiseless
C13 N006 5 2p Rser=5k noiseless
C4 5 4 1p
C1 2 4 1.5p Rpar=100Meg noiseless
C6 3 1 1.5p Rpar=100Meg noiseless
C7 1 4 1.5p Rpar=100Meg noiseless
A6 0 N004 0 0 0 0 N007 0 OTA g=1u linear Cout=1.3f en=9n enk=110 Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N007 0 0 0 0 N006 0 OTA g=534u iout=10m Cout=1.7p Vlow=-1e308 Vhigh=1e308
D1 N007 0 DSlewLim
G1 0 N005 N006 0 1<>
C8 0 N005 1f Rpar=1Meg noiseless
D3 3 4 DC
C11 N006 5 30p Rser=200k noiseless
G2 N006 0 N006 3 100m dir=1 vto=-.814
G3 0 N006 4 N006 100m dir=1 vto=-.814
.model YU D(Ron=100 Roff=1T Vfwd=.805 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.785 epsilon=.1 noiseless)
.model N VDMOS(Vto=-130m Kp=120m)
.model P VDMOS(Vto=130m Kp=120m pchan)
.model DBIAS D(Ron=1Meg Roff=1G Vfwd=.6 ilimit=80n epsilon=500m noiseless)
.model DSlewLim D(Ron=550k Roff=1Meg Vfwd=1 Vrev=1 epsilon=.1 revepsilon=.1 noiseless)
.model DC D(Ron=2k Roff=1G Vfwd=1 epsilon=.1 ilimit=2.99m noiseless)
.ends LT1360
*
.subckt LT1363 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1p ink=200
C2 2 1 .1p Rpar=5Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+1.6, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+1.59, .1)+1n*V(2)
C9 3 2 1.5p Rpar=100Meg noiseless
C10 N004 0 6f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 1p
D5 N005 5 YU
D6 5 N005 YD
R2 3 N006 80Meg noiseless
R3 N006 4 80Meg noiseless
C13 N006 5 20p Rser=200k noiseless
C4 5 4 1p
C1 2 4 1.5p Rpar=100Meg noiseless
C6 3 1 1.5p Rpar=100Meg noiseless
C7 1 4 1.5p Rpar=100Meg noiseless
A6 0 N004 0 0 0 0 N007 0 OTA g=1u linear Cout=1.5f en=9n enk=250 Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N007 0 0 0 0 N006 0 OTA g=225u iout=5m Cout=512f Vlow=-1e308 Vhigh=1e308
D1 N007 0 DSlewLim
G1 0 N005 N006 0 1<>
C8 0 N005 .6f Rpar=1Meg noiseless
D3 3 4 DC
C11 N006 5 800f Rser=4k noiseless
G2 N006 0 N006 3 100m dir=1 vto=-.811
G3 0 N006 4 N006 100m dir=1 vto=-.635
.model YU D(Ron=100 Roff=1T Vfwd=.755 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=1.2 epsilon=.1 noiseless)
.model N VDMOS(Vto=-180m Kp=230m)
.model P VDMOS(Vto=150m Kp=120m pchan)
.model DBIAS D(Ron=100k Roff=1G Vfwd=.6 ilimit=.6u noiseless)
.model DSlewLim D(Ron=410k Roff=1Meg Vfwd=1 Vrev=1 epsilon=.2 revepsilon=.2 noiseless)
.model DC D(Ron=2k Roff=1G Vfwd=1 epsilon=.1 ilimit=4.103m noiseless)
.ends LT1363
*
.subckt LT1366 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=67f ink=100
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 20p Rpar=1G noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.3,.1), V(4)-.3, .1)+1n*V(2)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.31,.1), V(4)-.31, .1)+1n*V(2)
C6 3 1 6p
C7 1 4 6p
C8 2 4 6p
C9 3 2 6p
C10 N004 0 500f Rpar=100K noiseless
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
D2 N009 3 XU
D3 4 N009 XD
C2 N007 N012 7p noiseless
G2 0 N009 N007 0 20n
C12 N009 0 3f
C1 N008 0 50p Rpar=1k noiseless
R6 N012 0 100 noiseless
G3 0 N012 0 N009 5m
D4 0 N007 DLIM
D5 3 1 DBIASU
D8 2 N006 DBIASD
D10 3 2 DBIASU
R4 3 N006 416k noiseless
D9 1 N006 DBIASD
G1 0 N012 0 5 5m
C4 5 4 20p Rpar=1G noiseless
G4 0 N005 N009 0 1<>
C14 N005 0 1f Rpar=1Meg noiseless
R5 N006 4 416k noiseless
A4 0 N004 0 0 0 0 N008 0 OTA g=1m linear en=29n enk=.6 Vlow=-1e308 Vhigh=1e308
A5 0 N008 0 0 0 0 N007 0 OTA g=20u iout=945n Vlow=-1e308 Vhigh=1e308
.model DBIASD D(Ron=1K Roff=10G Vfwd= 1.1 ilimit=20n noiseless)
.model DBIASU D(Ron=1Meg Roff=10G Vfwd=-0.1 ilimit=10n noiseless)
.model XU D(Ron=1k Roff=10G Vfwd=2.45 epsilon=.1 noiseless)
.model XD D(Ron=1k Roff=10G Vfwd=1.44 epsilon=.1 noiseless)
.model Y D(Ron=100 Roff=1T Vfwd=3.1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-45m Kp=15m)
.model P VDMOS(Vto=45m Kp=15m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=318.8u noiseless)
.model DLIM D(Ron=100k Roff=1G Vfwd=250m Vrev=250m epsilon=.1 revepsilon=.1 noiseless)
.ends LT1366
*
.subckt LT1368 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=67f ink=100
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 20p Rpar=1G noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.3,.1), V(4)-.3, .1)+1n*V(2)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.31,.1), V(4)-.31, .1)+1n*V(2)
C6 3 1 6p
C7 1 4 6p
C8 2 4 6p
C9 3 2 6p
C10 N004 0 13p Rpar=100K noiseless
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
D2 N009 3 XU
D3 4 N009 XD
C2 N007 N012 8p noiseless
G2 0 N009 N007 0 20n
C12 N009 0 1f
R6 N012 0 100 noiseless
G3 0 N012 0 N009 7m
D4 0 N007 DLIM
D5 3 1 DBIASU
D8 2 N006 DBIASD
D10 3 2 DBIASU
R4 3 N006 416k noiseless
D9 1 N006 DBIASD
G1 0 N012 0 5 3m
C4 5 4 20p Rpar=1G noiseless
G4 0 N005 N009 0 1<>
C14 N005 0 .2f Rpar=1Meg noiseless
R5 N006 4 416k noiseless
A4 0 N004 0 0 0 0 N008 0 OTA g=1m linear en=29n enk=.6 Vlow=-1e308 Vhigh=1e308
A5 0 N008 0 0 0 0 N007 0 OTA g=20u iout=533n Vlow=-1e308 Vhigh=1e308
L1 N008 0 3.5m Rser=1k noiseless
.model DBIASD D(Ron=1K Roff=10G Vfwd= 1.1 ilimit=20n noiseless)
.model DBIASU D(Ron=1Meg Roff=10G Vfwd=-0.1 ilimit=10n noiseless)
.model XU D(Ron=1k Roff=10G Vfwd=2.45 epsilon=.1 noiseless)
.model XD D(Ron=1k Roff=10G Vfwd=1.44 epsilon=.1 noiseless)
.model Y D(Ron=100 Roff=1T Vfwd=3.1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-45m Kp=15m)
.model P VDMOS(Vto=45m Kp=15m pchan)
.model DP D(Roff=1T Ron=100 Vfwd=0.5 ilimit=318.8u noiseless)
.model DLIM D(Ron=100k Roff=1G Vfwd=250m Vrev=250m epsilon=.1 revepsilon=.1 noiseless)
.ends LT1368
*
.subckt LT1394 1 2 3 4 5 6 7 8
A1 5 6 0 0 0 0 N016 0 SCHMITT Vt=1.5 Vh=0 tau=.1n
B1 0 N002 I=10u*dnlim(uplim(V(2),V(1)-1.1,.1), V(4)-.5,.1)+1n*V(2)
B2 N002 0 I=10u*dnlim(uplim(V(3),V(1)-1.09,.1), V(4)-.51, .1)+1n*V(3)
C1 N002 0 .01f Rpar=100K noiseless
A2 0 N002 0 0 0 0 N007 0 OTA g=11m iout=75u Vlow=-1e308 Vhigh=1e308 Cout=10f
C2 1 7 2.5p
C3 7 6 2.5p
G1 0 N004 N007 0 70n
D1 0 N007 DLAT
G2 0 N013 0 N007 70n
A3 N010 0 N016 0 0 0 N007 0 OTA g=500u linear Vlow=-1e308 Vhigh=1e308
D2 0 N010 DLAT
C4 N010 0 1f
G3 0 N010 0 N007 500<30>
C5 3 4 1.4p
C6 2 4 1.4p
D3 1 4 DP1
D4 1 6 DP2
M1 1 N003 7 7 N temp=27
M2 6 N008 7 7 P temp=27
R1 N003 N004 4G
D5 N003 6 DVLU1
R2 N008 N004 4G
D6 6 N008 DVLD
C7 N004 0 .022f
C8 1 3 1.4p
C9 1 2 1.4p
D7 2 3 DBIASC
D8 1 3 DBIAS
D9 1 2 DBIAS
D10 1 5 DLATCH
D11 N004 1 DSIU temp=27
D12 6 N004 DSID temp=27
R3 1 N004 979.5Meg
R4 N004 6 637Meg
D13 N003 7 DLIMN2
D14 N003 6 DVLU2
D21 N003 7 DLIMN1
D22 7 N008 DLIMP
C10 1 8 2.5p
C11 8 6 2.5p
M3 1 N011 8 8 N temp=27
M4 6 N017 8 8 P temp=27
R5 N011 N013 4G
D15 N011 6 DVLU1
R6 N017 N013 4G
D16 6 N017 DVLD
C12 N013 0 .022f
R7 1 N013 979.5Meg
R8 N013 6 637Meg
D19 N011 8 DLIMN2
D20 N011 6 DVLU2
D23 N011 8 DLIMN1
D24 8 N017 DLIMP
D17 N013 1 DSIU temp=27
D18 6 N013 DSID temp=27
.model DBIAS D(Ron=1k Roff=10G Vfwd=1 epsilon=.1 ilimit=1u)
.model DBIASC D(Ron=10k Roff=10G Vfwd= 1u Vrev=1u
+ epsilon=10u revepsilon=10u ilimit=1u revilimit=1u)
.model DLATCH D(Ron=1k Roff=10Meg Vfwd=1 epsilon=.1 ilimit=4u)
.model DP1 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=1.2m)
.model DP2 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=4.8m)
.model DVLU1 D(Ron= 5Meg Roff=100G Vfwd=4.0 epsilon=.1)
.model DVLU2 D(Ron=3G Roff=100G Vfwd=1 epsilon=.1)
.model DVLD D(Ron= 5Meg Roff=100G Vfwd=-380m epsilon=.1)
.model DLAT D(Ron=1 Roff=10k Vfwd=600m Vrev=600m epsilon=5m revepsilon=5m)
.model DSIU D(Is=1.0e-30 N=2 TT=8.8e-9)
.model DSID D(Is=1.0e-30 N=2 TT=8e-9)
.model DLIMN1 D(Ron=500Meg Roff=10G Vfwd=.25 epsilon=.1)
.model DLIMN2 D(Ron=1k Roff=10G Vfwd=.5 epsilon=.1)
.model DLIMP D(Ron=1k Roff=10G Vfwd=120m epsilon=.1)
.model N VDMOS(Vto= -20m kp=150m rds=100Meg)
.model P VDMOS(Vto= 200m Kp=500m rds=10Meg pchan )
.ends LT1394
*
.subckt LT1395 1 2 3 4 5
Q32 N006 N006 3 0 P6 M=1 temp=27
R23 3 N006 11k noiseless
R24 N008 N013 300 noiseless
Q35 N021 N021 4 0 N6 M=1 temp=27
Q36 N008 N006 3 0 P6 M=5 temp=27
C4 N008 N006 .8p
R27 N008 5 13.6 noiseless
Q2 N017 N021 4 0 N6 M=5 temp=27
C5 N017 N021 .8p
Q1 4 N012 N009 0 P2 M=2 temp=27
Q3 3 N012 N016 0 N2 M=2 temp=27
R5 N016 N019 120 noiseless
R6 3 N007 300 noiseless
Q4 N007 N009 2 0 N1 M=1 temp=27
Q5 N020 N019 2 0 P1 M=1 temp=27
D1 3 N009 DBIAS
D2 N019 4 DBIAS
M1 N006 N010 N008 N008 N temp=27
M2 N021 N010 N017 N017 P temp=27
R8 3 N005 75 noiseless
Q6 N011 N004 N005 0 PG1 temp=27
Q7 N011 N022 N023 0 NG1 temp=27
I1 N004 3 5.667m
I2 4 N022 5.667m
C9 3 N007 100f
C10 N020 4 100f
C12 3 2 700f Rser=1.5k noiseless
C11 1 4 1p
C13 3 1 1p
R11 N005 N011 100k noiseless
C18 3 N009 100f
C19 N019 4 100f
Q8 N005 N009 N014 0 N1 M=1 temp=27
Q9 N023 N019 N014 0 P1 M=1 temp=27
C20 N014 4 1.9p
C21 N011 N007 .9p
C2 N011 N020 .9p
C24 N004 N011 100f
C25 N011 N022 100f
G1 4 N018 N011 4 1m
L1 N018 4 3<> Rser=4.142k Rpar=1.3183k noiseless
C1 3 5 100f Rser=100 noiseless
Q10 4 N013 N011 0 PG1B temp=27
Q11 3 N013 N011 0 NG1B temp=27
G5 N011 3 3 1 6<>
G7 N011 4 4 1 5<>
G2 4 N010 N018 4 1m
C15 N010 4 150f Rpar=1k noiseless
D3 4 4 DOFFADJ
A3 0 0 1 1 1 1 N012 1 OTA G=6m Rout=150 Linear Vhigh=1e308 Vlow=-1e308 en=4.5n enk=250
A4 0 2 0 0 0 0 0 0 OTA in=25p ink=800
A5 0 1 0 0 0 0 0 0 OTA in=6p ink=1K
R3 N020 4 300 noiseless
A7 3 N007 3 3 3 3 N004 3 OTA g=5.2m iout=8m Rout=150 Cout=10f vlow=-1.45 vhigh=0
A1 4 N020 4 4 4 4 N022 4 OTA g=5.2m iout=8m Rout=150 Cout=10f vlow=0 vhigh=1.45
R7 N011 N023 100k noiseless
C3 2 4 700f Rser=1.5k noiseless
R9 N023 4 75 noiseless
R10 N013 N017 300 noiseless
R12 5 N017 13.6 noiseless
C6 5 4 100f Rser=100 noiseless
R13 N021 4 11k noiseless
I3 N012 1 16.87<EFBFBD>
.model N VDMOS(Vto=-.1 Kp=100m Cgs=10f Cgdmax=10f Cgdmin=10f)
.model P VDMOS(Vto=.1 Kp=100m Cgs=10f Cgdmax=10f Cgdmin=10f pchan)
.model DBIAS D(Ron=10 Roff=1G vfwd=80m epsilon=100m ilimit=450u noiseless)
.model DOFFADJ D(Ron=10 Roff=1G vfwd=100m epsilon=100m ilimit=26.97u noiseless)
.model NG1 NPN (IS=1e-17 BF=80 VAF=80 RB=500 TF=5e-11 IKF=4m XTF=3 ITF=2m CJE=200f CJC=200f noiseless)
.model PG1 PNP (IS=1e-17 BF=80 VAF=80 RB=500 TF=2.5e-11 IKF=4m XTF=3 ITF=2m CJE=200f CJC=200f noiseless)
.model NG1B NPN (IS=1e-17 BF=80 VAF=80 RB=100 noiseless )
.model PG1B PNP (IS=1e-17 BF=80 VAF=80 RB=100 noiseless )
.MODEL P1 PNP
+ IS =7.0E-18 BF =38
+ VAF = 1.0E3 NF = 1.0
+ IKF = 6.0E-3
+ ISE = 10.0E-15 NE = 1.8
+ BR = 1.5 NR = 0.90 IKR = 1.0
+ VAR = 1.0E3
+ ISC = 3.0E-15 NC = 2.0
+ RE = 5.0
+ RB =100
+ RBM =20
+ IRB = 500u
+ RCO = 600
+ GAMMA=3.5e-9
+ CJE = 26.0E-15 VJE = 0.99 MJE = 0.55
+ CJC = 60.7E-15 VJC = 0.88 MJC = 0.45
+ XCJC = .5
+ FC = 0.95
+ TF = 6E-12 XTF = 0 VTF = 1.5
+ ITF = 15.0E-03
+ TR = 1.0E-09
+ noiseless
.MODEL P2 AKO:P1 PNP
+ IS =14.0E-18
+ IKF =12.0E-03
+ ISE =20.0E-15
+ ISC =6E-15
+ RE =2.5
+ RB =50
+ RBM =10
+ IRB =1E-3
+ RCO = 300
+ CJE =52.1E-15
+ CJC =109E-15
+ ITF =30.0E-03
.MODEL P6 AKO:P1 PNP
+ IS =42E-18
+ IKF =36E-03
+ ISE =60.0E-15
+ ISC =18E-15
+ RE =.833
+ RB =300
+ RBM =300
+ RCO = 100
+ CJE =146E-15
+ CJC =162E-15
+ ITF =90E-03
.MODEL N1 NPN
+ IS =20E-18 BF =135
+ VAF =1.0E3 NF = 1.0
+ IKF = 7.0E-3
+ ISE = 10.0E-18 NE = 1.5
+ BR = 1.5 NR = 0.95 IKR = 100E-03
+ VAR = 1.0E3
+ ISC = 0.0
+ RE = 5.0
+ RB =300
+ RBM =30
+ IRB = 500u
+ RCO = 750.0
+ GAMMA=9.5e-9
+ CJE = 29.7E-15 VJE = 0.99 MJE = 0.50
+ CJC = 28.3E-15 VJC = 0.74 MJC = 0.50
+ XCJC = .5
+ FC = 0.95
+ TF = 19.2E-12 XTF = 45 VTF = 1.9
+ ITF = 15.0E-03
+ TR = 1.0E-09
+ noiseless
.MODEL N2 AKO:N1 NPN
+ IS =40E-18
+ IKF =14.0E-03
+ ISE =20.0E-18
+ RE =2.5
+ RB =150
+ RBM =15
+ IRB =1e-3
+ RCO =375
+ CJE =59.4E-15
+ CJC =50.9E-15
+ ITF =30.0E-03
.MODEL N6 AKO:N1 NPN
+ VAF=1000
+ IS =120E-18
+ IKF =42.0E-03
+ ISE =60.0E-18
+ RE =.83
+ RB =300
+ RBM =300
+ RCO =125
+ CJE =149.0E-15
+ CJC =75.4E-15
+ ITF =90.0E-03
.ends LT1395
*
.subckt LT1398 1 2 3 4 5 6
Q32 N010 N010 N007 0 P6 M=1 temp=27
R24 N016 N017 300 noiseless
Q35 N025 N025 N030 0 N6 M=1 temp=27
Q36 5 N010 N008 0 P6 M=5 temp=27
R27 N016 5 37.5 noiseless
Q2 5 N025 N031 0 N6 M=5 temp=27
Q1 4 N014 N013 0 P2 M=2 temp=27
Q3 3 N014 N020 0 N2 M=2 temp=27
R5 N020 N023 300 noiseless
R6 3 N006 300 noiseless
Q4 N006 N009 2 0 N1 M=1 temp=27
Q5 N029 N023 2 0 P1 M=1 temp=27
M1 N010 N015 N016 N016 N temp=27
M2 N025 N024 N022 N022 P temp=27
R8 3 N005 150 noiseless
Q6 N012 N004 N005 0 PG1 temp=27
Q7 N012 N027 N028 0 NG1 temp=27
C9 3 N006 100f
C10 N029 4 100f
C12 3 2 300f Rser=600 noiseless
C11 1 4 1p
C13 3 1 1p
C18 3 N009 100f
C19 N023 4 100f
Q8 N005 N009 N018 0 N1 M=1 temp=27
Q9 N028 N023 N018 0 P1 M=1 temp=27
C20 N018 4 .8p
C1 3 5 100f Rser=100 noiseless
Q10 4 N017 N012 0 PG1B temp=27
Q11 3 N017 N012 0 NG1B temp=27
G2 4 N021 N012 4 1m
C15 N021 4 1e-20 Rpar=1k noiseless
A3 0 0 1 1 1 1 N014 1 OTA G=6m Rout=150 Linear Vhigh=1e308 Vlow=-1e308 en=4.5n enk=250
A4 0 2 0 0 0 0 0 0 OTA in=25p ink=800
A5 0 1 0 0 0 0 0 0 OTA in=6p ink=1K
R3 N029 4 300 noiseless
A7 3 N006 3 3 3 3 N004 3 OTA g=6.07m iout=8m Rout=150 Cout=10f vlow=-1.3 vhigh=0
A1 4 N029 4 4 4 4 N027 4 OTA g=6.07m iout=8m Rout=150 Cout=10f vlow=0 vhigh=1.3
C3 2 4 300f Rser=600 noiseless
R9 N028 4 150 noiseless
R10 N017 N022 300 noiseless
R12 5 N022 37.5 noiseless
C6 5 4 100f Rser=100 noiseless
R13 N030 4 50 noiseless
R15 N031 4 7.5 noiseless
R16 3 N007 50 noiseless
R17 3 N008 7.5 noiseless
C2 N012 4 1.6p
R18 N009 N013 150 noiseless
D4 3 6 DSHDN
C4 6 4 500f
A2 3 6 0 0 0 0 On 0 SCHMITT vt=3 vh=0 trise=48n tfall=75n
S2 4 N023 On 0 SBIAS
S1 N009 3 On 0 SBIAS
G3 N004 3 On 0 5.667m
G4 4 N027 On 0 5.667m
B1 N012 3 I=4.5u*(.5+.5*tanh((V(ON)-.5)/10m))*V(3,1)
B3 N012 4 I=4u*(.5+.5*tanh((V(ON)-.5)/10m))*V(4,1)
A6 On 0 N021 N021 N021 N021 N015 N021 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-12 Rout=1K Cout=10f
A8 On 0 N021 N021 N021 N024 N021 N021 SCHMITT Vt=.5 Vh=10m Vhigh=12 Vlow=0 Rout=1k Cout=10f
S3 N012 N005 ON 0 SHIZ
S4 N028 N012 ON 0 SHIZ
I1 N014 1 95.119<EFBFBD>
.model NG1 NPN (IS=1e-17 BF=80 VAF=80 RB=500 TF=5e-11 IKF=4m XTF=3 ITF=2m CJE=200f CJC=200f noiseless)
.model PG1 PNP (IS=1e-17 BF=80 VAF=80 RB=500 TF=2.5e-11 IKF=4m XTF=3 ITF=2m CJE=200f CJC=200f noiseless)
.model NG1B NPN (IS=1e-17 BF=80 VAF=80 RB=100 noiseless )
.model PG1B PNP (IS=1e-17 BF=80 VAF=80 RB=100 noiseless )
.MODEL P1 PNP
+ IS =7.0E-18 BF =38
+ VAF = 1.0E3 NF = 1.0
+ IKF = 6.0E-3
+ ISE = 10.0E-15 NE = 1.8
+ BR = 1.5 NR = 0.90 IKR = 1.0
+ VAR = 1.0E3
+ ISC = 3.0E-15 NC = 2.0
+ RE = 5.0
+ RB =100
+ RBM =20
+ IRB = 500u
+ RCO = 600
+ GAMMA=3.5e-9
+ CJE = 26.0E-15 VJE = 0.99 MJE = 0.55
+ CJC = 60.7E-15 VJC = 0.88 MJC = 0.45
+ XCJC = .5
+ FC = 0.95
+ TF = 6E-12 XTF = 0 VTF = 1.5
+ ITF = 15.0E-03
+ TR = 1.0E-09
+ noiseless
.MODEL P2 AKO:P1 PNP
+ IS =14.0E-18
+ IKF =12.0E-03
+ ISE =20.0E-15 NE=1.572
+ ISC =6E-15
+ RE =2.5
+ RB =50
+ RBM =10
+ IRB =1E-3
+ RCO = 300
+ CJE =52.1E-15
+ CJC =109E-15
+ ITF =30.0E-03
.MODEL P6 AKO:P1 PNP
+ IS =42E-18
+ IKF =36E-03
+ ISE =60.0E-15
+ ISC =18E-15
+ RE =.833
+ RB =300
+ RBM =300
+ RCO = 100
+ CJE =146E-15
+ CJC =162E-15
+ ITF =90E-03
.MODEL N1 NPN
+ IS =20E-18 BF =135
+ VAF =1.0E3 NF = 1.0
+ IKF = 7.0E-3
+ ISE = 10.0E-18 NE = 1.5
+ BR = 1.5 NR = 0.95 IKR = 100E-03
+ VAR = 1.0E3
+ ISC = 0.0
+ RE = 5.0
+ RB =300
+ RBM =30
+ IRB = 500u
+ RCO = 750.0
+ GAMMA=9.5e-9
+ CJE = 29.7E-15 VJE = 0.99 MJE = 0.50
+ CJC = 28.3E-15 VJC = 0.74 MJC = 0.50
+ XCJC = .5
+ FC = 0.95
+ TF = 19.2E-12 XTF = 45 VTF = 1.9
+ ITF = 15.0E-03
+ TR = 1.0E-09
+ noiseless
.MODEL N2 AKO:N1 NPN
+ IS =40E-18
+ IKF =14.0E-03
+ ISE =20.0E-18
+ RE =2.5
+ RB =150
+ RBM =15
+ IRB =1e-3
+ RCO =375
+ CJE =59.4E-15
+ CJC =50.9E-15
+ ITF =30.0E-03
.MODEL N6 AKO:N1 NPN
+ VAF=1000
+ IS =120E-18
+ IKF =42.0E-03
+ ISE =60.0E-18
+ RE =.83
+ RB =300
+ RBM =300
+ RCO =125
+ CJE =149.0E-15
+ CJC =75.4E-15
+ ITF =90.0E-03
.model DSHDN D(Ron=1K Roff=1G vfwd=600m epsilon=600m ilimit=30u noiseless)
.model SBIAS SW(level=2 Ron=1 Roff=1G vt=.5 vh=-.1 ilimit=220u noiseless)
.model SHIZ SW(Ron=100K Roff=100Meg vt=.5 vh=-.2 noiseless)
.model N VDMOS(Vto=-50m Kp=140m Cgs=10f Cgdmax=10f Cgdmin=10f)
.model P VDMOS(Vto=50m Kp=140m Cgs=10f Cgdmax=10f Cgdmin=10f pchan)
.ends LT1398
*
.subckt LT1413 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=15f ink=60
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)-0.4, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)-0.41, .1)+1n*V(2)
C6 3 1 .1p Rpar=20G noiseless
C7 1 4 .1p noiseless Rpar=20G
C8 2 4 .1p Rpar=20G noiseless
C9 3 2 .1p Rpar=20G noiseless
C10 N003 0 0.1f Rpar=100K noiseless
D1 N005 3 XU
D4 4 N005 XD
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 15f Rpar=1Meg noiseless
C3 3 5 .5p
C4 5 4 .5p
D5 N004 5 YU
D6 5 N004 YD
G1 0 N004 N005 0 1<>
C2 2 1 1f Rpar=435Meg noiseless
A2 0 N006 0 0 0 0 N005 0 OTA g=29.3u iout=1.43u Cout=4.76p Vhigh=1e308 Vlow=-1e308
G2 0 N006 N007 0 1m
L2 N006 0 .707m Cpar=11.7p Rser=1.39k Rpar=3.564102564102564k noiseless
A3 0 N003 0 0 0 0 N007 0 OTA g=1m linear en=20.2n enk=2 Vhigh=1e308 Vlow=-1e308
C11 N007 0 759p Rpar=1k noiseless
D2 2 3 DBIAS
D3 1 3 DBIAS
.model XU D(Ron=1K Roff=100G Vfwd=1.0 epsilon=1.0 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-.114 epsilon=1.0 noiseless)
.model YU D(Ron=500 Roff=1T Vfwd=.77 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=.74 epsilon=.1 noiseless)
.model DBIAS D(Ron=1k Roff=1T Vrev=0.6 revilimit=12n noiseless)
.model N VDMOS(Vto=-100m Kp=70m)
.model P VDMOS(Vto=100m Kp=70m pchan)
.ends LT1413
*
.subckt LTC1440 1 2 3 4 5 6 7 8
B1 0 N003 I=100u*dnlim(uplim(V(1),V(3)-1.2,.1), V(4)-.2 ,.1)+10n*V(1)
B2 N003 0 I=100u*dnlim(uplim(V(2),V(3)-1.19,.1), V(4)-.21, .1)+10n*V(2)
A1 0 N003 0 0 0 0 N006 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C2 N009 0 1p
M1 5 N009 6 6 NOUT temp=27
C5 3 5 .5p
C6 5 6 .5p Rpar=100Meg
D5 0 N006 DLAT
C4 7 4 20p
R6 3 N009 590Meg
R7 N009 6 590Meg
G3 N009 0 N009 N002 100<30> dir=1 vto=0
G4 0 N009 6 N009 100<30> dir=1 vto=.3
A3 0 N006 N008 0 0 0 N003 0 OTA g=20u linear cout=10f Vlow=-1e308 Vhigh=1e308
C10 4 1 .5p
C12 4 2 .5p
C13 4 8 .5p
M3 3 N013 7 7 NREF temp=27
A4 7 N014 4 4 4 4 N013 4 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N014 4 DREF
M5 4 N013 7 7 PREF temp=27
D4 N013 7 DREFILIM1
D6 7 N013 DREFILIM2
D7 N002 6 DNL
A5 N006 0 0 0 0 0 N009 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 5 N009 100f
D8 N003 0 DINNLP
D9 0 N003 DINNLN
D1 0 N008 DLIMHYST
C3 N008 0 100f Rpar=1Meg
C7 0 N003 1f Rpar=2Meg
R9 8 7 10Meg
G2 0 N008 7 8 59m
M2 5 N007 3 3 POUT temp=27
A2 6 N009 0 0 0 0 N007 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N010 3 N002 6 4n
D3 N007 3 DLIMP
G6 0 N009 N010 N007 100<30> dir=1 vto=0
C1 3 N002 100f Rpar=600Meg
C8 3 N010 100f Rpar=500Meg
C9 3 N007 .01f
C11 3 N014 100f Rpar=10Meg
S1 3 N007 6 3 SOFF
S2 N009 6 6 3 SOFF
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-20m kp=200m mtriode=.5 rd=10 pchan)
.model NREF VDMOS(Vto=-39m kp=10m)
.model PREF VDMOS(Vto=39m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DREF D(Ron=1 Roff=1T Vfwd=1.182 epsilon=.1)
.model DREFILIM1 D(Roff=1G Ron=1k Vfwd=700m epsilon=100m)
.model DREFILIM2 D(Roff=1G Ron=250k Vfwd=100m epsilon=80m)
.model DINNLP D(Vfwd=900m Ron=300k Roff=5Meg epsilon=30m)
.model DINNLN D(Vfwd=80m epsilon=50m Ron=360k Roff=100Meg)
.model DLAT D(Ron=1 Roff=10Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMHYST D(Ron=.1 Roff=100 Vfwd=0 epsilon=10m Vrev=320m revepsilon=5m)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.ends LTC1440
*
.subckt LTC1441 1 2 3 4 5
B1 0 N003 I=100u*dnlim(uplim(V(3),V(5)-1.2,.1), V(2)-.2 ,.1)+10n*V(3)
B2 N003 0 I=100u*dnlim(uplim(V(4),V(5)-1.19,.1), V(2)-.21, .1)+10n*V(2)
A1 0 N003 0 0 0 0 N006 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C2 N008 0 1p
M1 1 N008 2 2 NOUT temp=27
C5 5 1 .5p
C6 1 2 .5p Rpar=100Meg
D5 0 N006 DLAT
R6 5 N008 590Meg
R7 N008 2 590Meg
G3 N008 0 N008 N002 100<30> dir=1 vto=0
G4 0 N008 2 N008 100<30> dir=1 vto=.3
C10 N005 3 .5p
C12 N005 4 .5p
D7 N002 2 DNL
A5 N006 0 0 0 0 0 N008 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 1 N008 100f
D8 N003 0 DINNLP
D9 0 N003 DINNLN
C7 0 N003 1f Rpar=2Meg
M2 1 N007 5 5 POUT temp=27
A2 2 N008 0 0 0 0 N007 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N009 5 N002 2 4n
D3 N007 5 DLIMP
G6 0 N008 N009 N007 100<30> dir=1 vto=0
C1 5 N002 100f Rpar=600Meg
C8 5 N009 100f Rpar=500Meg
C9 5 N007 .01f
S1 5 N007 2 5 SOFF
S2 N008 2 2 5 SOFF
D1 5 2 DP
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-20m kp=200m mtriode=.5 rd=10 pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DINNLP D(Vfwd=900m Ron=300k Roff=5Meg epsilon=30m)
.model DINNLN D(Vfwd=80m epsilon=50m Ron=360k Roff=100Meg)
.model DLAT D(Ron=1 Roff=10Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model DP D(Vfwd=1.5 Ron=100 Roff=1G epsilon=.1 ilimit=1.7u)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.ends LTC1441
*
.subckt LTC1442 1 2 3 4 5 6 7 8
B1 0 N003 I=100u*dnlim(uplim(V(3),V(7)-1.2,.1), V(2)-.2 ,.1)+10n*V(3)
B2 N003 0 I=100u*dnlim(uplim(V(6),V(7)-1.19,.1), V(2)-.21, .1)+10n*V(6)
A1 0 N003 0 0 0 0 N006 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C2 N009 0 1p
M1 1 N009 2 2 NOUT temp=27
C5 7 1 .5p
C6 1 2 .5p Rpar=100Meg
D5 0 N006 DLAT
C4 6 2 20p
R6 7 N009 590Meg
R7 N009 2 590Meg
G3 N009 0 N009 N002 100<30> dir=1 vto=0
G4 0 N009 2 N009 100<30> dir=1 vto=.3
A3 0 N006 N008 0 0 0 N003 0 OTA g=20u linear cout=10f Vlow=-1e308 Vhigh=1e308
C10 2 3 .5p
C12 2 4 .5p
C13 2 5 .5p
M3 7 N014 6 6 NREF temp=27
A4 6 N015 2 2 2 2 N014 2 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N015 2 DREF
M5 2 N014 6 6 PREF temp=27
D4 N014 6 DREFILIM1
D6 6 N014 DREFILIM2
D7 N002 2 DNL
A5 N006 0 0 0 0 0 N009 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 1 N009 100f
D8 N003 0 DINNLP
D9 0 N003 DINNLN
D1 0 N008 DLIMHYST
C3 N008 0 100f Rpar=1Meg
C7 0 N003 1f Rpar=2Meg
R9 5 6 10Meg
G2 0 N008 6 5 59m
M2 1 N007 7 7 POUT temp=27
A2 2 N009 0 0 0 0 N007 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N011 7 N002 2 4n
D3 N007 7 DLIMP
G6 0 N009 N011 N007 100<30> dir=1 vto=0
C1 7 N002 100f Rpar=600Meg
C8 7 N011 100f Rpar=500Meg
C9 7 N007 .01f
C11 7 N015 100f Rpar=10Meg
S1 7 N007 2 7 SOFF
S2 N009 2 2 7 SOFF
B3 0 N017 I=100u*dnlim(uplim(V(6),V(7)-1.2,.1), V(2)-.2 ,.1)+10n*V(6)
B4 N017 0 I=100u*dnlim(uplim(V(4),V(7)-1.19,.1), V(2)-.21, .1)+10n*V(4)
A6 0 N017 0 0 0 0 N019 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C15 N021 0 1p
M4 8 N021 2 2 NOUT temp=27
C16 7 8 .5p
C17 8 2 .5p Rpar=100Meg
D10 0 N019 DLAT
R1 7 N021 590Meg
R2 N021 2 590Meg
G1 N021 0 N021 N016 100<30> dir=1 vto=0
G7 0 N021 2 N021 100<30> dir=1 vto=.3
A7 0 N019 N008 0 0 0 N017 0 OTA g=20u linear cout=10f Vlow=-1e308 Vhigh=1e308
D11 N016 2 DNL
A8 N019 0 0 0 0 0 N021 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C18 8 N021 100f
D12 N017 0 DINNLP
D13 0 N017 DINNLN
C19 0 N017 1f Rpar=2Meg
M6 8 N020 7 7 POUT temp=27
A9 2 N021 0 0 0 0 N020 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G8 N022 7 N016 2 4n
D14 N020 7 DLIMP
G9 0 N021 N022 N020 100<30> dir=1 vto=0
C20 7 N016 100f Rpar=600Meg
C21 7 N022 100f Rpar=500Meg
C22 7 N020 .01f
S3 7 N020 2 7 SOFF
S4 N021 2 2 7 SOFF
D15 7 2 DP
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-20m kp=200m mtriode=.5 rd=10 pchan)
.model NREF VDMOS(Vto=-39m kp=10m)
.model PREF VDMOS(Vto=39m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DP D(Ron=100 Roff=1G Vfwd=1.5 epsilon=.1 ilimit=1.5u)
.model DREF D(Ron=1 Roff=1T Vfwd=1.182 epsilon=.1)
.model DREFILIM1 D(Roff=1G Ron=1k Vfwd=700m epsilon=100m)
.model DREFILIM2 D(Roff=1G Ron=250k Vfwd=100m epsilon=80m)
.model DINNLP D(Vfwd=900m Ron=300k Roff=5Meg epsilon=30m)
.model DINNLN D(Vfwd=80m epsilon=50m Ron=360k Roff=100Meg)
.model DLAT D(Ron=1 Roff=10Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMHYST D(Ron=.1 Roff=100 Vfwd=0 epsilon=10m Vrev=320m revepsilon=5m)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.ends LTC1442
*
.subckt LTC1443 1 2 3 4 5 6 7
B1 0 N003 I=100u*dnlim(uplim(V(4),V(2)-1.2,.1), V(6)-.2 ,.1)+10n*V(1)
B2 N003 0 I=100u*dnlim(uplim(V(3),V(2)-1.19,.1), V(6)-.21, .1)+10n*V(2)
A1 0 N003 0 0 0 0 N005 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C2 N007 0 1p
M1 1 N007 7 7 NOUT temp=27
C5 2 1 .5p
C6 1 7 .5p Rpar=100Meg
D5 0 N005 DLAT
C4 5 6 20p
R6 2 N007 590Meg
R7 N007 7 590Meg
G3 N007 0 N007 N002 100<30> dir=1 vto=0
G4 0 N007 7 N007 100<30> dir=1 vto=.3
C10 6 4 .5p
C12 6 3 .5p
M3 2 N011 5 5 NREF temp=27
A4 5 N012 6 6 6 6 N011 6 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N012 6 DREF
M5 6 N011 5 5 PREF temp=27
D4 N011 5 DREFILIM1
D6 5 N011 DREFILIM2
D7 N002 7 DNL
A5 N005 0 0 0 0 0 N007 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 1 N007 100f
D8 N003 0 DINNLP
D9 0 N003 DINNLN
C7 0 N003 1f Rpar=2Meg
M2 1 N006 2 2 POUT temp=27
A2 7 N007 0 0 0 0 N006 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N009 2 N002 7 4n
D3 N006 2 DLIMP
G6 0 N007 N009 N006 100<30> dir=1 vto=0
C1 2 N002 100f Rpar=600Meg
C8 2 N009 100f Rpar=500Meg
C9 2 N006 .01f
C11 2 N012 100f Rpar=10Meg
S1 2 N006 7 2 SOFF
S2 N007 7 7 2 SOFF
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-20m kp=200m mtriode=.5 rd=10 pchan)
.model NREF VDMOS(Vto=-33m kp=5m)
.model PREF VDMOS(Vto=33m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DREF D(Ron=1 Roff=1T Vfwd=1.182 epsilon=.1)
.model DREFILIM1 D(Roff=1G Ron=1k Vfwd=245m epsilon=100m)
.model DREFILIM2 D(Roff=1G Ron=250k Vfwd=141m epsilon=85m)
.model DINNLP D(Vfwd=900m Ron=300k Roff=5Meg epsilon=30m)
.model DINNLN D(Vfwd=80m epsilon=50m Ron=360k Roff=100Meg)
.model DLAT D(Ron=1 Roff=10Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMHYST D(Ron=.1 Roff=100 Vfwd=0 epsilon=10m Vrev=320m revepsilon=5m)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.ends LTC1443
*
.subckt LTC1444 1 2 3 4 5 6 7
B1 0 N003 I=100u*dnlim(uplim(V(4),V(2)-1.2,.1), V(6)-.2 ,.1)+10n*V(4)
B2 N003 0 I=100u*dnlim(uplim(V(3),V(2)-1.19,.1), V(6)-.21, .1)+10n*V(3)
A1 0 N003 0 0 0 0 N006 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C2 N009 0 1p
M1 1 N009 6 6 NOUT temp=27
C5 2 1 .5p
C6 1 6 .5p Rpar=100Meg
D5 0 N006 DLAT
C4 5 6 20p
R6 2 N009 590Meg
R7 N009 6 590Meg
G3 N009 0 N009 N002 100<30> dir=1 vto=0
G4 0 N009 6 N009 100<30> dir=1 vto=.3
A3 0 N006 N008 0 0 0 N003 0 OTA g=18u linear cout=10f Vlow=-1e308 Vhigh=1e308
C10 6 3 .5p
C12 6 4 .5p
C13 6 7 .5p
M3 2 N013 5 5 NREF temp=27
A4 5 N014 6 6 6 6 N013 6 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N014 6 DREF
M5 6 N013 5 5 PREF temp=27
D4 N013 5 DREFILIM1
D6 5 N013 DREFILIM2
D7 N002 6 DNL
A5 N006 0 0 0 0 0 N009 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 1 N009 100f
D8 N003 0 DINNLP
D9 0 N003 DINNLN
D1 0 N008 DLIMHYST
C3 N008 0 100f Rpar=1Meg
C7 0 N003 1f Rpar=2Meg
R9 7 5 10Meg
G2 0 N008 5 7 59m
A2 6 N009 0 0 0 0 N007 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N010 2 N002 6 4n
D3 N007 2 DLIMP
G6 0 N009 N010 N007 100<30> dir=1 vto=0
C1 2 N002 100f Rpar=600Meg
C8 2 N010 100f Rpar=500Meg
C9 2 N007 .01f
C11 2 N014 100f Rpar=10Meg
S1 2 N007 6 2 SOFF
S2 N009 6 6 2 SOFF
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-20m kp=200m mtriode=.5 rd=10 pchan)
.model NREF VDMOS(Vto=-33m kp=5m)
.model PREF VDMOS(Vto=33m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DINNLP D(Vfwd=900m Ron=300k Roff=5Meg epsilon=30m)
.model DINNLN D(Vfwd=80m epsilon=50m Ron=360k Roff=100Meg)
.model DLAT D(Ron=1 Roff=10Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMHYST D(Ron=.1 Roff=100 Vfwd=0 epsilon=10m Vrev=320m revepsilon=5m)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.model DREF D(Ron=1 Roff=1T Vfwd=1.221 epsilon=.1)
.model DREFILIM1 D(Roff=1G Ron=1k Vfwd=245m epsilon=100m)
.model DREFILIM2 D(Roff=1G Ron=250k Vfwd=141m epsilon=85m)
.ends LTC1444
*
.subckt LTC1445 1 2 3 4 5 6 7
B1 0 N003 I=100u*dnlim(uplim(V(4),V(2)-1.2,.1), V(6)-.2 ,.1)+10n*V(4)
B2 N003 0 I=100u*dnlim(uplim(V(3),V(2)-1.19,.1), V(6)-.21, .1)+10n*V(3)
A1 0 N003 0 0 0 0 N006 0 OTA g=1u asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=5p
C2 N009 0 1p
M1 1 N009 6 6 NOUT temp=27
C5 2 1 .5p
C6 1 6 .5p Rpar=100Meg
D5 0 N006 DLAT
C4 5 6 20p
R6 2 N009 590Meg
R7 N009 6 590Meg
G3 N009 0 N009 N002 100<30> dir=1 vto=0
G4 0 N009 6 N009 100<30> dir=1 vto=.3
A3 0 N006 N008 0 0 0 N003 0 OTA g=18u linear cout=10f Vlow=-1e308 Vhigh=1e308
C10 6 3 .5p
C12 6 4 .5p
C13 6 7 .5p
M3 2 N013 5 5 NREF temp=27
A4 5 N014 6 6 6 6 N013 6 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N014 6 DREF
M5 6 N013 5 5 PREF temp=27
D4 N013 5 DREFILIM1
D6 5 N013 DREFILIM2
D7 N002 6 DNL
A5 N006 0 0 0 0 0 N009 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 1 N009 100f
D8 N003 0 DINNLP
D9 0 N003 DINNLN
D1 0 N008 DLIMHYST
C3 N008 0 100f Rpar=1Meg
C7 0 N003 1f Rpar=2Meg
R9 7 5 10Meg
G2 0 N008 5 7 59m
M2 1 N007 2 2 POUT temp=27
A2 6 N009 0 0 0 0 N007 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N010 2 N002 6 4n
D3 N007 2 DLIMP
G6 0 N009 N010 N007 100<30> dir=1 vto=0
C1 2 N002 100f Rpar=600Meg
C8 2 N010 100f Rpar=500Meg
C9 2 N007 .01f
C11 2 N014 100f Rpar=10Meg
S1 2 N007 6 2 SOFF
S2 N009 6 6 2 SOFF
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-20m kp=200m mtriode=.5 rd=10 pchan)
.model NREF VDMOS(Vto=-33m kp=5m)
.model PREF VDMOS(Vto=33m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DINNLP D(Vfwd=900m Ron=300k Roff=5Meg epsilon=30m)
.model DINNLN D(Vfwd=80m epsilon=50m Ron=360k Roff=100Meg)
.model DLAT D(Ron=1 Roff=10Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMHYST D(Ron=.1 Roff=100 Vfwd=0 epsilon=10m Vrev=320m revepsilon=5m)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.model DREF D(Ron=1 Roff=1T Vfwd=1.221 epsilon=.1)
.model DREFILIM1 D(Roff=1G Ron=1k Vfwd=245m epsilon=100m)
.model DREFILIM2 D(Roff=1G Ron=250k Vfwd=141m epsilon=85m)
.ends LTC1445
*
.subckt LT1462 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.5f
C2 2 1 1p Rpar=1T noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.5,.1), V(4)+1.3, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.51,.1), V(4)+1.29, .1)+1n*V(2)
C9 3 2 1.5p Rpar=1T noiseless
C10 N004 0 7f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .1p
D5 N005 5 Y
D6 5 N005 Y
R2 3 N006 100G noiseless
R3 N006 4 100G noiseless
C4 5 4 .1p
C1 2 4 1.5p Rpar=1T noiseless
C6 3 1 1.5p Rpar=1T noiseless
C7 1 4 1.5p Rpar=1T noiseless
A6 0 N004 0 0 0 0 N007 0 OTA g=1u linear Cout=454f en=76n enk=5 Rout=1Meg Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N007 0 0 0 0 N006 0 OTA g=15u iout=2.06u Cout=13.5p Vlow=-1e308 Vhigh=1e308
G1 0 N005 N006 0 1<>
C8 0 N005 290f Rpar=1Meg noiseless
D3 3 4 DC
C11 N006 5 10p Rser=400k noiseless
G2 N006 0 N006 3 100m dir=1 vto=-.6
G3 0 N006 4 N006 100m dir=1 vto=-.6
.model Y D(Ron=100 Roff=1T Vfwd=3.15 epsilon=.1 noiseless)
.model N VDMOS(Vto=-70m Kp=5m)
.model P VDMOS(Vto=70m Kp=5m pchan)
.model DBIAS D(Ron=100Meg Roff=1T epsilon=.5 ilimit=.5p noiseless)
.model DC D(Ron=2k Roff=1G Vfwd=1 epsilon=.1 ilimit=15.7u noiseless)
.ends LT1462
*
.subckt LT1464 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.4f
C2 2 1 1p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.5,.1), V(4)+1.5, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.51,.1), V(4)+1.49, .1)+1n*V(2)
C9 3 2 1.5p
C10 N004 0 .5f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .1p
D5 N005 5 Y
D6 5 N005 Y
R2 3 N006 100G noiseless
R3 N006 4 100G noiseless
C4 5 4 .1p
C1 2 4 1.5p
C6 3 1 1.5p
C7 1 4 1.5p
A6 0 N004 0 0 0 0 N007 0 OTA g=1.25u linear Cout=58f en=24n enk=9 Rout=1Meg Vhigh=1e308 Vlow=-1e308
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N007 0 0 0 0 N006 0 OTA g=20u iout=3.75u Cout=3.97p Vlow=-1e308 Vhigh=1e308
G1 0 N005 N006 0 1<>
C8 0 N005 11f Rpar=1Meg noiseless
D3 3 4 DC
C11 N006 5 3p Rser=300k noiseless
G2 N006 0 N006 3 100m dir=1 vto=-1.1
G3 0 N006 4 N006 100m dir=1 vto=-1.1
.model Y D(Ron=100 Roff=1T Vfwd=1.2 epsilon=.1 noiseless)
.model N VDMOS(Vto=-10m Kp=100m)
.model P VDMOS(Vto=10m Kp=100m pchan)
.model DBIAS D(Ron=1T Roff=1T Ilimit=.4p noiseless)
.model DC D(Ron=2k Roff=1G Vfwd=1 epsilon=.1 ilimit=130u noiseless)
.ends LT1464
*
.subckt LT1466 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=48f ink=67
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.15,.1), V(4)-.15, .1)+1n*V(1)-26.7p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.16,.1), V(4)-.16, .1)+1n*V(2)
C10 N004 0 1p Rpar=100K noiseless
M1 5 N012 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 N012 4 DLIMN
M2 5 N008 3 3 PI temp=27
D8 3 N008 DLIMP
C3 3 N008 50p Rser=220k noiseless
A3 N009 N010 4 4 4 4 N008 4 OTA g=200n ref=-27m linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 N012 4 50p Rser=220k noiseless
A4 0 N004 0 0 0 0 N006 0 OTA g=1m linear en=44.9n enk=5 Rout=1k Cout=550p Vlow=-1e308 Vhigh=1e308
C16 N010 5 4p Rser=40k noiseless
A5 N007 0 N009 N009 N009 N009 N010 N009 OTA g=4.5u iout=160n Vhigh=1e308 Vlow=-1e308
G1 4 N012 N010 N009 400n
D9 N010 N009 DLIM
C7 3 1 .5p Rser=100 noiseless
C13 3 4 1000p
G2 0 N009 4 0 .5m
G4 0 N009 3 0 .5m
C18 N009 0 200p Rpar=1K noiseless
G3 0 N007 N006 0 1m
C8 N007 0 150p Rpar=1k noiseless
D1 3 1 DB1
D2 3 2 DB1
C4 3 2 .5p Rser=100 noiseless
C5 2 4 .5p Rser=100 noiseless
C6 1 4 .5p Rser=100 noiseless
D3 3 N005 DB2
D4 2 N005 DB3
D6 1 N005 DB3
R3 N005 4 100Meg noiseless
.model NI VDMOS(Vto=300m kp=70m lambda=.01)
.model PI VDMOS(Vto=-300m Kp=24m lambda=.01 pchan is=0)
.model DLIM D(Ron=100k Roff=700Meg Vfwd=1 Vrev=1 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=10k Roff=100Meg Vfwd=.85 Vrev=-.3 epsilon=.1 revepsilon=10m noiseless)
.model DLIMP D(Ron=10k Roff=100Meg Vfwd=1.2 Vrev=-.3 epsilon=100m revepsilon=10m noiseless)
.model DB1 D(Ron=1k Roff=50g vfwd=0 epsilon=10m ilimit=6n noiseless)
.model DB2 D(Ron=1k Roff=50g vfwd=1.7 epsilon=100m noiseless)
.model DB3 D(Ron=1k Roff=50g vfwd=200m epsilon=100m ilimit=9n noiseless)
.ends LT1466
*
.subckt LT1468 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.6p ink=16.4
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N006 I=10u*dnlim(uplim(V(1),V(3)-1.3,.1), V(4)+.5, .1)+1n*V(1)
B2 N006 0 I=10u*dnlim(uplim(V(2),V(3)-1.29,.1), V(4)+0.49, .1)+1n*V(2)
C6 3 1 2p Rser=100 Rpar=480Meg noiseless
C7 1 4 2p noiseless Rser=100 Rpar=480Meg
C8 2 4 2p Rser=100 Rpar=480Meg noiseless
C9 3 2 2p Rser=100 Rpar=480Meg noiseless
C10 N006 0 18.47f Rpar=100K noiseless
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
C11 2 1 1p Rpar=150k noiseless
A2 0 N006 0 0 0 0 N007 0 OTA g=42.1u Iout=1.7u Cout=74.3f en=5n enk=40 Vhigh=1e308 Vlow=-1e308
D2 N007 3 XU
D3 4 N007 XD
G2 0 N004 N007 0 1m
L2 N004 0 28.64<EFBFBD> Rpar=6.882352941176470585k Rser=1.17k Cpar=139.3f noiseless
G1 0 N005 N004 0 1<>
C1 N005 0 106.1f Rpar=1Meg noiseless
C2 5 N005 110f Rser=10k noiseless
D4 2 1 DI
.model XU D(Ron=1K Roff=100G Vfwd=-1.3 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-1.3 epsilon=.1 noiseless)
.model Y D(Ron=1k Roff=1T Vfwd=.28 epsilon=.1 noiseless)
.model N VDMOS(Vto=-50m Kp=550m)
.model P VDMOS(Vto=50m Kp=550m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=3.413m noiseless)
.model DI D(Ron=250 Roff=1T Vfwd=1 Vrev=1 noiseless)
.ends LT1468
*
.subckt LT1490A 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=14f ink=114
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+44,.1), V(4)-.1, .1)+1n*V(1) -262p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+44.01,.1), V(4)-.11, .1)+1n*V(2)
C9 3 2 2.3p Rser=2k Rpar=5G noiseless
C10 N004 0 200f Rpar=100K noiseless
D4 3 N009 DBIA3
C2 3 5 1p Rpar=1g noiseless
D5 VN 4 DLIMN1
A3 0 X6 3 3 3 3 VP 3 OTA g=800n linear ref=-30m vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N009 DBIA1
D11 2 N009 DBIA1
D6 VN 4 DLIMN2
A4 0 N004 0 0 0 0 N006 0 OTA g=1m linear en=49.8n enk=3.5 Vhigh=1e308 Vlow=-1e308
C16 X5 N008 12p
C1 0 N007 1.5p Rpar=5Meg noiseless
A5 N007 0 0 0 0 0 X5 0 OTA g=14u iout=843n Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
C5 N009 4 20p Rpar=5Meg noiseless
D9 X5 0 DLIM
C6 2 4 2.3p Rser=2k Rpar=5G noiseless
C7 3 1 2.3p Rser=2k Rpar=5G noiseless
C8 1 4 2.3p Rser=2k Rpar=5G noiseless
R3 2 1 17Meg noiseless
C13 3 4 100p
G2 0 N007 N006 0 200n
D7 3 4 DP
L1 N006 0 6.61m Rser=1.12k Rpar=9.33k Cpar=15.7p noiseless
S1 X5 0 4 3 SHUT
S2 3 VP 4 3 SHUT
S3 VN 4 4 3 SHUT
D1 3 VP DLIMP
M1 5 VP N005 N005 PI temp=27
M2 5 VN 4 4 NI temp=27
C3 VP 5 .1f
C12 5 VN .1f
A2 0 X6 4 4 4 4 VN 4 OTA g=50n linear ref=30m vlow=-1e308 vhigh=1e308
D8 3 N005 DILIMU
C14 3 N005 1p Rpar=1g noiseless
G1 0 X6 X5 0 1<>
R7 X6 0 1Meg noiseless
B4 X7 0 I=300p*ddt(V(X7))*(.5+.5*tanh((-380m-V(VP,3))/10m))
R4 X7 X6 1.5K noiseless
G3 0 N008 5 N011 10m
R8 3 N011 1Meg noiseless
R10 N011 4 1Meg noiseless
C15 N008 0 100f Rpar=100 noiseless
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=25n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=100G Vfwd=0 ilimit=1n epsilon=10m noiseless)
.model DBIA3 D(Ron=1k Roff=10G Vfwd=.7 epsilon=.1 noiseless)
.model DBIAOT D(Ron=50k Vfwd=0 ilimit=2.5u epsilon=50m noiseless)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=28.3u noiseless)
.model DILIMU D(Ron=.1 Roff=100k Vfwd=21m epsilon=2m noiseless)
.model SHUT SW(Ron=1 Roff=100G vt=-1 vh=-.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.5 Vrev=-.3 epsilon=10m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=100k Roff=400Meg Vfwd=1.7 Vrev=-310m epsilon=.1 revepsilon=10m noiseless)
.model DLIMN2 D(Ron=100Meg Roff=1G Vfwd=50m epsilon=100m ilimit=10n noiseless)
.model PI VDMOS(Vto=-300m Kp=32m pchan is=0 noiseless)
.model NI VDMOS(Vto=300m kp=19m noiseless)
.model DLIM D(Ron=10 Roff=70Meg Vfwd=300m Vrev=20m epsilon=10m revepsilon=10m noiseless)
.ends LT1490A
*
.subckt LT1492 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=117f ink=43.5
M1 3 N005 5 5 N temp=27
M2 4 N008 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.3,.1), V(4)-.35, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.29,.1), V(4)-.36, .1)+1n*V(2)
C6 3 1 5p Rpar=1.6G noiseless
C7 1 4 5p noiseless Rpar=1.6G
C8 2 4 5p Rpar=1.6G noiseless
C9 3 2 5p Rpar=1.6G noiseless
A2 0 N007 0 0 0 0 N005 0 OTA g=7u iout=1.2u Vlow=-1e308 Vhigh=1e308 Cout=257f
C10 N004 0 1f Rpar=100K noiseless
D4 N005 3 XU
D5 4 N005 XD
D1 N005 5 YU
D6 5 N008 YD
D7 3 4 DP
D2 2 3 DBIASU
D3 1 3 DBIASU
R3 2 1 40Meg noiseless
D8 5 N008 YTAU temp=27
A3 0 N004 0 0 0 0 N006 0 OTA g=1u linear en=16.5n enk=1 Vlow=-1e308 Vhigh=1e308 Cout=600f
D9 0 N006 DLIM
D10 4 2 DBIASD
D11 4 1 DBIASD
G2 0 N007 N006 0 1m
L2 N007 0 335<33> cpar=1f Rser=1160 Rpar=7250 noiseless
G1 0 N008 N005 0 1<>
C1 N008 0 1f Rpar=1Meg noiseless
R4 3 4 333k noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.66 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=.6 epsilon=.1 noiseless)
.model YU D(Ron=500 Roff=1T Vfwd=2.19 epsilon=.1 noiseless)
.model YD D(Ron=500 Roff=1T Vfwd=2.2 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=20m)
.model P VDMOS(Vto=150m Kp=20m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=184.8u noiseless)
.model DBIASU D(Ron=1k Roff=1T Vfwd=.8 epsilon=.1 Vrev=.8 revepsilon=.1 revilimit=45n noiseless)
.model DBIASD D(Ron=100 Roff=1T Vfwd=.74 epsilon=.2 noiseless)
.model YTAU D(Is=1e-30 N=10 TT=8e-2)
.model DLIM D(Ron=1 Roff=1e6 Vfwd=133m Vrev=133m epsilon=10m revepsilon=10m noiseless)
.ends LT1492
*
.subckt LT1494 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=8f ink=54.7
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+37,.1), V(4)-.1, .1)+1n*V(1)-663p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+37.01,.1), V(4)-.11, .1)+1n*V(2)
C9 3 2 2.3p Rser=2k noiseless
C10 N004 0 100p Rpar=100K noiseless
D4 3 N011 DBIA3
M1 5 N012 N014 N014 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D1 3 N005 DVLIMU
D5 N012 4 DLIMN1
M2 5 N006 N005 N005 PI temp=27
D8 3 N006 DLIMP1
C3 3 N006 600p Rser=700k noiseless
A3 N007 N010 4 4 4 4 N006 4 OTA g=800n ref=-.021 linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 N012 4 10f Rser=2k noiseless
C4 3 N005 1p Rpar=1g noiseless
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N011 DBIA1
D11 2 N011 DBIA1
D6 N012 4 DLIMN2
A4 0 N004 0 0 0 0 N008 0 OTA g=1u linear en=232n/freq**.05 Vhigh=1e308 Vlow=-1e308
C16 N010 5 30p
A5 N009 0 N007 N007 N007 N007 N010 N007 OTA g=500n iout=29.5n Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
G1 4 N012 N010 N007 50n
C5 N011 4 20p Rpar=50Meg noiseless
E1 N007 4 3 4 0.5
D9 N010 N007 DLIM
C6 2 4 2.3p Rser=2k noiseless
C7 3 1 2.3p Rser=2k noiseless
C8 1 4 2.3p Rser=2k noiseless
C13 3 4 1000p
C15 N006 N012 10p Rser=300k noiseless
D7 3 4 DP
C17 0 N008 8p Rpar=1Meg noiseless
C19 0 N009 8p Rpar=1Meg noiseless
G4 0 N009 N008 0 1<>
D14 N014 4 DVLIMD
C1 N014 4 1p Rpar=1g noiseless
D15 3 N006 DLIMP2
C14 N006 5 2p
S1 N010 N007 N007 3 SHUT
S2 3 N006 4 3 SHUT
S3 N012 4 4 3 SHUT
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.81u noiseless)
.model DBIA1 D(Ron=100k Roff=100T Vfwd=.1 ilimit=1.6p epsilon=.1 noiseless)
.model DBIA2 D(Ron=100k Roff=10T Vfwd=0 ilimit=.2p epsilon=1m noiseless)
.model DBIA3 D(Ron=10Meg Roff=100G Vfwd=.7 epsilon=.1 noiseless)
.model DBIAOT D(Ron=50k Roff=100T Vfwd=0 ilimit=170p epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=34m epsilon=2m noiseless)
.model DVLIMD D(Ron=10 Roff=1Meg Vfwd=49m epsilon=2m noiseless)
.model SHUT SW(Ron=1 Roff=100G vt=-1 vh=-.1 noiseless)
.model NI VDMOS(Vto=300m kp=1.5m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=2g Vfwd=1.8 Vrev=-320m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=400Meg Roff=2G Vfwd=-10m epsilon=100m ilimit=900p noiseless)
.model PI VDMOS(Vto=-300m Kp=2m lambda=.01 pchan is=0)
.model DLIMP1 D(Ron=100k Roff=300Meg Vfwd=1.33 Vrev=-320m epsilon=10m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=100Meg Roff=2g Vfwd=-10m epsilon=100m ilimit=3.5n noiseless)
.model DLIM D(Ron=100k Roff=500Meg Vfwd=100m Vrev=200m epsilon=10m revepsilon=10m noiseless)
.ends LT1494
*
.subckt LT1497 1 2 3 4 5
R2 N006 N009 10K noiseless
R3 N009 N012 10K noiseless
Q1 N004 N006 2 0 N temp=27
Q2 N013 N012 2 0 P temp=27
M1 3 N007 5 5 N temp=27
M2 4 N007 5 5 P temp=27
C4 3 5 2.2p
C5 5 4 2.2p
D1 3 N006 1uA m=99
R19 3 N004 100 noiseless
R20 N013 4 100 noiseless
G5 0 N005 3 N004 1m
G6 N005 0 N013 4 1m
D3 N010 3 X
D4 4 N010 X
G3 0 N007 N010 0 10<31>
C1 N007 0 .02p Rpar=100K noiseless
C2 3 2 .5p
C6 3 1 1.5p
C7 2 4 .5p
C8 1 4 1.5p
A2 0 0 1 1 1 1 N009 1 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=3n enk=200
A3 0 1 0 0 0 0 0 0 OTA in=2p ink=80
A4 0 2 0 0 0 0 0 0 OTA in=20p ink=150
D2 N012 4 1uA m=99
A5 0 N005 0 0 0 0 N010 0 OTA G=27.5u Iout=15u Cout=.02p Vlow=-1e308 Vhigh=1e308
C3 0 N005 2p Rpar=1K noiseless
D5 5 N007 Y
D6 3 4 1mA m=2.4
.model N NPN(Cje=.2p Cjc=.2p noiseless)
.model P PNP(Cje=.2p Cjc=.2p noiseless)
.model N VDMOS(Vto=-.2 Kp=.1)
.model P VDMOS(Vto=.2 Kp=.1 pchan)
.model 1uA D(Ron=100K epsilon=.5 Ilimit=1u noiseless)
.model X D(Ron=1K Roff=100Meg epsilon=.2 Vfwd=-.75 noiseless)
.model Y D(Ron=3K Roff=1G epsilon=.3 revepsilon=.3 Vfwd=1.65 Vrev=1.65 noiseless)
.model 1mA D(Ron=2K Ilimit=1m epsilon=3 noiseless)
.ends LT1497
*
.subckt LT1498 1 2 3 4 5
C2 2 1 .1p Rpar=100Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.3,.1), V(4)-.3, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.3,.1), V(4)-.3, .1)+1n*V(2)
C6 3 1 2.5p Rpar=1G noiseless
C7 1 4 2.5p noiseless Rpar=1G
C8 2 4 2.5p Rpar=1G noiseless
C9 3 2 2.5p Rpar=1G noiseless
A2 0 N007 0 0 0 0 N009 0 OTA g=76u iout=47u Cout=10p Vhigh=1e308 Vlow=-1e308
C10 N004 0 28f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 1p
C4 5 4 1p
D5 N005 5 YU
D6 5 N005 YD
D3 3 4 DC
R2 3 N009 10G noiseless
R3 N009 4 10G noiseless
C11 5 N009 35p Rser=7k noiseless
A3 0 N004 0 0 0 0 N006 0 OTA g=1m linear en=12n enk=13 Cout=10p Vlow=-1e308 Vhigh=1e308
G4 0 N005 N009 0 1e-6
L2 N005 0 89.8m Rser=2.98Meg Cpar=5.33f Rpar=1.5050505050505050505Meg noiseless
D1 2 1 DCLMP
D7 N006 0 DCLMPI
G5 0 N007 N006 0 1e-5
C12 N007 0 390f Rpar=1Meg Rser=723k noiseless
D4 N007 N006 DLSIG
D2 3 2 DBIASU
D8 1 N008 DBIASD
R1 3 N008 12.5K noiseless
R6 N008 4 12.5K noiseless
D9 2 N008 DBIASD
D10 3 1 DBIASU
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.2p*exp(3.55/(freq**.3))
G1 N009 0 N009 3 200m dir=1 vto=.09
G2 0 N009 4 N009 200m dir=1 vto=.14
.model YU D(Ron=10k Roff=1T Vfwd=.57 epsilon=.1 noiseless)
.model YD D(Ron=5k Roff=1T Vfwd=.465 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=80m)
.model P VDMOS(Vto=150m Kp=110m pchan)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=451.26u noiseless)
.model DCLMP D(Ron=800 Roff=1G Vfwd=0.8 Vrev=0.8 epsilon=.1 revepsilon=.1 noiseless)
.model DLSIG D(Ron=1k Roff=1G Vfwd=.6 Vrev=.6 epsilon=.1 revepsilon=.1 noiseless)
.model DCLMPI D(Ron=1 Roff=1k Vfwd=0.8 Vrev=0.8 epsilon=1. revepsilon=.1 noiseless)
.model DBIASD D(Ron=100K Roff=10G Vfwd= 1.2 ilimit=500n epsilon=.1 noiseless)
.model DBIASU D(Ron=100K Roff=10G Vfwd=-0.2 ilimit=250n epsilon=.1 noiseless)
.ends LT1498
*
.subckt LTC1540 1 2 3 4 5 6 7 8
B1 0 N004 I=100u*dnlim(uplim(V(3),V(7)-1.2,.1), V(2)-.2 ,.1)+10n*V(3)
B2 N004 0 I=100u*dnlim(uplim(V(4),V(7)-1.19,.1), V(2)-.21, .1)+10n*V(4)
A1 0 N004 0 0 0 0 N007 0 OTA g=50n asym isource=1.9u isink=-1.2u Vlow=-1e308 Vhigh=1e308 Cout=3p
C2 N009 0 1p
M1 8 N009 1 1 NOUT temp=27
C5 7 8 .1p
C6 8 1 .1p Rpar=100Meg
D5 0 N007 DLAT
C4 6 2 20p
R6 7 N009 590Meg
R7 N009 1 590Meg
G3 N009 0 N009 N003 100<30> dir=1 vto=0
G4 0 N009 1 N009 100<30> dir=1 vto=.3
A3 0 N007 N002 0 0 0 N004 0 OTA g=22u linear cout=10f Vlow=-1e308 Vhigh=1e308
C10 2 3 .5p
C12 2 4 .5p
C13 2 5 .5p
M3 7 N013 6 6 NREF temp=27
A4 6 N014 2 2 2 2 N013 2 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N014 2 DREF
M5 2 N013 6 6 PREF temp=27
D4 N013 6 DREFILIM1A
D6 6 N013 DREFILIM2A
D7 N003 1 DNL
A5 N007 0 0 0 0 0 N009 0 OTA g=2u iout=1u Vlow=-1e308 Vhigh=1e308
C14 8 N009 100f
D8 N004 0 DINNLP1
D9 0 N004 DINNLN1
D1 0 N002 DLIMHYST
C3 N002 0 100f Rpar=1Meg
C7 0 N004 1f Rpar=2Meg
R9 5 6 10Meg
G2 0 N002 6 5 59m
M2 8 N008 7 7 POUT temp=27
A2 1 N009 0 0 0 0 N008 0 OTA g=100n linear Vlow=-1e308 Vhigh=1e308 ref=100m
G5 N010 7 N003 1 4n
D3 N008 7 DLIMP
G6 0 N009 N010 N008 100<30> dir=1 vto=0
C1 7 N003 100f Rpar=600Meg
C8 7 N010 100f Rpar=500Meg
C9 7 N008 .01f
C11 7 N014 100f Rpar=100Meg
S1 7 N008 1 7 SOFF
S2 N009 1 1 7 SOFF
D10 6 N013 DREFILIM2B
D11 N013 6 DREFILIM1B
D12 N004 0 DINNLP2
D13 0 N004 DINNLN2
.model NOUT VDMOS(Vto=5m kp=.6 mtriode=.15 rs=1.8 rds=10g)
.model POUT VDMOS(Vto=-18m kp=200m mtriode=.5 rd=10 pchan)
.model NREF VDMOS(Vto=-18m kp=5m)
.model PREF VDMOS(Vto=20m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DINNLP1 D(Vfwd=1.05 Ron=25k Roff=5Meg epsilon=30m)
.model DINNLP2 D(Vfwd=1.3 Roff=1G Ron=100 epsilon=50m)
.model DINNLN1 D(Vfwd=1.05 epsilon=50m Ron=25k Roff=100Meg)
.model DINNLN2 D(Vfwd=1.3 Roff=1G Ron=100 epsilon=50m)
.model DLAT D(Ron=1 Roff=100Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMHYST D(Ron=.1 Roff=100 Vfwd=0 epsilon=10m Vrev=320m revepsilon=5m)
.model DLIMP D(Vfwd=300m Roff=200Meg Ron=100k epsilon=100m)
.model SOFF SW(Ron=1 Roff=1G Vt=-1.8 Vh=-.2)
.model DREF D(Ron=10 Roff=1T Vfwd=1.182 epsilon=.1)
.model DREFILIM1A D(Roff=4G Ron=200Meg Vfwd=100m epsilon=100m)
.model DREFILIM1B D(Roff=4G Ron=1Meg Vfwd=950m epsilon=100m)
.model DREFILIM2A D(Roff=4G Ron=1Meg Vfwd=90m epsilon=200m)
.model DREFILIM2B D(Roff=4G Ron=100k Vfwd=185m epsilon=100m)
.ends LTC1540
*
.subckt LTC1541 1 2 3 4 5 6 7 8
B1 0 N003 I=100u*dnlim(uplim(V(5),V(8)-1.2,.1), V(4)-.2 ,.1)+10n*V(5)-210n*V(VLAT,VREF)
B2 N003 0 I=100u*dnlim(uplim(V(6),V(8)-1.19,.1), V(4)-.21, .1)+10n*V(6)
A1 N003 0 VREF VREF VREF VREF VLAT VREF OTA g=38u linear Vlow=-1e308 Vhigh=1e308 Cout=10f
D5 VREF VLAT DLAT
C4 6 4 .5p
C10 4 5 .5p
M3 8 N005 6 6 NREF temp=27
A4 6 N007 4 4 4 4 N005 4 OTA g=5u iout=500n Vlow=-1e308 Vhigh=1e308 Cout=1p Rout=1g
D2 N007 4 DREF
M5 4 N005 6 6 PREF temp=27
D4 N005 6 DREFILIM1A
D6 6 N005 DREFILIM2
D9 0 N003 DINNL
C11 8 N007 100f Rpar=10Meg
M1 7 N010 4 4 NOUT temp=27
D1 N010 4 DLIMNC
M2 7 N006 8 8 POUT temp=27
D3 8 N006 DLIMPC
C1 8 N006 .1f Rser=7Meg noiseless
A2 VREF VLAT 4 4 4 4 N006 4 OTA g=200n ref=-16m linear vlow=-1e308 vhigh=1e308
C2 8 7 .1p Rpar=10Meg noiseless
C3 7 4 .1p Rpar=10Meg noiseless
C6 N006 7 .01f Rser=1k noiseless
C9 N010 4 .1f Rser=7Meg noiseless
S1 8 N006 4 8 SOFF
S2 N010 4 4 8 SOFF
A3 VREF VLAT 4 4 4 4 N010 4 OTA g=200n ref=16m linear vlow=-1e308 vhigh=1e308
D7 N005 6 DREFILIM1B
A5 2 3 0 0 0 0 0 0 OTA g=0 in=11.3f ink=12.8
B3 0 N012 I=10u*dnlim(uplim(V(3),V(8)-1.2,.1), V(4)-.15, .1)+1n*V(3)-2n
B4 N012 0 I=10u*dnlim(uplim(V(2),V(8)-1.19,.1), V(4)-.16, .1)+1n*V(2)
C5 N012 0 500f Rpar=100K noiseless
M4 1 N017 4 4 NI temp=27
C12 8 1 1p Rpar=10G noiseless
D8 N017 4 DLIMN1
M6 1 VP 8 8 PI temp=27
C13 8 VP 5p Rser=100k noiseless
C14 1 4 1p Rpar=10G noiseless
C15 N017 4 1p Rser=500k noiseless
A6 0 N012 0 0 0 0 N013 0 OTA g=1u linear en=300n Vhigh=1e308 Vlow=-1e308
C16 N015 1 38p
A7 N013 0 VREF VREF VREF VREF N015 VREF OTA g=4u iout=304n Vhigh=1e308 Vlow=-1e308
G1 4 N017 N015 VREF 10n
D10 N015 VREF DLIM
C17 VP 1 400f
B5 VP 4 I=2n*V(VP,1)/dnlim(V(8,4),1.7,.1)
C18 8 3 3p Rpar=4T noiseless
C19 8 4 1000p
C20 VP N017 200f Rser=250k noiseless
C21 N013 0 6p Rpar=1Meg noiseless
G2 0 VREF 4 0 .5m
G3 0 VREF 8 0 .5m
C22 VREF 0 500p Rpar=1k noiseless
D11 N017 4 DLIMN2
C23 8 2 3p Rpar=4T noiseless
C24 3 4 3p Rpar=4T noiseless
C25 2 4 3p Rpar=4T noiseless
R1 2 3 10G noiseless
D12 2 4 DBIAS
D13 3 4 DBIAS
A8 VREF N015 4 4 4 4 VP 4 OTA g=350n ref=-.057 linear vlow=-1e308 vhigh=1e308
D14 8 VP DLIMP1
D15 8 VP DLIMP2
S3 8 VP 4 8 SOFF
S4 N017 4 4 8 SOFF
C8 7 N010 .01f Rser=1k noiseless
C27 VLAT 7 20p
L1 N003 0 2.26 Cpar=12p Rpar=116k Rser=711k
D16 8 4 DP
D17 5 4 DBIAS
.model NOUT VDMOS(Vto=305m kp=18m)
.model POUT VDMOS(Vto=-305m kp=10m pchan)
.model NREF VDMOS(Vto=-33m kp=100u)
.model PREF VDMOS(Vto=33m kp=1m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DINNL D(Vfwd=220m Vrev=220m Ron=100 Roff=5Meg epsilon=80m revepsilon=80m)
.model DLAT D(Ron=100 Roff=100Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMNC D(Ron=100k Roff=100Meg Vfwd=2.42 Vrev=-300m epsilon=900m revepsilon=10m)
.model DLIMPC D(Ron=100k Roff=100Meg Vfwd=4.2 Vrev=-300m epsilon=10m revepsilon=10m)
.model SOFF SW(Ron=100 Roff=100G Vt=-1.8 Vh=-.2 noiseless)
.model DREF D(Ron=1 Roff=1T Vfwd=1.2 epsilon=.1)
.model DREFILIM1A D(Roff=1G Ron=50Meg Vfwd=150m epsilon=100m)
.model DREFILIM1B D(Roff=1G Ron=1Meg Vfwd=880m epsilon=200m)
.model DREFILIM2 D(Roff=1G Ron=10Meg Vfwd=2.3 epsilon=500m)
.model DP D(Ron=1k Roff=1G Vfwd=1.8 epsilon=.1 ilimit=4u)
.model DBIAS D(Ron=1Meg Roff=4T Vfwd=.5 epsilon=.1 ilimit=10p noiseless)
.model NI VDMOS(Vto=300m kp=20m)
.model PI VDMOS(Vto=-300m Kp=20m pchan)
.model DLIM D(Ron=100k Roff=70Meg Vfwd=4 Vrev=2.5 epsilon=10m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=20k Roff=1g Vfwd=.72 Vrev=-280m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=600Meg Roff=2G Vfwd=200m epsilon=5m ilimit=150p noiseless)
.model DLIMP1 D(Ron=100k Roff=500Meg Vfwd=.65 Vrev=-305m epsilon=10m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=100Meg Roff=10g Vfwd=100m epsilon=10m ilimit=2.5n noiseless)
.ends LTC1541
*
.subckt LTC1542 1 2 3 4 5 6 7 8
B1 0 N003 I=100u*dnlim(uplim(V(5),V(8)-1.2,.1), V(4)-.2 ,.1)+10n*V(5)-210n*V(VLAT,VREF)
B2 N003 0 I=100u*dnlim(uplim(V(6),V(8)-1.19,.1), V(4)-.21, .1)+10n*V(6)
A1 N003 0 VREF VREF VREF VREF VLAT VREF OTA g=38u linear Vlow=-1e308 Vhigh=1e308 Cout=10f
D5 VREF VLAT DLAT
C4 6 4 .5p
C10 4 5 .5p
D9 0 N003 DINNL
M1 7 N008 4 4 NOUT temp=27
D1 N008 4 DLIMNC
M2 7 N005 8 8 POUT temp=27
D3 8 N005 DLIMPC
C1 8 N005 .1f Rser=7Meg noiseless
A2 VREF VLAT 4 4 4 4 N005 4 OTA g=200n ref=-16m linear vlow=-1e308 vhigh=1e308
C2 8 7 .1p Rpar=10Meg noiseless
C3 7 4 .1p Rpar=10Meg noiseless
C6 N005 7 .01f Rser=1k noiseless
C9 N008 4 .1f Rser=7Meg noiseless
S1 8 N005 4 8 SOFF
S2 N008 4 4 8 SOFF
A3 VREF VLAT 4 4 4 4 N008 4 OTA g=200n ref=16m linear vlow=-1e308 vhigh=1e308
A5 2 3 0 0 0 0 0 0 OTA g=0 in=11.3f ink=12.8
B3 0 N010 I=10u*dnlim(uplim(V(3),V(8)-1.2,.1), V(4)-.15, .1)+1n*V(3)-2n
B4 N010 0 I=10u*dnlim(uplim(V(2),V(8)-1.19,.1), V(4)-.16, .1)+1n*V(2)
C5 N010 0 500f Rpar=100K noiseless
M4 1 N015 4 4 NI temp=27
C12 8 1 1p Rpar=10G noiseless
D8 N015 4 DLIMN1
M6 1 VP 8 8 PI temp=27
C13 8 VP 5p Rser=100k noiseless
C14 1 4 1p Rpar=10G noiseless
C15 N015 4 1p Rser=500k noiseless
A6 0 N010 0 0 0 0 N011 0 OTA g=1u linear en=300n Vhigh=1e308 Vlow=-1e308
C16 N013 1 38p
A7 N011 0 VREF VREF VREF VREF N013 VREF OTA g=4u iout=304n Vhigh=1e308 Vlow=-1e308
G1 4 N015 N013 VREF 10n
D10 N013 VREF DLIM
C17 VP 1 400f
B5 VP 4 I=2n*V(VP,1)/dnlim(V(8,4),1.7,.1)
C18 8 3 3p Rpar=4T noiseless
C19 8 4 1000p
C20 VP N015 200f Rser=250k noiseless
C21 N011 0 6p Rpar=1Meg noiseless
G2 0 VREF 4 0 .5m
G3 0 VREF 8 0 .5m
C22 VREF 0 500p Rpar=1k noiseless
D11 N015 4 DLIMN2
C23 8 2 3p Rpar=4T noiseless
C24 3 4 3p Rpar=4T noiseless
C25 2 4 3p Rpar=4T noiseless
R1 2 3 10G noiseless
D12 2 4 DBIAS
D13 3 4 DBIAS
A8 VREF N013 4 4 4 4 VP 4 OTA g=350n ref=-.057 linear vlow=-1e308 vhigh=1e308
D14 8 VP DLIMP1
D15 8 VP DLIMP2
S3 8 VP 4 8 SOFF
S4 N015 4 4 8 SOFF
C8 7 N008 .01f Rser=1k noiseless
C27 VLAT 7 20p
L1 N003 0 2.26 Cpar=12p Rpar=116k Rser=711k
D16 8 4 DP
D2 5 4 DBIAS
D4 6 4 DBIAS
.model NOUT VDMOS(Vto=305m kp=18m)
.model POUT VDMOS(Vto=-305m kp=10m pchan)
.model DNL D(Vfwd=.3 epsilon=.1 Ron=200Meg Roff=60Meg)
.model DINNL D(Vfwd=220m Vrev=220m Ron=100 Roff=5Meg epsilon=80m revepsilon=80m)
.model DLAT D(Ron=100 Roff=100Meg Vfwd=1 Vrev=1 epsilon=.5 revepsilon=.5)
.model DLIMNC D(Ron=100k Roff=100Meg Vfwd=2.42 Vrev=-300m epsilon=900m revepsilon=10m)
.model DLIMPC D(Ron=100k Roff=100Meg Vfwd=4.2 Vrev=-300m epsilon=10m revepsilon=10m)
.model SOFF SW(Ron=100 Roff=100G Vt=-1.8 Vh=-.2 noiseless)
.model DP D(Ron=1k Roff=1G Vfwd=1.8 epsilon=.1 ilimit=4u)
.model DBIAS D(Ron=1Meg Roff=4T Vfwd=.5 epsilon=.1 ilimit=10p noiseless)
.model NI VDMOS(Vto=300m kp=20m)
.model PI VDMOS(Vto=-300m Kp=20m pchan)
.model DLIM D(Ron=100k Roff=70Meg Vfwd=4 Vrev=2.5 epsilon=10m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=20k Roff=1g Vfwd=.72 Vrev=-280m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=600Meg Roff=2G Vfwd=200m epsilon=5m ilimit=150p noiseless)
.model DLIMP1 D(Ron=100k Roff=500Meg Vfwd=.65 Vrev=-305m epsilon=10m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=100Meg Roff=10g Vfwd=100m epsilon=10m ilimit=2.5n noiseless)
.ends LTC1542
*
.subckt LT1630 1 2 3 4 5
B1 0 N004 I=1m*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+100n*V(1)-30.6n
B2 N004 0 I=1m*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+100n*V(2)
C10 N004 0 1f Rpar=1K noiseless
M1 5 N012 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
M2 5 N005 3 3 PI temp=27
C3 3 N005 100f Rser=120Meg noiseless
A3 N006 N009 4 4 4 4 N005 4 OTA g=35n ref=-.011 linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 N012 4 100f Rser=120Meg noiseless
D6 N012 4 DLIMN1
A4 0 N004 0 0 0 0 N007 0 OTA g=1u linear en=5.9n enk=24.6 Vhigh=1e308 Vlow=-1e308
C16 N009 5 4p
A5 N008 0 N006 N006 N006 N006 N009 N006 OTA g=1250u iout=44u Cout=100f Vhigh=1e308 Vlow=-1e308
G1 4 N012 N009 N006 20n
D7 3 4 DP
C17 0 N007 250f Rpar=2Meg noiseless
G4 0 N008 N007 0 1m
D14 3 N005 DLIMP2
L1 N008 0 69.3<EFBFBD> Cpar=829f Rser=1.31k Rpar=4.22k noiseless
G2 0 N006 3 0 .5m
G3 0 N006 4 0 .5m
C14 N006 0 1p noiseless Rpar=1k
D9 N009 N006 DLIM1
D10 3 N005 DLIMP1
D11 0 N007 DLIM0
A1 2 1 0 0 0 0 0 0 OTA g=0 in=891f ink=19
C1 3 2 2.5p Rpar=100Meg noiseless
D1 2 1 DINLIM
D2 3 N010 DBIASR
D3 1 N010 DBIASIN
D4 2 N010 DBIASIN
D5 2 3 DBIASO
D8 1 3 DBIASO
D12 4 1 DBIASB
D13 4 2 DBIASB
C4 3 1 2.5p Rpar=100Meg noiseless
C5 2 4 2.5p Rpar=100Meg noiseless
C6 1 4 2.5p Rpar=100Meg noiseless
C7 N010 4 100f Rpar=500k
.model NI VDMOS(Vto=300m kp=20m lambda=.01)
.model PI VDMOS(Vto=-300m kp=20m lambda=.01 pchan)
.model DP D(Roff=1G Ron=100 Vfwd=0.5 ilimit=1.87m noiseless)
.model DLIM0 D(Ron=100 Roff=2Meg vfwd=42m epsilon=5m vrev=42m revepsilon=5m noiseless)
.model DLIM1 D(Ron=10 Roff=60k Vfwd=100m epsilon=10m Vrev=100m revepsilon=10m noiseless)
.model DLIMP1 D(Ron=100k Roff=45g Vfwd=1.8 Vrev=340m epsilon=500m revepsilon=100m noiseless)
.model DLIMP2 D(Ron=1g Roff=10g Vfwd=0 epsilon=100m ilimit=300p noiseless)
.model DLIMN1 D(Ron=1Meg Roff=15g Vfwd=2.2 Vrev=340m epsilon=700m revepsilon=100m noiseless)
.model DBIASR D(Ron=1k Roff=10Meg Vfwd=1.2 epsilon=.1 noiseless)
.model DBIASIN D(Ron=100k Roff=1G Vfwd=0 epsilon=.1 ilimit=1.08u noiseless)
.model DBIASO D(Ron=100k Roff=1G Vfwd=.9 Vrev=-.9 epsilon=.1 revepsilon=10m revilimit=620n noiseless)
.model DBIASB D(Ron=100k Roff=1G Vfwd=.8 epsilon=.1 noiseless)
.model DINLIM D(Ron=570 Roff=10G Vfwd=.8 Vrev=.8 epsilon=.1 revepsilon=.1 noiseless)
.ends LT1630
*
.subckt LT1632 1 2 3 4 5
B1 0 N004 I=1m*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+100n*V(1)-28.89n
B2 N004 0 I=1m*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+100n*V(2)
C10 N004 0 .1f Rpar=1K noiseless
M1 5 N012 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
M2 5 N005 3 3 PI temp=27
C3 3 N005 100f Rser=200Meg noiseless
A3 N006 N009 4 4 4 4 N005 4 OTA g=35n ref=-.04 linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 N012 4 100f Rser=200Meg noiseless
D6 N012 4 DLIMN
A4 0 N004 0 0 0 0 N007 0 OTA g=5u linear en=11.9n enk=20 Vhigh=1e308 Vlow=-1e308
C16 N009 5 300f
A5 N008 0 N006 N006 N006 N006 N009 N006 OTA g=13u iout=12u Cout=100f Vhigh=1e308 Vlow=-1e308
G1 4 N012 N009 N006 5n
C7 3 1 2p Rser=225 noiseless
C13 3 4 1000p
D7 3 4 DP
C17 0 N007 200f Rpar=2Meg noiseless
G4 0 N008 N007 0 1m
D14 3 N005 DLIMP
L1 N008 0 91.35<EFBFBD> Cpar=353f Rser=1.15k Rpar=7.67k noiseless
G2 0 N006 3 0 .5m
G3 0 N006 4 0 .5m
C14 N006 0 100f noiseless Rpar=1k
D9 N009 N006 DLIM1
C8 2 1 2p Rser=450 Rpar=8Meg noiseless
D17 N007 0 DSI Temp=27
D19 0 N007 DSI Temp=27
D1 3 N010 DBIASR
C5 N010 4 100f Rpar=83.3k noiseless
D2 2 1 DINLIM
D3 2 3 DBIASO
D4 1 3 DBIASO
D5 2 N010 DBIASIN
D8 1 N010 DBIASIN
C1 3 2 2p Rser=225 noiseless
C4 1 4 2p Rser=225 noiseless
C6 2 4 2p Rser=225 noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.6p ink=26
.model NI VDMOS(Vto=300m kp=20m lambda=.01)
.model PI VDMOS(Vto=-300m kp=20m lambda=.01 pchan)
.model DP D(Roff=1G Ron=100 Vfwd=0.5 ilimit=3.42m noiseless)
.model DSI D(Is=1e-17 n=1 tt=500p noiseless)
.model DLIM1 D(Ron=10 Roff=6Meg Vfwd=2 epsilon=100m Vrev=2 revepsilon=100m noiseless)
.model DLIMP D(Ron=100k Roff=1g Vfwd=2.3 Vrev=340m epsilon=500m revepsilon=100m noiseless)
.model DLIMN D(Ron=1Meg Roff=5g Vfwd=2.2 Vrev=340m epsilon=700m revepsilon=100m noiseless)
.model DBIASR D(Ron=1k Roff=10Meg Vfwd=1.2 epsilon=.1 noiseless)
.model DBIASIN D(Ron=100k Roff=1G Vfwd=0 epsilon=.1 ilimit=2.3u noiseless)
.model DBIASO D(Ron=100k Roff=1G Vfwd=.9 Vrev=-.9 epsilon=.1 revepsilon=10m revilimit=1.15u noiseless)
.model DBIASB D(Ron=100k Roff=1G Vfwd=.8 epsilon=.1 noiseless)
.model DINLIM D(Ron=600 Roff=10G Vfwd=1.5 Vrev=1.5 epsilon=.1 revepsilon=.1 noiseless)
.model DLIM D(Ron=1k Roff=17.7Meg Vfwd=2.5 Vrev=2.5 epsilon=1 revepsilon=1 noiseless)
.ends LT1632
*
.subckt LT1635 1 2 3 4 5 6 7
M1 3 N010 6 6 NREF temp=27
M2 6 4 4 4 NREFCS temp=27
A1 0 N009 4 4 4 4 N010 4 OTA g=35.6u Iout=35n Vhigh=1e308 Vlow=-1e308
D1 N010 3 XUREF
D2 4 N010 XDREF
B2 N009 0 I=10u*dnlim(uplim(V(7),V(3)-0.9,.1), V(4)-.2, .1)
C1 N009 0 10f Rpar=100K noiseless
D3 N010 6 DILIM
A2 2 1 0 0 0 0 0 0 OTA g=0 in=230f ink=1.45
C3 2 1 1p Rpar=25Meg noiseless
C9 3 2 .5p Rser=6k Rpar=12G noiseless
D4 1 3 DBIAS
D5 2 3 DBIAS
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.8,.1), V(4)-.1, .1)+1n*V(1)-12.5n
B3 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.79,.1), V(4)-.12, .1)+1n*V(2)
C2 N004 0 10f Rpar=100K noiseless
M3 5 N007 4 4 NI temp=27
C4 3 5 1p Rpar=1g noiseless
D7 N007 4 DLIMN1
M4 5 VP 3 3 PI temp=27
D8 3 VP DLIMP
C5 3 VP 10p Rser=500k noiseless
A3 N005 X4 4 4 4 4 VP 4 OTA g=800n ref=-.69 linear vlow=-1e308 vhigh=1e308
C10 5 4 1p Rpar=1g noiseless
C11 N007 4 10f Rser=1Meg noiseless
D9 N007 4 DLIMN2
A4 0 N004 0 0 0 0 X1 0 OTA g=1u linear en=52n enk=.97 rout=1Meg cout=18p Vlow=-.5 Vhigh=.2
C13 X4 5 4p
A5 X3 0 N005 N005 N005 N005 X4 N005 OTA g=7.9u asym isource=240n isink=-192n rout=70Meg Vlow=-1e308 Vhigh=1e308
G1 4 N007 X4 N005 29n
B4 VP 4 I=10n*V(VP,5)/dnlim(V(3,4),2,.1)
C14 VP N007 100f Rser=1Meg
G2 0 X3 X2 0 1m
L1 X3 0 8.06m Cpar=353f Rser=1.01k Rpar=101k noiseless
B5 0 N009 I=10u*v(4)+2u
C16 3 7 .5p Rpar=12G noiseless
C17 7 4 .5p Rpar=12G noiseless
E2 N005 4 3 4 0.5
C18 N005 N010 7p
C19 X2 0 23p Rser=384k Rpar=1Meg noiseless
G4 0 X2 X1 0 1<>
D6 3 4 DP
C12 3 6 1p Rpar=1g noiseless
C15 6 4 1p Rpar=1g noiseless
C6 3 1 .5p Rser=6k Rpar=12G noiseless
C7 2 4 .5p Rser=6k Rpar=12G noiseless
C8 1 4 .5p Rser=6k Rpar=12G noiseless
D10 X2 X1 DLS
.model NREF VDMOS(vto=-200m kp=30m)
.model NREFCS VDMOS(vto=-300m kp=800u oneway)
.model DILIM D(Ron=1k Roff=550Meg Vfwd=210m epsilon=10m noiseless)
.model XUREF D(Ron=1k Roff=10G Vfwd=-950m epsilon=1 noiseless)
.model XDREF D(Ron=1k Roff=10G Vfwd=100m epsilon=100m noiseless)
.model DBIAS D(Ron=1Meg Roff=10G Vrev=.8 revilimit=1.5n noiseless)
.model DLS D(Ron=100 Roff=10G vfwd=100m vrev=100m epsilon=10m revepsilon=10m noiseless)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=85.62u noiseless)
.model NI VDMOS(Vto=300m kp=15m lambda=.01 rs=2)
.model PI VDMOS(Vto=-300m Kp=15m lambda=.01 pchan)
.model DLIMN1 D(Ron=200k Roff=400Meg Vfwd=4 Vrev=-330m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=12Meg Roff=1G Vfwd=-40m epsilon=50m ilimit=21.8n noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=3 Vrev=-.3 epsilon=10m revepsilon=10m noiseless)
.ends LT1635
*
.subckt LT1636 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=34.3f ink=40.1
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)+44,.1), V(4)-.1, .1)+1n*V(1)-113.7p
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)+44.01,.1), V(4)-.11, .1)+1n*V(2)
C9 3 2 2p Rser=2k Rpar=24G noiseless
C10 N005 0 200f Rpar=100K noiseless
D4 3 N010 DBIA3
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N010 DBIA1
D11 2 N010 DBIA1
A4 0 N005 0 0 0 0 N007 0 OTA g=1u linear en=51.98n enk=.86 Vhigh=1e308 Vlow=-1e308
A5 N008 0 0 0 0 0 X5 0 OTA g=20u iout=840n Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
C5 N010 4 20p Rpar=15Meg noiseless
D9 X5 0 DLIM
C6 2 4 2p Rser=2k noiseless
C7 3 1 2p Rser=2k Rpar=24G noiseless
C8 1 4 2p Rser=2k noiseless
R3 2 1 13Meg noiseless
C13 3 4 100p
G3 0 N004 3 4 50n
S4 N004 0 6 4 SHUTI
C20 N007 0 15p noiseless Rpar=1Meg
G7 0 N008 N007 0 1m
L1 N008 0 7.7m Cpar=8.8p Rser=1.21k Rpar=5.76k noiseless
C21 N004 0 18p
C17 4 6 100f Rpar=1Meg noiseless
D14 4 1 DPROT
D15 4 2 DPROT
C2 3 5 1p Rpar=1g noiseless
D1 VN 4 DLIMN1
A2 0 X6 3 3 3 3 VP 3 OTA g=800n linear ref=-20m vlow=-1e308 vhigh=1e308
C3 5 4 1p Rpar=1g noiseless
D5 VN 4 DLIMN2
C4 X5 N009 12p
S1 X5 0 0 N004 SHUT
S3 VN 4 0 N004 SHUT
D6 3 VP DLIMP
M1 5 VP N006 N006 PI temp=27
M2 5 VN 4 4 NI temp=27
C11 VP 5 .1f
C12 5 VN .1f
A3 0 X6 4 4 4 4 VN 4 OTA g=50n linear ref=20m vlow=-1e308 vhigh=1e308
D8 3 N006 DILIMU
C14 3 N006 1p Rpar=1g noiseless
G1 0 N009 5 N012 10m
R6 3 N012 8Meg noiseless
R7 N012 4 8Meg noiseless
C16 N009 0 100f Rpar=100 noiseless
G2 0 X6 X5 0 1<>
R4 X6 0 1Meg noiseless
R8 X7 X6 2K noiseless
S2 3 VP 0 N004 SHUT
S5 3 4 N004 0 SP
B4 X7 0 I=300p*ddt(V(X7))*(.5+.5*tanh((-360m-V(VP,3))/5m))
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=15n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=100G Vfwd=0 ilimit=5n epsilon=10m noiseless)
.model DBIA3 D(Ron=1k Roff=10G Vfwd=.7 epsilon=.1 noiseless)
.model DBIAOT D(Ron=10k Vfwd=0 ilimit=2.2u epsilon=50m noiseless)
.model DPROT D(Ron=1k Roff=24G Vfwd=1 epsilon=10m noiseless)
.model SHUT SW(Ron=1 Roff=100G vt=-1 vh=-.9 noiseless)
.model SHUTI SW(Ron=100 Roff=20Meg vt=1.2 vh=-10m noiseless)
.model DILIMU D(Ron=.1 Roff=100k Vfwd=21m epsilon=2m noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.3 Vrev=-.3 epsilon=10m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=100k Roff=400Meg Vfwd=1.5 Vrev=-310m epsilon=.1 revepsilon=10m noiseless)
.model DLIMN2 D(Ron=100Meg Roff=1G Vfwd=50m epsilon=100m ilimit=10n noiseless)
.model SP SW(level=2 Ron=100 Roff=1G vt=.5 vh=-200m ilimit=45.47u noiseless)
.model PI VDMOS(Vto=-300m Kp=32m pchan is=0 noiseless)
.model NI VDMOS(Vto=300m kp=19m Rd=50 noiseless)
.model DLIM D(Ron=10 Roff=70Meg Vfwd=300m Vrev=20m epsilon=10m revepsilon=10m noiseless)
.ends LT1636
*
.subckt LT1637 1 2 3 4 5 6
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)+44,.1), V(4)-.1, .1)+1n*V(1)-158.9p
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)+44.01,.1), V(4)-.11, .1)+1n*V(2)
C10 N005 0 200f Rpar=100K noiseless
D4 3 N010 DBIA3
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N010 DBIA1
D11 2 N010 DBIA1
A5 N008 0 0 0 0 0 X5 0 OTA g=20u iout=1.06u Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
C5 N010 4 20p Rpar=15Meg noiseless
D9 X5 0 DLIM
C13 3 4 100p
G3 0 N004 3 4 50n
S4 N004 0 6 4 SHUTI
C21 N004 0 18p
C17 4 6 100f Rpar=1Meg noiseless
D14 4 1 DPROT
D15 4 2 DPROT
C2 3 5 1p Rpar=1G noiseless
D1 VN 4 DLIMN1
A2 0 X6 3 3 3 3 VP 3 OTA g=800n linear ref=-25m vlow=-1e308 vhigh=1e308
C3 5 4 1p Rpar=1G noiseless
D5 VN 4 DLIMN2
C4 X5 N009 2.8p
S1 X5 0 0 N004 SHUT
S3 VN 4 0 N004 SHUT
D6 3 VP DLIMP
M1 5 VP N006 N006 PI temp=27
M2 5 VN 4 4 NI temp=27
C11 VP 5 .01f
C12 5 VN .01f
A3 0 X6 4 4 4 4 VN 4 OTA g=50n linear ref=25m vlow=-1e308 vhigh=1e308
D8 3 N006 DILIMU
C14 3 N006 1p Rpar=1g noiseless
G1 0 N009 5 N012 10m
R6 3 N012 2Meg noiseless
R7 N012 4 2Meg noiseless
C16 N009 0 1f Rpar=100 noiseless
G2 0 X6 X5 0 1<>
R4 X6 0 1Meg noiseless
B3 X7 0 I=120p*ddt(V(X7))*(.5+.5*tanh((-380m-V(VP,3))/20m))
R8 X7 X6 10K noiseless
S2 3 VP 0 N004 SHUT
S5 3 4 N004 0 SP
C1 3 1 2p Rser=2k Rpar=4.4G noiseless
C6 1 4 2p Rser=2k Rpar=4.4G noiseless
C7 3 2 2p Rser=2k Rpar=4.4G noiseless
C8 2 4 2p Rser=2k Rpar=4.4G noiseless
R3 2 1 3Meg noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=74.8f ink=143
G4 0 N008 N007 0 1m
L1 N008 0 2.5m Cpar=70f Rser=1.1k Rpar=11k noiseless
A4 0 N005 0 0 0 0 N007 0 OTA g=1u linear en=27n enk=1.3 cout=4p Rout=1Meg Vlow=-1e308 Vhigh=1e308
.model SHUT SW(Ron=1 Roff=100G vt=-1 vh=-.9 noiseless)
.model SHUTI SW(Ron=100 Roff=20Meg vt=1.2 vh=-10m noiseless)
.model DILIMU D(Ron=.1 Roff=100k Vfwd=25m epsilon=2m noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.15 Vrev=-.3 epsilon=100m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=100k Roff=400Meg Vfwd=1.5 Vrev=-310m epsilon=.1 revepsilon=10m noiseless)
.model DLIMN2 D(Ron=100Meg Roff=1G Vfwd=50m epsilon=100m ilimit=10n noiseless)
.model SP SW(level=2 Ron=100 Roff=1G vt=.5 vh=-200m ilimit=219.8u noiseless)
.model PI VDMOS(Vto=-300m Kp=32m pchan is=0 noiseless)
.model NI VDMOS(Vto=300m kp=19m Rd=50 noiseless)
.model DLIM D(Ron=10 Roff=70Meg Vfwd=300m Vrev=20m epsilon=20m revepsilon=10m noiseless)
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=100n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=100G Vfwd=0 ilimit=20n epsilon=10m noiseless)
.model DBIA3 D(Ron=1k Roff=10G Vfwd=.9 epsilon=.1 noiseless)
.model DBIAOT D(Ron=10k Vfwd=0 ilimit=22u epsilon=50m noiseless)
.model DPROT D(Ron=1.3k Roff=4.4G Vfwd=1 epsilon=10m noiseless)
.ends LT1637
*
.subckt LT1638 1 2 3 4 5
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+44,.1), V(4)-.1, .1)+1n*V(1)-158.9p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+44.01,.1), V(4)-.11, .1)+1n*V(2)
C10 N004 0 200f Rpar=100K noiseless
D4 3 N009 DBIA3
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N009 DBIA1
D11 2 N009 DBIA1
A5 N007 0 0 0 0 0 X5 0 OTA g=20u iout=1.07u Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
C5 N009 4 20p Rpar=15Meg noiseless
D9 X5 0 DLIM
C13 3 4 100p Rpar=714k noiseless
D14 4 1 DPROT
D15 4 2 DPROT
C2 3 5 1p Rpar=1G noiseless
D1 VN 4 DLIMN1
A2 0 X6 3 3 3 3 VP 3 OTA g=800n linear ref=-22m vlow=-1e308 vhigh=1e308
C3 5 4 1p Rpar=1G noiseless
D5 VN 4 DLIMN2
C4 X5 N008 2.8p
D6 3 VP DLIMP
M1 5 VP N005 N005 PI temp=27
M2 5 VN 4 4 NI temp=27
C11 VP 5 .01f
C12 5 VN .01f
A3 0 X6 4 4 4 4 VN 4 OTA g=65n linear ref=22m vlow=-1e308 vhigh=1e308
D8 3 N005 DILIMU
C14 3 N005 1p Rpar=1g noiseless
G1 0 N008 5 N011 10m
R6 3 N011 2Meg noiseless
R7 N011 4 2Meg noiseless
C16 N008 0 1f Rpar=100 noiseless
G2 0 X6 X5 0 1<>
R4 X6 0 1Meg noiseless
B3 X7 0 I=120p*ddt(V(X7))*(.5+.5*tanh((-380m-V(VP,3))/15m))
R8 X7 X6 10K noiseless
G4 0 N007 N006 0 1m
L1 N007 0 1.26m Cpar=4p Rser=1.28k Rpar=4.57k noiseless
A4 0 N004 0 0 0 0 N006 0 OTA g=1u linear en=19.8n enk=10.6 cout=2p Rout=1Meg Vlow=-1e308 Vhigh=1e308
R3 2 1 2.5Meg noiseless
C1 3 1 2.3p Rser=2k Rpar=2G noiseless
C6 3 2 2.3p Rser=2k Rpar=2G noiseless
C7 1 4 2.3p Rser=2k Rpar=2G noiseless
C8 2 4 2.3p Rser=2k Rpar=2G noiseless
D7 3 4 DP
A1 2 1 0 0 0 0 0 0 OTA g=0 in=300f+350f/(Max(freq,.1)**.5) ink=40
.model DILIMU D(Ron=.1 Roff=100k Vfwd=25m epsilon=2m noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.15 Vrev=-.3 epsilon=100m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=100k Roff=400Meg Vfwd=1.5 Vrev=-310m epsilon=.1 revepsilon=10m noiseless)
.model DLIMN2 D(Ron=100Meg Roff=1G Vfwd=50m epsilon=100m ilimit=10n noiseless)
.model DP D(Ron=1k vfwd=600m epsilon=600m ilimit=153.5u noiseless)
.model PI VDMOS(Vto=-300m Kp=32m pchan is=0 noiseless)
.model NI VDMOS(Vto=300m kp=19m noiseless)
.model DLIM D(Ron=10 Roff=70Meg Vfwd=300m Vrev=20m epsilon=20m revepsilon=10m noiseless)
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=64n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=100G Vfwd=0 ilimit=22n epsilon=10m noiseless)
.model DBIA3 D(Ron=1k Roff=10G Vfwd=.7 epsilon=.1 noiseless)
.model DBIAOT D(Ron=10k Vfwd=0 ilimit=8.1u epsilon=50m noiseless)
.model DPROT D(Ron=1k Roff=2G Vfwd=1 epsilon=10m noiseless)
.ends LT1638
*
.subckt LT1671 1 2 3 4 5 6 7 8
A1 5 6 0 0 0 0 N015 0 SCHMITT Vt=1.5 Vh=0 trise=78n tfall=.1n
B1 0 N002 I=10u*dnlim(uplim(V(2),V(1)-1.3,.1), V(4)-.5,.1)+1n*V(2)
B2 N002 0 I=10u*dnlim(uplim(V(3),V(1)-1.29,.1), V(4)-.51, .1)+1n*V(3)
C1 N002 0 1f Rpar=100K noiseless
A2 0 N002 0 0 0 0 N007 0 OTA isource=75u isink=-62u g=11m asym Vlow=-1e308 Vhigh=1e308 Cout=7.4p
C2 1 7 2.5p
C3 7 6 2.5p
G1 0 N004 N007 0 120n
D1 0 N007 DLAT
G2 0 XN0 0 N007 120n
A3 N010 0 N015 0 0 0 N007 0 OTA g=300u linear Vlow=-1e308 Vhigh=1e308
D2 0 N010 DLAT
C4 N010 0 100f
G3 0 N010 0 N007 500<30>
C5 3 4 1.1p
C6 2 4 1.1p
D3 1 4 DP1
D4 1 6 DP2
M1 1 N003 7 7 N temp=27
M2 6 N008 7 7 P temp=27
R1 N003 N004 4G
D5 N003 6 DVLU1
R2 N008 N004 4G
D6 6 N008 DVLD
C7 N004 0 .022f
C8 1 3 1.1p
C9 1 2 1.1p
D8 3 4 DBIAS
D9 2 4 DBIAS
D10 1 5 DLATCH
D11 N004 1 DSIU temp=27
D12 6 N004 DSID temp=27
R3 1 N004 979.5Meg
R4 N004 6 637Meg
D13 N003 7 DLIMN2
D14 N003 6 DVLU2
D21 N003 7 DLIMN1
D22 7 N008 DLIMP
C10 1 8 2.5p
C11 8 6 2.5p
M3 1 N011 8 8 N temp=27
M4 6 N016 8 8 P temp=27
R5 N011 XN0 4G
D15 N011 6 DVLU1
R6 N016 XN0 4G
D16 6 N016 DVLD
C12 XN0 0 .022f
R7 1 XN0 979.5Meg
R8 XN0 6 637Meg
D19 N011 8 DLIMN2
D20 N011 6 DVLU2
D23 N011 8 DLIMN1
D24 8 N016 DLIMP
D17 XN0 1 DSIU temp=27
D18 6 XN0 DSID temp=27
.model DBIAS D(Ron=1k Roff=10G Vfwd=.5 epsilon=.1 ilimit=120n)
.model DLATCH D(Ron=1k Roff=10Meg Vfwd=1 epsilon=.1 ilimit=2.5u)
.model DP1 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=368u)
.model DP2 D(Ron=100 Roff=1Meg Vfwd=1 ilimit=75u)
.model DVLU1 D(Ron= 5Meg Roff=500G Vfwd=4.0 epsilon=.1)
.model DVLU2 D(Ron=1.2G Roff=500G Vfwd=2.5 epsilon=.1)
.model DVLD D(Ron= 5Meg Roff=100G Vfwd=-500m epsilon=.1)
.model DLAT D(Ron=1 Roff=10k Vfwd=600m Vrev=600m epsilon=5m revepsilon=5m)
.model DSIU D(Is=1.0e-30 N=2 TT=8.8e-9)
.model DSID D(Is=1.0e-30 N=2 TT=8e-9)
.model DLIMN1 D(Ron=155Meg Roff=10G Vfwd=.2 epsilon=.1)
.model DLIMN2 D(Ron=1k Roff=10G Vfwd=.5 epsilon=.1)
.model DLIMP D(Ron=30Meg Roff=10G Vfwd=2m epsilon=1m ilimit=1.2n)
.model N VDMOS(Vto= -20m kp=150m rds=100Meg)
.model P VDMOS(Vto= 200m Kp=500m rds=10Meg pchan )
.ends LT1671
*
.subckt LT1677 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=276f ink=178
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-17.2p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C9 3 2 2.1p Rpar=4G noiseless
C10 N004 0 5f Rpar=100K noiseless
D4 N009 4 DBIA2
M1 5 VN 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 VN 4 DLIMN1
M2 5 VP 3 3 PI temp=27
D8 3 VP DLIMP
C3 3 VP 4p Rser=1Meg noiseless
A3 N007 N008 4 4 4 4 VP 4 OTA g=800n ref=-.02 linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 VN 4 10f Rser=250k noiseless
D10 N009 1 DBIA1
D6 VN 4 DLIMN2
A4 0 N004 0 0 0 0 N005 0 OTA g=10u linear en=3.2n enk=25 Vhigh=1e308 Vlow=-1e308
C16 N008 5 60p Rser=500 noiseless
A5 N006 0 N007 N007 N007 N007 N008 N007 OTA g=2.64m iout=151u Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
G1 4 VN N008 N007 30n
C5 3 N009 20p Rpar=1Meg noiseless
C14 VP 5 50f
B3 VP 4 I=25n*V(VP,5)/dnlim(V(3,4),2,.1)
C7 3 1 2.1p Rpar=4G noiseless
C13 3 4 1000p
C15 VP VN 200f Rser=250k noiseless
D7 3 4 DP
D15 1 2 DINP
C6 1 4 2.1p Rpar=4G noiseless
C8 2 4 2.1p Rpar=4G noiseless
S2 0 N005 5 3 LIMU
S3 N005 0 4 5 LIMD
D1 N008 N007 DLIM
D9 N009 2 DBIA1
L2 N005 0 11.41m Cpar=4.5f Rser=143k Rpar=498k noiseless
C1 N006 0 375p Rpar=1k Rser=212 noiseless
G2 0 N006 N005 0 1m
G3 0 N007 4 0 50m
G4 0 N007 3 0 50m
C4 N007 0 80p Rpar=10
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=1.085m noiseless)
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=390n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=10G Vfwd=1.3 epsilon=.1 noiseless)
.model DBIAOT D(Ron=10k Vfwd=-.7 ilimit=193n epsilon=50m noiseless)
.model DINP D(Ron=100 Roff=10G Vfwd=1.4 Vrev=1.4 epsilon=100m revepsilon=100m noiseless)
.model LIMU SW(level=2 Ron=1 Roff=2Meg vt=-100m vh=-10m oneway noiseless)
.model LIMD SW(level=2 Ron=1 Roff=2Meg vt=-60m vh=-10m oneway noiseless)
.model NI VDMOS(Vto=300m kp=30m lambda=.01 rs=5)
.model DLIMN1 D(Ron=100k Roff=3g Vfwd=2.1 Vrev=-330m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=500k Roff=1G Vfwd=1 epsilon=1.2 ilimit=200n noiseless)
.model PI VDMOS(Vto=-300m Kp=30m lambda=.01 pchan is=0 rs=2)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.6 Vrev=-.3 epsilon=10m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=7Meg Vfwd=2.3 Vrev=1 epsilon=10m revepsilon=10m noiseless)
.ends LT1677
*
.subckt LT1719 1 2 3 4 5 6 7 8
B1 0 N004 I=10u*dnlim(uplim(V(2),V(1)-1.1,.1), V(4)-.2 ,.1)+1n*V(2)+144n*V(VDH)
B2 N004 0 I=10u*dnlim(uplim(V(3),V(1)-1.09,.1), V(4)-.21, .1)+1n*V(3)
C1 N004 0 1f Rpar=100K
D5 0 VDH DLAT
C4 3 4 .2p
C10 2 4 .2p
M3 7 N014 N015 N015 NI temp=27
M4 7 N009 N008 N008 PI temp=27
C7 8 7 1p
C8 7 5 1p
D8 8 N008 DILIMU1
D16 N015 5 DILIMD
C9 8 N008 100f
C14 N015 5 100f
R7 N013 5 2G
D3 N013 5 DSIONN temp=27
D7 5 N013 DSIOFFN temp=27
G2 0 N013 0 VDH 90n
C2 7 N014 .06f
D1 N011 8 DSIOFFP temp=27
D15 8 N011 DSIONP temp=27
R1 8 N011 2G
C15 N009 7 .08f
A2 VDH 0 0 0 0 0 N013 0 OTA g=60n asym isource=0 isink=-100n Vlow=-1e308 Vhigh=1e308 Cout=.05f
A3 VDH 0 0 0 0 0 N011 0 OTA g=50n asym isource=100n isink=0 Vlow=-1e308 Vhigh=1e308 Cout=.05f
C5 1 3 .2p
C6 1 2 .2p
D2 N006 3 DBIAS
D4 N006 2 DBIAS
G3 0 N011 0 VDH 120n
D9 8 N008 DILIMU2
A4 N002 0 N011 N011 N011 N011 N009 N011 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=14 Rout=1k Cout=100f
A5 N002 0 N013 N013 N013 N014 N013 N013 SCHMITT Vt=.5 Vh=10m Vhigh=-14 Vlow=0 Rout=1k Cout=100f
A6 8 6 0 0 0 0 N002 0 SCHMITT Vt=1 Vh=0 tau=5n
A7 0 N004 N002 0 0 0 VDH 0 OTA g=10m iout=100u Cout=30f Vlow=-1e308 Vhigh=1e308
D10 8 6 DSHUT
C3 8 6 100f
S1 5 8 N002 0 SVSP
S2 N006 1 N002 0 SBIAS
S3 4 1 N002 0 SV+P
S4 2 3 N002 0 SBIASC
.model NI VDMOS(Vto=100m kp=100m mtriode= 1 rds=100k)
.model PI VDMOS(Vto=-100m Kp=300m mtriode=1 rds=100k pchan)
.model DSHUT D(Ron=70k Roff=1Meg Vfwd=.6 epsilon=.1 ilimit=100u)
.model SVSP SW(level=2 Ron=50 Roff=100Meg Vt=.5 Vh=-.1 ilimit=3.7m)
.model SV+P SW(level=2 Ron=50 Roff=100Meg Vt=.5 Vh=-.1 ilimit=.9m)
.model SBIAS SW(level=2 Ron=1k Roff=1G Vt=.5 Vh=-.1)
.model SBIASC SW(level=2 Ron=10k Roff=10G Vt=.5 Vh=-.1 ilimit=2.5u)
.model DBIAS D(Ron=1k Roff=10G Vfwd=1 epsilon=.1 ilimit=2.5u)
.model DLAT D(Ron=1 Roff=10k Vfwd=1 Vrev=1 epsilon=.9 revepsilon=.9)
.model DILIMU1 D(Ron=15 Roff=100k Vfwd=180m ilimit=11m epsilon=50m Vrev=-180m revepsilon=50m)
.model DILIMU2 D(Ron=70 Roff=100k Vfwd=.3 epsilon=100m)
.model DILIMD D(Ron=7 Roff=100k Vfwd=170m ilimit=40m epsilon=50m Vrev=-170m revepsilon=50m)
.model DSIONN D(Is=1e-30 N=2 TT=2e-10)
.model DSIOFFN D(Is=1e-10 N=1 TT= 1e-10)
.model DSIONP D(Is=1e-30 N=2 TT=1e-10)
.model DSIOFFP D(Is=1e-10 N=1 TT=1e-9)
.ends LT1719
*
.subckt LT1720 1 2 3 4 5
B1 0 N001 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)-.2 ,.1)+1n*V(1)+144n*V(VDH)
B2 N001 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)-.21, .1)+1n*V(2)
C1 N001 0 1f Rpar=100K
A1 0 N001 0 0 0 0 VDH 0 OTA g=10m iout=100u Vlow=-1e308 Vhigh=1e308 Cout=30f
D5 0 VDH DLAT
C4 2 4 .2p
C10 1 4 .2p
D13 3 4 DP
M3 5 N008 N009 N009 NI temp=27
M4 5 N006 N004 N004 PI temp=27
C7 3 5 1p
C8 5 4 1p
D8 3 N004 DILIMU1
D16 N009 4 DILIMD
C9 3 N004 100f
C14 N009 4 100f
R7 N008 4 2G
D3 N008 4 DSIONN temp=27
D7 4 N008 DSIOFFN temp=27
G2 0 N008 0 VDH 90n
C2 5 N008 .06f
D1 N006 3 DSIOFFP temp=27
D15 3 N006 DSIONP temp=27
R1 3 N006 2G
C15 N006 5 .08f
A2 VDH 0 0 0 0 0 N008 0 OTA g=60n asym isource=0 isink=-100n Vlow=-1e308 Vhigh=1e308 Cout=.05f
A3 VDH 0 0 0 0 0 N006 0 OTA g=50n asym isource=100n isink=0 Vlow=-1e308 Vhigh=1e308 Cout=.05f
C5 3 2 .2p
C6 3 1 .2p
D2 3 2 DBIAS
D4 3 1 DBIAS
D6 1 2 DBIASC
G3 0 N006 0 VDH 120n
D9 3 N004 DILIMU2
R2 3 4 2k
.model NI VDMOS(Vto=100m kp=100m mtriode= 1 rds=1Meg)
.model PI VDMOS(Vto=-100m Kp=300m mtriode=1 rds=1Meg pchan)
.model DP D(Ron=100 Roff=1Meg Vfwd=1 ilimit=1.49m epsilon=.1)
.model DBIAS D(Ron=1k Roff=10G Vfwd=1 epsilon=.1 ilimit=2.5u)
.model DBIASC D(Ron=10k Roff=10G Vfwd= 1u Vrev=1u
+ epsilon=10u revepsilon=10u ilimit=2.5u revilimit=2.5u)
.model DLAT D(Ron=1 Roff=10k Vfwd=1 Vrev=1 epsilon=.9 revepsilon=.9)
.model DILIMU1 D(Ron=15 Roff=100k Vfwd=180m ilimit=11m epsilon=50m Vrev=-180m revepsilon=50m)
.model DILIMU2 D(Ron=70 Roff=100k Vfwd=.3 epsilon=100m)
.model DILIMD D(Ron=7 Roff=100k Vfwd=170m ilimit=40m epsilon=50m Vrev=-170m revepsilon=50m)
.model DSIONN D(Is=1e-30 N=2 TT=2e-10)
.model DSIOFFN D(Is=1e-10 N=1 TT= 1e-10)
.model DSIONP D(Is=1e-30 N=2 TT=1e-10)
.model DSIOFFP D(Is=1e-10 N=1 TT=1e-9)
.ends LT1720
*
.subckt LT1722 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.2p ink=17.8
C2 2 1 2p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+.89, .1)+1n*V(2)
C9 3 2 1p Rpar=70Meg noiseless
C10 N004 0 .1f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 1p
D5 N005 5 YU
D6 5 N005 YD
R2 3 N006 1G noiseless
R3 N006 4 1G noiseless
C4 5 4 1p
C1 2 4 1p Rpar=70Meg noiseless
C6 3 1 1p Rpar=70Meg noiseless
C7 1 4 1p Rpar=70Meg noiseless
D2 2 4 DBIAS
D4 1 4 DBIAS
A3 0 N007 0 0 0 0 N006 0 OTA g=36u iout=2.1u Cout=28.6f Vlow=-1e308 Vhigh=1e308
G1 0 N005 N006 0 1e-4
L1 N005 0 107<30> Rser=10.1k Cpar=0.0265f Rpar=1.009999999999999998Meg noiseless
D1 3 4 DP
G2 N006 0 N006 3 100m dir=1 vto=-1.03
G3 0 N006 4 N006 100m dir=1 vto=-1.03
A2 0 N004 0 0 0 0 N007 0 OTA g=1u asym isource=.2u isink=-.4u en=3.7n enk=563 Cout=40f Rout=1Meg Vlow=-.15 Vhigh=.15
D3 2 1 DIN
.model YU D(Ron=100 Roff=1T Vfwd=.9 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=.82 epsilon=.1 noiseless)
.model N VDMOS(Vto=-180m Kp=130m)
.model P VDMOS(Vto=180m Kp=130m pchan)
.model DBIAS D(Ron=1Meg Roff=1G Vfwd=.6 ilimit=20n noiseless)
.model DLIM D(Ron=1 Roff=1Meg Vfwd=1.5 Vrev=1.5 epsilon=.1 revepsilon=.1 noiseless)
.model DP D(Ron=1k Roff=100Meg Vfwd=1 ilimit=1.594m noiseless)
.model DIN D(Ron=200 Roff=50k Vfwd=.9 epsilon=.1 noiseless)
.ends LT1722
*
.subckt LT1782 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=48.8f ink=50.5
B1 0 N005 I=10u*dnlim(uplim(V(1),V(4)+18.1,.1), V(4)-.1, .1)+1n*V(1)-1.7377n
B2 N005 0 I=10u*dnlim(uplim(V(2),V(4)+18.11,.1), V(4)-.11, .1)+1n*V(2)
C9 3 2 2.5p Rser=2k Rpar=10G noiseless
C10 N005 0 500f Rpar=100K noiseless
D4 3 N010 DBIA3
M1 5 VN 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D1 3 N008 DILIMU
D5 VN 4 DLIMN1
M2 5 VP N008 N008 PI temp=27
D8 3 VP DLIMP
A3 0 X6 3 3 3 3 VP 3 OTA g=800n ref=-345m linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C4 3 N008 1p Rpar=1G noiseless
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N010 DBIA1
D11 2 N010 DBIA1
D6 VN 4 DLIMN2
A4 0 N005 0 0 0 0 N006 0 OTA g=1u linear en=50n enk=1.26 Vhigh=1e308 Vlow=-1e308
C16 X5 N009 20p
A5 N007 0 0 0 0 0 X5 0 OTA g=28u iout=1.67u Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
C5 N010 4 20p Rpar=15Meg noiseless
D9 X5 0 DLIM
C6 2 4 2.5p Rser=2k noiseless
C7 3 1 2.5p Rser=2k Rpar=10G noiseless
C8 1 4 2.5p Rser=2k noiseless
R3 2 1 6.5Meg noiseless
C13 3 4 100p
S1 X5 0 0 N004 SHUT
S2 3 VP 0 N004 SHUT
S3 VN 4 0 N004 SHUT
G3 0 N004 3 4 50n
S4 N004 0 6 4 SHUTI
C20 N006 0 6p noiseless Rpar=2Meg
G7 0 N007 N006 0 1m
L1 N007 0 4m Cpar=1.79p Rser=1.13k Rpar=8.69k noiseless
C21 N004 0 18p
C17 4 6 100f Rpar=1Meg noiseless
D14 4 1 DPROT
D15 4 2 DPROT
G5 0 X6 X5 0 1<>
R4 X6 0 1Meg noiseless
R5 X7 X6 30K noiseless
B4 X7 0 I=100p*ddt(V(X7))*(.5+.5*tanh((-360m-V(VP,3))/5m))
R6 3 N012 2Meg noiseless
R7 N012 4 2Meg noiseless
G2 0 N009 5 N012 10m
C1 N009 0 100f Rpar=100 noiseless
C3 VP 5 1f
C12 5 VN 1f
A2 0 X6 4 4 4 4 VN 4 OTA g=29n ref=345m linear vlow=-1e308 vhigh=1e308
D16 N006 0 DLIMIN
G4 0 X6 3 N008 1m vto=80m dir=1
S5 3 4 N004 0 SP
D7 3 4 DP
.model SP SW(Roff=100Meg Ron=1k vt=.5 vh=-200m ilimit=27.87u noiseless)
.model DP D(Roff=100Meg Ron=1k vfwd=600m epsilon=500m ilimit=2.41u noiseless)
.model DLIMIN D(Ron=1k Roff=2Meg vfwd=80m epsilon=20m vrev=80m revepsilon=20m noiseless)
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=24n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=100G Vfwd=0 ilimit=8n epsilon=10m noiseless)
.model DBIA3 D(Ron=1k Roff=10G Vfwd=.9 epsilon=.1 noiseless)
.model DBIAOT D(Ron=10k Vfwd=0 ilimit=4u epsilon=50m noiseless)
.model DPROT D(Ron=6k Roff=10G Vfwd=1 epsilon=10m noiseless)
.model DILIMU D(Ron=2 Roff=100k Vfwd=39m epsilon=2m noiseless)
.model SHUT SW(Ron=1 Roff=100G vt=-1 vh=-.9 noiseless)
.model SHUTI SW(Ron=100 Roff=20Meg vt=1.2 vh=-10m noiseless)
.model NI VDMOS(Vto=300m kp=15m lambda=.01 rs=2)
.model DLIMN1 D(Ron=200k Roff=400Meg Vfwd=2.45 Vrev=-330m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=12Meg Roff=1G Vfwd=-40m epsilon=50m ilimit=21.8n noiseless)
.model PI VDMOS(Vto=-300m Kp=15m lambda=.01 pchan is=0)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=3.4 Vrev=-.3 epsilon=10m revepsilon=10m noiseless)
.model DLIM D(Ron=100k Roff=70Meg Vfwd=1 Vrev=.1 epsilon=10m revepsilon=10m noiseless)
.ends LT1782
*
.subckt LT1783 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=115f ink=466
B1 0 N005 I=10u*dnlim(uplim(V(1),V(4)+18.1,.1), V(4)-.1, .1)+1n*V(1)-1.732n
B2 N005 0 I=10u*dnlim(uplim(V(2),V(4)+18.11,.1), V(4)-.11, .1)+1n*V(2)
C10 N005 0 10f Rpar=100K noiseless
D4 3 N010 DBIA3
D2 3 2 DBIA2
D3 3 1 DBIA2
D10 1 N010 DBIA1
D11 2 N010 DBIA1
A4 0 N005 0 0 0 0 N006 0 OTA g=1u linear en=20n enk=8 cout=884f Vlow=-1e308 Vhigh=1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
C5 N010 4 20p Rpar=10Meg noiseless
R3 2 1 1.3Meg noiseless
C13 3 4 100p
D7 3 4 DP
G3 0 N004 3 4 50n
S4 N004 0 6 4 SHUTI
G7 0 N007 N006 0 1m
L1 N007 0 535<33> Cpar=2.06p Rser=1.18k Rpar=6.56k noiseless
C21 N004 0 6p
C1 4 6 100f Rpar=1Meg noiseless
D14 N006 0 DLIMIN
D15 4 1 DPROT
D16 4 2 DPROT
C6 3 1 2.5p Rser=2k Rpar=10G noiseless
C7 3 2 2.5p Rser=2k Rpar=10G noiseless
C8 1 4 2.5p Rser=2k Rpar=10G noiseless
C9 2 4 2.5p Rser=2k Rpar=10G noiseless
M1 5 VN 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D1 3 N008 DILIMU
D5 VN 4 DLIMN1
M2 5 VP N008 N008 PI temp=27
D6 3 VP DLIMP
A2 0 X6 3 3 3 3 VP 3 OTA g=800n ref=-345m linear vlow=-1e308 vhigh=1e308
C3 5 4 1p Rpar=1g noiseless
C4 3 N008 1p Rpar=1G noiseless
D8 VN 4 DLIMN2
C11 X5 N009 3.5p
A3 N007 0 0 0 0 0 X5 0 OTA g=28u iout=1.8u Vhigh=1e308 Vlow=-1e308
D9 X5 0 DLIM
S1 X5 0 0 N004 SHUT
S2 3 VP 0 N004 SHUT
S3 VN 4 0 N004 SHUT
R4 3 N012 8Meg noiseless
R5 N012 4 8Meg noiseless
G1 0 N009 5 N012 10m
C12 N009 0 10f Rpar=100 noiseless
C14 VP 5 .1f
C15 5 VN .1f
A5 0 X6 4 4 4 4 VN 4 OTA g=30n ref=345m linear vlow=-1e308 vhigh=1e308
G2 0 X6 3 N008 1m vto=90m dir=1
G4 0 X6 X5 0 1<>
R6 X6 0 1Meg noiseless
R7 X7 X6 40K noiseless
B3 X7 0 I=10p*ddt(V(X7))*(.5+.5*tanh((-400m-V(VP,3))/5m))
S5 3 4 N004 0 SP2
S6 3 4 N004 0 SP1
.model DLIMIN D(Ron=1k Roff=1Meg vfwd=80m epsilon=20m vrev=80m revepsilon=20m noiseless)
.model DBIA1 D(Ron=1k Roff=100G Vfwd=.1 ilimit=130n epsilon=.1 noiseless)
.model DBIA2 D(Ron=1k Roff=100G Vfwd=0 ilimit=30n epsilon=10m noiseless)
.model DBIA3 D(Ron=1k Roff=10G Vfwd=.9 epsilon=.1 noiseless)
.model DBIAOT D(Ron=10k Vfwd=0 ilimit=35u epsilon=50m noiseless)
.model DPROT D(Ron=1k Roff=2G Vfwd=1 epsilon=10m noiseless)
.model SP1 SW(Roff=100Meg Ron=1k vt=.5 vh=-200m ilimit=89.4u noiseless)
.model SP2 SW(Roff=100Meg Ron=300k vt=.5 vh=-200m ilimit=40u noiseless)
.model DP D(Roff=100Meg Ron=1k vfwd=600m epsilon=500m ilimit=4.3u noiseless)
.model DILIMU D(Ron=2 Roff=100k Vfwd=59m epsilon=2m noiseless)
.model SHUT SW(Ron=1 Roff=100G vt=-1 vh=-.9 noiseless)
.model SHUTI SW(Ron=100 Roff=20Meg vt=1.2 vh=-10m noiseless)
.model NI VDMOS(Vto=300m kp=15m lambda=.01 noiseless)
.model PI VDMOS(Vto=-300m Kp=15m lambda=.01 pchan is=0 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=3.6 Vrev=-.3 epsilon=10m revepsilon=10m noiseless)
.model DLIM D(Ron=100k Roff=70Meg Vfwd=1 Vrev=1 epsilon=10m revepsilon=10m noiseless)
.model DLIMN1 D(Ron=200k Roff=700Meg Vfwd=2.2 Vrev=-330m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=15Meg Roff=1G Vfwd=-10m epsilon=50m ilimit=25.7n noiseless)
.ends LT1783
*
.subckt LT1787 1 2 3 4 5 6 7
R1 7 6 1.25k
R2 VSPP 7 1.25k
R3 1 2 1.25k
R4 VSNP 1 1.25k
C1 1 3 100f
C2 7 3 100f
M1 3 N010 N009 N009 POUT Temp=27
C3 N004 0 100f Rpar=100K noiseless
B1 N004 0 I=10u*dnlim(uplim(V(VSNP),V(6)+.11,.1), V(6)-.7, .1)+10n*V(VSNP)
B2 0 N004 I=10u*dnlim(uplim(V(VSPP),V(2)+.1,.1), V(6)-.7, .1)+10n*V(VSPP)
D1 2 N001 DLIMP
A1 N005 0 0 0 0 0 N001 0 OTA g=200n ref=-56m linear cout=2f vlow=-1e308 vhigh=1e308
A2 0 N004 0 0 0 0 N005 0 OTA g=20u asym cout=800p isource=300n isink=-100n Vlow=-1e308 Vhigh=1e308
D2 N005 0 DLIM
M2 4 N001 N003 N003 POUT Temp=27
D3 2 N010 DLIMP
A4 0 N005 0 0 0 0 N010 0 OTA g=200n ref=-56m linear cout=2f vlow=-1e308 vhigh=1e308
D6 2 3 DP
R6 VSPP VSNP 25G
R7 4 5 20k
G1 4 3 0 N011 800<30>
S1 N011 0 3 4 SWSAT
G2 0 N011 VSNP 1 1m
D7 VSPP N003 DDROP
D8 VSNP N009 DDROP
C6 VSNP 3 100f
C7 VSPP 3 100f
C8 N009 3 10f
C9 N003 3 10f
C10 3 4 1.5p
D5 0 N011 DSINKL
C4 0 N011 1p
.model DLIM D(Ron=100 Roff=7Meg Vfwd=20m Vrev=40m epsilon=10m revepsilon=10m)
.model DLIMP D(Ron=1k Roff=100Meg Vfwd=3 Vrev=-.6 epsilon=10m revepsilon=10m)
.model DDROP D(Ron=10 Roff=100k Vfwd=.7 epsilon=50m)
.model POUT VDMOS(Vto=-300m Kp=30m mtriode=.1 rs=10 cgs=20f rds=1g is=0 pchan)
.model DBIAS D(Ron=100k Roff=1G Vfwd=.5 epsilon=.1 ilimit=2u)
.model DP D(Ron=10k Roff=1G Vfwd=0.5 epsilon=.1 ilimit=19u)
.model DSINKL D(Ron=100 Roff=1G Vfwd=430m Vrev=50m epsilon=50m revepsilon=10m)
.model SWSAT SW(Ron=10 Roff=1K vt=-25m vh=-15m )
.ends LT1787
*
.subckt LT1792 1 2 3 4 5
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.4,.1), V(4)+3.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.39,.1), V(4)+3.8, .1)+1n*V(2)
C6 3 1 7p Rpar=200g noiseless
C7 1 4 7p noiseless Rpar=200g
C8 2 4 7p Rpar=200g noiseless
C9 3 2 7p Rpar=200g noiseless
A2 0 N004 0 0 0 0 N008 0 OTA g=90u Iout=7.2u en=4.1n enk=30 Vlow=-1e308 Vhigh=1e308 Cout= 2.1p
C10 N004 0 20f Rpar=100K noiseless
D4 N008 3 XU
D5 4 N008 XD
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N007 N006 0 1m
L4 N007 0 88.9<EFBFBD> Cpar=685f Rser=1.23k Rpar=5.347826086956521739k noiseless
C2 N005 0 347f Rpar=1Meg noiseless
G1 0 N005 N007 0 1<>
G3 0 N006 N008 0 1m
L1 N006 0 103.1<EFBFBD> Cpar=1.89p Rser=1.42k Rpar=3.3809523809523809525k noiseless
A3 2 1 0 0 0 0 0 0 OTA g=0 in=1f incm=1e-17*freq/(1+1e-12*freq**2)
.model XU D(Ron=1K Roff=100G Vfwd=-1.0 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-1.2 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=.9 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=43m)
.model P VDMOS(Vto=200m Kp=43m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=3.339m noiseless)
.ends LT1792
*
.subckt LT1793 1 2 3 4 5
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.7,.1), V(4)+3.15, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.69,.1), V(4)+3.14, .1)+1n*V(2)
C6 3 1 750f Rpar=200t noiseless
C7 1 4 750f noiseless Rpar=200t
C8 2 4 750f Rpar=200t noiseless
C9 3 2 750f Rpar=200t noiseless
A2 0 N004 0 0 0 0 N008 0 OTA g=94u Iout=10.3u en=5.9n enk=28 Vlow=-1e308 Vhigh=1e308 Cout= 3p
C10 N004 0 30f Rpar=100K noiseless
D4 N008 3 XU
D5 4 N008 XD
D1 N005 5 Y
D6 5 N005 Y
D7 3 4 DP
G2 0 N007 N006 0 1m
L4 N007 0 88.9<EFBFBD> Cpar=685f Rser=1.23k Rpar=5.347826086956521739k noiseless
C2 N005 0 347f Rpar=1Meg noiseless
G1 0 N005 N007 0 1<>
G3 0 N006 N008 0 1m
L1 N006 0 103.1<EFBFBD> Cpar=1.89p Rser=1.42k Rpar=3.3809523809523809525k noiseless
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1f incm=3.5e-18*freq/(1+1e-12*freq**2)
.model XU D(Ron=1K Roff=100G Vfwd=-1.0 epsilon=.1 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-1.2 epsilon=.1 noiseless)
.model Y D(Ron=500 Roff=1T Vfwd=.9 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=43m)
.model P VDMOS(Vto=200m Kp=43m pchan)
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=3.339m noiseless)
.ends LT1793
*
.subckt LT1795 1 2 3 4 5 6 7 8
Q1 N006 N005 2 0 N temp=27
Q2 N022 N020 2 0 P temp=27
M1 3 N007 N013 N013 N temp=27
M2 4 N007 N021 N021 P temp=27
R19 3 N006 120 noiseless
R20 N022 4 120 noiseless
G5 0 N011 N006 3 12<31>
G6 N011 0 4 N022 12<31>
C2 3 2 1p
C6 3 1 1p
C7 2 4 1p
C8 1 4 1p
A2 0 0 1 1 1 1 N016 1 OTA G=.1 Rout=10 Vhigh=100 Vlow=-100 en=3.6n Linear enk=30
A3 0 1 0 0 0 0 0 0 OTA in=2p ink=100
A4 0 2 0 0 0 0 0 0 OTA in=30p ink=30
A5 N008 0 0 0 0 0 N018 0 OTA G=555u Iout=10u Vlow=-1e308 Vhigh=1e308
C3 0 N011 1p Rpar=1K noiseless
C9 N009 N008 45f Rser=50K Cpar=15f noiseless
G1 0 N008 N011 0 9m
R1 N008 0 50 noiseless
G2 0 N009 N018 0 20m
R5 N009 0 50 noiseless
G3 0 N012 N017 0 2<>
C1 N012 0 4.5f noiseless Rpar=500k
D6 N009 N017 S
C11 N017 0 5.9p
R7 8 N009 25 noiseless
C15 3 8 1p
C16 8 4 1p
D8 7A 6 DSHDN
D9 4 6 DSUB
G4 7 4 7 7A .1
G7 0 N007 N012 0 .2m
C5 N007 0 10f Rpar=5k noiseless
S2 N005 N016 7 6 SHD2
S3 N016 N020 7 6 SHD2
S5 4 N005 6 7 SHD3
S6 N020 3 6 7 SHD3
G10 N018 0 N018 3 500m dir=1 vto=-1.3
G11 0 N018 4 N018 500m dir=1 vto=-1.3
R2 3 N018 1G noiseless
R3 N018 4 1G noiseless
A1 7A 7 3 3 3 3 N005 3 OTA g=6m iout=90u Vlow=-100 Vhigh=-.3 ref=17m
S1 N017 N009 N014 0 SS
C4 5 N007 1.2p
R10 7A 7 10
D1 7A 6 DSHDN1
D2 N012 N013 Y
S4 5 N021 N014 0 SRO
S7 N013 5 N014 0 SRO
C17 N013 5 2p
C18 5 N021 2p
D3 N021 N012 Y
A7 7A 7 3 3 3 3 4 3 OTA g=9 iout=13m ref=-16.5u vlow=-50 vhigh=50
G8 0 N014 7 7A .1
C13 N014 0 1p Rpar=10k noiseless
A6 7A 7 N020 N020 N020 N020 4 N020 OTA g=6m iout=90u Vlow=-100 Vhigh=-.3 ref=17m
G12 N014 0 6 7 5m vto=-.6 dir=1
C10 7A 6 10f
C14 7 6 100f
.model N NPN(Cje=.25p Cjc=.25p BF=180 noiseless)
.model P PNP(Cje=.25p Cjc=.25p BF=180 noiseless)
.model N VDMOS(Vto=-.2 Kp=1.2)
.model P VDMOS(Vto=.2 Kp=1.2 pchan)
.model Y D(Ron=1K Roff=1G epsilon=100m Vfwd=1.05 noiseless)
.model S D(Ron=200 Roff=200 Ilimit=2.7m RevIlimit=5.4m Vrev=0 noiseless)
.model SS SW(level=2 Ron=200 Roff=2Meg vt=100m vh=-3 ilimit=2.7m noiseless)
.model DSUB D(Ron=10 Roff=1G vfwd=.6 epsilon=.1 noiseless)
.model DSHDN1 D(Ron=100k Roff=1G vfwd=1.5 epsilon=200m noiseless)
.model DSHDN D(Ron=1.8k Roff=1G vfwd=1.15 epsilon=.25 ilimit=.26m noiseless)
.model SHD2 SW(Ron=10k Roff=1G vt=1 vh=-.2 noiseless)
.model SRO SW(Ron=.1 Roff=200k vt=-900m vh=-12 noiseless)
.model SHD3 SW(Ron=10 Roff=1G vt=-1 vh=-.2 noiseless)
.model SGM SW(Ron=1Meg Roff=1g vt=-1.4 vh=-1 noiseless)
.ends LT1795
*
.subckt LT1797 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=228f ink=182
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-5n
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N004 0 10f Rpar=100K noiseless
D4 3 N012 DBIA3
M1 5 N013 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D1 3 N005 DVLIMU
D5 N013 4 DLIMN1
M2 5 N008 N005 N005 PI temp=27
D8 3 N008 DLIMP1
C3 3 N008 .3f Rser=10Meg noiseless
A3 N009 N010 4 4 4 4 N008 4 OTA g=80n ref=-.0375 linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 N013 4 .1f Rser=1Meg noiseless
C4 3 N005 1p Rpar=1g noiseless
D10 1 N012 DBIA1
D11 2 N012 DBIA1
D6 N013 4 DLIMN2
A4 0 N004 0 0 0 0 N006 0 OTA g=1u linear en=19.9n enk=121 Vhigh=1e308 Vlow=-1e308
C16 N010 5 700f
A5 N007 0 N009 N009 N009 N009 N010 N009 OTA g=40u iout=1.75u Rout=800k Vhigh=1e308 Vlow=-1e308
D12 1 3 DBIAOT
D13 2 3 DBIAOT
G1 4 N013 N010 N009 20n
C5 N012 4 20p Rpar=15.7k noiseless
C7 3 1 2p Rser=2k Rpar=200Meg noiseless
C13 3 4 1000p
C15 N008 N013 1f Rser=1Meg noiseless
D7 3 4 DP
C17 0 N006 170f Rpar=1Meg noiseless
G4 0 N007 N006 0 1m
C14 N008 5 .2f
D14 3 N008 DLIMP2
L1 N007 0 122<32> Cpar=477f Rser=1.15k Rpar=7.67k noiseless
C1 3 2 2p Rser=2k Rpar=200Meg noiseless
C6 1 4 2p Rser=2k noiseless
C8 2 4 2p Rser=2k noiseless
D15 1 2 DIN
D16 N012 1 DBIA2
D3 N012 2 DBIA2
G2 0 N009 4 0 .5m
G3 0 N009 3 0 .5m
C9 N009 0 1p Rpar=1k
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=.1m noiseless)
.model DBIA1 D(Ron=1k Roff=200Meg Vfwd=0 ilimit=50n epsilon=.2 noiseless)
.model DBIA2 D(Ron=1k Roff=10T Vfwd=-.1 epsilon=.2 ilimit=104n noiseless)
.model DBIA3 D(Ron=1k Roff=100G Vfwd=.4 epsilon=10m noiseless)
.model DBIAOT D(Ron=20k Roff=100T Vfwd=1 epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=45m epsilon=2m noiseless)
.model NI VDMOS(Vto=300m kp=100m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=10g Vfwd=1.2 Vrev=-340m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=800Meg Roff=10g Vfwd=-10m epsilon=100m ilimit=300p noiseless)
.model PI VDMOS(Vto=-300m Kp=100m lambda=.01 pchan is=0)
.model DLIMP1 D(Ron=100k Roff=1G Vfwd=2 Vrev=-340m epsilon=10m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=180Meg Roff=2g Vfwd=120m epsilon=100m ilimit=1.5n noiseless)
.model DIN D(Ron=20k Roff=330k Vfwd=1 Vrev=1 epsilon=100m revepsilon=100m noiseless)
.ends LT1797
*
.subckt LT1800 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=998f ink=47.8
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-240p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N004 0 7f Rpar=100K noiseless
D4 3 N011 DBIA3
M1 5 N012 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 N012 4 DLIMN1
M2 5 N007 3 3 PI temp=27
D8 3 N007 DLIMP1
C3 3 N007 .12f Rser=40Meg noiseless
A3 N008 N009 4 4 4 4 N007 4 OTA g=80n ref=-.015 linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=1g noiseless
C12 N012 4 .02f Rser=1Meg noiseless
D10 1 N011 DBIA1
D11 2 N011 DBIA1
D6 N012 4 DLIMN2
A4 0 N004 0 0 0 0 N005 0 OTA g=1u linear en=8.3n enk=514 Vhigh=1e308 Vlow=-1e308
C16 N009 5 600f
A5 N006 0 N008 N008 N008 N008 N009 N008 OTA g=300u iout=15.1u Rout=800k Vhigh=1e308 Vlow=-1e308
D12 1 3 DESD
D13 2 3 DESD
G1 4 N012 N009 N008 20n
C5 N011 4 20p Rpar=25k noiseless
C7 3 1 1p Rpar=10g noiseless
C13 3 4 1000p
C15 N007 N012 .1f Rser=10Meg noiseless
D7 3 4 DP
C17 0 N005 37f Rpar=1Meg noiseless
G4 0 N006 N005 0 1m
D14 3 N007 DLIMP2
L1 N006 0 18.3<EFBFBD> Cpar=70.7f Rser=1.15k Rpar=7.67k noiseless
D15 1 2 DIN
D16 N011 1 DBIA2
D3 N011 2 DBIA2
C4 N007 5 .01f
D1 4 2 DESD
D2 4 2 DESD
C1 3 2 1p Rpar=10g noiseless
C6 1 4 1p Rpar=10g noiseless
C8 2 4 1p Rpar=10g noiseless
G2 0 N008 4 0 5m
G3 0 N008 3 0 5m
C9 N008 0 10p Rpar=100
.model DP D(Roff=1T Ron=1k Vfwd=0.5 ilimit=180u noiseless)
.model DBIA1 D(Ron=1k Roff=10G Vfwd=0 ilimit=500n epsilon=.2 noiseless)
.model DBIA2 D(Ron=1k Roff=10T Vfwd=-.1 epsilon=.2 ilimit=25n noiseless)
.model DBIA3 D(Ron=100 Roff=100G Vfwd=1.1 epsilon=10m noiseless)
.model DESD D(Ron=100 Roff=100T Vfwd=1 epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=45m epsilon=2m noiseless)
.model NI VDMOS(Vto=300m kp=100m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=10g Vfwd=1.25 Vrev=-340m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=100Meg Roff=10g Vfwd=400m epsilon=700m noiseless)
.model PI VDMOS(Vto=-300m kp=100m lambda=.01 pchan is=0)
.model DLIMP1 D(Ron=100 Roff=1G Vfwd=1.14 Vrev=-340m epsilon=600m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=40Meg Roff=2g Vfwd=400m epsilon=500m noiseless)
.model DIN D(Ron=2k Roff=100g Vfwd=1.5 Vrev=1.5 epsilon=100m revepsilon=100m noiseless)
.ends LT1800
*
.subckt LT1806 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.48p ink=455
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-517p
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N005 0 1f Rpar=100K noiseless
D4 3 N012 DBIA3
M1 5 N013 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 N013 4 DLIMN1
M2 5 N006 3 3 PI temp=27
D8 3 N006 DLIMP1
C3 3 N006 .12f Rpar=100G Rser=20Meg noiseless
C11 5 4 1p Rpar=1g noiseless
C12 N013 4 .02f Rser=1Meg noiseless Rpar=100G
D6 N013 4 DLIMN2
A4 0 N005 0 0 0 0 N008 0 OTA g=1u linear en=3.49n enk=72.2 Vhigh=.2 Vlow=-.2
C16 N010 5 1.4p
D12 1 3 DESD
D13 2 3 DESD
C7 3 1 1p Rpar=10g noiseless
C13 3 4 1000p
C15 N006 N013 .01f Rser=10Meg noiseless
D7 3 N004 DPB
C17 0 N008 20f Rpar=1Meg noiseless
G4 0 N009 N008 0 1m
D14 3 N006 DLIMP2
L1 N009 0 6.93<EFBFBD> Cpar=11.05f Rser=1.09k Rpar=12.11k noiseless
D15 1 2 DIN
D16 N012 1 DBIA2
D3 N012 2 DBIA2
C4 N006 5 .02f
D1 4 2 DESD
D2 4 1 DESD
C1 3 2 1p Rpar=10g noiseless
C6 1 4 1p Rpar=10g noiseless
C8 2 4 1p Rpar=10g noiseless
C14 N007 N010 10f Rpar=80k noiseless
D9 3 6 DSHUT
G2 4 N013 N010 N007 20n
A10 3 6 N007 N007 N007 N014 N007 N007 SCHMITT Vt=2 Vh=10m tau=20n
A2 N009 0 N014 N007 N007 N007 N010 N007 OTA g=3m iout=203u Vhigh=1e308 Vlow=-1e308
A3 N007 N010 N014 N007 N007 N007 N006 N007 OTA g=80n ref=-.03 linear Vlow=-1e308 Vhigh=1e308
S1 4 N012 N007 N014 SWB
D17 2 N004 DBIA1
D11 1 N004 DBIA1
S2 N004 4 N014 N007 SWB2
C18 N012 4 20p Rpar=50G noiseless
C5 3 N004 20p Rpar=20G noiseless
C19 N004 4 20p Rpar=20G noiseless
S3 3 4 N014 N007 SWP
C21 N007 0 100p Rpar=10
G5 0 N007 4 0 50m
G6 0 N007 3 0 50m
.model DPB D(Roff=1G Ron=100 Vfwd=1.1 noiseless)
.model SWP SW(Roff=1G Ron=3.3k vt=.5 vh=-.1)
.model SWB SW(Ron=1 Roff=5G vt=-.5 vh=-.1)
.model SWB2 SW(level=2 Ron=100 Roff=500g vt=.5 vh=-.1 ilimit=4.58m)
.model DBIA1 D(Ron=100k Roff=50Meg Vfwd=0 ilimit=1u epsilon=.1 noiseless)
.model DBIA2 D(Ron=50k Roff=10T Vfwd=0 epsilon=.1 ilimit=4.9u noiseless)
.model DBIA3 D(Ron=50k Roff=100G Vfwd=1.1 epsilon=10m noiseless)
.model DESD D(Ron=100 Roff=100T Vfwd=1 epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=45m epsilon=2m noiseless)
.model NI VDMOS(Vto=300m kp=250m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=5g Vfwd=.85 Vrev=-340m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=500Meg Roff=10g Vfwd=200m epsilon=700m noiseless)
.model PI VDMOS(Vto=-300m kp=250m lambda=.01 pchan is=0)
.model DLIMP1 D(Ron=100 Roff=500Meg Vfwd=.86 Vrev=-340m epsilon=600m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=80Meg Roff=2g Vfwd=300m epsilon=500m noiseless)
.model DIN D(Ron=2k Roff=100g Vfwd=1.5 Vrev=1.5 epsilon=100m revepsilon=100m noiseless)
.model DSHUT D(Ron=36k Roff=1g Vfwd=.5 epsilon=100m noiseless)
.ends LT1806
*
.subckt LT1807 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.48p ink=455
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-517p
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N005 0 1f Rpar=100K noiseless
D4 3 N012 DBIA3
M1 5 N013 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 N013 4 DLIMN1
M2 5 N009 3 3 PI temp=27
D8 3 N009 DLIMP1
C3 3 N009 .12f Rpar=100G Rser=20Meg noiseless
C11 5 4 1p Rpar=1g noiseless
C12 N013 4 .02f Rser=1Meg noiseless Rpar=100G
D6 N013 4 DLIMN2
A4 0 N005 0 0 0 0 N006 0 OTA g=1u linear en=3.49n enk=72.2 Vhigh=.2 Vlow=-.2
C16 N008 5 1.4p
D12 1 3 DESD
D13 2 3 DESD
C7 3 1 1p Rpar=10g noiseless
C13 3 4 1000p
C15 N009 N013 .01f Rser=10Meg noiseless
D7 3 N004 DPB
C17 0 N006 20f Rpar=1Meg noiseless
G4 0 N007 N006 0 1m
D14 3 N009 DLIMP2
L1 N007 0 6.93<EFBFBD> Cpar=11.05f Rser=1.09k Rpar=12.11k noiseless
D15 1 2 DIN
D16 N012 1 DBIA2
D3 N012 2 DBIA2
C4 N009 5 .02f
D1 4 2 DESD
D2 4 1 DESD
C1 3 2 1p Rpar=10g noiseless
C6 1 4 1p Rpar=10g noiseless
C8 2 4 1p Rpar=10g noiseless
C14 N010 N008 10f Rpar=80k noiseless
G2 4 N013 N008 N010 20n
D17 2 N004 DBIA1
D11 1 N004 DBIA1
C18 N012 4 20p Rpar=50G noiseless
C5 3 N004 20p Rpar=20G noiseless
C19 N004 4 20p Rpar=20G noiseless
R3 3 4 3.3k noiseless
D10 N004 4 DP
A5 N007 0 N010 N010 N010 N010 N008 N010 OTA g=3m iout=203u Vhigh=1e308 Vlow=-1e308
A2 N010 N008 0 0 0 0 N009 0 OTA g=80n ref=-.03 linear Vhigh=1e308 Vlow=-1e308
G1 0 N010 4 0 50m
G3 0 N010 3 0 50m
C20 N010 0 100p Rpar=10
.model DPB D(Roff=1G Ron=100 Vfwd=1.1 noiseless)
.model DP D(Roff=500G Ron=100 vfwd=0 ilimit=4.58m noiseless)
.model DBIA1 D(Ron=100k Roff=50Meg Vfwd=0 ilimit=1u epsilon=.1 noiseless)
.model DBIA2 D(Ron=50k Roff=10T Vfwd=0 epsilon=.1 ilimit=4.9u noiseless)
.model DBIA3 D(Ron=50k Roff=100G Vfwd=1.1 epsilon=10m noiseless)
.model DESD D(Ron=100 Roff=100T Vfwd=1 epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=45m epsilon=2m noiseless)
.model NI VDMOS(Vto=300m kp=250m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=5g Vfwd=.85 Vrev=-340m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=500Meg Roff=10g Vfwd=200m epsilon=700m noiseless)
.model PI VDMOS(Vto=-300m kp=250m lambda=.01 pchan is=0)
.model DLIMP1 D(Ron=100 Roff=500Meg Vfwd=.86 Vrev=-340m epsilon=600m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=80Meg Roff=2g Vfwd=300m epsilon=500m noiseless)
.model DIN D(Ron=2k Roff=100g Vfwd=1.5 Vrev=1.5 epsilon=100m revepsilon=100m noiseless)
.ends LT1807
*
.subckt LT1809 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=4.7p ink=1.11k
B1 0 N006 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-1.867n
B2 N006 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N006 0 .01f Rpar=100K noiseless
D4 3 N012 DBIA3
M1 5 N013 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 N013 4 DLIMN1
M2 5 N005 3 3 PI temp=27
D8 3 N005 DLIMP1
C3 3 N005 .12f Rpar=100G Rser=20Meg noiseless
C11 5 4 1p Rpar=1g noiseless
C12 N013 4 .02f Rser=1Meg noiseless Rpar=100G
D6 N013 4 DLIMN2
A4 0 N006 0 0 0 0 N008 0 OTA g=1m linear en=14.5n enk=2.24k Vhigh=.56 Vlow=-.56
C16 N010 5 .7p
D12 1 3 DESD
D13 2 3 DESD
C7 3 1 1p Rpar=10g noiseless
C13 3 4 1000p
C15 N005 N013 .01f Rser=10Meg noiseless
D7 3 N004 DPB
C17 0 N008 600f Rpar=1k noiseless
D14 3 N005 DLIMP2
D15 1 2 DIN
D16 N012 1 DBIA2
D3 N012 2 DBIA2
C4 N005 5 .02f
D1 4 2 DESD
D2 4 1 DESD
C1 3 2 1p Rpar=10g noiseless
C6 1 4 1p Rpar=10g noiseless
C8 2 4 1p Rpar=10g noiseless
C14 N007 N010 10f Rpar=80k noiseless
D9 3 6 DSHUT
G2 4 N013 N010 N007 20n
A10 3 6 N007 N007 N007 N014 N007 N007 SCHMITT Vt=2 Vh=10m td=40n trise=80n tfall=80n
A2 N009 0 N014 N007 N007 N007 N010 N007 OTA g=760u iout=275u Vhigh=1e308 Vlow=-1e308
A3 N007 N010 N014 N007 N007 N007 N005 N007 OTA g=80n ref=-.03 linear Vlow=-1e308 Vhigh=1e308
S1 4 N012 N007 N014 SWB
D17 2 N004 DBIA1
D11 1 N004 DBIA1
S2 N004 4 N014 N007 SWB2
C18 N012 4 20p Rpar=50G noiseless
C5 3 N004 20p Rpar=20G noiseless
C19 N004 4 20p Rpar=20G noiseless
S3 3 4 N014 N007 SWP
C22 N009 0 1.33p Rser=2k Rpar=1k noiseless
G4 0 N009 N008 0 1m
G7 0 N007 4 0 50m
G8 0 N007 3 0 50m
C20 N007 0 100p Rpar=10
.model DPB D(Roff=1G Ron=80 Vfwd=1.1 noiseless)
.model SWP SW(Roff=1G Ron=10k vt=.5 vh=-.1)
.model SWB SW(Ron=1 Roff=5G vt=-.5 vh=-.1)
.model SWB2 SW(level=2 Ron=80 Roff=500g vt=.5 vh=-.1 ilimit=9.83m)
.model DBIA1 D(Ron=100k Roff=10Meg Vfwd=0 ilimit=1.8u epsilon=.1 noiseless)
.model DBIA2 D(Ron=20k Roff=10T Vfwd=0 epsilon=50m ilimit=7u noiseless)
.model DBIA3 D(Ron=10k Roff=100G Vfwd=1.1 epsilon=10m noiseless)
.model DESD D(Ron=100 Roff=100T Vfwd=1 epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=45m epsilon=2m noiseless)
.model NI VDMOS(Vto=300m kp=350m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=5g Vfwd=.85 Vrev=-340m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=500Meg Roff=10g Vfwd=200m epsilon=700m noiseless)
.model PI VDMOS(Vto=-300m kp=300m lambda=.01 pchan)
.model DLIMP1 D(Ron=100 Roff=500Meg Vfwd=.835 Vrev=-340m epsilon=600m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=80Meg Roff=2g Vfwd=300m epsilon=500m noiseless)
.model DIN D(Ron=2k Roff=100g Vfwd=1.5 Vrev=1.5 epsilon=100m revepsilon=100m noiseless)
.model DSHUT D(Ron=11.2k Roff=1g Vfwd=.5 epsilon=100m noiseless)
.ends LT1809
*
.subckt LT1810 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=4.7p ink=1.11k
B1 0 N005 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-1.867n
B2 N005 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N005 0 .01f Rpar=100K noiseless
D4 3 N012 DBIA3
M1 5 N013 4 4 NI temp=27
C2 3 5 1p Rpar=1g noiseless
D5 N013 4 DLIMN1
M2 5 N008 3 3 PI temp=27
D8 3 N008 DLIMP1
C3 3 N008 .12f Rpar=100G Rser=20Meg noiseless
C11 5 4 1p Rpar=1g noiseless
C12 N013 4 .02f Rser=1Meg noiseless Rpar=100G
D6 N013 4 DLIMN2
A4 0 N005 0 0 0 0 N006 0 OTA g=1m linear en=14.5n enk=2.24k Vhigh=.56 Vlow=-.56
C16 N010 5 .7p
D12 1 3 DESD
D13 2 3 DESD
C7 3 1 1p Rpar=10g noiseless
C13 3 4 1000p
C15 N008 N013 .01f Rser=10Meg noiseless
D7 3 N004 DPB
C17 0 N006 600f Rpar=1k noiseless
D14 3 N008 DLIMP2
D15 1 2 DIN
D16 N012 1 DBIA2
D3 N012 2 DBIA2
C4 N008 5 .02f
D1 4 2 DESD
D2 4 1 DESD
C1 3 2 1p Rpar=10g noiseless
C6 1 4 1p Rpar=10g noiseless
C8 2 4 1p Rpar=10g noiseless
C14 N009 N010 10f Rpar=80k noiseless
G2 4 N013 N010 N009 20n
D17 2 N004 DBIA1
D11 1 N004 DBIA1
C18 N012 4 20p Rpar=50G noiseless
C5 3 N004 20p Rpar=20G noiseless
C19 N004 4 20p Rpar=20G noiseless
C22 N007 0 1.33p Rser=2k Rpar=1k noiseless
G4 0 N007 N006 0 1m
D10 N004 4 DP
R3 3 4 10k noiseless
A6 N009 N010 0 0 0 0 N008 0 OTA g=80n ref=-.03 linear Vlow=-1e308 Vhigh=1e308
A3 N007 0 N009 N009 N009 N009 N010 N009 OTA g=760u iout=275u Vlow=-1e308 Vhigh=1e308
G1 0 N009 4 0 50m
G3 0 N009 3 0 50m
C20 N009 0 100p Rpar=10
.model DPB D(Roff=1G Ron=80 Vfwd=1.1 noiseless)
.model DP D(Ron=80 Roff=500G Vfwd=0 ilimit=9.7m noiseless)
.model DBIA1 D(Ron=100k Roff=10Meg Vfwd=0 ilimit=1.8u epsilon=.1 noiseless)
.model DBIA2 D(Ron=20k Roff=10T Vfwd=0 epsilon=50m ilimit=7u noiseless)
.model DBIA3 D(Ron=10k Roff=100G Vfwd=1.1 epsilon=10m noiseless)
.model DESD D(Ron=100 Roff=100T Vfwd=1 epsilon=50m noiseless)
.model DVLIMU D(Ron=10 Roff=1Meg Vfwd=45m epsilon=2m noiseless)
.model NI VDMOS(Vto=300m kp=350m lambda=.01)
.model DLIMN1 D(Ron=100 Roff=5g Vfwd=.85 Vrev=-340m epsilon=.1 noiseless)
.model DLIMN2 D(Ron=500Meg Roff=10g Vfwd=200m epsilon=700m noiseless)
.model PI VDMOS(Vto=-300m kp=300m lambda=.01 pchan)
.model DLIMP1 D(Ron=100 Roff=500Meg Vfwd=.835 Vrev=-340m epsilon=600m revepsilon=10m noiseless)
.model DLIMP2 D(Ron=80Meg Roff=2g Vfwd=300m epsilon=500m noiseless)
.model DIN D(Ron=2k Roff=100g Vfwd=1.5 Vrev=1.5 epsilon=100m revepsilon=100m noiseless)
.ends LT1810
*
.subckt LT1812 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.99p ink=246
C2 2 1 .1p Rpar=1.6Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.7,.1), V(4)+.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.69,.1), V(4)+.69, .1)+1n*V(2)
C9 3 2 1p Rpar=20Meg noiseless
C10 N004 0 6f Rpar=100K noiseless
C13 N006 5 3.2p Rser=800 noiseless
C1 2 4 1p Rpar=20Meg noiseless
C6 3 1 1p Rpar=20Meg noiseless
C7 1 4 1p Rpar=20Meg noiseless
D2 3 1 DBIAS
D4 3 2 DBIAS
A2 3 6 0 0 0 N008 0 0 SCHMITT Vt=2 Vh=10m tau=200n Vlow=0 Vhigh=1
D8 3 6 DSHUT
C11 N010 0 6.4f Rser=77.8k Rpar=100k noiseless
G2 0 N010 N005 0 10<31>
A3 0 N004 N008 0 0 0 N005 0 OTA g=1m linear Rout=2k Cout=400f en=7.95n enk=133 Vlow=-1e308 Vhigh=1e308
D5 N005 0 DNLSlew
D6 N011 0 DNLSlew2
S3 N005 N011 4 3 SLWMOD
C14 N005 N011 1p
G5 4 N006 N010 0 900<30>
M1 3 N007 N009 N009 N temp=27
M2 4 N013 N009 N009 P temp=27
C4 3 N009 1p noiseless
C5 N009 4 1p noiseless
S1 5 N009 N008 0 swZombie
C15 3 5 1p noiseless
C16 5 4 1p noiseless
C19 3 N006 .66p Rpar=6Meg noiseless
G6 N010 0 N006 3 1m dir=1 vto=-.95
G3 4 N010 4 N006 1m dir=1 vto=-.95
C8 N006 4 .66p Rpar=6Meg noiseless
D1 N007 N009 YF1
D3 N009 N013 YR1
R2 N007 N006 1Meg noiseless
C12 3 N007 .04f
C17 N007 4 .04f
D7 N007 N009 YF2
D9 N009 N013 YR2
R3 N013 N006 1Meg noiseless
C18 N013 4 .04f
C20 3 N013 .04f
G1 N007 N013 0 N008 5<> vto=-500m dir=1
.model YF1 D(Ron=900k Roff=1G Vfwd=50m epsilon=100m noiseless)
.model YF2 D(Ron=100k Roff=1G Vfwd=380m epsilon=100m noiseless)
.model YR1 D(Ron=800k Roff=1G Vfwd=50m epsilon=100m noiseless)
.model YR2 D(Ron=100k Roff=1G Vfwd=400m epsilon=100m noiseless)
.model DBIAS D(Ron=100k Roff=1G Vfwd=.6 ilimit=.9u noiseless)
.model DSHUT D(Ron=180k Vfwd=.6 epsilon=.1 noiseless)
.model N VDMOS(Vto=-133m Kp=340m noiseless)
.model P VDMOS(Vto=133m Kp=340m pchan noiseless)
.model swZombie SW(Ron=1 Roff=500 vt=.5 vh=-300m noiseless)
.model DNLSlew D(Ron=300 Roff=2k Rrev=250 vfwd=500m epsilon=200m ilimit=1.4m vrev=1.1 revepsilon=500m noiseless)
.model DNLSlew2 D(Ron=50 Roff=100k Rrev=800 vfwd=100m epsilon=100m vrev=100m revepsilon=100m noiseless)
.model SLWMOD SW(level=2 Ron=10 Roff=1Meg vt=-7.5 vh=-5 noiseless)
.ends LT1812
*
.subckt LT1813 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.99p ink=246
C2 2 1 .1p Rpar=1.6Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.7,.1), V(4)+.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.69,.1), V(4)+.69, .1)+1n*V(2)
C9 3 2 1p Rpar=20Meg noiseless
C10 N004 0 6f Rpar=100K noiseless
C13 N006 5 3.2p Rser=800 noiseless
C1 2 4 1p Rpar=20Meg noiseless
C6 3 1 1p Rpar=20Meg noiseless
C7 1 4 1p Rpar=20Meg noiseless
D2 3 1 DBIAS
D4 3 2 DBIAS
C11 N009 0 6.4f Rser=77.8k Rpar=100k noiseless
G2 0 N009 N005 0 10<31>
A3 0 N004 0 0 0 0 N005 0 OTA g=1m linear Rout=2k Cout=400f en=7.95n enk=133 Vlow=-1e308 Vhigh=1e308
D5 N005 0 DNLSlew
D6 N010 0 DNLSlew2
S3 N005 N010 4 3 SLWMOD
C14 N005 N010 1p
G5 4 N006 N009 0 900<30>
M1 3 N007 N008 N008 N temp=27
M2 4 N012 N008 N008 P temp=27
C4 3 N008 1p noiseless
C5 N008 4 1p noiseless
C15 3 5 1p noiseless
C16 5 4 1p noiseless
C19 3 N006 .66p Rpar=6Meg noiseless
G6 N009 0 N006 3 1m dir=1 vto=-.95
G3 4 N009 4 N006 1m dir=1 vto=-.95
C8 N006 4 .66p Rpar=6Meg noiseless
D1 N007 N008 YF1
D3 N008 N012 YR1
R2 N007 N006 1Meg noiseless
C12 3 N007 .04f
C17 N007 4 .04f
D7 N007 N008 YF2
D9 N008 N012 YR2
R3 N012 N006 1Meg noiseless
C18 N012 4 .04f
C20 3 N012 .04f
R4 5 N008 1 noiseless
.model YF1 D(Ron=900k Roff=1G Vfwd=50m epsilon=100m noiseless)
.model YF2 D(Ron=100k Roff=1G Vfwd=380m epsilon=100m noiseless)
.model YR1 D(Ron=800k Roff=1G Vfwd=50m epsilon=100m noiseless)
.model YR2 D(Ron=100k Roff=1G Vfwd=400m epsilon=100m noiseless)
.model DBIAS D(Ron=100k Roff=1G Vfwd=.6 ilimit=.9u noiseless)
.model N VDMOS(Vto=-133m Kp=340m noiseless)
.model P VDMOS(Vto=133m Kp=340m pchan noiseless)
.model swZombie SW(Ron=1 Roff=500 vt=.5 vh=-300m noiseless)
.model DNLSlew D(Ron=300 Roff=2k Rrev=250 vfwd=500m epsilon=200m ilimit=1.4m vrev=1.1 revepsilon=500m noiseless)
.model DNLSlew2 D(Ron=50 Roff=100k Rrev=800 vfwd=100m epsilon=100m vrev=100m revepsilon=100m noiseless)
.model SLWMOD SW(level=2 Ron=10 Roff=1Meg vt=-7.5 vh=-5 noiseless)
.ends LT1813
*
.subckt LT1881 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=21f ink=20
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-0.9,.1), V(4)+0.9, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-0.89,.1), V(4)+0.89, .1)+1n*V(2)
C6 3 1 .1p Rpar=400G noiseless
C7 1 4 .1p noiseless Rpar=400G
C8 2 4 .1p Rpar=400G noiseless
C9 3 2 .1p Rpar=400G noiseless
A2 0 N003 0 0 0 0 X 0 OTA g=33.7u asym isink=-1.66u isource=3.28u Cout=8.7p en=14n enk=2 Vhigh=1e308 Vlow=-1e308
C10 N003 0 1f Rpar=100K noiseless
D1 X 3 XU
D4 4 X XD
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 10.6f Rpar=1Meg noiseless
C3 3 5 0.5p
C4 5 4 0.5p
D5 N004 5 Y
D6 5 N004 Y
G1 0 N004 N005 0 1<>
C12 N006 0 2.12n noiseless Rser=1.5k Rpar=1k
G4 0 N006 X 0 1m
C13 N005 0 265p noiseless Rpar=1k
G5 0 N005 N006 0 1m
C2 2 1 1.8p Rpar=20Meg noiseless
.model XU D(Ron=1K Roff=100G Vfwd=-.2 epsilon=1.0 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-20m epsilon=1.0 noiseless)
.model Y D(Ron=1.1k Roff=1T Vfwd=.75 epsilon=.1 noiseless)
.model N VDMOS(Vto=-135m Kp=70m)
.model P VDMOS(Vto=135m Kp=70m pchan)
.ends LT1881
*
.subckt LT1884 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=50f ink=10
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)+0.9, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)+0.89, .1)+1n*V(2)
C6 3 1 .5p Rpar=1T noiseless
C7 1 4 .5p noiseless Rpar=1T
C8 2 4 .5p Rpar=1T noiseless
C9 3 2 .5p Rpar=1T noiseless
A2 0 N004 0 0 0 0 X 0 OTA g=33.7u asym isink=-1.88u isource=2.42u Cout=2.668p en=9.5n enk=2 Vhigh=1e308 Vlow=-1e308
C10 N004 0 0.1f Rpar=100K noiseless
D1 X 3 XU
D4 4 X XD
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C1 N005 0 2f Rpar=1Meg noiseless
C3 3 5 0.5p
C4 5 4 0.5p
D5 N005 5 Y
D6 5 N005 Y
G1 0 N005 N006 0 1<>
C11 N009 0 1.79n Rser=65.2 Rpar=1k
G2 0 N009 X 0 1m
G3 0 N010 N009 0 1m
L1 N010 0 1.44m Rser=1.24k Rpar=5.16666666666667k Cpar=2.2p noiseless
G4 0 N006 N010 0 1m
L2 N006 0 0.4956m Rser=4.23k Rpar=1.309597523219814k Cpar=3p noiseless
D2 1 4 DBIAS
D3 2 4 DBIAS
.model XU D(Ron=1K Roff=100G Vfwd=-.229 epsilon=1.0 noiseless)
.model XD D(Ron=1K Roff=100G Vfwd=-20m epsilon=1.0 noiseless)
.model Y D(Ron=4.8k Roff=1T Vfwd=.79 epsilon=.1 noiseless)
.model N VDMOS(Vto=-150m Kp=54.5m)
.model P VDMOS(Vto=150m Kp=54.5m pchan)
.model DBIAS D(Ron=1Meg Roff=1T vfwd=600m epsilon=500m ilimit=100p)
.ends LT1884
*
.subckt LT1886 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1.9p ink=1.1k
C2 2 1 .1p Rpar=35k noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3),.1), V(4)+.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+0.01,.1), V(4)+.69, .1)+1n*V(2)
C9 3 2 1p Rpar=20Meg noiseless
C10 N004 0 5f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 1p
D5 N005 5 YU
D6 5 N005 YD
C4 5 4 1p
C1 2 4 1p Rpar=20Meg noiseless
C6 3 1 1p Rpar=20Meg noiseless
C7 1 4 1p Rpar=20Meg noiseless
D2 2 4 DBIAS
D4 1 4 DBIAS
G1 0 N005 N007 0 100<30>
C8 0 N005 8f Rpar=10k noiseless
R1 3 4 5.7k noiseless
D1 N006 3 X
D7 4 N006 X
A2 0 N004 0 0 0 0 N006 0 OTA g=2.4u en=5.95n enk=166 cout=.549f iout=112n Vhigh=1e308 Vlow=-1e308
D8 2 1 DIN
G2 0 N007 N006 0 1m
C11 0 N007 400f Rpar=1k noiseless
.model X D(Ron=1k Roff=10G Vfwd=-.7 epsilon=.5 noiseless)
.model YU D(Ron=10 Roff=1T Vfwd=1.63 epsilon=.1 noiseless)
.model YD D(Ron=100 Roff=1T Vfwd=1.13 epsilon=.1 noiseless)
.model N VDMOS(Vto=-140m Kp=500m)
.model P VDMOS(Vto=140m Kp=500m pchan)
.model DBIAS D(Ron=10k Roff=1T Vfwd=.6 ilimit=1.5u noiseless)
.model DIN D(Ron=500 Roff=1G Vfwd=.8 Vrev=.8 epsilon=.1 revepsilon=.1 noiseless)
.ends LT1886
*
.subckt LT1920 1 2 3 4 5 6 7 8
A2 0 N014 0 0 0 0 N017 0 OTA g=27.8u Iout=5u Cout=270f en=5.3n enk=10 Vhigh=1e308 Vlow=-1e308
DU1 N017 7 XU
DD1 4 N017 XD
DU2 N006 7 XU
DD2 4 N006 XD
G2 0 N003 N006 0 1m
C3 N003 0 100f Rpar=1k
R6 N004 1 24.7k noiseless
R7 1 8 1t noiseless
R8 8 N018 24.7k noiseless
DB1 7 2 DBIAS
DB4 7 3 DBIAS
C5 7 2 .8p Rpar=400g noiseless
C6 7 1 .1p Rpar=400g noiseless
C7 7 3 .8p Rpar=400g noiseless
C8 2 4 .8p Rpar=400g noiseless
C9 1 4 .1p Rpar=400g noiseless
C10 3 4 .8p Rpar=400g noiseless
C11 7 8 .1p Rpar=400g noiseless
C12 8 4 .1p Rpar=400g noiseless
DU3 N011 7 X2U
DD3 4 N011 X2D
G1 0 N009 N011 0 1<>
CG1 N009 0 160f Rpar=1Meg noiseless
R1 N004 N005 10k noiseless
R2 N018 N012 10k noiseless
M1 7 N010 6 6 N temp=27
M2 4 N010 6 6 P temp=27
D1 N010 6 YU
D2 6 N010 YD
A1 0 N002 0 0 0 0 N006 0 OTA g=27.8u Iout=5u Cout=270f en=5.3n enk=10 Vhigh=1e308 Vlow=-1e308
A0 2 3 0 0 0 0 0 0 OTA g=0 in=57f ink=37
B1 0 N002 I=10u*dnlim(uplim(V(2)-.5,V(7)-1.79,.1), V(4)+1.29, .1)+1n*V(2)
C13 N002 0 50f Rpar=100K noiseless
C15 N014 0 50f Rpar=100K noiseless
CG4 7 6 1p
CG5 6 4 1p
M3 7 N003 N004 N004 NINT temp=27
M4 4 N003 N004 N004 PINT temp=27
M5 7 N016 N018 N018 NINT temp=27
M6 4 N016 N018 N018 PINT temp=27
G3 0 N016 N017 0 1m
C17 N016 0 100f Rpar=1k noiseless
A3 N005 N012 0 0 0 0 N011 0 OTA g=238.8u Iout=54.2u Cout=45p en=33.5n enk=16 Vlow=-1e308 Vhigh=1e308
C1 0 N004 1p
C18 N018 0 1p
C19 1 8 5p Rser=20 noiseless
C20 2 3 .8p
C21 N004 1 5p Rser=20 noiseless
C22 8 N018 5p Rser=20 noiseless
R3 N005 6 10k noiseless
R4 N012 5 10k noiseless
C2 0 N005 1p
C14 N012 0 1p
DB2 7 4 DP
B2 0 N014 I=10u*dnlim(uplim(V(3)-.5,V(7)-1.8,.1), V(4)+1.3, .1)+1n*V(3)
G5 0 N010 N009 0 10<31>
CG2 N010 0 2p Rpar=100k noiseless
B3 N002 0 I=10u*dnlim(uplim(V(1),V(7)-1.79,.1), V(4)+.5, .1)+1n*V(1)
B4 N014 0 I=10u*dnlim(uplim(V(8),V(7)-.5,.1), V(4)+.5, .1)+1n*V(8)
.model XU D(Ron=1k Roff=100g Vfwd=0 epsilon=100m noiseless)
.model XD D(Ron=1k Roff=100g Vfwd=0 epsilon=100m noiseless)
.model DBIAS D(Ron=1Meg Vfwd=.7 ilimit=.5n noiseless)
.model DP D(Ron=1k Vfwd=.6 epsilon=100m ilimit=405u noiseless)
.model NINT VDMOS(Vto=-40m Kp=100m)
.model PINT VDMOS(Vto=40m Kp=100m pchan)
.model X2U D(Ron=1k Roff=100G Vfwd=-.9 epsilon=.1 noiseless)
.model X2D D(Ron=1k Roff=100G Vfwd=-.65 epsilon=.1 noiseless)
.model YU D(Ron=50 Roff=1G Vfwd=.63 epsilon=.1 noiseless)
.model YD D(Ron=500 Roff=1G Vfwd=.65 epsilon=.1 noiseless)
.model N VDMOS(Vto=-80m Kp=100m Rds=1Meg)
.model P VDMOS(Vto=80m Kp=100m Rds=1Meg pchan)
.model DDROP D(Roff=100k Ron=5 Vfwd=150m Vrev=1 epsilon=.1 noiseless)
.ends LT1920
*
.subckt LTC2050 1 2 3 4 5 6
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-.9,.1), V(4)-.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-.89,.1), V(4)-.41, .1)+1n*V(2)
C9 3 2 .85p Rpar=1T noiseless
C10 N004 0 1f Rpar=100K noiseless
M1 3 N006 5 5 N temp=27
M2 4 N010 5 5 P temp=27
D5 N006 5 Y
D6 5 N010 Y
R2 3 N008 2G noiseless
R3 N008 4 2G noiseless
A3 6 3 0 0 0 0 N005 0 SCHMITT Vt=-1.5 Vh=100m tau=50u
A4 N005 0 N008 N008 N008 N008 N006 N008 SCHMITT Vt=.5 Vh=10m Vhigh=0 Vlow=-15 Rout=1k Cout=.1p
A5 N005 0 N008 N008 N008 N010 N008 N008 SCHMITT Vt=.5 Vh=10m Vhigh=15 Vlow=0 Rout=1k Cout=.1p
C14 0 N007 15p Rpar=6k noiseless
A7 N007 0 N005 0 0 0 N008 0 OTA g=3.2m iout=1m Vlow=-1e308 Vhigh=1e308
G1 N008 0 N008 3 500m dir=1 vto=.3
G2 0 N008 4 N008 500m dir=1 vto=.45
G3 0 N007 0 N009 167<36>
D1 3 6 DSIN
C2 3 5 1p Rpar=1G noiseless
C15 5 4 1p Rpar=1G noiseless
A2 0 N004 0 0 0 0 N009 0 OTA g=3.2m linear en=79n Rout=1k Cout=40p Vlow=-1e308 Vhigh=1e308
S2 3 4 N005 0 SPOW
C3 N008 0 500p Rser=100 noiseless
C1 2 4 .85p Rpar=1T noiseless
C4 3 1 .85p Rpar=1T noiseless
C6 1 4 .85p Rpar=1T noiseless
R4 3 4 3.3Meg noiseless
.model Y D(Ron=100 Roff=1T Vfwd=.6 epsilon=.1 noiseless)
.model N VDMOS(Vto=-100m Kp=90m)
.model P VDMOS(Vto=100m Kp=70m pchan)
.model DSIN D(Ron=100k Roff=100Meg Vfwd=.1 epsilon=100m ilimit=.5u noiseless)
.model shutD SW(Ron=1T Roff=10k vt=.5 vh=-.1)
.model DS D(Ron=100 Roff=1G Vfwd=.2 Vrev=.2 epsilon=0.1 revepsilon=0.1 noiseless)
.model SPOW SW(level=2 Ron=500 Roff=1G vt=.5 vh=-.1 ilimit=.5m noiseless)
.ends LTC2050
*
* NODES 1 AND 8 = COMPENSATION PINS
.SUBCKT LM108A 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6.001e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 3.576E-10
GA 8 0 80 90 1.131E-04
R2 8 0 100000
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 31.46
* OUTPUT
RO1 1 6 111.1
RO2 1 0 888.9
RC 17 0 3.533E-04
GC 0 17 6 0 2830
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.766
VE 14 4 1.766
IP 7 4 0.000294
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=5714)
.MODEL QM2 NPN(IS=8.093E-16 BF=6316)
.MODEL DM1 D(IS=1.192E-10)
.MODEL DM2 D(IS=8e-16)
.ENDS LM108A
*
.SUBCKT LH2108A 3 2 7 4 6 1 8
X_LH2108A 3 2 7 4 6 1 8 LM108A
.ENDS LH2108A
*
* NODES 1 AND 8 = COMPENSATION PINS
.SUBCKT LM308 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.5
RE2 11 12 224.5
IEE 12 4 6.003e-6
RE 12 0 33320000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.131e-9
GA 8 0 80 90 1.131E-04
R2 8 0 100000
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 31.46
* OUTPUT
RO1 1 6 111.1
RO2 1 0 888.9
RC 17 0 3.533E-04
GC 0 17 6 0 2830
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.766
VE 14 4 1.766
IP 7 4 0.000294
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=1875)
.MODEL QM2 NPN(IS=8.643E-16 BF=2143)
.MODEL DM1 D(IS=1.192E-10)
.MODEL DM2 D(IS=8e-16)
.ENDS LM308
*
* NODES 1 AND 8 = COMPENSATION PINS
.SUBCKT LM308A 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.5
RE2 11 12 224.5
IEE 12 4 6.003e-6
RE 12 0 33320000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 3.576E-10
GA 8 0 80 90 1.131E-04
R2 8 0 100000
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 31.46
* OUTPUT
RO1 1 6 111.1
RO2 1 0 888.9
RC 17 0 3.533E-04
GC 0 17 6 0 2830
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.766
VE 14 4 1.766
IP 7 4 0.000294
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=1875)
.MODEL QM2 NPN(IS=8.093E-16 BF=2143)
.MODEL DM1 D(IS=1.192E-10)
.MODEL DM2 D(IS=8e-16)
.ENDS LM308A
*
* NODES 1 AND 8 = COMPENSATION PINS
.SUBCKT LM108 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6.001e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.131e-9
GA 8 0 80 90 1.131E-04
R2 8 0 100000
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 31.46
* OUTPUT
RO1 1 6 111.1
RO2 1 0 888.9
RC 17 0 3.533E-04
GC 0 17 6 0 2830
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.766
VE 14 4 1.766
IP 7 4 0.000294
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=5714)
.MODEL QM2 NPN(IS=8.22e-16 BF=6316)
.MODEL DM1 D(IS=1.192E-10)
.MODEL DM2 D(IS=8e-16)
.ENDS LM108
*
.SUBCKT LH2108 3 2 7 4 6 1 8
X_LH2108 3 2 7 4 6 1 8 LM108
.ENDS LH2108
*
* NODES 1 AND 8 = COMPENSATION PINS
.SUBCKT LM101A 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 5895
RC2 7 90 5895
Q1 80 2 10 QM1
Q2 90 3 11 QM2
C1 80 90 5.46e-12
RE1 10 12 2438
RE2 11 12 2438
IEE 12 4 1.506e-5
RE 12 0 13280000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.689e-9
GA 8 0 80 90 1.696E-04
R2 8 0 100000
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 140.1
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 4.758e-5
GC 0 17 6 0 21020
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.808
VE 14 4 1.808
IP 7 4 0.001785
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=243.9)
.MODEL QM2 NPN(IS=8.22e-16 BF=256.4)
.MODEL DM1 D(IS=3.337E-15)
.MODEL DM2 D(IS=8e-16)
.ENDS LM101A
*
* NODES 1 AND 8 = COMPENSATION PINS
.SUBCKT LM301A 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 5895
RC2 7 90 5895
Q1 80 2 10 QM1
Q2 90 3 11 QM2
C1 80 90 5.46e-12
RE1 10 12 2438
RE2 11 12 2438
IEE 12 4 1.506e-5
RE 12 0 13280000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.689e-9
GA 8 0 80 90 1.696E-04
R2 8 0 100000
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 140.1
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 4.758e-5
GC 0 17 6 0 21020
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.808
VE 14 4 1.808
IP 7 4 0.001785
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=104.9)
.MODEL QM2 NPN(IS=8.647E-16 BF=109.5)
.MODEL DM1 D(IS=3.337E-15)
.MODEL DM2 D(IS=8e-16)
.ENDS LM301A
*
* OP AMP SECTION FOLLOWS 3-2-7-4-6 CONVENTION
* 8=REFERENCE FEEDBACK
* 1=REFERENCE OUTPUT
.SUBCKT LM10C 3 2 7 4 6 1 8
RC1 4 80 53050
RC2 4 90 53050
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 4000
RB2 3 103 4000
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 2.598E-11
RE1 10 12 41340
RE2 11 12 41340
IEE 7 12 4.524e-6
RE 12 0 44210000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 85 12 0 1.497E-10
GA 85 0 80 90 1.885e-5
R2 85 0 100000
C2 15 85 3e-11
GB 15 0 85 0 245.5
* OUTPUT
RO1 15 110 100
RO2A 15 0 1083
RO2B 6 110 817
EC 17 0 110 0 1
D1 15 17 DM1
D2 17 15 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 0.8075
VE 14 4 0.8075
IP 7 4 2.955E-04
DSUB 4 7 DM2
* REFERENCE
ER 1 4 8 200 70E3
VR 200 4 0.200
RRIN 200 4 1E9
IBR 8 4 22E-9
.MODEL QM1 PNP(IS=8e-16 BF=184.4)
.MODEL QM2 PNP(IS=8.156E-16 BF=190.7)
.MODEL DM1 D(IS=2.784E-32)
.MODEL DM2 D(IS=8e-16 BV=49.5)
.ENDS LM10C
*
.SUBCKT LM318 3 2 7 4 6
* INPUT
RC1 7 80 707.4
RC2 7 90 707.4
Q1 80 2 10 QM1
Q2 90 3 11 QM1
C1 80 91 300E-12
RXC1 91 90 1E3
CXC1 91 90 15E-12
C2 1 8 5e-12
RB1 2 102 1
RB2 3 103 1
DDM1 102 104 DM2
VZ1 104 103 5.5
DDM2 103 105 DM2
VZ2 105 102 5.5
RE1 10 12 620.9
RE2 11 12 620.9
IEE 12 4 0.0006
RE 12 0 333200
CE 12 0 2.632E-13
GCM 0 8 12 0 1.414e-8
GA 8 0 80 90 0.001414
R2 8 0 100000
GB 1 0 8 0 53.18
RO2 1 0 74
RS 1 6 1
ECL 18 0 1 6 31.72
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.6473
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.6473
RNLA 60 4 1E4
RNLB 141 4 1E5
IP 7 4 0.0044
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=1818)
.MODEL QM2 NPN(IS=9.347E-16 BF=2222)
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LM318
*
.SUBCKT LM318S8 3 2 7 4 6
X_LM318S8 3 2 7 4 6 LM318
.ENDS LM318S8
*
.subckt LT118A 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=195f ink=550
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C2 2 1 2p
C3 3 5 .5p
C4 5 4 .5p
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-3.4,.1), V(4)+3.4, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-3.39,.1), V(4)+3.39, .1)+1n*V(2)
C6 3 1 .5p
C7 1 4 .5p
C8 2 4 .5p
C9 3 2 .5p
C10 N004 0 8f Rpar=100K noiseless
D2 2 1 DI
D3 3 4 DCPOW
D1 N005 5 Y
D4 5 N005 Y
D5 N005 3 X
D6 4 N005 X
A3 0 N004 0 0 0 0 N008 0 OTA G=70.7m asym isrc=47.2m isink= -33m Cout=229n en=11n enk=200 Vhigh=1e308 Vlow=-1e308
G5 0 N006 N008 0 1m
L4 N006 0 5.81m Rser=1.96K Rser=2k Rpar=2k Cpar=4.77p noiseless
D7 0 N008 DCL
G2 0 N005 N007 0 14.14n
C1 N005 0 2.89e-17
G3 0 N007 N006 0 1m
L2 N007 0 308<30> Rser=1.96K Rser=1k noiseless
D8 1 4 DBIAS
D9 2 4 DBIAS
.model X D(Ron=1K Roff=100G Vfwd=-1.8 epsilon=.1 noiseless)
.model Y D(Ron=1k Roff=1T Vfwd=0.43 epsilon=.1 noiseless)
.model N VDMOS(Vto=-200m Kp=120m mtriode=1)
.model P VDMOS(Vto=200m Kp=120m mtriode=1 pchan)
.model DI D(Ron=400 Roff=100G Vfwd=5 Vrev=5 epsilon=1 revepsilon=1 noiseless)
.model DCPOW D(Ron=100.0 Roff=1G Vfwd=1.0 Vrev=100.0 ilimit=2.6m noiseless)
.model DCL D(Roff=10k Ron=0.1 Vfwd=100m Vrev=100m epsilon=4m noiseless)
.model DBIAS D(Ron=1k Roff=1T Vfwd=2.0 ilimit=120n noiseless)
.ends LT118A
*
.SUBCKT LM307 3 2 7 4 6
* INPUT
RC1 7 80 5895
RC2 7 90 5895
Q1 80 2 10 QM1
Q2 90 3 11 QM2
C1 80 90 5.46e-12
RE1 10 12 2438
RE2 11 12 2438
IEE 12 4 1.506e-5
RE 12 0 13280000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.689e-9
GA 8 0 80 90 1.696E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 140.1
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 4.758e-5
GC 0 17 6 0 21020
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.808
VE 14 4 1.808
IP 7 4 0.001785
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=104.9)
.MODEL QM2 NPN(IS=8.647E-16 BF=109.5)
.MODEL DM1 D(IS=3.337E-15)
.MODEL DM2 D(IS=8e-16)
.ENDS LM307
*
.SUBCKT LM118 3 2 7 4 6
* INPUT
RC1 7 80 707.4
RC2 7 90 707.4
Q1 80 2 10 QM1
Q2 90 3 11 QM1
C1 80 91 300E-12
RXC1 91 90 1E3
CXC1 91 90 15E-12
C2 1 8 5e-12
RB1 2 102 1
RB2 3 103 1
DDM1 102 104 DM2
VZ1 104 103 5.5
DDM2 103 105 DM2
VZ2 105 102 5.5
RE1 10 12 620.9
RE2 11 12 620.9
IEE 12 4 0.0006
RE 12 0 333200
CE 12 0 2.632E-13
GCM 0 8 12 0 1.414e-8
GA 8 0 80 90 0.001414
R2 8 0 100000
GB 1 0 8 0 53.18
RO2 1 0 74
RS 1 6 1
ECL 18 0 1 6 31.72
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.6473
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.6473
RNLA 60 4 1E4
RNLB 141 4 1E5
IP 7 4 0.0044
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=2439)
.MODEL QM2 NPN(IS=8.6435E-16 BF=2564.1)
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LM118
*
.SUBCKT LM107 3 2 7 4 6
* INPUT
RC1 7 80 5895
RC2 7 90 5895
Q1 80 2 10 QM1
Q2 90 3 11 QM2
C1 80 90 5.46e-12
RE1 10 12 2438
RE2 11 12 2438
IEE 12 4 1.506e-5
RE 12 0 13280000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.689e-9
GA 8 0 80 90 1.696E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 140.1
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 4.758e-5
GC 0 17 6 0 21020
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.808
VE 14 4 1.808
IP 7 4 0.001785
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=243.9)
.MODEL QM2 NPN(IS=8.22e-16 BF=256.4)
.MODEL DM1 D(IS=3.337E-15)
.MODEL DM2 D(IS=8e-16)
.ENDS LM107
*
.SUBCKT LF412A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 930.73
RD2 40 90 930.73
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.0006
GOSIT 7 12 90 80 0.0003
* INTERMEDIATE
GCM 0 8 12 0 1.0744e-8
GA 8 0 80 90 0.0010744
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 29.73
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.925
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1615
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1615
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.0012
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=2e-11 BETA=9.6199E-04 VTO=-1)
.MODEL JM2 PJF(IS=1e-11 BETA=9.6199E-04 VTO=-0.9997)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF412A
*
.SUBCKT LF412 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 964.58
RD2 40 90 964.58
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 1.0367e-8
GA 8 0 80 90 0.0010367
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 24.474
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.774
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1575
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00138
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=2.75e-11 BETA=0.0010335 VTO=-1)
.MODEL JM2 PJF(IS=1.25e-11 BETA=0.0010335 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF412
*
.SUBCKT LF156A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00452
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF156A
*
.SUBCKT LF156 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00452
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF156
*
.SUBCKT LF356A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00452
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF356A
*
.SUBCKT LF356 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00452
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.997)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF356
*
.SUBCKT LF155A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 2122.1
RD2 40 90 2122.1
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00028
GOSIT 7 12 90 80 0.00014
* INTERMEDIATE
GCM 0 8 12 0 4.7124e-9
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 42.768
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.124
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1403
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1403
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00172
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=3.9655E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=3.9655E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF155A
*
.SUBCKT LF155 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 2122.1
RD2 40 90 2122.1
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00028
GOSIT 7 12 90 80 0.00014
* INTERMEDIATE
GCM 0 8 12 0 4.7124e-9
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 42.768
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.124
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1403
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1403
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00172
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=3.9655E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=3.9655E-04 VTO=-0.998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF155
*
.SUBCKT LF355A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 2122.1
RD2 40 90 2122.1
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00028
GOSIT 7 12 90 80 0.00014
* INTERMEDIATE
GCM 0 8 12 0 4.7124e-9
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 42.768
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.124
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1403
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1403
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00172
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=3.9655E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=3.9655E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF355A
*
.SUBCKT LF355 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 2122.1
RD2 40 90 2122.1
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00024
GOSIT 7 12 90 80 0.00012
* INTERMEDIATE
GCM 0 8 12 0 4.7124e-9
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 42.768
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 19.963
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.136
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.136
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00176
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=3.15e-11 BETA=4.6264E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=4.6264E-04 VTO=-0.997)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF355
*
.SUBCKT OP07C 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 1948
RE2 11 12 1948
IEE 12 4 7.502e-6
RE 12 0 26660000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1294
* OUTPUT
RO1 1 6 25.75
RO2 1 0 34.25
RC 17 0 6.634e-6
GC 0 17 6 0 150700
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002492
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=1705)
.MODEL QM2 NPN(IS=8.019E-16 BF=2679)
.MODEL DM1 D(IS=1.486e-8)
.MODEL DM2 D(IS=8e-16)
.ENDS OP07C
*
.SUBCKT OP07CS8 3 2 7 4 6
X_OP07CS8 3 2 7 4 6 OP07C
.ENDS OP07CS8
*
.SUBCKT OP07E 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 1948
RE2 11 12 1948
IEE 12 4 7.502e-6
RE 12 0 26660000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1294
* OUTPUT
RO1 1 6 25.75
RO2 1 0 34.25
RC 17 0 6.634e-6
GC 0 17 6 0 150700
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002492
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=2586)
.MODEL QM2 NPN(IS=8.009E-16 BF=3947)
.MODEL DM1 D(IS=1.486e-8)
.MODEL DM2 D(IS=8e-16)
.ENDS OP07E
*
.SUBCKT OP07A 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 1948
RE2 11 12 1948
IEE 12 4 7.502e-6
RE 12 0 26660000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1294
* OUTPUT
RO1 1 6 25.75
RO2 1 0 34.25
RC 17 0 6.634e-6
GC 0 17 6 0 150700
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002492
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=4412)
.MODEL QM2 NPN(IS=8.003E-16 BF=6818)
.MODEL DM1 D(IS=1.486e-8)
.MODEL DM2 D(IS=8e-16)
.ENDS OP07A
*
.SUBCKT OP05C 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 3097
RE2 11 12 3097
IEE 12 4 9.002e-6
RE 12 0 22220000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 664.7
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 1.393e-5
GC 0 17 6 0 71790
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002991
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=1667)
.MODEL QM2 NPN(IS=8.094E-16 BF=5001)
.MODEL DM1 D(IS=5.991E-12)
.MODEL DM2 D(IS=8e-16)
.ENDS OP05C
*
.SUBCKT OP05E 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 3097
RE2 11 12 3097
IEE 12 4 9.002e-6
RE 12 0 22220000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 664.7
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 1.393e-5
GC 0 17 6 0 71790
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002991
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=2501)
.MODEL QM2 NPN(IS=8.062E-16 BF=7502)
.MODEL DM1 D(IS=5.991E-12)
.MODEL DM2 D(IS=8e-16)
.ENDS OP05E
*
.SUBCKT OP05A 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 3097
RE2 11 12 3097
IEE 12 4 9.002e-6
RE 12 0 22220000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 664.7
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 1.393e-5
GC 0 17 6 0 71790
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002991
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=4287)
.MODEL QM2 NPN(IS=8.022E-16 BF=12860)
.MODEL DM1 D(IS=5.991E-12)
.MODEL DM2 D(IS=8e-16)
.ENDS OP05A
*
.SUBCKT OP16B 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 698.05
RD2 40 90 698.05
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00072
GOSIT 7 12 90 80 0.00036
* INTERMEDIATE
GCM 0 8 12 0 1.4326e-8
GA 8 0 80 90 0.0014326
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 21.118
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 21.119
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1666
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1666
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00388
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=4.5e-11 BETA=0.0014252 VTO=-1)
.MODEL JM2 PJF(IS=3.5e-11 BETA=0.0014252 VTO=-0.9996)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP16B
*
.SUBCKT OP16F 3 2 7 4 6
X_OP16F 3 2 7 4 6 OP16B
.ENDS OP16F
*
.SUBCKT OP16A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 663.15
RD2 40 90 663.15
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.0008
GOSIT 7 12 90 80 0.0004
* INTERMEDIATE
GCM 0 8 12 0 1.508e-8
GA 8 0 80 90 0.001508
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 22.51
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 21.231
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1696
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1696
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.0038
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=2.25e-11 BETA=0.0014212 VTO=-1)
.MODEL JM2 PJF(IS=1.75e-11 BETA=0.0014212 VTO=-0.9998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP16A
*
.SUBCKT OP16E 3 2 7 4 6
X_OP16E 3 2 7 4 6 OP16A
.ENDS OP16E
*
.SUBCKT OP16C 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 736.83
RD2 40 90 736.83
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00064
GOSIT 7 12 90 80 0.00032
* INTERMEDIATE
GCM 0 8 12 0 2.151e-8
GA 8 0 80 90 0.0013572
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 19.867
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.994
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1633
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1633
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00416
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=9e-11 BETA=0.001439 VTO=-1)
.MODEL JM2 PJF(IS=7e-11 BETA=0.001439 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP16C
*
.SUBCKT OP16G 3 2 7 4 6
X_OP16G 3 2 7 4 6 OP16C
.ENDS OP16G
*
.SUBCKT OP15B 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 930.73
RD2 40 90 930.73
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00044
GOSIT 7 12 90 80 0.00022
* INTERMEDIATE
GCM 0 8 12 0 1.0744e-8
GA 8 0 80 90 0.0010744
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 21.047
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.598
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1528
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1528
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00226
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=4.5e-11 BETA=0.0013118 VTO=-1)
.MODEL JM2 PJF(IS=3.5e-11 BETA=0.0013118 VTO=-0.9996)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP15B
*
.SUBCKT OP15F 3 2 7 4 6
X_OP15F 3 2 7 4 6 OP15B
.ENDS OP15F
*
.SUBCKT OP15A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 884.19
RD2 40 90 884.19
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 1.131e-8
GA 8 0 80 90 0.001131
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 22.434
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.774
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1575
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00218
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=2.05e-11 BETA=0.0012299 VTO=-1)
.MODEL JM2 PJF(IS=1.55e-11 BETA=0.0012299 VTO=-0.9998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP15A
*
.SUBCKT OP15E 3 2 7 4 6
X_OP15E 3 2 7 4 6 OP15A
.ENDS OP15E
*
.SUBCKT OP15C 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 982.44
RD2 40 90 982.44
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00036
GOSIT 7 12 90 80 0.00018
* INTERMEDIATE
GCM 0 8 12 0 1.6132e-8
GA 8 0 80 90 0.0010179
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 19.8
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.387
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1472
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1472
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.00244
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=9e-11 BETA=0.001439 VTO=-1)
.MODEL JM2 PJF(IS=7e-11 BETA=0.001439 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP15C
*
.SUBCKT OP15G 3 2 7 4 6
X_OP15G 3 2 7 4 6 OP15C
.ENDS OP15G
*
.SUBCKT OP215A 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 930.73
RD2 40 90 930.73
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.0006
GOSIT 7 12 90 80 0.0003
* INTERMEDIATE
GCM 0 8 12 0 1.0744e-8
GA 8 0 80 90 0.0010744
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 37.427
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.925
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1615
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1615
RNLA 60 4 10000
RNLB 141 4 100000
IP 7 4 0.0013
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=2e-11 BETA=9.6199E-04 VTO=-1)
.MODEL JM2 PJF(IS=1e-11 BETA=9.6199E-04 VTO=-0.9998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP215A
*
.SUBCKT OP215E 3 2 7 4 6
X_OP215E 3 2 7 4 6 OP215A
.ENDS OP215E
*
.SUBCKT OP215C 3 2 7 4 6
* INPUT
VCM2 40 4 2
RD1 40 80 964.58
RD2 40 90 964.58
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 1.0367e-8
GA 8 0 80 90 0.0010367
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 24.474
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.774
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1575
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00138
DSUB 4 7 DM2
.MODEL JM1 PJF(IS=2.75e-11 BETA=0.0010335 VTO=-1)
.MODEL JM2 PJF(IS=1.25e-11 BETA=0.0010335 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS OP215C
*
.SUBCKT OP215G 3 2 7 4 6
X_OP215G 3 2 7 4 6 OP215C
.ENDS OP215G
*
.SUBCKT OP97 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 196
* OUTPUT
RO1 1 6 100
RO2 1 0 900
RC 17 0 1.063E-04
GC 0 17 6 0 9408
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.785
VE 14 4 1.785
IP 7 4 0.000374
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=75000)
.MODEL QM2 NPN(IS=8.008E-16 BF=150000)
.MODEL DM1 D(IS=1.179E-19)
.MODEL DM2 D(IS=8e-16)
.ENDS OP97
*
.SUBCKT OP07 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 1948
RE2 11 12 1948
IEE 12 4 7.502e-6
RE 12 0 26660000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1294
* OUTPUT
RO1 1 6 25.75
RO2 1 0 34.25
RC 17 0 6.634e-6
GC 0 17 6 0 150700
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002492
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=3125)
.MODEL QM2 NPN(IS=8.009E-16 BF=4688)
.MODEL DM1 D(IS=1.486e-8)
.MODEL DM2 D(IS=8e-16)
.ENDS OP07
*
.SUBCKT OP05 3 2 7 4 6
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 500
RB2 3 103 500
DDM1 102 104 DM2
DDM3 104 103 DM2
DDM2 103 105 DM2
DDM4 105 102 DM2
C1 80 90 5.46e-12
RE1 10 12 3097
RE2 11 12 3097
IEE 12 4 9.002e-6
RE 12 0 22220000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 5.668E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 664.7
* OUTPUT
RO1 1 6 33.33
RO2 1 0 66.67
RC 17 0 1.393e-5
GC 0 17 6 0 71790
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 2.803
VE 14 4 2.803
IP 7 4 0.002991
DSUB 4 7 DM2
.MODEL QM1 NPN(IS=8e-16 BF=3000)
.MODEL QM2 NPN(IS=8.062E-16 BF=9000)
.MODEL DM1 D(IS=5.991E-12)
.MODEL DM2 D(IS=8e-16)
.ENDS OP05
*
.subckt LT1166 1 2 3 4 5 6 7 8
Q4 N039 N028 N035 0 PN
Q3 N031 N028 3 0 PN m=5
Q1 N009 N021 N025 0 NP
Q2 N021 N017 3 0 NP m=5
R1 2 N025 200
R2 N035 2 200
Q5 3 N039 4 0 NP m=40
Q6 N035 N039 4 0 NP
Q7 N028 N040 N042 0 NP
R3 4 N042 1K
Q8 N040 N040 N043 0 NP
R4 4 N043 1K
Q9 N026 N040 N044 0 NP
R6 4 N044 1K
Q10 1 N019 4 0 NP m=20
Q40 3 N009 1 0 PN m=40
Q39 N025 N009 1 0 PN
Q11 N029 N037 N045 0 NP
Q12 N034 N037 4 0 NP
Q13 N037 N041 4 0 NP
Q14 N041 N041 4 0 NP
Q15 N033 N040 N046 0 NP
Q16 1 N038 N039 0 NP
Q17 N038 N036 N033 0 PN
R7 4 N019 1.2K
R8 4 N045 160
R9 N029 N032 120
R10 4 N046 1K
R11 N027 5 5K
R12 N033 3 5K
R13 N034 3 1K
Q18 N041 N034 N016 0 PN
Q19 N037 N027 N016 0 PN
R28 N036 6 200
Q20 N032 N029 3 0 PN
Q21 4 N032 N030 0 PN m=10
Q22 N014 N024 N030 0 NP m=10
Q23 N024 N018 3 0 NP
C3 N027 N037 5p
Q24 N011 N022 N026 0 NP
Q25 N001 N015 N026 0 NP
Q26 N012 N020 N023 0 NP
Q27 4 N012 N009 0 PN
Q28 N023 N010 N008 0 PN
R14 3 N015 1K
R15 3 N023 5K
R16 N022 8 5K
R17 N008 1 1K
R18 N007 1 160
R19 N024 N018 120
R20 N006 1 1K
R21 N013 1 10
R22 N005 1 1K
R23 N004 1 1K
R25 N003 1 1K
R26 N002 1 1K
R27 N020 7 200
Q29 N001 N001 1 0 PN
Q30 N011 N001 1 0 PN
Q31 N015 N011 1 0 PN
Q32 N018 N011 N007 0 PN
Q33 N014 N010 N006 0 PN
Q34 N019 N014 N013 0 PN
Q35 N016 N010 N005 0 PN
Q36 N040 N010 N004 0 PN
Q37 N010 N010 N003 0 PN
Q38 N017 N010 N002 0 PN
C2 N011 N022 5p
C1 N014 N019 20p
R29 N021 N017 200
R30 N028 N031 200
D2 3 4 DZ_N
D1 1 3 DZ_N
C4 1 3 4p
C5 3 4 4p
D3 N010 4 D140u
R5 N010 4 1Meg
D4 1 N012 D1uA
D5 N038 4 D1uA
R24 1 N012 1Meg
R31 N038 4 1Meg
.model DZ_N D(Ron=1.5 Roff=1G vfwd=12.8 epsilon=1.5 ilimit=500m)
.model D140u D(Ron=100 Roff=1G vfwd=2.8 epsilon=100m ilimit=140u)
.model NP NPN(BF=125 Cje=.2p Cjc=.2p Rb=100 VAF=100 TF=6e-10 RC=1 RE=1)
.model PN PNP(BF=125 Cje=.2p Cjc=.2p Rb=100 VAF=100 TF=8e-10 RC=1 RE=1)
.model D1uA D(Ron=1k Roff=1k vfwd=0 ilimit=1u)
.ends LT1166
*
.subckt LT1880 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=70f ink=80
C2 2 1 2.7p Rpar=380.4Meg noiseless
B1 0 N003 I=10u*dnlim(uplim(V(1),V(3)-1.1,.1), V(4)+0.9, .1)+1n*V(1)
B2 N003 0 I=10u*dnlim(uplim(V(2),V(3)-1.09,.1), V(4)+0.89, .1)+1n*V(2)
C6 3 1 .5p Rpar=840G noiseless
C7 1 4 .5p noiseless Rpar=840G
C8 2 4 .5p Rpar=840G noiseless
C9 3 2 .5p Rpar=840G noiseless
A2 0 N003 0 0 0 0 X 0 OTA g=51.78u asym Isink=-4.15u Isrc=3u Cout=7.5p en=11n enk=10 Vhigh=1e308 Vlow=-1e308
C10 N003 0 60f Rpar=100K noiseless
D2 2 1 DI
D1 X 3 XU
D4 4 X XD
M1 3 N004 5 5 N temp=27
M2 4 N004 5 5 P temp=27
C1 N004 0 6f Rpar=1Meg noiseless
C3 3 5 10p
C4 5 4 10p
D5 N004 5 YU
D6 5 N004 YD
G1 0 N004 N007 0 1<>
G3 0 N007 N008 0 1m
L1 N007 0 1.m Rser=1.02898550724638K Rpar=35.5K Cpar=33f noiseless
C11 N008 N009 1.2n
G2 0 N008 X 0 1m
R3 N008 0 1K noiseless
GFB N009 0 5 0 .1
RFB N009 0 1 noiseless
D3 3 4 DC
.model XU D(Ron=1K Roff=65G Vfwd=0.24 epsilon=1 noiseless)
.model XD D(Ron=1K Roff=65G Vfwd=0.48 epsilon=1 noiseless)
.model YU D(Ron=1k Roff=1T Vfwd=0.628 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=0.679 epsilon=.1 noiseless)
.model N VDMOS(Vto=-240m Kp=40m)
.model P VDMOS(Vto=240m Kp=40m pchan)
.model DI D(Ron=1k Roff=100G Vfwd=60m Vrev=60m epsilon=1 revepsilon=1 noiseless)
.model DC D(Ron=100.0 Roff=1G Vfwd=1.0 ilimit=350u noiseless)
.ends LT1880
*
.subckt LT317A 1 2 3
Q27 3 N005 N009 0 NPN1BH temp=27
Q28 N004 N009 N017 0 NPN2
R4 N017 2 .1 noiseless
C1 N012 2 30p
Q19 N007 N006 N005 0 LPNP temp=27
Q18 N012 N007 N005 0 LPNP temp=27
R21 N006 N007 1.6k noiseless
Q17 N012 2 N019 0 NPN1 temp=27
R22 N019 1 12k noiseless
C2 N012 1 30p
Q20 N007 2 N014 0 NPN1 M=10 temp=27
R23 N014 N019 2.5k noiseless
R26 N009 2 160 noiseless
R1 0 N003 27Meg noiseless
A1 3 2 0 0 0 0 N003 0 OTA g=15n linear vlow=-1e308 vhigh=1e308
A2 0 N003 2 2 2 2 N002 2 OTA g=22n linear ref=8.8 vlow=-1e308 vhigh=1e308
G2 N002 2 N002 3 .1m vto=250m dir=1
G3 2 N002 2 N002 .1m vto=-80m dir=1
M1 2 N002 N005 N005 PM1
C3 N010 N012 .1f Rpar=20k noiseless
C6 3 N002 .1f Rpar=100Meg noiseless
C7 N002 2 1f Rpar=100Meg noiseless
C8 3 N004 1p Rpar=220m noiseless
D1 N005 N010 DDROP
C10 0 N003 600f Rser=50k noiseless
Q1 N005 N016 2 0 NPN1BH temp=27
C17 N005 N010 30p
A5 N015 N017 2 2 2 2 N016 2 OTA g=2.27u iout=5u Rout=10Meg Cout=1p vlow=0 vhigh=10
D7 3 2 DB1
D8 3 2 DB2
D9 3 2 DB3
C5 3 2 10p
C4 N013 N018 10p
G1 0 N013 3 2 20m
G4 0 N011 N018 0 2m
G10 0 N011 N018 0 30 vto=.1m dir=1
G11 N011 0 0 N018 30 vto=.1m dir=1
D4 N011 0 DD
C9 N011 0 1f
C13 N018 0 1p Rpar=100 noiseless
G5 N003 0 N008 0 100<30>
G6 3 N012 N011 0 1<>
D3 N004 N005 DBIASS
D2 3 2 DBRK
C11 N008 0 60p Rser=333k Rpar=1Meg noiseless
G7 0 N008 N010 N012 1<>
C12 N013 0 10p Rpar=100 noiseless
A3 3 2 2 2 2 2 N015 2 OTA g=90n linear rout=100k cout=10f ref=18 vlow=-.12 vhigh=.08
.model LPNP PNP(BF=100 BR=40 Is=1e-16 VAF=10 VAR=10 Cjc=1p Cje=1p noiseless)
.model NPN1 NPN(BF=100 BR=20 Is=1e-16 Cjc=.1p Cje=.1p TF=.1n noiseless)
.model NPN1BH NPN(BF=1000 BR=20 Is=1e-15 Cjc=1p Cje=1p TF=.1n noiseless)
.model NPN2 NPN(BF=100 BR=20 Is=1e-14 Cjc=10p Cje=1p TF=.1n IKF=2 Rb=2 Re=20m noiseless)
.model PM1 VDMOS(vto=1 kp=1m pchan)
.model DBIASS D(Ron=10 Roff=1g vfwd=10m epsilon=10m ilimit=300u noiseless)
.model DDROP D(Ron=100 Roff=1g vfwd=650m epsilon=100m noiseless)
.model DD D(Ron=10 Roff=100k vfwd=100 epsilon=1 vrev=100 revepsilon=1 noiseless)
.model DB1 D(Ron=100 Roff=1g Vfwd=1 epsilon=50m ilimit=800u noiseless)
.model DB2 D(Ron=25k Roff=1g Vfwd=1 epsilon=50m noiseless)
.model DB3 D(Ron=30k Roff=1g Vfwd=15 epsilon=200m noiseless)
.model DBRK D(Ron=10 Roff=1g vfwd=40.1 epsilon=100m)
.ends LT317A
*
.subckt RH101A 1 2 3 4 5 6 7
A1 2 3 0 0 0 0 0 0 OTA g=0 in=.4p ink=55
M1 6 N006 5 5 N temp=27
M2 4 N006 5 5 P temp=27
C10 N006 0 100f Rpar=1Meg noiseless
C11 6 5 .5p
C12 5 4 .5p
G2 0 N006 N009 0 1<>
R3 6 N009 100k noiseless
R4 N009 4 100k noiseless
G4 N009 6 N009 6 1m dir=1 vto=-.75
G5 4 N009 4 N009 1m dir=1 vto=-.5
A3 N008 4 4 4 4 4 N009 4 OTA g=5.6m iout=300u ref=1.035 Vlow=-1e308 Vhigh=1e308
R5 7 N009 500 noiseless
C7 7 1 300f
D1 N013 4 DBIAS
Q1 6 N007 N010 0 NM1A temp=27
Q2 6 2 N011 0 NM1A temp=27
Q3 N014 N013 N010 0 PM1 temp=27
Q4 1 N013 N011 0 PM1 temp=27
C3 N013 4 10p
D6 N014 4 DBC temp=27
C13 1 4 100f Rpar=100Meg noiseless
C14 N015 4 100f Rpar=100Meg noiseless
C15 N016 4 5p Rpar=40k noiseless
C16 N014 N015 100f Rpar=1.7k noiseless
C1 7 4 10f
M3 1 N016 4 4 NMIR
M4 N015 N016 4 4 NMIR
C6 N014 4 1p
M5 6 N014 N016 N016 NMIR
Q5 6 1 N008 0 NM1 temp=27
C5 N009 0 10f
C9 N008 4 100f Rpar=40k noiseless
C2 N014 N016 100f
D2 N006 5 Y
D3 5 N006 Y
A2 0 0 3 3 3 3 N007 3 OTA G=.1 Rout=10 Linear Vhigh=100 Vlow=-100 en=20n enk=10
D4 6 4 DPOW
.model DBC D(Ron=10kRoff=1g vfwd=600m epsilon=10m ilimit=200n noiseless)
.model NMIR VDMOS(Vto=700m Kp=25m)
.model N VDMOS(Vto=-200m Kp=10m)
.model P VDMOS(Vto=200m Kp=10m pchan)
.model Y D(Ron=1k Roff=1T Vfwd=2.2 epsilon=100m noiseless)
.model NM1A NPN (BF=614 Is=1e-16 tf=.3n Rb=500 Cjc=.5p Cje=.5p Vaf=100 noiseless)
.model NM1 NPN (BF=100 Is=1e-12 tf=.3n Rb=500 Cjc=.5p Cje=.5p Vaf=100 noiseless)
.model PM1 PNP (BF=1 BR=1 Xtb=1 Is=1e-16 tf=10n Cjc=1p Cje=.5p Vaf=100 noiseless)
.model DBIAS D(Ron=100 Roff=1g vfwd=500m epsilon=100m ilimit=20u noiseless)
.model DPOW D(Ron=100 Roff=1g vfwd=1.2 epsilon=100m ilimit=1.36m noiseless)
.ends RH101A
*
.subckt RH111 1 2 3 4 5 6 7 8
B1 0 N003 I=10u*dnlim(uplim(V(2),V(8)-1.1,.1), V(4)+.2,.1)+1n*V(2)-.01n
B2 N003 0 I=10u*dnlim(uplim(V(3),V(8)-1.09,.1), V(4)+0.19, .1)+1n*V(3)
C1 N003 0 10f Rpar=3Meg
A2 0 N003 0 0 0 0 N006 0 OTA g=60u asym isource=.15u isink=-.9u Vlow=-1e308 Vhigh=1e308
D3 8 4 DP1
C5 8 3 3p Rpar=10g
S2 N010 7 0 N006 Sout
D2 N010 1 DDROP
S1 1 N010 8 1 Ssat
R2 8 5 1k
A1 8 5 5 5 5 5 4 5 OTA g=.62m linear Vlow=-1e308 Vhigh=1e308 ref=.389
A3 8 6 6 6 6 6 4 6 OTA g=.62m linear Vlow=-1e308 Vhigh=1e308 ref=.389
R3 8 6 1k
G2 0 N003 5 6 7.3<EFBFBD>
S4 1 8 0 N006 Sgpwr
R5 4 1 100Meg
C8 N010 1 .1p
C9 7 1 5p
D1 0 N006 DLAT1
C2 8 7 1p
C3 3 4 3p Rpar=10g
C4 8 2 3p Rpar=10g
C6 2 4 3p Rpar=10g
D4 N003 0 DNLF
G4 0 N006 8 6 1m dir=1 vto=.3
D5 N006 0 DLAT2
D6 0 N003 DNLR
G1 0 N004 1 8 1m
C10 N004 0 10f Rpar=1k
C13 N007 N004 10f
R1 N007 0 100k
G3 0 N006 N007 0 1m vto=50m dir=1
G5 N006 0 0 N007 1m vto=20m dir=1
C12 N003 N004 1.2f
C7 0 N006 110f
S13 3 8 2 3 Sin1
S14 3 8 2 3 Sin2
S15 3 8 2 3 Sin3
S19 2 8 3 2 Sin1
S20 2 8 3 2 Sin2
S21 2 8 3 2 Sin3
.model DP1 D(Ron=100 Roff=1Meg Vfwd=1 epsilon=100m ilimit=3.8m)
.model DLAT1 D(Ron=100k Roff=10Meg Vfwd=.2 epsilon=30m Vrev=1 revepsilon=.1)
.model DLAT2 D(Ron=1 Roff=12Meg Vfwd=1.1 epsilon=100m)
.model DNLR D(Ron=70k Roff=1g Vfwd=4.5m epsilon=1m)
.model DNLF D(Ron=30k Roff=1g Vfwd=.2m epsilon=1m)
.model Sout SW(Roff=1G Ron=10 Vt=-100m vh=-.3 vser=.15)
.model Sgpwr SW(level=2 Roff=1Meg Ron=1 Vt=0 vh=-.2 ilimit=1m vser=1)
.model Ssat2 SW(Roff=100Meg Ron=10 vt=.5 vh=-.1)
.model Ssat SW(Roff=100Meg Ron=1 vt=2.5 vh=-1)
.model SGC SW(Ron=5k Roff=1Meg vt=500m vh=-300m)
.model DDROP D(Ron=1 Roff=1G Vfwd=1.9 epsilon=.1)
.model Sin1 SW(Roff=100g Ron=1k vt=-6 vh=-100m ilimit=60n)
.model Sin2 SW(Roff=100g Ron=1k vt=70m vh=-100m ilimit=32n)
.model Sin3 SW(Roff=100g Ron=1k vt=6 vh=-100m ilimit=60n)
.ends RH111
*
.subckt RH27C 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.4p ink=174
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.6,.1), V(4)+2.6, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.59,.1), V(4)+2.59, .1)+1n*V(2)
C9 3 2 .1p Rpar=4g noiseless
C10 N004 0 1f Rpar=100K noiseless
M1 3 N005 5 5 N temp=27
M2 4 N005 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
D5 N005 5 YU
D6 5 N005 YD
G1 0 N005 N006 0 1<>
A3 0 N004 0 0 0 0 N009 0 OTA g=1m linear en=3.2n enk=2.6 Vhigh=1e308 Vlow=-1e308
A2 0 N007 0 0 0 0 N006 0 OTA g=32m iout=1.82m Vhigh=1e308 Vlow=-1e308
C11 N006 0 640p Rser=2 noiseless
C12 N009 0 50p Rpar=1k noiseless
G2 0 N008 N009 0 1m
D2 3 4 DC
R3 3 N006 100Meg noiseless
R4 N006 4 100Meg noiseless
G3 N006 0 N006 3 50m dir=1 vto=-1
G5 0 N006 4 N006 50m dir=1 vto=-1.4
L1 N008 0 41.45<EFBFBD> Cpar=1.06p Rser=1.56k Rpar=2.786k noiseless
G4 0 N007 N008 0 1m
C1 N005 0 1f Rpar=1Meg noiseless
C2 2 1 .1p Rpar=1.5T noiseless
C5 2 4 .1p Rpar=4g noiseless
C6 3 1 .1p Rpar=4g noiseless
C7 1 4 .1p Rpar=4g noiseless
D1 2 1 DIN
R5 3 4 25k noiseless
L2 N007 0 41.45<EFBFBD> Cpar=1.06p Rser=1.56k Rpar=2.786k noiseless
.model DIN D(Ron=1k Roff=10g vfwd=.7 epsilon=100m vrev=.7 revepsilon=100m noiseless)
.model YU D(Ron=30k Roff=1T Vfwd=.95 epsilon=.1 noiseless)
.model YD D(Ron=60k Roff=1T Vfwd=.87 epsilon=.1 noiseless)
.model DC D(Ron=1k, Roff=1T Vfwd=1 ilimit=1.26m noiseless)
.model N VDMOS(Vto=-200m Kp=27m)
.model P VDMOS(Vto=200m Kp=27m pchan)
.ends RH27C
*
.subckt RH37C 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=.4p ink=174
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-2.6,.1), V(4)+2.6, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-2.59,.1), V(4)+2.59, .1)+1n*V(2)
C9 3 2 .1p Rpar=4g noiseless
C10 N004 0 10f Rpar=100K noiseless
M1 3 N008 5 5 N temp=27
M2 4 N008 5 5 P temp=27
C3 3 5 .5p
C4 5 4 .5p
D5 N008 5 YU
D6 5 N008 YD
G1 0 N008 N009 0 1<>
A3 0 N004 0 0 0 0 N007 0 OTA g=1m iout=100u en=3.2n enk=2.6 Vhigh=1e308 Vlow=-1e308
C11 N009 0 80p Rser=100 noiseless
C12 N007 0 390p Rpar=1k noiseless
G2 0 N005 N007 0 1m
D2 3 4 DC
R3 3 N009 100Meg noiseless
R4 N009 4 100Meg noiseless
G3 N009 0 N009 3 50m dir=1 vto=-1
G5 0 N009 4 N009 50m dir=1 vto=-1.4
L1 N005 0 157<35> Cpar=46.4f Rser=1.04k Rpar=26k noiseless
G4 0 N006 N005 0 1m
C1 N008 0 4f Rpar=1Meg noiseless
C2 2 1 .1p Rpar=1.5T noiseless
C5 2 4 .1p Rpar=4g noiseless
C6 3 1 .1p Rpar=4g noiseless
C7 1 4 .1p Rpar=4g noiseless
D1 2 1 DIN
R5 3 4 25k noiseless
A2 0 N010 0 0 0 0 N009 0 OTA g=32m iout=1.45m Vhigh=1e308 Vlow=-1e308
C8 N006 0 4p Rpar=1k noiseless
G6 0 N010 N006 0 1m
C13 N010 0 4p Rpar=1k noiseless
.model DIN D(Ron=1k Roff=10g vfwd=.7 epsilon=100m vrev=.7 revepsilon=100m noiseless)
.model YU D(Ron=30k Roff=1T Vfwd=.95 epsilon=.1 noiseless)
.model YD D(Ron=60k Roff=1T Vfwd=.87 epsilon=.1 noiseless)
.model DC D(Ron=1k, Roff=1T Vfwd=1 ilimit=1.26m noiseless)
.model N VDMOS(Vto=-200m Kp=27m)
.model P VDMOS(Vto=200m Kp=27m pchan)
.ends RH37C
*
.subckt RH117H 1 2 3
Q27 3 N005 N009 0 NPN1BH temp=27
Q28 N004 N009 N017 0 NPN2
R4 N017 2 .1 noiseless
C1 N012 2 30p
Q19 N007 N006 N005 0 LPNP temp=27
Q18 N012 N007 N005 0 LPNP temp=27
R21 N006 N007 1.6k noiseless
Q17 N012 2 N019 0 NPN1 temp=27
R22 N019 1 12k noiseless
C2 N012 1 30p
Q20 N007 2 N014 0 NPN1 M=10 temp=27
R23 N014 N019 2.5k noiseless
R26 N009 2 160 noiseless
R1 0 N003 27Meg noiseless
A1 3 2 0 0 0 0 N003 0 OTA g=15n linear vlow=-1e308 vhigh=1e308
A2 0 N003 2 2 2 2 N002 2 OTA g=22n linear ref=8.8 vlow=-1e308 vhigh=1e308
G2 N002 2 N002 3 .1m vto=250m dir=1
G3 2 N002 2 N002 .1m vto=-80m dir=1
M1 2 N002 N005 N005 PM1
C3 N010 N012 .1f Rpar=20k noiseless
C6 3 N002 .1f Rpar=100Meg noiseless
C7 N002 2 1f Rpar=100Meg noiseless
C8 3 N004 1p Rpar=220m noiseless
D1 N005 N010 DDROP
C10 0 N003 600f Rser=50k noiseless
Q1 N005 N016 2 0 NPN1BH temp=27
C17 N005 N010 30p
A5 N015 N017 2 2 2 2 N016 2 OTA g=100u iout=5u Rout=10Meg Cout=1p vlow=0 vhigh=10
D7 3 2 DB1
D8 3 2 DB2
D9 3 2 DB3
C5 3 2 10p
C4 N013 N018 10p
G1 0 N013 3 2 20m
G4 0 N011 N018 0 2m
G10 0 N011 N018 0 30 vto=.1m dir=1
G11 N011 0 0 N018 30 vto=.1m dir=1
D4 N011 0 DD
C9 N011 0 1f
C13 N018 0 1p Rpar=100 noiseless
G5 N003 0 N008 0 100<30>
G6 3 N012 N011 0 1<>
D3 N004 N005 DBIASS
D2 3 2 DBRK
C11 N008 0 60p Rser=333k Rpar=1Meg noiseless
G7 0 N008 N010 N012 1<>
C12 N013 0 10p Rpar=100 noiseless
A3 3 2 2 2 2 2 N015 2 OTA g=30n linear rout=100k cout=10f ref=42 vlow=.02 vhigh=.08
.model LPNP PNP(BF=100 BR=40 Is=1e-16 VAF=10 VAR=10 Cjc=1p Cje=1p noiseless)
.model NPN1 NPN(BF=100 BR=20 Is=1e-16 Cjc=.1p Cje=.1p TF=.1n noiseless)
.model NPN1BH NPN(BF=1000 BR=20 Is=1e-15 Cjc=1p Cje=1p TF=.1n noiseless)
.model NPN2 NPN(BF=100 BR=20 Is=1e-14 Cjc=10p Cje=1p TF=.1n IKF=2 Rb=2 Re=20m noiseless)
.model PM1 VDMOS(vto=1 kp=1m pchan)
.model DBIASS D(Ron=10 Roff=1g vfwd=10m epsilon=10m ilimit=300u noiseless)
.model DDROP D(Ron=100 Roff=1g vfwd=650m epsilon=100m noiseless)
.model DD D(Ron=10 Roff=100k vfwd=100 epsilon=1 vrev=100 revepsilon=1 noiseless)
.model DB1 D(Ron=100 Roff=1g Vfwd=1 epsilon=50m ilimit=800u noiseless)
.model DB2 D(Ron=25k Roff=1g Vfwd=1 epsilon=50m noiseless)
.model DB3 D(Ron=30k Roff=1g Vfwd=15 epsilon=200m noiseless)
.model DBRK D(Ron=10 Roff=1g vfwd=40.1 epsilon=100m)
.ends RH117H
*
.subckt RH117K 1 2 3
Q27 3 N005 N009 0 NPN1BH temp=27
Q28 N004 N009 N017 0 NPN2
R4 N017 2 .1 noiseless
C1 N012 2 30p
Q19 N007 N006 N005 0 LPNP temp=27
Q18 N012 N007 N005 0 LPNP temp=27
R21 N006 N007 1.6k noiseless
Q17 N012 2 N019 0 NPN1 temp=27
R22 N019 1 12k noiseless
C2 N012 1 30p
Q20 N007 2 N014 0 NPN1 M=10 temp=27
R23 N014 N019 2.5k noiseless
R26 N009 2 160 noiseless
R1 0 N003 27Meg noiseless
A1 3 2 0 0 0 0 N003 0 OTA g=15n linear vlow=-1e308 vhigh=1e308
A2 0 N003 2 2 2 2 N002 2 OTA g=22n linear ref=8.8 vlow=-1e308 vhigh=1e308
G2 N002 2 N002 3 .1m vto=250m dir=1
G3 2 N002 2 N002 .1m vto=-80m dir=1
M1 2 N002 N005 N005 PM1
C3 N010 N012 .1f Rpar=20k noiseless
C6 3 N002 .1f Rpar=100Meg noiseless
C7 N002 2 1f Rpar=100Meg noiseless
C8 3 N004 1p Rpar=220m noiseless
D1 N005 N010 DDROP
C10 0 N003 600f Rser=50k noiseless
A4 3 2 2 2 2 2 N015 2 OTA g=75n linear rout=100k cout=10f ref=42 vlow=.05 vhigh=.225
Q1 N005 N016 2 0 NPN1BH temp=27
C17 N005 N010 30p
A5 N015 N017 2 2 2 2 N016 2 OTA g=100u iout=5u Rout=10Meg Cout=1p vlow=0 vhigh=10
D7 3 2 DB1
D8 3 2 DB2
D9 3 2 DB3
C5 3 2 10p
C4 N013 N018 10p
G1 0 N013 3 2 20m
G4 0 N011 N018 0 2m
G10 0 N011 N018 0 30 vto=.1m dir=1
G11 N011 0 0 N018 30 vto=.1m dir=1
D4 N011 0 DD
C9 N011 0 1f
C13 N018 0 1p Rpar=100 noiseless
G5 N003 0 N008 0 100<30>
G6 3 N012 N011 0 1<>
D3 N004 N005 DBIASS
D2 3 2 DBRK
C11 N008 0 60p Rser=333k Rpar=1Meg noiseless
G7 0 N008 N010 N012 1<>
C12 N013 0 10p Rpar=100 noiseless
.model LPNP PNP(BF=100 BR=40 Is=1e-16 VAF=10 VAR=10 Cjc=1p Cje=1p noiseless)
.model NPN1 NPN(BF=100 BR=20 Is=1e-16 Cjc=.1p Cje=.1p TF=.1n noiseless)
.model NPN1BH NPN(BF=1000 BR=20 Is=1e-15 Cjc=1p Cje=1p TF=.1n noiseless)
.model NPN2 NPN(BF=100 BR=20 Is=1e-14 Cjc=10p Cje=1p TF=.1n IKF=2 Rb=2 Re=20m noiseless)
.model PM1 VDMOS(vto=1 kp=1m pchan)
.model DBIASS D(Ron=10 Roff=1g vfwd=10m epsilon=10m ilimit=300u noiseless)
.model DDROP D(Ron=100 Roff=1g vfwd=650m epsilon=100m noiseless)
.model DD D(Ron=10 Roff=100k vfwd=100 epsilon=1 vrev=100 revepsilon=1 noiseless)
.model DB1 D(Ron=100 Roff=1g Vfwd=1 epsilon=50m ilimit=800u noiseless)
.model DB2 D(Ron=25k Roff=1g Vfwd=1 epsilon=50m noiseless)
.model DB3 D(Ron=30k Roff=1g Vfwd=15 epsilon=200m noiseless)
.model DBRK D(Ron=10 Roff=1g vfwd=40.1 epsilon=100m)
.ends RH117K