kicad/spice/copy/sub/LTC7.lib

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* Copyright (c) 1998-2017 Linear Technology Corporation. All rights reserved.
.subckt LT6106 1 2 3 4 5
C1 5 3 .2p
C2 3 2 .2p
C3 5 4 .2p
C4 4 2 .2p
C5 N002 0 20f Rpar=100K noiseless
C12 1 2 100f Rpar=1G
B1 N002 0 I=10u*dnlim(uplim(V(3),V(5)+.11,.1), V(5)-.71, .1) + 10n*V(3)
B2 0 N002 I=10u*dnlim(uplim(V(4),V(5)+.1,.1), V(5)-.7, .1)+ 10n*V(4)
M1 1 N004 3 3 POUT Temp=27
D1 5 N004 DLIMP
C6 5 N004 100f Rser=1Meg
A1 0 N005 0 0 0 0 N004 0 OTA g=200n ref=-17m linear vlow=-1e308 vhigh=1e308
A2 0 N006 0 0 0 0 N005 0 OTA g=200u linear Vhigh=1e308 Vlow=-1e308
C7 N005 1 3p
D2 N005 0 DLIM
A3 0 N002 0 0 0 0 N006 0 OTA g=1u linear rout=1Meg Cout=200f Vhigh=15m Vlow=-30m
D3 4 2 DBIAS
D4 3 2 DBIAS
D5 5 2 DP
D6 3 4 DIN
.model DLIM D(Ron=100 Roff=700k Vfwd=400m Vrev=600m epsilon=10m revepsilon=10m)
.model DLIMP D(Ron=1k Roff=100Meg Vfwd=4 Vrev=-310m epsilon=10m revepsilon=10m)
.model POUT VDMOS(Vto=-300m Kp=30m mtriode=10 rs=1k pchan)
.model DBIAS D(Ron=1Meg Roff=1G Vfwd=.5 epsilon=100m ilimit=15n)
.model DP D(Ron=1k Roff=1G Vfwd=.5 epsilon=100m ilimit=60u)
.model DIN D(Ron=28k Roff=100G Vfwd=1 epsilon=100m Vrev=1 epsilon=100m)
.ends LT6106
*
.subckt LTC6403-1 1 2 3 4 5 6 7 8 9 10
M1 4 N015 6 6 NI temp=27
D5 N015 6 DLIMN
M2 4 N008 3 3 PI temp=27
D8 3 N008 DLIMP
C3 3 N008 .05f Rser=7Meg noiseless
A3 N009 N011 6 6 6 6 N008 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A5 N006 0 N009 N009 N009 N009 N011 N009 OTA g=22u linear cout=1f Vhigh=1e308 Vlow=-1e308
G1 6 N015 N011 N009 200n
D9 N011 N009 DLIM
C7 3 8 500f Rser=800 Rpar=3.4Meg noiseless
C13 3 6 1000p
S1 N011 N009 0 N007 SHUT2
C17 6 7 500f
S4 N008 3 0 N007 SHUT1
S2 6 N015 0 N007 SHUT1
A2 7 3 0 0 0 0 N007 0 SCHMITT trise=3u tfall=.2u vt=-1.6 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 1 DIN
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=1.78p ink=78k
M3 5 N026 6 6 NI temp=27
D3 N026 6 DLIMN
M4 5 N023 3 3 PI temp=27
D12 3 N023 DLIMP
A6 N009 N024 6 6 6 6 N023 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A7 0 N006 N009 N009 N009 N009 N024 N009 OTA g=22u linear cout=1f Vhigh=1e308 Vlow=-1e308
G5 6 N026 N024 N009 200n
D13 N024 N009 DLIM
S3 N024 N009 0 N007 SHUT2
S5 N023 3 0 N007 SHUT1
S6 6 N026 0 N007 SHUT1
R3 4 N018 1Meg noiseless
R4 5 N018 1Meg noiseless
A8 N018 2 0 0 0 0 N013 0 OTA g=10m iout=5m en=5n enk=50k Rout=1k Cout=2p ref=-586u Vlow=-1e308 Vhigh=1e308
G6 N009 N024 0 N013 20<32>
G7 N009 N011 0 N013 20<32>
D14 N013 0 DCML
C2 3 4 .1p Rpar=100Meg noiseless
C8 4 6 .1p Rpar=100Meg noiseless
C9 3 5 .1p Rpar=100Meg noiseless
C11 5 6 .1p Rpar=100Meg noiseless
C14 N011 4 153f
C16 5 N024 153f
R10 3 7 66k noiseless
D2 3 6 DPOWS
S7 6 3 N007 0 SPOWR
A10 0 1 0 0 0 0 0 0 OTA g=0 in=1.78p ink=78k
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
C10 N006 0 2f Rpar=60k noiseless
B1 0 N005 I=10u*dnlim(uplim(V(8),V(3)-1.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N005 0 I=10u*dnlim(uplim(V(1),V(3)-1.29,.1), V(6)-.31, .1)+1n*V(1)
C20 N005 0 2f Rpar=100K noiseless
G8 0 N009 6 0 .5m
G9 0 N009 3 0 .5m
C21 N009 0 200p Rpar=1K noiseless
R5 4 9 100
C24 9 10 12p
R6 10 5 100
C18 9 6 12p
C29 10 6 12p
D16 8 3 DESD
C12 N015 6 .05f Rser=7Meg noiseless
C15 3 N023 .05f Rser=7Meg noiseless
C19 N026 6 .05f Rser=7Meg noiseless
R9 2 6 46k
R11 3 2 46k
S8 3 1 N007 0 SBIAS
S9 3 8 N007 0 SBIAS
A4 0 N005 0 0 0 0 N006 0 OTA g=100u linear en=2.79n enk=31.9k Vhigh=1e308 Vlow=-1e308
C4 3 1 500f Rser=800 Rpar=3.4Meg noiseless
C5 8 6 500f Rser=800 Rpar=3.4Meg noiseless
C6 1 6 500f Rser=800 Rpar=3.4Meg noiseless
D15 N006 0 DSI Temp=27
D19 0 N006 DSI Temp=27
.model DPOWS D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=91u noiseless)
.model SPOWR SW(level=1 Ron=100 Roff=1g vt=.5 vh=-.1 ilimit=6.6m noiseless)
.model SBIAS SW(level=2 Ron=1k Roff=1G vt=.5 vh=-.1 ilimit=7.5u noiseless)
.model DIN D(Ron=100 Roff=14k Vfwd=1.4 epsilon=.1 Vrev=1.4 epsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=30m lambda=.1)
.model PI VDMOS(Vto=-300m Kp=30m lambda=.1 pchan)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=3.3 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=2.15 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=52k Vfwd=2 Vrev=2 epsilon=100m revepsilon=100m noiseless)
.model DSI D(IS=1e-17 TT=1.2e-9 noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6403-1
*
.subckt LTC6404-1 1 2 3 4 5 6 7 8 9 10
M1 4 N015 6 6 NI temp=27
D5 N015 6 DLIMN
M2 4 N008 3 3 PI temp=27
D8 3 N008 DLIMP
C3 3 N008 .03f Rser=7Meg noiseless
A3 N009 N011 6 6 6 6 N008 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A5 N006 0 N009 N009 N009 N009 N011 N009 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
G1 6 N015 N011 N009 200n
D9 N011 N009 DLIM
C7 3 8 1p Rser=800 Rpar=2Meg noiseless
C13 3 6 1000p
S1 N011 N009 0 N007 SHUT2
C17 6 7 500f
S4 N008 3 0 N007 SHUT1
S2 6 N015 0 N007 SHUT1
A2 7 3 0 0 0 0 N007 0 SCHMITT trise=.5u tfall=.5u vt=-2.05 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 1 DIN
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=3p ink=30k
M3 5 N026 6 6 NI temp=27
D3 N026 6 DLIMN
M4 5 N023 3 3 PI temp=27
D12 3 N023 DLIMP
A6 N009 N024 6 6 6 6 N023 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A7 0 N006 N009 N009 N009 N009 N024 N009 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
G5 6 N026 N024 N009 200n
D13 N024 N009 DLIM
S3 N024 N009 0 N007 SHUT2
S5 N023 3 0 N007 SHUT1
S6 6 N026 0 N007 SHUT1
R3 4 N018 1Meg noiseless
R4 5 N018 1Meg noiseless
A8 N018 2 0 0 0 0 N013 0 OTA g=10m linear en=9n enk=20k Rout=1k Cout=2p ref=-586u Vlow=-1e308 Vhigh=1e308
G6 N009 N024 0 N013 100<30>
G7 N009 N011 0 N013 100<30>
D14 N013 0 DCML
C2 3 4 .5p Rpar=1Meg noiseless
C8 4 6 .5p Rpar=1Meg noiseless
C9 3 5 .5p Rpar=1Meg noiseless
C11 5 6 .5p Rpar=1Meg noiseless
C14 N011 4 1.1p noiseless
C16 5 N024 1.1p noiseless
R10 3 7 66k noiseless
D2 3 6 DPOWS
S7 6 3 N007 0 SPOWR
A10 0 1 0 0 0 0 0 0 OTA g=0 in=3p ink=30k
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
C10 N006 0 8f Rpar=1Meg noiseless
B1 0 N005 I=10u*dnlim(uplim(V(8),V(3)-1.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N005 0 I=10u*dnlim(uplim(V(1),V(3)-1.29,.1), V(6)-.31, .1)+1n*V(1)
C20 N005 0 2f Rpar=100K noiseless
G8 0 N009 6 0 .5m
G9 0 N009 3 0 .5m
C21 N009 0 200p Rpar=1K noiseless
D15 0 N006 DLIMI
R5 4 10 50
C24 10 9 12p
R6 9 5 50
C18 10 6 12p
C29 9 6 12p
C4 3 1 1p Rser=800 Rpar=2Meg noiseless
C5 8 6 1p Rser=800 Rpar=2Meg noiseless
C6 1 6 1p Rser=800 Rpar=2Meg noiseless
D16 8 3 DESD
C1 N008 4 .01f Rser=20Meg noiseless
C22 4 N015 .01f Rser=20Meg noiseless
C23 N023 5 .01f Rser=20Meg noiseless
C25 5 N026 .01f Rser=20Meg noiseless
C12 N015 6 .03f Rser=7Meg noiseless
C15 3 N023 .03f Rser=7Meg noiseless
C19 N026 6 .03f Rser=7Meg noiseless
R9 2 6 47k
R11 3 2 47k
S8 3 1 N007 0 SBIAS
S9 3 8 N007 0 SBIAS
A4 0 N005 0 0 0 0 N006 0 OTA g=1m linear en=1.5n enk=20k Vhigh=1e308 Vlow=-1e308
.model DPOWS D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=169u noiseless)
.model SPOWR SW(level=1 Ron=100 Roff=1g vt=.5 vh=-.1 ilimit=23.4m noiseless)
.model SBIAS SW(level=2 Ron=1k Roff=1G vt=.5 vh=-.1 ilimit=23u noiseless)
.model DIN D(Ron=100 Roff=3k Vfwd=1.4 epsilon=.1 Vrev=1.4 epsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=60m lambda=.1)
.model PI VDMOS(Vto=-300m Kp=60m lambda=.1 pchan)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.66 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.66 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=70k Vfwd=400m Vrev=400m epsilon=100m revepsilon=100m noiseless)
.model DLIMI D(Ron=1 Roff=10k Vfwd=.68 Vrev=.68 epsilon=50m revepsilon=50m noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6404-1
*
.subckt LTC6404-2 1 2 3 4 5 6 7 8 9 10
M1 4 XPN 6 6 NI temp=27
D5 XPN 6 DLIMN
M2 4 XPP 3 3 PI temp=27
D8 3 XPP DLIMP
C3 3 XPP .03f Rser=7Meg noiseless
A3 N008 N010 6 6 6 6 XPP 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A5 N006 0 N008 N008 N008 N008 N010 N008 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
G1 6 XPN N010 N008 200n
D9 N010 N008 DLIM
C7 3 8 1p Rser=800 Rpar=2Meg noiseless
C13 3 6 1000p
S1 N010 N008 0 N007 SHUT2
C17 6 7 500f
S4 XPP 3 0 N007 SHUT1
S2 6 XPN 0 N007 SHUT1
A2 7 3 0 0 0 0 N007 0 SCHMITT trise=.5u tfall=.5u vt=-2.05 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 1 DIN
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=3p
M3 5 XNN 6 6 NI temp=27
D3 XNN 6 DLIMN
M4 5 XNP 3 3 PI temp=27
D12 3 XNP DLIMP
A6 N008 N021 6 6 6 6 XNP 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A7 0 N006 N008 N008 N008 N008 N021 N008 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
G5 6 XNN N021 N008 200n
D13 N021 N008 DLIM
S3 N021 N008 0 N007 SHUT2
S5 XNP 3 0 N007 SHUT1
S6 6 XNN 0 N007 SHUT1
R3 4 N016 1Meg noiseless
R4 5 N016 1Meg noiseless
A8 N016 2 0 0 0 0 N012 0 OTA g=10m linear en=10n enk=20k Rout=1k Cout=2p ref=-586u Vlow=-1e308 Vhigh=1e308
G6 N008 N021 0 N012 100<30>
G7 N008 N010 0 N012 100<30>
D14 N012 0 DCML
C2 3 4 .5p Rpar=1Meg noiseless
C8 4 6 .5p Rpar=1Meg noiseless
C9 3 5 .5p Rpar=1Meg noiseless
C11 5 6 .5p Rpar=1Meg noiseless
C14 N010 4 .55p noiseless
C16 5 N021 .55p noiseless
R10 3 7 66k noiseless
D2 3 6 DPOWS
S7 6 3 N007 0 SPOWR
A10 0 1 0 0 0 0 0 0 OTA g=0 in=3p
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
C10 N006 0 8f Rpar=1Meg noiseless
B1 0 N005 I=10u*dnlim(uplim(V(8),V(3)-1.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N005 0 I=10u*dnlim(uplim(V(1),V(3)-1.29,.1), V(6)-.31, .1)+1n*V(1)
C20 N005 0 2f Rpar=100K noiseless
G8 0 N008 6 0 .5m
G9 0 N008 3 0 .5m
C21 N008 0 200p Rpar=1K noiseless
D15 0 N006 DLIMI
R5 4 10 50
C24 10 9 12p
R6 9 5 50
C18 10 6 12p
C29 9 6 12p
C4 3 1 1p Rser=800 Rpar=2Meg noiseless
C5 8 6 1p Rser=800 Rpar=2Meg noiseless
C6 1 6 1p Rser=800 Rpar=2Meg noiseless
D16 8 3 DESD
C1 XPP 4 .01f Rser=20Meg noiseless
C22 4 XPN .01f Rser=20Meg noiseless
C23 XNP 5 .01f Rser=20Meg noiseless
C25 5 XNN .01f Rser=20Meg noiseless
C12 XPN 6 .03f Rser=7Meg noiseless
C15 3 XNP .03f Rser=7Meg noiseless
C19 XNN 6 .03f Rser=7Meg noiseless
R9 2 6 28k
R11 3 2 28k
S8 3 1 N007 0 SBIAS
S9 3 8 N007 0 SBIAS
A4 0 N005 0 0 0 0 N006 0 OTA g=1m linear en=1.5n enk=20k Vhigh=1e308 Vlow=-1e308
.model DPOWS D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=147.5u noiseless)
.model SPOWR SW(level=1 Ron=100 Roff=1g vt=.5 vh=-.1 ilimit=25.9m noiseless)
.model SBIAS SW(level=2 Ron=1k Roff=1G vt=.5 vh=-.1 ilimit=23u noiseless)
.model DIN D(Ron=100 Roff=3k Vfwd=1.4 epsilon=.1 Vrev=1.4 epsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=60m lambda=.1)
.model PI VDMOS(Vto=-300m Kp=60m lambda=.1 pchan)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.66 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.66 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=70k Vfwd=400m Vrev=400m epsilon=100m revepsilon=100m noiseless)
.model DLIMI D(Ron=1 Roff=10k Vfwd=.62 Vrev=.62 epsilon=50m revepsilon=50m noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6404-2
*
.subckt LTC6404-4 1 2 3 4 5 6 7 8 9 10
M1 4 N015 6 6 NI temp=27
D5 N015 6 DLIMN
M2 4 N008 3 3 PI temp=27
D8 3 N008 DLIMP
C3 3 N008 .03f Rser=7Meg noiseless
A3 N009 N011 6 6 6 6 N008 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A5 N006 0 N009 N009 N009 N009 N011 N009 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
G1 6 N015 N011 N009 200n
D9 N011 N009 DLIM
C7 3 8 2p Rser=800 Rpar=2Meg noiseless
C13 3 6 1000p
S1 N011 N009 0 N007 SHUT2
C17 6 7 500f
S4 N008 3 0 N007 SHUT1
S2 6 N015 0 N007 SHUT1
A2 7 3 0 0 0 0 N007 0 SCHMITT trise=.5u tfall=.5u vt=-2.05 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 1 DIN
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=3p ink=20k
M3 5 N026 6 6 NI temp=27
D3 N026 6 DLIMN
M4 5 N023 3 3 PI temp=27
D12 3 N023 DLIMP
A6 N009 N024 6 6 6 6 N023 6 OTA g=200n ref=-53m linear vlow=-1e308 vhigh=1e308
A7 0 N006 N009 N009 N009 N009 N024 N009 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
G5 6 N026 N024 N009 200n
D13 N024 N009 DLIM
S3 N024 N009 0 N007 SHUT2
S5 N023 3 0 N007 SHUT1
S6 6 N026 0 N007 SHUT1
R3 4 N018 1Meg noiseless
R4 5 N018 1Meg noiseless
A8 N018 2 0 0 0 0 N013 0 OTA g=10m linear en=20n enk=20k Rout=1k Cout=2p ref=-586u Vlow=-1e308 Vhigh=1e308
G6 N009 N024 0 N013 100<30>
G7 N009 N011 0 N013 100<30>
D14 N013 0 DCML
C2 3 4 .5p Rpar=1Meg noiseless
C8 4 6 .5p Rpar=1Meg noiseless
C9 3 5 .5p Rpar=1Meg noiseless
C11 5 6 .5p Rpar=1Meg noiseless
C14 N011 4 .4p noiseless
C16 5 N024 .4p noiseless
R10 3 7 66k noiseless
D2 3 6 DPOWS
S7 6 3 N007 0 SPOWR
A10 0 1 0 0 0 0 0 0 OTA g=0 in=3p ink=20k
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
C10 N006 0 8f Rpar=1Meg noiseless
B1 0 N005 I=10u*dnlim(uplim(V(8),V(3)-1.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N005 0 I=10u*dnlim(uplim(V(1),V(3)-1.29,.1), V(6)-.31, .1)+1n*V(1)
C20 N005 0 2f Rpar=100K noiseless
G8 0 N009 6 0 .5m
G9 0 N009 3 0 .5m
C21 N009 0 200p Rpar=1K noiseless
D15 0 N006 DLIMI
R5 4 10 50
C24 10 9 12p
R6 9 5 50
C18 10 6 12p
C29 9 6 12p
D16 8 3 DESD
C1 N008 4 .01f Rser=20Meg noiseless
C22 4 N015 .01f Rser=20Meg noiseless
C23 N023 5 .01f Rser=20Meg noiseless
C25 5 N026 .01f Rser=20Meg noiseless
C12 N015 6 .03f Rser=7Meg noiseless
C15 3 N023 .03f Rser=7Meg noiseless
C19 N026 6 .03f Rser=7Meg noiseless
R9 2 6 14k
R11 3 2 14k
S8 3 1 N007 0 SBIAS
S9 3 8 N007 0 SBIAS
C4 3 1 2p Rser=800 Rpar=2Meg noiseless
C5 8 6 2p Rser=800 Rpar=2Meg noiseless
C6 1 6 2p Rser=800 Rpar=2Meg noiseless
A4 0 N005 0 0 0 0 N006 0 OTA g=1m linear en=1.5n enk=20k Vhigh=1e308 Vlow=-1e308
.model DPOWS D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=147.5u noiseless)
.model SPOWR SW(level=1 Ron=100 Roff=1g vt=.5 vh=-.1 ilimit=26.26m noiseless)
.model SBIAS SW(level=2 Ron=1k Roff=1G vt=.5 vh=-.1 ilimit=23u noiseless)
.model DIN D(Ron=100 Roff=3k Vfwd=1.4 epsilon=.1 Vrev=1.4 epsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=60m lambda=.1)
.model PI VDMOS(Vto=-300m Kp=60m lambda=.1 pchan)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.66 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.66 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=70k Vfwd=400m Vrev=400m epsilon=100m revepsilon=100m noiseless)
.model DLIMI D(Ron=1 Roff=10k Vfwd=.68 Vrev=.68 epsilon=50m revepsilon=50m noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6404-4
*
.subckt LTC6405 1 2 3 4 5 6 7 8 9 10
M1 4 N015 6 6 NI temp=27
D5 N015 6 DLIMN
M2 4 N008 3 3 PI temp=27
D8 3 N008 DLIMP
C3 3 N008 .1f Rser=7Meg noiseless
A3 N009 N011 6 6 6 6 N008 6 OTA g=200n ref=-55m linear vlow=-1e308 vhigh=1e308
A5 N006 0 N009 N009 N009 N009 N011 N009 OTA g=22u linear cout=1f Vhigh=1e308 Vlow=-1e308
G1 6 N015 N011 N009 200n
D9 N011 N009 DLIM
C7 3 8 1p Rser=80 Rpar=460k noiseless
C13 3 6 1000p
S1 N011 N009 0 N007 SHUT2
C17 6 7 500f
S4 N008 3 0 N007 SHUT1
S2 6 N015 0 N007 SHUT1
A2 7 3 0 0 0 0 N007 0 SCHMITT trise=150n tfall=40n vt=-3 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 1 DIN
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=2.3p ink=91k
M3 5 N026 6 6 NI temp=27
D3 N026 6 DLIMN
M4 5 N023 3 3 PI temp=27
D12 3 N023 DLIMP
A6 N009 N024 6 6 6 6 N023 6 OTA g=200n ref=-55m linear vlow=-1e308 vhigh=1e308
A7 0 N006 N009 N009 N009 N009 N024 N009 OTA g=22u linear cout=1f Vhigh=1e308 Vlow=-1e308
G5 6 N026 N024 N009 200n
D13 N024 N009 DLIM
S3 N024 N009 0 N007 SHUT2
S5 N023 3 0 N007 SHUT1
S6 6 N026 0 N007 SHUT1
R3 4 N018 1Meg noiseless
A8 N018 2 0 0 0 0 N013 0 OTA g=8m iout=300u en=9.5n enk=18k Rout=1k ref=-6.6m Vlow=-1e308 Vhigh=1e308
G6 N009 N024 0 N013 20<32>
G7 N009 N011 0 N013 20<32>
D14 N013 0 DCML
C2 3 4 .1p Rpar=1Meg noiseless
C8 4 6 .1p Rpar=1Meg noiseless
C9 3 5 .1p Rpar=1Meg noiseless
C11 5 6 .1p Rpar=1Meg noiseless
C14 N011 4 8f noiseless
C16 5 N024 8f noiseless
R10 3 7 50k noiseless
D2 3 6 DPOWS
S7 6 3 N007 0 SPOWR
A10 0 1 0 0 0 0 0 0 OTA g=0 in=2.3p ink=91k
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
B1 0 N005 I=10u*dnlim(uplim(V(8),V(3)+.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N005 0 I=10u*dnlim(uplim(V(1),V(3)+.31,.1), V(6)-.31, .1)+1n*V(1)
C20 N005 0 .3f Rpar=100K noiseless
G8 0 N009 6 0 .5m
G9 0 N009 3 0 .5m
C21 N009 0 200p Rpar=1K noiseless
R5 4 10 50
C24 10 9 1.25p
R6 9 5 50
C18 10 6 1.25p
C29 9 6 1.25p
C4 3 1 1p Rser=80 Rpar=460k noiseless
C5 8 6 1p Rser=80 Rpar=460k noiseless
C6 1 6 1p Rser=80 Rpar=460k noiseless
D16 8 3 DESD
C1 N008 4 .01f Rser=20Meg noiseless
C22 4 N015 .01f Rser=20Meg noiseless
C23 N023 5 .01f Rser=20Meg noiseless
C25 5 N026 .01f Rser=20Meg noiseless
C12 N015 6 .1f Rser=7Meg noiseless
C15 3 N023 .1f Rser=7Meg noiseless
C19 N026 6 .1f Rser=7Meg noiseless
R9 2 6 37k
R11 3 2 37k
S8 1 3 N007 0 SBIAS
S9 8 3 N007 0 SBIAS
A4 0 N005 0 0 0 0 N006 0 OTA g=125u linear en=1.58n enk=18.5k Vhigh=1e308 Vlow=-1e308
D15 N006 0 DSI temp=27
D19 0 N006 DSI temp=27
C10 N006 0 6.2f noiseless Rser=25.7k Rpar=60k
S10 3 N008 4 3 SUPLIM
S11 3 N023 5 3 SUPLIM
S12 N015 6 6 4 SDWLIM
S13 N026 6 6 5 SDWLIM
C26 N013 0 1.8p Rser=200 noiseless
R4 5 N018 1Meg noiseless
.model DPOWS D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=217u noiseless)
.model SPOWR SW(level=1 Ron=100 Roff=1g vt=.5 vh=-.1 ilimit=16.3m noiseless)
.model SBIAS SW(level=2 Ron=10k Roff=1G vt=.5 vh=-.1 ilimit=7u Vser=1.5 noiseless)
.model DIN D(Ron=100 Roff=3.5k Vfwd=1.4 epsilon=.1 Vrev=1.4 epsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model SUPLIM SW(Ron=1k Roff=1G vt=-950m vh=-500m noiseless)
.model SDWLIM SW(Ron=3Meg Roff=1G vt=-400m vh=-50m noiseless)
.model NI VDMOS(Vto=300m kp=30m lambda=.1)
.model PI VDMOS(Vto=-300m Kp=30m lambda=.1 pchan)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.9 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.9 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=52k Vfwd=2 Vrev=2 epsilon=100m revepsilon=100m noiseless)
.model DSI D(IS=1e-8 TT=5e-10 noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6405
*
.subckt LTC6406 1 2 3 4 5 6 7 8 9 10
M1 4 N+ 6 6 NI temp=27
D5 N+ 6 DLIMN
M2 4 P+ 3 3 PI temp=27
D8 3 P+ DLIMP
C3 3 P+ .1f Rser=4Meg noiseless
A3 N008 N010 6 6 6 6 P+ 6 OTA g=200n ref=-55m linear vlow=-1e308 vhigh=1e308
A5 N006 0 N008 N008 N008 N008 N010 N008 OTA g=22u linear cout=1f Vhigh=1e308 Vlow=-1e308
G1 6 N+ N010 N008 200n
D9 N010 N008 DLIM
C7 3 8 1p Rser=80 Rpar=200k noiseless
C13 3 6 1000p
S1 N010 N008 0 N007 SHUT2
C17 6 7 500f
S4 P+ 3 0 N007 SHUT1
S2 6 N+ 0 N007 SHUT1
A2 7 3 0 0 0 0 N007 0 SCHMITT trise=150n tfall=40n vt=-1 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 1 DIN
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=2.3p ink=91k
M3 5 N- 6 6 NI temp=27
D3 N- 6 DLIMN
M4 5 P- 3 3 PI temp=27
D12 3 P- DLIMP
A6 N008 N021 6 6 6 6 P- 6 OTA g=200n ref=-55m linear vlow=-1e308 vhigh=1e308
A7 0 N006 N008 N008 N008 N008 N021 N008 OTA g=22u linear cout=1f Vhigh=1e308 Vlow=-1e308
G5 6 N- N021 N008 200n
D13 N021 N008 DLIM
S3 N021 N008 0 N007 SHUT2
S5 P- 3 0 N007 SHUT1
S6 6 N- 0 N007 SHUT1
R3 4 5 2Meg noiseless
G6 N008 N021 0 N012 20<32>
G7 N008 N010 0 N012 20<32>
D14 N012 0 DCML
C2 3 4 .1p Rpar=1Meg noiseless
C8 4 6 .1p Rpar=1Meg noiseless
C9 3 5 .1p Rpar=1Meg noiseless
C11 5 6 .1p Rpar=1Meg noiseless
C14 N010 4 8f Rser=10k noiseless
C16 5 N021 8f Rser=10k noiseless
R10 3 7 100k noiseless
D2 3 6 DPOWS
S7 6 3 N007 0 SPOWR
A10 0 1 0 0 0 0 0 0 OTA g=0 in=2.4p ink=54k
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
B1 0 N005 I=10u*dnlim(uplim(V(8),V(3)+.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N005 0 I=10u*dnlim(uplim(V(1),V(3)+.31,.1), V(6)-.31, .1)+1n*V(1)
C20 N005 0 .6f Rpar=100K noiseless
G8 0 N008 6 0 .5m
G9 0 N008 3 0 .5m
C21 N008 0 200p Rpar=1K noiseless
R5 4 10 50
C24 10 9 1.25p
R6 9 5 50
C18 10 6 1.25p
C29 9 6 1.25p
C4 3 1 1p Rser=80 Rpar=200k noiseless
C5 8 6 1p Rser=80 Rpar=300k noiseless
C6 1 6 1p Rser=80 Rpar=300k noiseless
D16 8 3 DESD
C1 P+ 4 .01f Rser=20Meg noiseless
C22 4 N+ .01f Rser=20Meg noiseless
C23 P- 5 .01f Rser=20Meg noiseless
C25 5 N- .01f Rser=20Meg noiseless
C12 N+ 6 .1f Rser=4Meg noiseless
C15 3 P- .1f Rser=4Meg noiseless
C19 N- 6 .1f Rser=4Meg noiseless
R9 2 6 30.714k
R11 3 2 43k
S8 1 3 N007 0 SBIAS
S9 8 3 N007 0 SBIAS
A4 0 N005 0 0 0 0 N006 0 OTA g=125u linear en=1.59n enk=8.1k Vhigh=1e308 Vlow=-1e308
D15 N006 0 DSI temp=27
D19 0 N006 DSI temp=27
S10 3 P+ 4 3 SUPLIM
S11 3 P- 5 3 SUPLIM
S12 N+ 6 6 4 SDWLIM
S13 N- 6 6 5 SDWLIM
A8 0 N020 0 0 0 0 N012 0 OTA g=8m iout=300u en=9.5n enk=18k Rout=1k ref=-6.6m Vlow=-1e308 Vhigh=1e308
C26 N012 0 1.8p Rser=200 noiseless
C10 N006 0 11.79f Rser=90k Rpar=60k noiseless
B3 0 N020 I=10u*dnlim(uplim(V(2),V(3)-.9,.1), V(6)+.42, .1)
B4 N020 0 I=5u*(V(4)+V(5))
C27 N020 0 .1f Rpar=100K noiseless
.model DPOWS D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=117u noiseless)
.model SPOWR SW(level=1 Ron=100 Roff=1g vt=.5 vh=-.1 ilimit=16.3m noiseless)
.model SBIAS SW(level=2 Ron=10k Roff=1G vt=.5 vh=-.1 ilimit=3u Vser=-.2 noiseless)
.model DIN D(Ron=100 Roff=3k Vfwd=1.4 epsilon=.1 Vrev=1.4 epsilon=.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model SUPLIM SW(Ron=1k Roff=1G vt=-720m vh=-50m noiseless)
.model SDWLIM SW(Ron=1Meg Roff=1G vt=-241m vh=-50m noiseless)
.model NI VDMOS(Vto=300m kp=30m lambda=.1)
.model PI VDMOS(Vto=-300m Kp=30m lambda=.1 pchan)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.9 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.9 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=100 Roff=52k Vfwd=2 Vrev=2 epsilon=100m revepsilon=100m noiseless)
.model DSI D(IS=2e-8 TT=5e-10 noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6406
*
.subckt LT1995 1 2 3 4 5 6 7 8 9 10
A1 VINM VINP 0 0 0 0 0 0 OTA g=0 in=.9p ink=90
C2 VINM VINP 1p Rpar=5Meg noiseless
B1 0 N003 I=10u*dnlim(uplim(V(VINP),V(7)-1.4,.1), V(4)+1.6, .1)+1n*V(VINP)
B2 N003 0 I=10u*dnlim(uplim(V(VINM),V(7)-1.39,.1), V(4)+1.59, .1)+1n*V(VINM)
C9 7 VINM 1.5p Rpar=100Meg noiseless
C10 N003 0 7f Rpar=100K noiseless
M1 7 N005 6 6 N temp=27
M2 4 N005 6 6 P temp=27
C3 7 6 1p
D5 N005 6 YU
D6 6 N005 YD
R2 7 N006 42Meg noiseless
R3 N006 4 42Meg noiseless
C13 N006 6 2p Rser=5k noiseless
C4 6 4 1p
C1 VINM 4 1.5p Rpar=100Meg noiseless
C6 7 VINP 1.5p Rpar=100Meg noiseless
C7 VINP 4 1.5p Rpar=100Meg noiseless
A6 0 N003 0 0 0 0 N008 0 OTA g=1u linear Cout=1.3f en=9n enk=110 Vhigh=1e308 Vlow=-1e308
D2 VINM 4 DBIAS
D4 VINP 4 DBIAS
A3 0 N008 0 0 0 0 N006 0 OTA g=534u iout=10m Cout=1.7p Vlow=-1e308 Vhigh=1e308
D1 N008 0 DSlewLim
G1 0 N005 N006 0 1<>
C8 0 N005 1f Rpar=1Meg noiseless
D3 7 4 DC
RM1 VINM 10 4k
RM2 VINM 9 2k
RM4 VINM 8 1k
C11 VINM 9 .5p
RP1 VINP 1 4k
RP2 VINP 2 2k
RP4 VINP 3 1k
C12 VINP 2 .5p
R11 6 VINM 4k
C14 6 VINM .3p
R12 VINP 5 4k
C15 VINP 5 .3p
C5 N006 6 30p Rser=200k noiseless
G2 N006 0 N006 7 100m dir=1 vto=-.814
G3 4 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 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 LT1995
*
.subckt LTC6087 1 2 3 4 5 6
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-34.37p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N004 0 1f Rpar=100K noiseless
M1 5 N012 4 4 NI temp=27
C2 3 5 1p Rpar=100Meg noiseless
D5 N012 4 DLIMN
M2 5 N008 3 3 PI temp=27
D8 3 N008 DLIMP
C3 3 N008 50p Rser=4Meg noiseless
A3 N009 N010 4 4 4 4 N008 4 OTA g=200n ref=-37m linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=100Meg noiseless
C12 N012 4 50p Rser=4Meg noiseless
A4 0 N004 0 0 0 0 N006 0 OTA g=1m linear en=9.6n enk=768 Vhigh=130m Vlow=-130m
C16 N010 5 650f
A5 N007 0 N009 N009 N009 N009 N010 N009 OTA g=68u iout=5u Vhigh=1e308 Vlow=-1e308
G1 4 N012 N010 N009 200n
D9 N010 N009 DLIM
C7 3 1 2.1p Rser=1k Rpar=5T noiseless
C13 3 4 1000p
S1 N010 N009 0 N005 SHUT2
C1 N006 0 120p Rpar=1k noiseless
C17 4 6 500f Rpar=1T noiseless
G2 0 N009 4 0 .5m
G4 0 N009 3 0 .5m
C18 N009 0 200p Rpar=1K noiseless
S4 N008 3 0 N005 SHUT1
S2 4 N012 0 N005 SHUT1
S7 3 4 N005 0 SPOW
G3 0 N007 N006 0 1m
L1 N007 0 59.4<EFBFBD> Cpar=159f Rser=1.12k Rpar=9.33k noiseless
A2 6 4 0 0 0 0 N005 0 SCHMITT trise=5u tfall=1u vt=.8 vh=10m
D2 3 6 DSHUT
D4 1 4 DBIAS
D6 2 3 DESD
D7 4 2 DESD
D10 1 3 DESD
D11 4 1 DESD
D1 2 4 DBIAS
C8 N008 5 1f Rser=1Meg noiseless
C9 5 N012 1f Rser=1Meg noiseless
C4 3 2 2.1p Rser=1k Rpar=5T noiseless
C5 1 4 2.1p Rser=1k Rpar=5T noiseless
C6 2 4 2.1p Rser=1k Rpar=5T noiseless
A6 2 0 0 0 0 0 0 0 OTA IN=.39f*table(freq,0,.5,1,.5, 10,1.5,100,4.9,500,11,1000,15.9,3000,28.9,10000 ,60.8,20000,99.9,30000,137.3,40000,174.2,50000,210.7,100000, 392, 500k,1.6e3,1e6,1.6e3)
A7 2 1 0 0 0 0 0 0 OTA INCM=.919f*table(freq,0,.5,1,.5, 10,1.5,100,4.9,500,11,1000,15.9,3000,28.9,10000 ,60.8,20000,99.9,30000,137.3,40000,174.2,50000,210.7,100000, 392, 500k,1.6e3,1e6,1.6e3)
A1 1 0 0 0 0 0 0 0 OTA IN=.39f*table(freq,0,.5,1,.5, 10,1.5,100,4.9,500,11,1000,15.9,3000,28.9,10000 ,60.8,20000,99.9,30000,137.3,40000,174.2,50000,210.7,100000, 392, 500k,1.6e3,1e6,1.6e3)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=40m lambda=.01)
.model PI VDMOS(Vto=-300m Kp=40m lambda=.01 pchan)
.model DLIM D(Ron=10k Roff=70Meg Vfwd=2 Vrev=2 epsilon=10m revepsilon=10m noiseless)
.model DESD D(Ron=10 Roff=10T Vfwd=.7 epsilon=.1 noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.8 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.8 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DSHUT D(Ron=85k Roff=1Meg Vfwd=.1 epsilon=50m ilimit=.1u noiseless)
.model DBIAS D(Ron=10G Roff=10T epsilon=.3 ilimit=1p noiseless)
.model SPOW SW(level=2 Ron=400 Roff=1G vt=.5 vh=-.1 ilimit=.948m noiseless)
.ends LTC6087
*
.subckt LTC6088 1 2 3 4 5
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)+.2,.1), V(4)-.2, .1)+1n*V(1)-34.37p
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)+.21,.1), V(4)-.21, .1)+1n*V(2)
C10 N004 0 1f Rpar=100K noiseless
M1 5 N011 4 4 NI temp=27
C2 3 5 1p Rpar=100Meg noiseless
D5 N011 4 DLIMN
M2 5 N007 3 3 PI temp=27
D8 3 N007 DLIMP
C3 3 N007 50p Rser=4Meg noiseless
A3 N008 N009 4 4 4 4 N007 4 OTA g=200n ref=-37m linear vlow=-1e308 vhigh=1e308
C11 5 4 1p Rpar=100Meg noiseless
C12 N011 4 50p Rser=4Meg noiseless
A4 0 N004 0 0 0 0 N005 0 OTA g=1m linear en=9.6n enk=768 Vhigh=130m Vlow=-130m
C16 N009 5 650f
A5 N006 0 N008 N008 N008 N008 N009 N008 OTA g=68u iout=5u Vhigh=1e308 Vlow=-1e308
G1 4 N011 N009 N008 200n
D9 N009 N008 DLIM
C7 3 1 2.1p Rser=1k Rpar=5T noiseless
C13 3 4 1000p
C1 N005 0 120p Rpar=1k noiseless
G2 0 N008 4 0 .5m
G4 0 N008 3 0 .5m
C18 N008 0 200p Rpar=1K noiseless
G3 0 N006 N005 0 1m
L1 N006 0 59.4<EFBFBD> Cpar=159f Rser=1.12k Rpar=9.33k noiseless
D4 1 4 DBIAS
D6 2 3 DESD
D7 4 2 DESD
D10 1 3 DESD
D11 4 1 DESD
A1 2 1 0 0 0 0 0 0 OTA g=0 in=-4.1684p+4.17p*exp(freq*9e-7)
D1 2 4 DBIAS
C8 N007 5 1f Rser=1Meg noiseless
C9 5 N011 1f Rser=1Meg noiseless
C4 3 2 2.1p Rser=1k Rpar=5T noiseless
C5 1 4 2.1p Rser=1k Rpar=5T noiseless
C6 2 4 2.1p Rser=1k Rpar=5T noiseless
D3 3 4 DPOW
.model DSHUT D(Ron=85k Roff=1Meg Vfwd=.1 epsilon=50m ilimit=.1u noiseless)
.model DBIAS D(Ron=10G Roff=10T epsilon=.3 ilimit=1p noiseless)
.model DPOW D(Ron=100 Roff=1G Vfwd=.6 epsilon=.1 ilimit=.948m noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=40m lambda=.01)
.model PI VDMOS(Vto=-300m Kp=40m lambda=.01 pchan)
.model DLIM D(Ron=10k Roff=70Meg Vfwd=2 Vrev=2 epsilon=10m revepsilon=10m noiseless)
.model DESD D(Ron=10 Roff=10T Vfwd=.7 epsilon=.1 noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.8 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.8 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.ends LTC6088
*
.subckt LTC6246 1 2 3 4 5 6
B1 0 N004 I=10u*dnlim(uplim(V(3),V(6)+.51,.1), V(2)-.61, .1)+1n*V(3)
B2 N004 0 I=10u*dnlim(uplim(V(4),V(6)+.5,.1), V(2)-.6, .1)+1n*V(4)
C10 N004 0 .1f Rpar=100K noiseless
Q1 N014 N014 N013 0 PNP1 temp=27
R3 6 N013 2.2K noiseless
R4 N015 N014 160 noiseless
Q2 1 N015 6 0 PNP2 M=3.5 temp=27
Q3 N016 N016 N018 0 NPN1 temp=27
Q4 1 N017 2 0 NPN2 M=3.5 temp=27
C3 1 N014 700f Rser=1.8k noiseless
C15 1 N016 700f Rser=1.8k noiseless
B3 N014 2 I=uplim(dnlim(-430u*V(VFOLDP),0,92u),1m,.1m)*(.5+.5*tanh((V(ON)-.5)/100m))
B4 6 N016 I=uplim(dnlim(430u*V(VFOLDP),0,92u),1.1m,.1m)*(.5+.5*tanh((V(ON)-.5)/100m))
C19 N014 VFOLD 800f
A1 4 3 0 0 0 0 0 0 OTA g=0 in=2p ink=628
C4 6 3 .4p Rpar=25Meg noiseless
C5 6 2 10p Rpar=125k noiseless
C6 2 5 500f Rpar=1g noiseless
D1 4 3 DIN
S1 5 6 2 5 SSHUT
S2 6 2 ON 0 SPOW
C7 4 3 400f
C8 6 4 .4p Rpar=25Meg noiseless
C9 3 2 .4p Rpar=35Meg noiseless
C13 4 2 .4p Rpar=35Meg noiseless
D2 6 N006 DBIAS1
D3 4 N006 DBIAS2
D4 3 N006 DBIAS2
C17 N006 2 100f
S3 2 N006 N010 0 SBIAS
A2 5 2 0 0 0 0 N010 0 SCHMITT Vt=1.05 vh=.1 trise=9.6u tfall=2.4u
C20 N016 VFOLD 800f
G3 0 x2 N005 0 1m
C21 x2 0 400f Rpar=1k noiseless
A5 0 N004 ON 0 0 0 N005 0 OTA g=1m linear en=4.2n enk=569 Rout=1k Cout=2p vlow=-2 vhigh=2
S4 6 N014 0 ON SOFF
S5 N016 2 0 ON SOFF
A3 N010 0 0 0 0 0 ON 0 BUF trise=1u
R5 N018 2 2.2K noiseless
R6 N017 N016 160 noiseless
C22 VFOLD VMid 5p Rpar=1.407Meg Rser=1.5k noiseless
G7 0 VFOLDP VFOLD VMid 1<>
C23 VFOLDP 0 .5f Rpar=1Meg noiseless
C24 VFOLD 1 1.2p Rser=2.2k noiseless
C12 6 1 4p Rpar=200Meg noiseless
C25 1 2 4p Rpar=200Meg noiseless
G1 0 VMid 6 0 5m
G5 0 VMid 2 0 5m
C1 VMid 0 200p Rpar=100 noiseless
G2 VFOLD VMid VFOLD 6 10m vto=0 dir=1
G4 VMid VFOLD 2 VFOLD 10m vto=0 dir=1
G6 VMid VFOLD 0 X2 1.9m
D7 x2 0 DSL1
D8 x2 0 DSL2
G10 0 x2 N007 0 100m vto=520m dir=1
G11 x2 0 0 N009 100m vto=520m dir=1
C14 0 N009 500f Rpar=500k noiseless
A6 N007 N005 ON 0 0 0 N007 0 OTA g=1m asym isource=20u isink=-1m vlow=0 vhigh=2
C16 0 N007 500f Rpar=500k noiseless
A8 N009 N005 ON 0 0 0 N009 0 OTA g=1m asym isource=1m isink=-20u vlow=-2 vhigh=0
.model SSHUT SW(Ron=2.5e6 Roff=50Meg vt=-1.7 vh=-200m noiseless)
.model DIN D(Ron=100 Roff=32k Vfwd=1.6 epsilon=.1 Vrev=1.6 revepsilon=.1 noiseless)
.model DBIAS1 D(Ron=100 Roff=1g vfwd=4 epsilon=100m noiseless)
.model DBIAS2 D(Ron=100k Roff=200Meg vfwd=3 epsilon=100m ilimit=250n noiseless)
.model SBIAS SW(level=2 Ron=10k Roff=10G vt=.5 vh=-.1 noiseless )
.model SPOW SW(Ron=1k Roff=1G vt=.5 vh=.1 ilimit=3.6u noiseless)
.model PNP1 PNP(BF=100 VAF=100 CJE=100f noiseless)
.model NPN1 NPN(BF=100 VAF=100 CJE=100f noiseless)
.model PNP2 PNP(BF=100 BR=.07 VAF=100 CJE=200f CJC=80f RC=15 TF=100p noiseless)
.model NPN2 NPN(BF=100 BR=.65 VAF=100 CJE=200f CJC=80f RC=5 TF=100p noiseless)
.model SOFF SW(Ron=100 Roff=1G vt=-.5 vh=-.3 noiseless)
.model DSL1 D(Ron=10 Roff=200k vfwd=70m epsilon=10m vrev=70m revepsilon=10m noiseless )
.model DSL2 D(Ron=.1 Roff=200k vfwd=800m epsilon=50m vrev=800m revepsilon=50m noiseless )
.ends LTC6246
*
.subckt LTC6247 1 2 3 4 5
B1 0 N004 I=10u*dnlim(uplim(V(3),V(5)+.51,.1), V(2)-.61, .1)+1n*V(3)
B2 N004 0 I=10u*dnlim(uplim(V(4),V(5)+.5,.1), V(2)-.6, .1)+1n*V(4)
C10 N004 0 .1f Rpar=100K noiseless
Q1 N012 N012 N011 0 PNP1 temp=27
R3 5 N011 2.2K noiseless
R4 N013 N012 160 noiseless
Q2 1 N013 5 0 PNP2 M=3.5 temp=27
Q3 N014 N014 N016 0 NPN1 temp=27
Q4 1 N015 2 0 NPN2 M=3.5 temp=27
C3 1 N012 700f Rser=1.8k noiseless
C15 1 N014 700f Rser=1.8k noiseless
B3 N012 2 I=uplim(dnlim(-430u*V(VFOLDP),0,92u),1m,.1m)
B4 5 N014 I=uplim(dnlim(430u*V(VFOLDP),0,92u),1.1m,.1m)
C19 N012 VFOLD 800f
A1 4 3 0 0 0 0 0 0 OTA g=0 in=2p ink=628
C4 5 3 .4p Rpar=25Meg noiseless
C5 5 2 10p Rpar=125k noiseless
D1 4 3 DIN
C7 4 3 400f
C8 5 4 .4p Rpar=25Meg noiseless
C9 3 2 .4p Rpar=35Meg noiseless
C13 4 2 .4p Rpar=35Meg noiseless
D2 5 N006 DBIAS1
D3 4 N006 DBIAS2
D4 3 N006 DBIAS2
C20 N014 VFOLD 800f
G3 0 x2 N005 0 1m
C21 x2 0 400f Rpar=1k noiseless
A5 0 N004 0 0 0 0 N005 0 OTA g=1m linear en=4.2n enk=569 Rout=1k Cout=2p vlow=-2 vhigh=2
R5 N016 2 2.2K noiseless
R6 N015 N014 160 noiseless
C22 VFOLD VMid 5p Rpar=1.407Meg Rser=1.5k noiseless
G7 0 VFOLDP VFOLD VMid 1<>
C23 VFOLDP 0 .5f Rpar=1Meg noiseless
C24 VFOLD 1 1.2p Rser=2.2k noiseless
C12 5 1 4p Rpar=200Meg noiseless
C25 1 2 4p Rpar=200Meg noiseless
G1 0 VMid 5 0 5m
G5 0 VMid 2 0 5m
C1 VMid 0 200p Rpar=100 noiseless
G2 VFOLD VMid VFOLD 5 10m vto=0 dir=1
G4 VMid VFOLD 2 VFOLD 10m vto=0 dir=1
G6 VMid VFOLD 0 X2 1.9m
D7 x2 0 DSL1
D8 x2 0 DSL2
G10 0 x2 N007 0 100m vto=520m dir=1
G11 x2 0 0 N009 100m vto=520m dir=1
C14 0 N009 500f Rpar=500k noiseless
A6 N007 N005 0 0 0 0 N007 0 OTA g=1m asym isource=20u isink=-1m vlow=0 vhigh=2
C16 0 N007 500f Rpar=500k noiseless
A8 N009 N005 0 0 0 0 N009 0 OTA g=1m asym isource=1m isink=-20u vlow=-2 vhigh=0
D5 5 2 DPOW
C2 N006 2 100f Rpar=10k noiseless
.model SSHUT SW(Ron=2.5e6 Roff=50Meg vt=-1.7 vh=-200m noiseless)
.model DIN D(Ron=100 Roff=32k Vfwd=1.6 epsilon=.1 Vrev=1.6 revepsilon=.1 noiseless)
.model DBIAS1 D(Ron=100 Roff=1g vfwd=4 epsilon=100m noiseless)
.model DBIAS2 D(Ron=100k Roff=200Meg vfwd=3 epsilon=100m ilimit=250n noiseless)
.model DPOW D(Ron=1K Roff=1g vfwd=.5 epsilon=10m ilimit=3.6u noiseless)
.model PNP1 PNP(BF=100 VAF=100 CJE=100f noiseless)
.model NPN1 NPN(BF=100 VAF=100 CJE=100f noiseless)
.model PNP2 PNP(BF=100 BR=.07 VAF=100 CJE=200f CJC=80f RC=15 TF=100p noiseless)
.model NPN2 NPN(BF=100 BR=.65 VAF=100 CJE=200f CJC=80f RC=5 TF=100p noiseless)
.model DSL1 D(Ron=10 Roff=200k vfwd=70m epsilon=10m vrev=70m revepsilon=10m noiseless )
.model DSL2 D(Ron=.1 Roff=200k vfwd=800m epsilon=50m vrev=800m revepsilon=50m noiseless )
.ends LTC6247
*
.subckt LT6350 1 2 3 4 5 6 7 8
A1 1 8 0 0 0 0 0 0 OTA g=0 in=1.1p ink=5
B1 0 N007 I=10u*dnlim(uplim(V(8),V(3)+.2,.1), V(6)-.2, .1)+1n*V(8)-2.031n
B2 N007 0 I=10u*dnlim(uplim(V(1),V(3)+.21,.1), V(6)-.21, .1)+1n*V(1)
C10 N007 0 .1f Rpar=100K noiseless
M1 4 N013 6 6 NI temp=27
C2 3 4 1p Rpar=1g noiseless
M2 4 N009 3 3 PI temp=27
C3 3 N009 10f Rser=75Meg noiseless
C11 4 6 1p Rpar=1g noiseless
C12 N013 6 10f Rser=75Meg noiseless
D6 N013 6 DLIMN
A4 0 N007 0 0 0 0 N008 0 OTA g=1u linear en=1.9n enk=35 Cout=20f Vlow=-1e308 Vhigh=1e308
C16 N011 4 1.05p Rser=400
D12 8 3 DESD
D13 1 3 DESD
C7 3 8 .9p Rpar=25Meg noiseless
G4 0 N006 N008 0 1m
D14 3 N009 DLIMP
L1 N006 0 11.4<EFBFBD> Cpar=14.9f Rser=1.08k Rpar=13.5k noiseless
D16 N014 8 DBIA2
D3 N014 1 DBIA2
D1 6 1 DESD
D2 6 8 DESD
C1 3 1 .9p Rpar=25Meg noiseless
C6 8 6 .9p Rpar=25Meg noiseless
C8 1 6 .9p Rpar=25Meg noiseless
D5 N014 8 DBIA3
D8 N014 1 DBIA3
A6 N006 0 N010 N005 N005 N005 N011 N005 OTA g=600u linear Rout=80k Vlow=-1e308 Vhigh=1e308
D9 3 7 DSHUT
A5 N005 N011 N010 N005 N005 N005 N009 N005 OTA g=52.5n ref=-.019 linear Vlow=-1e308 Vhigh=1e308
D17 1 N003 DBIA1
D18 8 N003 DBIA1
C5 N014 6 20p Rpar=1Meg noiseless
D7 3 N004 DBIAZ
C14 3 N004 20p Rpar=10meg noiseless
C15 N005 0 100p Rpar=10
S3 N004 N003 N010 N005 SWB2
S4 3 6 N010 N005 SWP
C13 3 6 1000p
G2 0 N005 3 0 50m
G3 0 N005 6 0 50m
A3 INM2 2 0 0 0 0 0 0 OTA g=0 in=1p ink=5
B3 0 N017 I=10u*dnlim(uplim(V(2),V(3)+.2,.1), V(6)-.2, .1)+1n*V(2)-2.028n
B4 N017 0 I=10u*dnlim(uplim(V(INM2),V(3)+.21,.1), V(6)-.21, .1)+1n*V(INM2)
C9 N017 0 .1f Rpar=100K noiseless
M3 5 N024 6 6 NI temp=27
C18 3 5 1p Rpar=1g noiseless
M4 5 N019 3 3 PI temp=27
C19 3 N019 10f Rser=75Meg noiseless
C20 5 6 1p Rpar=1g noiseless
C21 N024 6 10f Rser=75Meg noiseless
D10 N024 6 DLIMN
A7 0 N017 0 0 0 0 N020 0 OTA g=1u linear en=2.1n enk=35 Vhigh=80m Vlow=-80m
C22 N021 5 150f
D11 2 3 DESD
D19 INM2 3 DESD
G5 6 N024 N021 N005 10n
C23 3 2 .9p Rpar=20Meg noiseless
C24 0 N020 2f Rpar=1Meg noiseless
D20 3 N019 DLIMP
D24 6 INM2 DESD
D25 6 2 DESD
C25 3 INM2 .9p Rpar=20Meg noiseless
C26 2 6 .9p Rpar=20Meg noiseless
C27 INM2 6 .9p Rpar=20Meg noiseless
A8 N020 0 N010 N005 N005 N005 N021 N005 OTA g=60u linear Rout=800k Vlow=-1e308 Vhigh=1e308
A9 N005 N021 N010 N005 N005 N005 N019 N005 OTA g=52.5n ref=-.019 linear Vlow=-1e308 Vhigh=1e308
S5 6 2 N010 N005 SWBOP2
R1 4 INM2 1k
S6 6 INM2 N010 N005 SWBOP2
A10 7 6 N005 N005 N005 N005 N010 N005 SCHMITT Vt=300m vh=10m trise=50n tfall=100n
D22 0 N008 DLIM1
D23 0 N008 DLIM2
G1 6 N013 N011 N005 10n
R3 INM2 5 1k
S1 N014 3 N010 N005 SWB
D4 3 6 DP
C4 N004 6 1p Rpar=695k noiseless
D15 1 8 DSI temp=27
D21 8 1 DSI temp=27
D26 INM2 2 DSI temp=27
D27 2 INM2 DSI temp=27
.model DBIA1 D(Ron=10k Roff=6Meg Vfwd=0 ilimit=1.4u epsilon=.1 noiseless)
.model DBIA2 D(Ron=10k Roff=1g Vfwd=-.1 epsilon=.2 ilimit=.9u noiseless)
.model DBIA3 D(Ron=1k Roff=1g Vfwd=3 epsilon=.1 ilimit=1.3u noiseless)
.model DBIAZ D(Ron=100 Roff=100G Vfwd=.95 epsilon=50m noiseless)
.model DP D(Ron=1k Roff=1G Vfwd=1 epsilon=.1 ilimit=35.9u noiseless)
.model DESD D(Ron=100 Roff=100T Vfwd=1 epsilon=50m noiseless)
.model NI VDMOS(Vto=300m kp=55m lambda=.01)
.model PI VDMOS(Vto=-300m kp=55m lambda=.01 pchan)
.model DSHUT D(Ron=10k Roff=1g Vfwd=.6 epsilon=100m ilimit=20u noiseless)
.model DSI D(Is=1.4e-16 N=1 Rs=7.8 noiseless)
.model DLIM1 D(Ron=20k Roff=2Meg Vfwd=20m epsilon=2m Vrev=25m revepsilon=2m noiseless)
.model DLIM2 D(Ron=1k Roff=2Meg Vfwd=60m epsilon=10m Vrev=60m revepsilon=10m noiseless)
.model DLIMP D(Ron=100k Roff=1g Vfwd=1.5 Vrev=340m epsilon=500m revepsilon=100m noiseless)
.model DLIMN D(Ron=1Meg Roff=5g Vfwd=1.5 Vrev=340m epsilon=700m revepsilon=100m noiseless)
.model SWP SW(Roff=1G Ron=900 vt=.5 vh=-.1 ilimit=2.3m noiseless)
.model SWB SW(Ron=10k Roff=5G vt=.5 vh=-.1 vser=.95 noiseless)
.model SWB2 SW(Ron=1k Roff=100g vt=.5 vh=-.1 noiseless)
.model SWBOP2 SW(level=2 Ron=10k Roff=1G vt=.5 vh=-.1 ilimit=2.5u vser=.95 noiseless)
.ends LT6350
*
.subckt LTC6362 1 2 3 4 5 6 7 8
M1 4 N020 6 6 NI temp=27
D5 N020 6 DLIMN
M2 4 N009 3 3 PI temp=27
D8 3 N009 DLIMP
C3 3 N009 40f Rser=10Meg noiseless
A3 N010 N013 6 6 6 6 N009 6 OTA g=200n ref=-17m linear vlow=-1e308 vhigh=1e308
A5 N011 0 N010 N010 N010 N010 N013 N010 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
D9 N013 N010 DLIM
C7 3 8 .1p Rser=1k Rpar=28Meg noiseless
C13 3 6 100p Rpar=500k noiseless
S1 N013 N010 0 N008 SHUT2
C17 6 7 500f
S4 N009 3 0 N008 SHUT1
S2 6 N020 0 N008 SHUT1
A2 7 6 0 0 0 0 N008 0 SCHMITT trise=2u tfall=2u vt=.8 vh=10m
D6 1 3 DESD
D7 6 1 DESD
D10 8 3 DESD
D11 6 8 DESD
A1 0 8 0 0 0 0 0 0 OTA g=0 in=795f ink=1.27k
M3 5 N028 6 6 NI temp=27
D3 N028 6 DLIMN
M4 5 N025 3 3 PI temp=27
D12 3 N025 DLIMP
A6 N010 XNP 6 6 6 6 N025 6 OTA g=200n ref=-17m linear vlow=-1e308 vhigh=1e308
A7 0 N011 N010 N010 N010 N010 XNP N010 OTA g=300u linear cout=1f Vhigh=1e308 Vlow=-1e308
D13 XNP N010 DLIM
S3 XNP N010 0 N008 SHUT2
S5 N025 3 0 N008 SHUT1
S6 6 N028 0 N008 SHUT1
R3 4 5 2Meg noiseless
A8 0 N027 0 0 0 0 N018 0 OTA g=10m linear en=14.3n enk=1.1k Rout=1k Cout=100p ref=0 Vlow=-1e308 Vhigh=1e308
R5 3 2 340K
R6 2 6 340K
G6 N010 XNP 0 N018 100<30>
G7 N010 N013 0 N018 100<30>
D14 N018 0 DCML
A4 0 N007 0 0 0 0 N005 0 OTA g=1m linear en=3.9n enk=1.05k Vhigh=1e308 Vlow=-1e308
C23 N006 0 40p Rpar=1k noiseless
C1 1 8 500f Rser=2k Rpar=32k noiseless
C2 3 4 1p Rpar=100Meg noiseless
C8 4 6 1p Rpar=100Meg noiseless
C9 3 5 1p Rpar=100Meg noiseless
C11 5 6 1p Rpar=100Meg noiseless
C14 N013 4 8p Rser=6k noiseless
C16 5 XNP 8p Rser=6k noiseless
R10 3 7 225K noiseless
D2 3 6 DPOW
S7 6 3 N008 0 SPOWR2
A10 0 1 0 0 0 0 0 0 OTA g=0 in=795f ink=1.27k
D1 2 3 DESD
D4 6 2 DESD
D17 7 3 DESD
D18 6 7 DESD
C10 N005 0 50f Rpar=1Meg noiseless
G3 0 N006 N005 0 1m
B1 0 N007 I=10u*dnlim(uplim(V(8),V(3)+.3,.1), V(6)-.3, .1)+1n*V(8)
B2 N007 0 I=10u*dnlim(uplim(V(1),V(3)+.31,.1), V(6)-.31, .1)+1n*V(1)
C20 N007 0 1f Rpar=100K noiseless
G8 0 N010 6 0 .5m
G9 0 N010 3 0 .5m
C21 N010 0 200p Rpar=1K noiseless
D15 0 N005 DLIMI
C4 3 1 .1p Rser=1k Rpar=28Meg noiseless
C5 8 6 .1p Rser=1k Rpar=28Meg noiseless
C6 1 6 .1p Rser=1k Rpar=28Meg noiseless
B3 0 N027 I=10u*dnlim(uplim(V(2),V(3)-.4,.1), V(6)+.42, .1)
B4 N027 0 I=5u*(V(4)+V(5))
C24 N027 0 .1f Rpar=100K noiseless
C18 N005 N016 5p noiseless
R4 N016 0 8K noiseless
G17 8 1 N014 0 100<30>
G15 0 N014 N016 0 1m
C29 N014 0 4p Rser=500 Rpar=1k noiseless
C12 N020 6 40f Rser=10Meg noiseless
C15 3 N025 40f Rser=10Meg noiseless
C19 N028 6 40f Rser=10Meg noiseless
C26 N017 0 4p Rser=100 Rpar=1k noiseless
G4 0 N017 N006 0 1m
C27 N011 0 2p Rpar=1k Rser=100 noiseless
G10 0 N011 N017 0 1m
S8 6 3 N008 0 SPOWR1
A11 N010 N013 6 6 6 6 N020 6 OTA linear g=200n ref=17m vlow=-1e308 vhigh=1e308
A12 N010 XNP 6 6 6 6 N028 6 OTA linear g=200n ref=17m vlow=-1e308 vhigh=1e308
.model DPOW D(Ron=1k Roff=1G Vfwd=2 epsilon=.1 ilimit=30u noiseless)
.model SPOWR1 SW(level=2 Ron=1k Roff=1g vt=.5 vh=-.1 ilimit=609u noiseless)
.model SPOWR2 SW(Ron=20k Roff=1g vt=.5 vh=-.1 noiseless)
.model SHUT1 SW(Ron=100k Roff=100G vt=-.8 vh=-100m Vser=300m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=60m mtriode=.55 lambda=.0001 noiseless)
.model PI VDMOS(Vto=-300m Kp=60m mtriode=.8 lambda=.0001 pchan noiseless)
.model DLS D(Ron=10k Roff=1G Vfwd=.4 Vrev=.4 epsilon=50m revepsilon=50m noiseless)
.model DLIMN D(Ron=100k Roff=100Meg Vfwd=1.45 Vrev=-300m epsilon=.1 noiseless)
.model DLIMP D(Ron=100k Roff=100Meg Vfwd=1.45 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DCML D(Ron=10 Roff=1k Vfwd=500m epsilon=10m Vrev=500m revepsilon=10m noiseless)
.model DLIM D(Ron=700 Roff=70k Vfwd=400m Vrev=400m epsilon=10m revepsilon=10m noiseless)
.model DLIMI D(Ron=1 Roff=10k Vfwd=.615 Vrev=.615 epsilon=50m revepsilon=50m noiseless)
.model DESD D(Ron=100 Roff=1G Vfwd=.7 epsilon=.1 noiseless)
.ends LTC6362
*
.subckt LTC1060 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
A1 0 N004 0 0 0 0 N006 0 OTA g=177u iout=98u Cout=14p Vlow=-1e308 Vhigh=1e308
R1 7 N006 200Meg noiseless
R2 N006 10 200Meg noiseless
G1 N006 0 N006 7 500m dir=1 vto=.1
G2 0 N006 10 N006 500m dir=1 vto=.1
M1 7 N005 3 3 N temp=27
M2 10 N005 3 3 P temp=27
D1 N005 3 YU
D2 3 N005 YD
G3 0 N005 N006 0 1<>
G8 11 N011 5 11 10
G9 11 N011 N017 0 10
G7 0 N017 1 11 1<>
C2 N013 N012 1p
R5 7 N013 100Meg noiseless
R6 N013 10 100Meg noiseless
G5 N013 0 N013 7 500m dir=1 vto=-1
G11 0 N013 10 N013 500m dir=1 vto=-1
M3 7 N014 2 2 N temp=27
M4 10 N014 2 2 P temp=27
D3 N014 2 YU
D4 2 N014 YD
G12 0 N014 N013 0 1<>
C3 N014 0 .4f Rpar=1Meg noiseless
G13 11 N018 11 2 10
R8 N019 N018 {RintA} noiseless
C4 N020 N019 1p
R9 7 N020 100Meg noiseless
R10 N020 10 100Meg noiseless
G14 N020 0 N020 7 500m dir=1 vto=-1
G15 0 N020 10 N020 500m dir=1 vto=-1
M5 7 N021 1 1 N temp=27
M6 10 N021 1 1 P temp=27
D5 N021 1 YU
D6 1 N021 YD
G16 0 N021 N020 0 1<>
C1 N021 0 .4f Rpar=1Meg noiseless
C5 N005 0 10f Rpar=1Meg noiseless
A2 N012 11 N023 0 0 0 N013 0 OTA g=2m iout=98u Cout=350p Vlow=-1e308 Vhigh=1e308
A3 N019 11 N023 0 0 0 N020 0 OTA g=2m iout=98u Cout=350p Vlow=-1e308 Vhigh=1e308
D7 N024 10 DPV
S3 N024 7 7 10 SPV
B1 0 N004 I=10u*dnlim(uplim(V(11),V(7)-.9,.1), V(10)+.9, .1)+1n*V(11)
B2 N004 0 I=10u*dnlim(uplim(V(4),V(7)-.89,.1), V(10)+.89, .1)+1n*V(4)
C6 N004 0 .2f Rpar=100K noiseless
C7 4 10 200f
C8 7 4 200f
C9 10 5 200f
C10 N011 11 100f Rpar=.1 noiseless
C11 N018 11 100f Rpar=.1 noiseless
A4 0 N026 0 0 0 0 N029 0 OTA g=177u iout=98u Cout=14p Vlow=-1e308 Vhigh=1e308
R3 7 N029 200Meg noiseless
R7 N029 10 200Meg noiseless
G10 N029 0 N029 7 500m dir=1 vto=.1
G18 0 N029 10 N029 500m dir=1 vto=.1
M7 7 N028 14 14 N temp=27
M8 10 N028 14 14 P temp=27
D8 N028 14 YU
D9 14 N028 YD
G19 0 N028 N029 0 1<>
R11 N031 N033 {RintB} noiseless
C12 N032 N031 1p
R18 7 N032 100Meg noiseless
R19 N032 10 100Meg noiseless
G25 N032 0 N032 7 500m dir=1 vto=-1
G26 0 N032 10 N032 500m dir=1 vto=-1
M9 7 N034 15 15 N temp=27
M10 10 N034 15 15 P temp=27
D10 N034 15 YU
D11 15 N034 YD
G27 0 N034 N032 0 1<>
C13 N034 0 .4f Rpar=1Meg noiseless
G28 11 N037 11 15 10
C14 N039 N038 1p
R21 7 N039 200Meg noiseless
R22 N039 10 200Meg noiseless
G29 N039 0 N039 7 500m dir=1 vto=-1
G30 0 N039 10 N039 500m dir=1 vto=-1
M11 7 N040 16 16 N temp=27
M12 10 N040 16 16 P temp=27
D12 N040 16 YU
D13 16 N040 YD
G31 0 N040 N039 0 1<>
C15 N040 0 .4f Rpar=1Meg noiseless
C16 N028 0 10f Rpar=1Meg noiseless
A5 N031 11 N023 0 0 0 N032 0 OTA g=2m iout=98u Cout=350p Vlow=-1e308 Vhigh=1e308
A6 N038 11 N023 0 0 0 N039 0 OTA g=2m iout=98u Rout=100Meg Cout=350p Vlow=-1e308 Vhigh=1e308
B3 0 N026 I=10u*dnlim(uplim(V(11),V(7)-.9,.1), V(10)+.9, .1)+1n*V(11)
B4 N026 0 I=10u*dnlim(uplim(V(13),V(7)-.89,.1), V(10)+.89, .1)+1n*V(13)
C17 N026 0 .2f Rpar=100K noiseless
C18 13 10 200f
C19 7 13 200f
C20 10 12 200f
C22 N037 11 100f Rpar=.1 noiseless
R12 10 6 10Meg noiseless
R4 N012 N011 {RintA} noiseless
R14 N038 N037 {RintB} noiseless
C23 N024 10 10p
C24 8 9 100f Rpar=34k noiseless
C25 N013 N012 .001f IC=0 Rser=1g noiseless
C26 N020 N019 .001f IC=0 Rser=1g noiseless
C27 N032 N031 .001f IC=0 Rser=1G noiseless
C28 N039 N038 .001f IC=0 Rser=1G noiseless
G4 0 N023 N024 10 10m
C29 N023 0 100<30> Rpar=100 noiseless
G17 N011 11 3 11 10
G6 11 N033 12 11 10
G20 11 N033 N036 0 10
G21 0 N036 16 11 1<>
C21 N033 11 100f Rpar=.1 noiseless
S2 N036 0 8 6 SBUF
G22 N033 11 14 11 10
S1 N017 0 8 6 SBUF
.model YU D(Ron=1k Roff=1T Vfwd=.6 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=.1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-140m Kp=80m)
.model P VDMOS(Vto=140m Kp=80m pchan)
.param dividerInt = table(divider,0,50,75,50,76,100)
.param RintA=1e12*dividerInt/(2*PI*fclka)
.param RintB=1e12*dividerInt/(2*PI*fclkb)
.model SBUF SW(Ron=.1 Roff=1Meg vt=1 vh=-.8 noiseless)
.model SPV SW(Ron=400k Roff=1Meg vt=11 vh=-3 noiseless)
.model DPV D(Ron=50k Roff=200k Vfwd=.744 epsilon=.1 noiseless)
.ends LTC1060
*
.subckt LTC1067 1 2 3 4 5 6 7 8 9 10 11 12 13
R1 1 N006 200Meg noiseless
R2 N006 12 200Meg noiseless
M1 1 N005 5 5 N temp=27
M2 12 N005 5 5 P temp=27
D1 N005 5 YU
D2 5 N005 YD
G3 0 N005 N006 0 1<>
G8 13A N014 2 13A 10
C2 N012 N011 1p
R5 1 N012 100Meg noiseless
R6 N012 12 100Meg noiseless
G5 N012 0 N012 1 500m dir=1 vto=-.15
G11 0 N012 12 N012 500m dir=1 vto=.1
M3 1 N015 4 4 N temp=27
M4 12 N015 4 4 P temp=27
D3 N015 4 YU
D4 4 N015 YD
G12 0 N015 N012 0 1<>
C3 N015 0 .4f Rpar=1Meg noiseless
G13 13A N018 13A 4 10
R8 N019 N018 {Rint} noiseless
C4 N020 N019 1p
R9 1 N020 100Meg noiseless
R10 N020 12 100Meg noiseless
G14 N020 0 N020 1 500m dir=1 vto=-.15
G15 0 N020 12 N020 500m dir=1 vto=.1
M5 1 N021 3 3 N temp=27
M6 12 N021 3 3 P temp=27
D5 N021 3 YU
D6 3 N021 YD
G16 0 N021 N020 0 1<>
C5 N005 0 20f Rpar=1Meg noiseless
A2 N011 13A N017 0 0 0 N012 0 OTA g=2.43m iout=98u Cout=200p Vlow=-1e308 Vhigh=1e308
S3 N023 1 1 12 SPV
B1 0 N004 I=10u*dnlim(uplim(V(13A),V(1)+.2,.1), V(12)-.2, .1)+1n*V(13A)
B2 N004 0 I=10u*dnlim(uplim(V(6),V(1)+.21,.1), V(12)-.21, .1)+1n*V(6)
C6 N004 0 .2f Rpar=100K noiseless
C7 6 12 200f
C8 1 6 200f
C9 12 2 200f
C10 N014 13A 100f Rpar=.1 noiseless
C11 N018 13A 100f Rpar=.1 noiseless
R3 1 N026 200Meg noiseless
R7 N026 12 200Meg noiseless
M7 1 N025 8 8 N temp=27
M8 12 N025 8 8 P temp=27
D8 N025 8 YU
D9 8 N025 YD
G19 0 N025 N026 0 1<>
R11 N028 N030 {Rint} noiseless
C12 N029 N028 1p
R18 1 N029 100Meg noiseless
R19 N029 12 100Meg noiseless
G25 N029 0 N029 1 500m dir=1 vto=-.15
G26 0 N029 12 N029 500m dir=1 vto=.1
M9 1 N031 9 9 N temp=27
M10 12 N031 9 9 P temp=27
D10 N031 9 YU
D11 9 N031 YD
G27 0 N031 N029 0 1<>
C13 N031 0 .4f Rpar=1Meg noiseless
G28 13A N033 13A 9 10
C14 N035 N034 1p
R21 1 N035 200Meg noiseless
R22 N035 12 200Meg noiseless
G29 N035 0 N035 1 500m dir=1 vto=-.15
G30 0 N035 12 N035 500m dir=1 vto=.1
M11 1 N036 10 10 N temp=27
M12 12 N036 10 10 P temp=27
D12 N036 10 YU
D13 10 N036 YD
G31 0 N036 N035 0 1<>
C15 N036 0 .4f Rpar=1Meg noiseless
C16 N025 0 20f Rpar=1Meg noiseless
B3 0 N024 I=10u*dnlim(uplim(V(13A),V(1)+.2,.1), V(12)-.2, .1)+1n*V(13A)
B4 N024 0 I=10u*dnlim(uplim(V(7),V(1)+.21,.1), V(12)-.21, .1)+1n*V(7)
C17 N024 0 .2f Rpar=100K noiseless
C18 7 12 200f
C19 1 7 200f
C20 12 11 200f
C21 N030 13A 100f Rpar=.1 noiseless
C22 N033 13A 100f Rpar=.1 noiseless
R4 N011 N014 {Rint} noiseless
R14 N034 N033 {Rint} noiseless
C23 N023 12 10p
C27 N029 N028 .001f IC=0 Rser=1Meg noiseless
C28 N035 N034 .001f IC=0 Rser=1Meg noiseless
C24 1 13 1p Rpar=15k
C29 13 12 1p Rpar=15k
G1 N006 0 N006 1 500m dir=1 vto=-.15
G2 0 N006 12 N006 500m dir=1 vto=.1
A1 0 N004 0 0 0 0 N006 0 OTA g=318u iout=38.5u Cout=17p Vlow=-1e308 Vhigh=1e308
G4 N026 0 N026 1 500m dir=1 vto=-.15
G6 0 N026 12 N026 500m dir=1 vto=.1
C1 N021 0 .4f Rpar=1Meg noiseless
A3 N019 13A N017 0 0 0 N020 0 OTA g=2.43m iout=98u Cout=200p Vlow=-1e308 Vhigh=1e308
A5 N034 13A N017 0 0 0 N035 0 OTA g=2.43m iout=98u Rout=100Meg Cout=200p Vlow=-1e308 Vhigh=1e308
A6 N028 13A N017 0 0 0 N029 0 OTA g=2.43m iout=98u Cout=200p Vlow=-1e308 Vhigh=1e308
D14 N023 12 DPV1
R27 1 12 3.8k noiseless
A4 0 N024 0 0 0 0 N026 0 OTA g=318u iout=38.5u Cout=17p Vlow=-1e308 Vhigh=1e308
G7 0 13A 13 0 10m
C31 13A 0 100<30> Rpar=100 noiseless
C32 1 5 1p
C33 5 12 1p
C34 1 4 1p
C35 4 12 1p
C36 1 3 1p
C37 3 12 1p
C38 1 8 1p
C39 8 12 1p
C40 1 9 1p
C41 9 12 1p
C42 1 10 1p
C43 10 12 1p
C25 N020 N019 .001f IC=0 Rser=1G noiseless
C26 N012 N011 .001f IC=0 Rser=1G noiseless
G10 0 N017 N023 12 10m
C45 N017 0 100<30> Rpar=100 noiseless
G18 N014 13A 5 13A 10
G17 N030 13A 8 13A 10
G9 13A N030 11 13A 10
D7 N023 12 DPV2
D15 1 12 DP
.param Rint=1e14/(2.007*PI*fclk)
.model YU D(Ron=1k Roff=1T Vfwd=3.01 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-140m Kp=14m)
.model P VDMOS(Vto=140m Kp=14m pchan)
.model SBUF1 SW(Ron=.1 Roff=1Meg vt=-1 vh=-.2 noiseless)
.model SBUF2 SW(Ron=.1 Roff=1Meg vt=1 vh=-.2 noiseless)
.model DP D(Ron=100 Roff=1Meg vfwd=2 epsilon=.1 ilimit=.55m noiseless)
.model SPV SW(Ron=500k Roff=10Meg vt=2.3 vh=-.7 noiseless)
.model DPV1 D(Ron=400k Roff=63k Vfwd=.45 epsilon=1 noiseless)
.model DPV2 D(Ron=500 Roff=1Meg Vfwd=.35 epsilon=80m ilimit=2.5u noiseless)
.ends LTC1067
*
.subckt LTC1067-50 1 2 3 4 5 6 7 8 9 10 11 12 13
R1 1 N006 200Meg noiseless
R2 N006 12 200Meg noiseless
M1 1 N005 5 5 N temp=27
M2 12 N005 5 5 P temp=27
D1 N005 5 YU
D2 5 N005 YD
G3 0 N005 N006 0 1<>
G8 13A N014 2 13A 10
C2 N012 N011 1p
R5 1 N012 100Meg noiseless
R6 N012 12 100Meg noiseless
G5 N012 0 N012 1 500m dir=1 vto=-.15
G11 0 N012 12 N012 500m dir=1 vto=.1
M3 1 N015 4 4 N temp=27
M4 12 N015 4 4 P temp=27
D3 N015 4 YU
D4 4 N015 YD
G12 0 N015 N012 0 1<>
C3 N015 0 .4f Rpar=1Meg noiseless
G13 13A N018 13A 4 10
R8 N019 N018 {Rint} noiseless
C4 N020 N019 1p
R9 1 N020 100Meg noiseless
R10 N020 12 100Meg noiseless
G14 N020 0 N020 1 500m dir=1 vto=-.15
G15 0 N020 12 N020 500m dir=1 vto=.1
M5 1 N021 3 3 N temp=27
M6 12 N021 3 3 P temp=27
D5 N021 3 YU
D6 3 N021 YD
G16 0 N021 N020 0 1<>
C5 N005 0 20f Rpar=1Meg noiseless
A2 N011 13A N017 0 0 0 N012 0 OTA g=2.43m iout=98u Cout=200p Vlow=-1e308 Vhigh=1e308
S3 N023 1 1 12 SPV
B1 0 N004 I=10u*dnlim(uplim(V(13A),V(1)+.2,.1), V(12)-.2, .1)+1n*V(13A)
B2 N004 0 I=10u*dnlim(uplim(V(6),V(1)+.21,.1), V(12)-.21, .1)+1n*V(6)
C6 N004 0 .2f Rpar=100K noiseless
C7 6 12 200f
C8 1 6 200f
C9 12 2 200f
C10 N014 13A 100f Rpar=.1 noiseless
C11 N018 13A 100f Rpar=.1 noiseless
R3 1 N026 200Meg noiseless
R7 N026 12 200Meg noiseless
M7 1 N025 8 8 N temp=27
M8 12 N025 8 8 P temp=27
D8 N025 8 YU
D9 8 N025 YD
G19 0 N025 N026 0 1<>
R11 N028 N030 {Rint} noiseless
C12 N029 N028 1p
R18 1 N029 100Meg noiseless
R19 N029 12 100Meg noiseless
G25 N029 0 N029 1 500m dir=1 vto=-.15
G26 0 N029 12 N029 500m dir=1 vto=.1
M9 1 N031 9 9 N temp=27
M10 12 N031 9 9 P temp=27
D10 N031 9 YU
D11 9 N031 YD
G27 0 N031 N029 0 1<>
C13 N031 0 .4f Rpar=1Meg noiseless
G28 13A N033 13A 9 10
C14 N035 N034 1p
R21 1 N035 200Meg noiseless
R22 N035 12 200Meg noiseless
G29 N035 0 N035 1 500m dir=1 vto=-.15
G30 0 N035 12 N035 500m dir=1 vto=.1
M11 1 N036 10 10 N temp=27
M12 12 N036 10 10 P temp=27
D12 N036 10 YU
D13 10 N036 YD
G31 0 N036 N035 0 1<>
C15 N036 0 .4f Rpar=1Meg noiseless
C16 N025 0 20f Rpar=1Meg noiseless
B3 0 N024 I=10u*dnlim(uplim(V(13A),V(1)+.2,.1), V(12)-.2, .1)+1n*V(13A)
B4 N024 0 I=10u*dnlim(uplim(V(7),V(1)+.21,.1), V(12)-.21, .1)+1n*V(7)
C17 N024 0 .2f Rpar=100K noiseless
C18 7 12 200f
C19 1 7 200f
C20 12 11 200f
C21 N030 13A 100f Rpar=.1 noiseless
C22 N033 13A 100f Rpar=.1 noiseless
R4 N011 N014 {Rint} noiseless
R14 N034 N033 {Rint} noiseless
C23 N023 12 10p
C27 N029 N028 .001f IC=0 Rser=1Meg noiseless
C28 N035 N034 .001f IC=0 Rser=1Meg noiseless
C24 1 13 1p Rpar=15k
C29 13 12 1p Rpar=15k
G1 N006 0 N006 1 500m dir=1 vto=-.15
G2 0 N006 12 N006 500m dir=1 vto=.1
A1 0 N004 0 0 0 0 N006 0 OTA g=318u iout=20.1u Cout=25p Vlow=-1e308 Vhigh=1e308
G4 N026 0 N026 1 500m dir=1 vto=-.15
G6 0 N026 12 N026 500m dir=1 vto=.1
C1 N021 0 .4f Rpar=1Meg noiseless
A3 N019 13A N017 0 0 0 N020 0 OTA g=2.43m iout=98u Cout=200p Vlow=-1e308 Vhigh=1e308
A5 N034 13A N017 0 0 0 N035 0 OTA g=2.43m iout=98u Rout=100Meg Cout=200p Vlow=-1e308 Vhigh=1e308
A6 N028 13A N017 0 0 0 N029 0 OTA g=2.43m iout=98u Cout=200p Vlow=-1e308 Vhigh=1e308
D14 N023 12 DPV1
R27 1 12 8.3k noiseless
A4 0 N024 0 0 0 0 N026 0 OTA g=318u iout=20.1u Cout=25p Vlow=-1e308 Vhigh=1e308
R28 N023 12 320k noiseless
G7 0 13A 13 0 10m
C31 13A 0 100<30> Rpar=100 noiseless
C32 1 5 1p
C33 5 12 1p
C34 1 4 1p
C35 4 12 1p
C36 1 3 1p
C37 3 12 1p
C38 1 8 1p
C39 8 12 1p
C40 1 9 1p
C41 9 12 1p
C42 1 10 1p
C43 10 12 1p
C25 N020 N019 .001f IC=0 Rser=1G noiseless
C26 N012 N011 .001f IC=0 Rser=1G noiseless
G10 0 N017 N023 12 10m
C45 N017 0 100<30> Rpar=100 noiseless
G18 N014 13A 5 13A 10
G17 N030 13A 8 13A 10
G9 13A N030 11 13A 10
.param Rint=1e14/(4.007*PI*fclk)
.model SBUF1 SW(Ron=.1 Roff=1Meg vt=-1 vh=-.2 noiseless)
.model SBUF2 SW(Ron=.1 Roff=1Meg vt=1 vh=-.2 noiseless)
.model YU D(Ron=1k Roff=1T Vfwd=3.01 epsilon=.1 noiseless)
.model YD D(Ron=1k Roff=1T Vfwd=1 epsilon=.1 noiseless)
.model N VDMOS(Vto=-140m Kp=14m)
.model P VDMOS(Vto=140m Kp=14m pchan)
.model SPV SW(Ron=720k Roff=10Meg vt=2.63 vh=-.7 noiseless)
.model DPV1 D(Ron=50k Roff=1Meg Vfwd=1 epsilon=200m noiseless)
.ends LTC1067-50
*
.subckt LT6236 1 2 3 4 5 6
A1 2 1 0 0 0 0 0 0 OTA g=0 in=1p ink=33.5 incm=2.2p incmk=33.5
B1 0 N004 I=10u*dnlim(uplim(V(1),V(4)-.9,.1), V(5)+1.4, .1)+1n*V(1)-1.1n
B2 N004 0 I=10u*dnlim(uplim(V(2),V(4)-.89,.1), V(5)+1.39, .1)+1n*V(2)
C10 N004 0 .5f Rpar=100K noiseless
M1 3 N012 5 5 NI temp=27
C2 4 3 1p Rpar=200Meg noiseless
D5 N012 5 DLIMN1
M2 3 N008 4 4 PI temp=27
D8 4 N008 DLIMP1
C3 4 N008 1f Rser=50Meg noiseless
A3 N009 N010 5 5 5 5 N008 5 OTA g=20n ref=-.94 linear vlow=-1e308 vhigh=1e308
C11 3 5 1p Rpar=200Meg noiseless
C12 N012 5 1f Rser=50Meg noiseless
C16 N010 3 50f
A5 N007 0 N009 N009 N009 N009 N010 N009 OTA g=65u iout=3.78u Vhigh=1e308 Vlow=-1e308
G1 5 N012 N010 N009 20n
C7 4 1 1.45p Rser=200 Rpar=40Meg noiseless
C13 4 5 1000p Rpar=190Meg noiseless
S1 N010 N009 0 N005 SHUT2
C1 N006 0 17p
C17 5 6 500f Rpar=100Meg noiseless
G2 0 N009 5 0 .5m
G4 0 N009 4 0 .5m
C18 N009 0 200p Rpar=1K noiseless
D1 2 1 DIN
D3 4 6 DSHUT
S4 N008 4 0 N005 SHUT1
S2 5 N012 0 N005 SHUT1
S3 5 2 N005 0 SBIAS
S5 5 1 N005 0 SBIAS
S7 4 5 N005 0 SPOW
D2 4 N008 DLIMP2
D4 N012 5 DLIMN2
C8 2 1 6.25p Rser=100 noiseless
G3 0 N007 N006 0 1m
L1 N007 0 8.6<EFBFBD> Cpar=12.7f Rser=1.09k Rpar=12.1k noiseless
D6 N006 0 DLIM1
C4 4 2 1.45p Rser=200 Rpar=40Meg noiseless
C5 1 5 1.45p Rser=200 Rpar=40Meg noiseless
C6 2 5 1.45p Rser=200 Rpar=40Meg noiseless
C9 N007 3 15f
D7 N010 N009 DLIM2
A2 6 4 0 0 0 N005 0 0 SCHMITT Vt=-.4 trise=1u tfall=90u
A4 0 N004 0 0 0 0 N006 0 OTA g=1m linear enk=201 en=1.09n+.25n*(1+tanh(log(freq/1e6)))/(dnlim(freq-40Meg,10Meg,10Meg)/10Meg) enk=201 Vlow=-1e308 Vhigh=1e308
.model DSHUT D(Ron=170k Roff=1G Vfwd=2 epsilon=100m noiseless)
.model DIN D(Ron=100 Roff=7.5k Vfwd=.8 epsilon=.1 Vrev=.8 revepsilon=.1 noiseless)
.model SBIAS SW(level=2 Ron=5k Roff=10G vt=.5 vh=-.1 ilimit=5u vser=.8 noiseless )
.model SPOW SW(Ron=92.6k Roff=1G vt=.5 vh=.1 noiseless)
.model SHUT1 SW(Ron=10k Roff=100G vt=-.8 vh=-100m Vser=295m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=120m Rd=8)
.model PI VDMOS(Vto=-300m Kp=120m Rd=8 pchan)
.model DSLIM D(Ron=100 Roff=1k Vfwd=1.5 Vrev=.1 epsilon=.1 revepsilon=.1 noiseless)
.model DLIM1 D(Ron=1 Roff=1k Vfwd=70m epsilon=10m Vrev=70m revepsilon=10m noiseless)
.model DLIM2 D(Ron=1k Roff=70Meg Vfwd=2.1 epsilon=.1 Vrev=1.9 revepsilon=.1 noiseless)
.model DLIMN1 D(Ron=1k Roff=100Meg Vfwd=1.05 Vrev=-300m epsilon=.1 revepsilon=10m noiseless)
.model DLIMN2 D(Ron=30Meg Vfwd=.3 epsilon=.2 noiseless)
.model DLIMP1 D(Ron=1k Roff=100Meg Vfwd=1.05 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DLIMP2 D(ron=30Meg Vfwd=.3 epsilon=.2 noiseless)
.ends LT6236
*
.subckt LT6237 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=2.4p ink=33.5
B1 0 N004 I=10u*dnlim(uplim(V(1),V(4)-.9,.1), V(5)+1.4, .1)+1n*V(1)-1.033327545n
B2 N004 0 I=10u*dnlim(uplim(V(2),V(4)-.89,.1), V(5)+1.39, .1)+1n*V(2)
C10 N004 0 .5f Rpar=100K noiseless
M1 3 N011 5 5 NI temp=27
C2 4 3 1p Rpar=200Meg noiseless
D5 N011 5 DLIMN1
M2 3 N007 4 4 PI temp=27
D8 4 N007 DLIMP1
C3 4 N007 1f Rser=50Meg noiseless
A3 N008 N009 5 5 5 5 N007 5 OTA g=20n ref=-.94 linear vlow=-1e308 vhigh=1e308
C11 3 5 1p Rpar=200Meg noiseless
C12 N011 5 1f Rser=50Meg noiseless
C16 N009 3 50f
A5 N006 0 N008 N008 N008 N008 N009 N008 OTA g=65u iout=3.78u Vhigh=1e308 Vlow=-1e308
G1 5 N011 N009 N008 20n
C7 4 1 1.45p Rser=200 Rpar=40Meg noiseless
C13 4 5 1000p Rpar=92.6k noiseless
C1 N005 0 17p
G2 0 N008 5 0 .5m
G4 0 N008 4 0 .5m
C18 N008 0 200p Rpar=1K noiseless
D1 2 1 DIN
D2 4 N007 DLIMP2
D4 N011 5 DLIMN2
C8 2 1 6.25p Rser=100 noiseless
G3 0 N006 N005 0 1m
L1 N006 0 8.6<EFBFBD> Cpar=12.7f Rser=1.09k Rpar=12.1k noiseless
D6 N005 0 DLIM1
C4 4 2 1.45p Rser=200 Rpar=40Meg noiseless
C5 1 5 1.45p Rser=200 Rpar=40Meg noiseless
C6 2 5 1.45p Rser=200 Rpar=40Meg noiseless
C9 N006 3 15f
D7 N009 N008 DLIM2
D3 2 5 DBIAS
D9 1 5 DBIAS
A2 0 N004 0 0 0 0 N005 0 OTA g=1m linear enk=201 en=1.09n+.25n*(1+tanh(log(freq/1e6)))/(dnlim(freq-40Meg,10Meg,10Meg)/10Meg) enk=201 Vlow=-1e308 Vhigh=1e308
.model DSHUT D(Ron=170k Roff=1G Vfwd=2 epsilon=100m noiseless)
.model DIN D(Ron=100 Roff=7.5k Vfwd=.8 epsilon=.1 Vrev=.8 revepsilon=.1 noiseless)
.model DBIAS D(Ron=5k Roff=1G Vfwd=.75 epsilon=50m ilimit=5u noiseless)
.model SHUT1 SW(Ron=10k Roff=100G vt=-.8 vh=-100m Vser=295m noiseless)
.model SHUT2 SW(Ron=1k Roff=100G vt=-.8 vh=-100m noiseless)
.model NI VDMOS(Vto=300m kp=120m Rd=8)
.model PI VDMOS(Vto=-300m Kp=120m Rd=8 pchan)
.model DSLIM D(Ron=100 Roff=1k Vfwd=1.5 Vrev=.1 epsilon=.1 revepsilon=.1 noiseless)
.model DLIM1 D(Ron=1 Roff=1k Vfwd=70m epsilon=10m Vrev=70m revepsilon=10m noiseless)
.model DLIM2 D(Ron=1k Roff=70Meg Vfwd=2.1 epsilon=.1 Vrev=1.9 revepsilon=.1 noiseless)
.model DLIMN1 D(Ron=1k Roff=100Meg Vfwd=1.05 Vrev=-300m epsilon=.1 revepsilon=10m noiseless)
.model DLIMN2 D(Ron=30Meg Vfwd=.3 epsilon=.2 noiseless)
.model DLIMP1 D(Ron=1k Roff=100Meg Vfwd=1.05 Vrev=-300m epsilon=10m revepsilon=10m noiseless)
.model DLIMP2 D(ron=30Meg Vfwd=.3 epsilon=.2 noiseless)
.ends LT6237
*
.subckt LTC6752 1 2 3 4 5
B1 0 N001 I=10u*dnlim(uplim(V(1),V(3)+.15,.1), V(4)-.2 ,.1)+1n*V(1)
B2 N001 0 I=10u*dnlim(uplim(V(2),V(3)+.15,.1), V(4)-.21, .1)+1n*V(2)
C1 N001 0 1f Rpar=1Meg
D5 0 VDH DLAT
C4 2 4 .55p
C10 1 4 .55p
M3 5 N0 4 4 NI temp=27
M4 5 P0 3 3 PI temp=27
C7 3 5 1p
C8 5 4 1p
C5 3 2 .55p Rpar=10Meg
B3 0 N001 I=29n*tanh(V(VDH)/1m)
C9 3 P0 4.9f Rpar=1Meg
G2 N0 4 N0 3 10m vto=0 dir=1
G3 3 P0 4 P0 10m vto=-482m dir=1
C2 N0 4 5f Rpar=1Meg
B4 P0 4 I=1.18*uplim(12u*(V(VDH)+90m),1.19u*V(VILIM) ,1u)*(.5+.5*tanh(V(3,P0)/100m))
B5 3 N0 I=1.18*uplim(15u*(90m-V(VDH)),1u*V(VILIMF),1u)*(.5+.5*tanh(V(N0,4)/100m))
C12 VILIM 0 100p Rpar=1k
G5 0 VILIM 3 4 table(1.6 6.5m 1.8 6m 2 6.2m 2.4 8m 2.6 8m 3.2 9m 3.6 9m)
D1 N001 0 DVGAIN
C13 VILIMF 0 100p Rpar=1k
G6 0 VILIMF 3 4 table(1.6 6m 1.8 6.8m 2 7.9m 2.2 9m 2.4 10m 3.0 11m 3.6 10m)
D2 3 2 DBIASR
D4 2 4 DBIASF
D7 3 1 DBIASR
D8 1 4 DBIASF
D11 3 4 DBURN
A2 0 N001 0 0 0 0 VDH 0 OTA g=1.8m iout=100u Cout=56f Vlow=-1e308 Vhigh=1e308
D14 5 3 DESD
D15 4 5 DESD
D17 2 3 DESD
D16 4 2 DESD
D18 2 1 DBIASC
C19 3 1 .55p Rpar=10Meg
D9 1 3 DESD
D19 4 1 DESD
R2 3 4 2.67k
.model DVGAIN D(Ron=100k Roff=500k vfwd=15m epsilon=15m vrev=15m revepsilon=15m)
.model DLAT D(Ron=1 Roff=10k Vfwd=1 Vrev=1 epsilon=.9 revepsilon=.9)
.model DBURN D(Ron=100 Roff=1Meg vfwd=600m epsilon=500m ilimit=3.56m)
.model DBIASC D(Ron=1k Roff=100Meg Ron=57k vfwd=10u vrev=10u epsilon=10u revepsilon=10u ilimit=.8u revilimit=.8u)
.model NI VDMOS(Vto=600m kp=12m mtriode= 3 lambda=.1 Rs=8)
.model PI VDMOS(Vto=-600m Kp=24m mtriode=1.9 lambda=.08 pchan)
.model DBIASF D(Ron=300k Roff=1G vfwd=1.3 epsilon=200m ilimit=.33u )
.model DBIASR D(Ron=100k Roff=1G vfwd=1 epsilon=200m ilimit=1.2u )
.model DESD D(Ron=100 Roff=1G vfwd=650m epsilon=500m)
.ends LTC6752
*
.subckt LTC6752-2 1 2 3 4 5 6 7 8
B1 0 N003 I=10u*dnlim(uplim(V(4),V(2)+.15,.1), V(3)-.2 ,.1)+1n*V(4)
B2 N003 0 I=10u*dnlim(uplim(V(5),V(2)+.15,.1), V(3)-.21, .1)+1n*V(5)
C1 N003 0 1f Rpar=1Meg
D5 0 VDH DLAT
C4 5 3 .55p
C10 4 3 .55p
M3 8 N0 3 3 NI temp=27
M4 8 P0 1 1 PI temp=27
C7 1 8 1p
C8 8 3 1p
C5 2 5 .55p Rpar=10Meg
R3 2 6 350k
A6 N007 0 N008 0 0 0 VDH 0 OTA g=500u linear Vlow=-1e308 Vhigh=1e308
D6 0 N007 DLAT
C3 N007 0 1p
G1 0 N007 0 VDH 500<30>
R4 N005 7 20k
A8 7 3 0 0 0 N002 0 0 SCHMITT vt=.3 vh=0 trise=7.2n tfall=6n
S5 N005 2 3 N005 SW1p25
C11 VH 0 1p Rpar=2k
B3 0 N003 I=5u*V(VH)*tanh(V(VDH)/1m)
G4 0 VH 7 3 Table(750m 47u 917m 25u 1 15u 1.06 10u 1.08 8.5u 1.167 5.2u 1.227 5u 1.47 0)
S6 0 VH 7 3 SHYOFF
C9 1 P0 4.9f Rpar=1Meg
S1 N0 3 0 ON SoffN
S7 1 P0 0 ON SoffP
G2 N0 3 N0 Vmax 10m vto=0 dir=1
G3 1 P0 Vmin P0 10m vto=0 dir=1
C2 N0 3 5f Rpar=1Meg
B4 P0 3 I=1.18*uplim(12u*(V(VDH)+90m),1.2u* (.234*V(Vmin,3)+.88) *V(VILIM) ,1u)*(.5+.5*tanh(V(1,P0)/100m))
B5 1 N0 I=1.18*uplim(15u*(90m-V(VDH)),1u*(1+.2*V(Vmax,1))*V(VILIMF),1u)*(.5+.5*tanh(V(N0,3)/100m))
C12 VILIM 0 100p Rpar=1k
G5 0 VILIM 1 3 table(1.6 6.5m 1.8 6m 2 6.2m 2.4 8m 2.6 8m 3.2 9m 3.6 9m)
D1 N003 0 DVGAIN
C13 VILIMF 0 100p Rpar=1k
G6 0 VILIMF 1 3 table(1.6 6m 1.8 6.8m 2 7.9m 2.2 9m 2.4 10m 3.0 11m 3.6 10m)
D3 7 3 DBLE
D2 2 5 DBIASR
D4 5 3 DBIASF
S2 3 2 ON 0 SVCCP
D7 2 4 DBIASR
D8 4 3 DBIASF
C14 N005 3 1p Rpar=100k
A5 N002 0 0 0 0 0 N008 0 BUF trise=2n tfall=2n
A4 1 2 1 1 1 1 Vmax 1 OTA g=550u iout=550u Rout=1k Cout=10p vlow=0 vhigh=1e308
A3 2 3 3 3 3 3 Vmin 3 OTA g=400u iout=500u ref=5 Rout=1k Cout=10p vlow=0 vhigh=1e308
D10 2 3 DBURNSD
R1 2 3 28.8k
D11 1 3 DBURNSD2
S8 3 1 ON 0 SVDDP
S9 3 1 ON 0 SVDDP2
A2 0 N003 0 0 0 0 VDH 0 OTA g=1.8m iout=100u Cout=56f Vlow=-1e308 Vhigh=1e308
S10 0 VDH 0 ON SOFF
A1 3 6 0 0 0 0 ON 0 OTA g=21u iout=7u ref=-.9 Rout=200k Cout=750f vlow=-1 vhigh=1
D14 8 1 DESD
D15 3 8 DESD
D17 5 2 DESD
D16 3 5 DESD
D18 5 4 DBIASC
C19 2 4 .55p Rpar=10Meg
D9 4 2 DESD
D19 3 4 DESD
D20 6 2 DESD
D21 3 6 DESD
C6 6 3 500f
R2 1 3 55k
.model SVCCP SW(level=2 Ron=50 Roff=1Meg Vt=.5 Vh=-.2 ilimit=1.52m)
.model SVDDP SW(level=2 Ron=10 Roff=1Meg vt=.5 vh=-.2 ilimit=1.86m)
.model SVDDP2 SW(Ron=3.75k Roff=1Meg vt=.5 vh=-.2)
.model DBURNSD D(Ron=100 Roff=1Meg vfwd=1.6 epsilon=500m ilimit=274u)
.model DVGAIN D(Ron=100k Roff=500k vfwd=15m epsilon=15m vrev=15m revepsilon=15m)
.model DBURNSD2 D(Ron=1k Roff=1Meg vfwd=750m epsilon=500m ilimit=129u)
.model SW1p25 SW(Ron=100 Roff=1g vt=-1.2515 vh=-10m)
.model SHYOFF SW(Ron=1 Roff=2k vt=1.65 vh=-100m)
.model DBLE D(Ron=34k Roff=1Meg vfwd=1.3 epsilon=100m)
.model SoffN SW(level=2 Ron=10k Roff=100Meg vt=-.2 vh=-.2 )
.model SoffP SW(level=2 Ron=10k Roff=100Meg vt=-.2 vh=-.2 )
.model DLAT D(Ron=1 Roff=10k Vfwd=1 Vrev=1 epsilon=.9 revepsilon=.9)
.model NI VDMOS(Vto=600m kp=12m mtriode= 3 lambda=.1 Rs=8)
.model PI VDMOS(Vto=-600m Kp=24m mtriode=1.9 lambda=.08 pchan)
.model DBIASF D(Ron=300k Roff=1G vfwd=1.3 epsilon=200m ilimit=.33u )
.model DBIASR D(Ron=100k Roff=1G vfwd=1 epsilon=200m ilimit=1.2u )
.model SOFF SW(Ron=1 Roff=100Meg vt=0 vh=-.2)
.model DESD D(Ron=100 Roff=1G vfwd=650m epsilon=500m)
.model DBIASC D(Ron=1k Roff=100Meg Ron=57k vfwd=10u vrev=10u epsilon=10u revepsilon=10u ilimit=.8u revilimit=.8u)
.ends LTC6752-2
*
.subckt LTC6752-3 1 2 3 4 5 6 7 8 9
B1 0 N003 I=10u*dnlim(uplim(V(4),V(2)+.15,.1), V(3)-.2 ,.1)+1n*V(4)
B2 N003 0 I=10u*dnlim(uplim(V(5),V(2)+.15,.1), V(3)-.21, .1)+1n*V(5)
C1 N003 0 1f Rpar=1Meg
D5 0 VDH DLAT
C4 5 3 .55p
C10 4 3 .55p
M3 9 N0 3 3 NI temp=27
M4 9 P0 1 1 PI temp=27
C7 1 9 1p
C8 9 3 1p
C5 2 5 .55p Rpar=10Meg
R3 2 6 350k
A6 N007 0 N008 0 0 0 VDH 0 OTA g=500u linear Vlow=-1e308 Vhigh=1e308
D6 0 N007 DLAT
C3 N007 0 1p
G1 0 N007 0 VDH 500<30>
R4 N005 7 20k
A8 7 3 0 0 0 N002 0 0 SCHMITT vt=.3 vh=0 trise=7.2n tfall=6n
S5 N005 2 3 N005 SW1p25
C11 VH 0 1p Rpar=2k
B3 0 N003 I=5u*V(VH)*tanh(V(VDH)/1m)
G4 0 VH 7 3 Table(750m 47u 917m 25u 1 15u 1.06 10u 1.08 8.5u 1.167 5.2u 1.227 5u 1.47 0)
S6 0 VH 7 3 SHYOFF
C9 1 P0 4.9f Rpar=1Meg
S1 N0 3 0 ON SoffN
S7 1 P0 0 ON SoffP
G2 N0 3 N0 Vmax 10m vto=0 dir=1
G3 1 P0 Vmin P0 10m vto=0 dir=1
C2 N0 3 5f Rpar=1Meg
B4 P0 3 I=uplim(12u*(V(VDH)+90m),1.2u* (.234*V(Vmin,3)+.88) *V(VILIM) ,1u)*(.5+.5*tanh(V(1,P0)/100m))
B5 1 N0 I=uplim(15u*(90m-V(VDH)),1u*(1+.2*V(Vmax,1))*V(VILIMF),1u)*(.5+.5*tanh(V(N0,3)/100m))
C12 VILIM 0 100p Rpar=1k
G5 0 VILIM 1 3 table(1.6 6.5m 1.8 6m 2 6.2m 2.4 8m 2.6 8m 3.2 9m 3.6 9m)
D1 N003 0 DVGAIN
C13 VILIMF 0 100p Rpar=1k
G6 0 VILIMF 1 3 table(1.6 6m 1.8 6.8m 2 7.9m 2.2 9m 2.4 10m 3.0 11m 3.6 10m)
D3 7 3 DBLE
D2 2 5 DBIASR
D4 5 3 DBIASF
S2 3 2 ON 0 SVCCP
D7 2 4 DBIASR
D8 4 3 DBIASF
C14 N005 3 1p Rpar=100k
A5 N002 0 0 0 0 0 N008 0 BUF trise=2n tfall=2n
A4 1 2 1 1 1 1 Vmax 1 OTA g=550u iout=550u Rout=1k Cout=10p vlow=0 vhigh=1e308
A3 2 3 3 3 3 3 Vmin 3 OTA g=400u iout=500u ref=5 Rout=1k Cout=10p vlow=0 vhigh=1e308
M1 8 N0B 3 3 NI temp=27
M2 8 P0B 1 1 PI temp=27
C15 1 8 1p
C16 8 3 1p
C17 1 P0B 4.9f Rpar=1Meg
S3 N0B 3 0 ON SoffN
S4 1 P0B 0 ON SoffP
G7 N0B 3 N0B Vmax 10m vto=0 dir=1
G8 1 P0B Vmin P0B 10m vto=0 dir=1
C18 N0B 3 5f Rpar=1Meg
B6 P0B 3 I=uplim(12u*(90m-V(VDH)),1.2u* (.234*V(Vmin,3)+.88) *V(VILIM) ,1u)*(.5+.5*tanh(V(1,P0B)/100m))
B7 1 N0B I=uplim(15u*(V(VDH)+90m),1u*(1+.2*V(Vmax,1))*V(VILIMF),1u)*(.5+.5*tanh(V(N0B,3)/100m))
D10 2 3 DBURNSD
R1 2 3 28.8k
D11 1 3 DBURNSD2
S8 3 1 ON 0 SVDDP
S9 3 1 ON 0 SVDDP2
A2 0 N003 0 0 0 0 VDH 0 OTA g=1.8m iout=100u Cout=40f Vlow=-1e308 Vhigh=1e308
S10 0 VDH 0 ON SOFF
A1 3 6 0 0 0 0 ON 0 OTA g=21u iout=7u ref=-.9 Rout=200k Cout=750f vlow=-1 vhigh=1
D12 3 8 DESD
D13 8 1 DESD
D14 9 1 DESD
D15 3 9 DESD
D17 5 2 DESD
D16 3 5 DESD
D18 5 4 DBIASC
C19 2 4 .55p Rpar=10Meg
D9 4 2 DESD
D19 3 4 DESD
D20 6 2 DESD
D21 3 6 DESD
C6 6 3 500f
.model SVCCP SW(level=2 Ron=50 Roff=1Meg Vt=.5 Vh=-.2 ilimit=1.52m)
.model SVDDP SW(level=2 Ron=10 Roff=1Meg vt=.5 vh=-.2 ilimit=1.66m)
.model SVDDP2 SW(Ron=1.15k Roff=1Meg vt=.5 vh=-.2)
.model DBURNSD D(Ron=100 Roff=1Meg vfwd=1.6 epsilon=500m ilimit=274u)
.model DVGAIN D(Ron=100k Roff=500k vfwd=15m epsilon=15m vrev=15m revepsilon=15m)
.model DBURNSD2 D(Ron=4.2k Roff=1Meg vfwd=750m epsilon=500m ilimit=300u)
.model SW1p25 SW(Ron=100 Roff=1g vt=-1.2515 vh=-10m)
.model SHYOFF SW(Ron=1 Roff=2k vt=1.65 vh=-100m)
.model DBLE D(Ron=34k Roff=1Meg vfwd=1.3 epsilon=100m)
.model SoffN SW(level=2 Ron=10k Roff=100Meg vt=-.2 vh=-.2 )
.model SoffP SW(level=2 Ron=10k Roff=100Meg vt=-.2 vh=-.2 )
.model DLAT D(Ron=1 Roff=10k Vfwd=1 Vrev=1 epsilon=.9 revepsilon=.9)
.model NI VDMOS(Vto=600m kp=12m mtriode= 3 lambda=.1 Rs=8)
.model PI VDMOS(Vto=-600m Kp=24m mtriode=1.9 lambda=.08 pchan)
.model DBIASF D(Ron=300k Roff=1G vfwd=1.3 epsilon=200m ilimit=.33u )
.model DBIASR D(Ron=100k Roff=1G vfwd=1 epsilon=200m ilimit=1.2u )
.model SOFF SW(Ron=1 Roff=100Meg vt=0 vh=-.2)
.model DESD D(Ron=100 Roff=1G vfwd=650m epsilon=500m)
.model DBIASC D(Ron=1k Roff=100Meg Ron=57k vfwd=10u vrev=10u epsilon=10u revepsilon=10u ilimit=.8u revilimit=.8u)
.ends LTC6752-3
*
.subckt LT6275 1 2 3 4 5
A1 2 1 0 0 0 0 0 0 OTA g=0 in=484f ink=67
C2 2 1 400f Rser=150 Rpar=20Meg noiseless
B1 0 N004 I=10u*dnlim(uplim(V(1),V(3)-1.5,.1), V(4)+1.7, .1)+1n*V(1)
B2 N004 0 I=10u*dnlim(uplim(V(2),V(3)-1.49,.1), V(4)+1.69, .1)+1n*V(2)
C10 N004 0 6f Rpar=100K noiseless
C13 N005 5 3p Rser=2k noiseless
C6 3 1 1.5p Rpar=1.4G Rser=500 noiseless
G2 0 XX N007 0 1<>
D5 N007 0 DNLSlew1
M1 N006 N005 N008 N008 N temp=27
M2 N011 N005 N008 N008 P temp=27
C4 3 N008 500f
C5 N008 4 500f
C8 3 N005 1.2p Rpar=100Meg noiseless
C11 N005 4 1.2p Rpar=100Meg noiseless
G4 XX 0 N005 3 100<30> vto=-1.055 dir=1
G5 0 XX 4 N005 100<30> vto=-1.055 dir=1
R1 5 N008 8 noiseless
S1 4 N005 N005 5 Soutfb
S2 N005 3 5 N005 Soutfb
D1 N007 0 DNLSlew2
C19 N005 5 25p Rser=8k noiseless
C12 3 5 500f
C18 5 4 500f
C20 N005 5 1p Rser=10k noiseless
B3 3 N005 I=dnlim(632u*V(XX),100u,50u)
B4 N005 4 I=-632u*V(XX)+dnlim(632u*V(XX),100u,50u)
C7 3 2 1.5p Rpar=1.4G Rser=500 noiseless
C1 1 4 1.5p Rpar=1.4G Rser=500 noiseless
C9 2 4 1.5p Rpar=1.4G Rser=500 noiseless
D2 3 N006 DN
D4 N011 4 DP
A2 0 N004 0 0 0 0 N007 0 OTA g=1m linear en=9.76n enk=45 Rout=2.4k vlow=-1e308 vhigh=1e308
C3 N007 N010 120f
A3 N007 0 0 0 0 0 N010 0 OTA g=1 iout=200m Rout=20 vlow=-1e308 vhigh=1e308
R2 XX 0 1Meg noiseless
C14 3 4 10p Rpar=215K noiseless
A4 3 N006 3 3 3 3 N005 3 OTA g=108n iout=1u vlow=-1e308 vhigh=1e308
A5 4 N011 4 4 4 4 N005 4 OTA g=72n iout=1u vlow=-1e308 vhigh=1e308
D3 N007 0 DNLSlew3
.model N VDMOS(Vto=-55m Kp=900m noiseless)
.model P VDMOS(Vto=55m Kp=900m pchan noiseless
.model DLS D(Ron=10 Roff=100Meg vfwd=200m epsilon=100m vrev=200m revepsilon=100m noiseless)
.model DN D(Roff=60 Ron=60 ilimit=90m noiseless)
.model DP D(Roff=90 Ron=90 ilimit=90m noiseless)
.model Soutfb SW(level=2 Ron=15M Roff=100G vt=710m vh=-100m ilimit=400u noiseless)
.model DNLSlew1 d(ron=4.33k roff=4.33k vfwd=0 vrev=0 ilimit=700u revilimit=700u noiseless)
.model DNLSlew2 d(ron=2.84k roff=2.84k vfwd=0 vrev=0 revilimit=1m noiseless)
.model DNLSlew3 d(ron=100 roff=50k vfwd=8.2 vrev=10 epsilon=200m revepsilon=200m noiseless)
.ends LT6275
*
.subckt LTC6561 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
C6 MID1 0 900f Rpar=1k noiseless
B2 0 MID1 I=1m*(V(ch1_st1_out,8)-1.70086)*(.5+.5*tanh((V(ch1_on)-.5)/10m))
C14 6 8 1p Rpar=1.4K noiseless
C15 2 8 1.5p Rpar=29k noiseless
A8 2 8 0 0 0 _Chsel0 Chsel0 0 SCHMITT vt=1.15 vh=350m trise=5n
A5 _Chsel0 0 _Chsel1 0 _HiZ 0 ch1_on 0 AND trise=1n
A9 Chsel0 0 _Chsel1 0 _HiZ 0 ch2_on 0 AND trise=1n
A10 _Chsel0 0 Chsel1 0 _HiZ 0 ch3_on 0 AND trise=1n
A11 Chsel0 0 Chsel1 0 _HiZ 0 ch4_on 0 AND trise=1n
C26 7 8 1p Rpar=1.4K noiseless
R2 ch1_st1_out 9 7.86K
C30 N004 9 440f
C31 3 N004 6p Rser=15 Rpar=29.5 noiseless
G7 0 X1 3 N004 1m
C32 X1 0 12f Rpar=30.3k noiseless
A13 0 N005 PowOK 8 8 8 N004 8 OTA g=28m asym ref=-79.1m isource=1u isink=-4.4m in=1p/(1+freq/300Meg) vlow=0 vhigh=1e308
G8 0 N005 4 9 1m
C33 N005 0 30f Rpar=1k noiseless
C34 9 8 400f Rser=1.75k Rpar=1Meg noiseless
D4 9 8 Din
C36 4 8 1p Rpar=1.4K noiseless
C46 5 8 1p Rpar=1.4K noiseless
B9 0 MID1 I=1m*(V(ch2_st1_out,8)-1.70086)*(.5+.5*tanh((V(ch2_on)-.5)/10m))
B10 0 MID1 I=1m*(V(ch3_st1_out,8)-1.70086)*(.5+.5*tanh((V(ch3_on)-.5)/10m))
B11 0 MID1 I=1m*(V(ch4_st1_out,8)-1.70086)*(.5+.5*tanh((V(ch4_on)-.5)/10m))
B12 8 PowOK I= uplim(dnlim(400n*V(3,8)-.71u,0,10n)+dnlim(10n*V(3,8),0,10n),1u,10n)
C50 PowOK 8 1p Rpar=1Meg noiseless
B14 8 4 I=1.057148m*dnlim(uplim(.8*(V(3,8)-.8),.25,100m)+uplim(.235*(V(3,8)-1),.75,10m),0,.1)+uplim(dnlim(30u*V(3,8),0,1u),50u,1u)
C52 1 8 5p
C53 3 8 5p Rpar=3k noiseless
A14 0 N004 0 0 0 0 0 0 OTA in=12.5p
A2 0 9 0 0 0 0 0 0 OTA in= 4.9p/dnlim((freq/1e6)**.12,.5,.1) +800f*(1+freq/600Meg)
C3 N010 10 440f
C5 3 N010 6p Rser=15 Rpar=29.5 noiseless
G2 0 X2 3 N010 1m
C7 X2 0 12f Rpar=30.3k noiseless
G3 0 N011 5 10 1m
C8 N011 0 30f Rpar=1k noiseless
C9 10 8 400f Rser=1.75k Rpar=1Meg noiseless
D1 10 8 Din
C12 N017 11 440f
C13 3 N017 6p Rser=15 Rpar=29.5 noiseless
G4 0 X3 3 N017 1m
C17 X3 0 12f Rpar=30.3k noiseless
G5 0 N019 6 11 1m
C18 N019 0 30f Rpar=1k noiseless
C19 11 8 400f Rser=1.75k Rpar=1Meg noiseless
D3 11 8 Din
C23 N024 12 440f
C24 3 N024 6p Rser=15 Rpar=29.5 noiseless
G6 0 X4 3 N024 1m
C25 X4 0 12f Rpar=30.3k noiseless
G9 0 N026 7 12 1m
C29 N026 0 30f Rpar=1k noiseless
C35 12 8 400f Rser=1.75k Rpar=1Meg noiseless
D5 12 8 Din
D10 1 8 Dleak1
B16 3 8 I=uplim(5m*MAX(V(3,8)-1.5,0)**1.5,20m,1m)
D6 3 8 Dleak0
G14 0 MID1BUF MID1 0 1
R12 MID1BUF 0 10 noiseless
D8 MID1BUF MID1DECAY DSAT
C44 MID1DECAY 0 1p Rpar=100k noiseless
S1 MID1DECAY N016 0 Sat SSAT2
C45 GainLoss 0 1p Rpar=1k noiseless
B23 0 GainLoss0 I=1m*uplim(dnlim(250m*(.1*dnlim(V(MID1BUF),V(MID1DECAY),.1)-111m),0,10m),700m,10m)
G1 0 GainLoss GainLoss0 0 1m
I1 N016 0 200m
C51 N016 0 10p Rpar=10 noiseless
B28 0 GainlossM1 I=1u*dnlim(V(GainLoss0,GainLoss),0,100u)
C55 mid_out 0 300f Rpar=1k noiseless
S3 0 GainLoss0 0 MID1 SGLLin
B19 0 Sat I=1m*dnlim(V(MID1)-100m,0,10m)
C4 Sat 0 2.5p Rpar=1k noiseless
I2 0 N015 200m
C43 N015 0 10p Rpar=10 noiseless
S4 N015 MID1DECAY 0 Sat SSAT1
C42 GainLoss0 0 100f Rpar=1k noiseless
R11 OutPreBuf 8 1Meg noiseless
D9 15 8 DI0
M3 1 N021 15 15 NOUT temp=27
C61 1 N021 10f Rpar=20Meg noiseless
C62 N021 8 10f Rpar=20Meg noiseless
S5 1 N021 15 N021 SlimOL
D11 N021 15 DCL
C63 16 8 100f noiseless
R13 15 16 50
A19 15 OutPreBuf PowOK 8 8 8 N021 8 OTA g=100u iout=1m vlow=0 vhigh=5
C1 GainlossM1 0 12f Rpar=2Meg Rser=10k noiseless
B3 0 GainlossM0 I=1m*dnlim(V(GainLoss0,GainLoss),0,100u)
C41 GainlossM0 0 100f Rpar=1k noiseless
G15 0 N008 mid_out 0 100m
R7 N008 0 100 noiseless
C54 N008 SlimSensA 1p
R8 SlimSensA 0 100 noiseless
C57 slewfac 0 1p Rpar=1k noiseless
B18 0 slewfac I=3m+2m*tanh((V(mid1)-1)/400m)
B17 0 mid_out I=dnlim(5m*uplim(.1*dnlim(V(MID1BUF),V(MID1DECAY),.1)-dnlim(.95*(.1*dnlim(V(MID1BUF),V(MID1DECAY),.1)-200m),0,20m),200m,30m)*(.5+.5*tanh((400m-V(SlimSensA))/10m)),-100u,10u)
S2 GainlossM1 0 0 mid_out SGLKILL
G16 mid_out 0 GainlossM1 0 2m
R1 ch2_st1_out 10 7.86K
R4 ch3_st1_out 11 7.86K
R5 ch4_st1_out 12 7.86K
B1 8 5 I=1.057148m*dnlim(uplim(.8*(V(3,8)-.8),.25,100m)+uplim(.235*(V(3,8)-1),.75,10m),0,.1)+uplim(dnlim(30u*V(3,8),0,1u),50u,1u)
B13 8 6 I=1.057148m*dnlim(uplim(.8*(V(3,8)-.8),.25,100m)+uplim(.235*(V(3,8)-1),.75,10m),0,.1)+uplim(dnlim(30u*V(3,8),0,1u),50u,1u)
B15 8 7 I=1.057148m*dnlim(uplim(.8*(V(3,8)-.8),.25,100m)+uplim(.235*(V(3,8)-1),.75,10m),0,.1)+uplim(dnlim(30u*V(3,8),0,1u),50u,1u)
C59 8 ch1_st1_out 10f Rpar=2k noiseless
D2 8 N007 DSUB
R9 9 N007 10 noiseless
C39 Inode1 0 10p Rpar=100 noiseless
G13 0 Inode1 9 N007 100m
I6 Inode1 0 10<31>
C58 N007 8 10f
B21 9 8 I=dnlim(45m*V(Inode1),0,5u)
C2 8 ch2_st1_out 10f Rpar=2k noiseless
B20 10 8 I=dnlim(45m*V(Inode2),0,5u)
B22 11 8 I=dnlim(45m*V(Inode3),0,5u)
B24 12 8 I=dnlim(45m*V(Inode4),0,5u)
C10 8 ch3_st1_out 10f Rpar=2k noiseless
C20 8 ch4_st1_out 10f Rpar=2k noiseless
D7 8 N013 DSUB
R3 10 N013 10 noiseless
C40 Inode2 0 10p Rpar=100 noiseless
G10 0 Inode2 10 N013 100m
I3 Inode2 0 10<31>
C56 N013 8 10f
D13 8 N020 DSUB
R10 11 N020 10 noiseless
C60 Inode3 0 10p Rpar=100 noiseless
G17 0 Inode3 11 N020 100m
I8 Inode3 0 10<31>
C64 N020 8 10f
D14 8 N028 DSUB
R14 12 N028 10 noiseless
C65 Inode4 0 10p Rpar=100 noiseless
G18 0 Inode4 12 N028 100m
I10 Inode4 0 10<31>
C66 N028 8 10f
C16 14 8 1.5p Rpar=29k noiseless
C49 13 8 1.5p Rpar=29k noiseless
A4 14 8 0 0 0 _Chsel1 Chsel1 0 SCHMITT vt=1.15 vh=350m trise=5n
A20 13 8 0 0 0 _HiZ HiZ 0 SCHMITT vt=1.15 vh=350m trise=10n
G19 8 OutPreBuf PowOK 8 .6<EFBFBD>
B5 8 OutPreBuf I=(.5+.5*tanh((V(_Hiz)-.5)/100m ))*1u*uplim(.5 + 2*V(mid_out) + 2*V(glitch2),2.5,50m)
A1 0 N011 PowOK 8 8 8 N010 8 OTA g=28m asym ref=-79.1m isource=1u isink=-4.4m in=1p/(1+freq/300Meg) vlow=0 vhigh=1e308
A3 0 N019 PowOK 8 8 8 N017 8 OTA g=28m asym ref=-79.1m isource=1u isink=-4.4m in=1p/(1+freq/300Meg) vlow=0 vhigh=1e308
A12 0 N026 PowOK 8 8 8 N024 8 OTA g=28m asym ref=-79.1m isource=1u isink=-4.4m in=1p/(1+freq/300Meg) vlow=0 vhigh=1e308
B7 3 ch1_st1_out I=(.5+.5*tanh((V(3,ch1_st1_out)/10m)))*(468.7u+2.2313m*V(ch1_on)-1m*V(X1))*V(PowOK,8)
B4 3 ch2_st1_out I=(.5+.5*tanh((V(3,ch2_st1_out)/10m)))*(468.7u+2.2313m*V(ch2_on)-1m*V(X2))*V(PowOK,8)
B6 3 ch3_st1_out I=(.5+.5*tanh((V(3,ch3_st1_out)/10m)))*(468.7u+2.2313m*V(ch3_on)-1m*V(X3))*V(PowOK,8)
B8 3 ch4_st1_out I=(.5+.5*tanh((V(3,ch4_st1_out)/10m)))*(468.7u+2.2313m*V(ch4_on)-1m*V(X4))*V(PowOK,8)
D15 GainlossM0 GainlossM1 DGLSPD
C67 15 8 100f Rpar=1Meg noiseless
A25 0 0 hiztran 0 N030 0 glitch_OMUX 0 DFLOP trise=3n tfall=1n
G20 0 glitch2 glitch_OMUX 0 1<>
C68 glitch2 0 1f Rpar=1Meg Rser=500k noiseless
R6 chsw 0 1K
A26 0 0 chsw 0 N032 0 swglitch 0 DFLOP trise=3n tfall=1n
A27 swglitch 0 0 0 0 0 N032 0 BUF trise=25n
R17 hiztran 0 1K
A28 glitch_OMUX 0 0 0 0 0 N030 0 BUF trise=10n
G21 0 MID1 swglitch 0 1m
A6 0 N010 0 0 0 0 0 0 OTA in=12.5p
A15 0 N017 0 0 0 0 0 0 OTA in=12.5p
A17 0 N024 0 0 0 0 0 0 OTA in=12.5p
A7 0 10 0 0 0 0 0 0 OTA in= 4.9p/dnlim((freq/1e6)**.12,.5,.1) +800f*(1+freq/600Meg)
A16 0 11 0 0 0 0 0 0 OTA in= 4.9p/dnlim((freq/1e6)**.12,.5,.1) +800f*(1+freq/600Meg)
A18 0 12 0 0 0 0 0 0 OTA in= 4.9p/dnlim((freq/1e6)**.12,.5,.1) +800f*(1+freq/600Meg)
.model Din D(Roff=1G Ron=8k vfwd=1.1 epsilon=700m noiseless)
.model Dleak0 D(ron=1k Roff=100k vfwd=4 epsilon=200m noiseless)
.model Dleak1 D(ron=100 Roff=1Meg vfwd=2.5 epsilon=200m ilimit=500u revilimit=100u noiseless)
.model DSUB D(IS=1e-16 TT=100n noiseless)
.model DSAT D(Ron=100 Roff=1G vfwd=200m epsilon=200m noiseless)
.model SSAT1 SW(level=2 Ron=20, Roff=1Meg, vt=-.5 vh=-.2 ilimit=50m oneway epsilon=100m noiseless)
.model SSAT2 SW(level=2 Ron=100, Roff=1Meg, vt=-.5 vh=-.2 ilimit=5m noiseless)
.model SGLLin SW(Ron=100 Roff=10Meg vt=-225m vh=-30m noiseless)
.model DI0 D(Ron=100 Roff=1Meg vfwd=0 epsilon=300m ilimit=420u noiseless)
.model SlimOL SW(Ron=100k Roff=400Meg vt=0 vh=-100m noiseless)
.model DCL D(Ron=1k Roff=1G vfwd=1.88 epsilon=20m noiseless)
.model DGLSPD D(Ron=100 Roff=10Meg vfwd=20m epsilon=50m noiseless)
.model SGLKILL SW(Ron=1 Roff=2Meg vt=-100m vh=-50m noiseless)
.model NOUT VDMOS(Vto=1 Kp=100m noiseless)
.machine
.state notrans 0
.state trans 1
.rule * notrans ( V(Chsel0) > .9 | V(Chsel0) < .1) & ( V(Chsel1) > .9 | V(Chsel1) < .1 )
.rule notrans trans ( V(Chsel0) < .8 & V(Chsel0) > .2) | ( V(Chsel1) < .8 & V(Chsel1) > .2)
.output (chsw) state
.endmachine
.machine
.state notrans 0
.state trans 1
.rule * notrans V(Hiz) > .9 | V(Hiz) < .1
.rule notrans trans V(Hiz) < .8 & V(Hiz) > .2
.output (hiztran) state
.endmachine
.ends LTC6561