784 lines
28 KiB
Plaintext
Executable File
784 lines
28 KiB
Plaintext
Executable File
* Copyright © Analog Devices 2018. All rights reserved.
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*
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.subckt LT6658-1.2 1 2 3 4 5 6 7 8 9 10 11
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A3 11 INM1 10 10 10 10 N002 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-13 Vhigh=1
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R2 7 INM1 768 noiseless
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C1 6 N002 38p Rser=20k noiseless
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C2 2 6 100f Rpar=1g noiseless
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C3 6 10 100f Rpar=1g noiseless
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Q1 S1 N004 6 0 NPN1 temp=27
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Q2 C2_1 N008 10 0 NPN1 temp=27
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C5 N003 10 1p Rpar=3k noiseless
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C6 6 C2_1 100f Rpar=1 noiseless
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C11 N008 10 100f Rpar=5k noiseless
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C15 N002 10 10f
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R5 2 S1 3.4 noiseless
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D1 N003 N004 DILIM1
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G3 10 Vout1DRV 10 N002 1m
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L1 Vout1DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
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C4 2 N004 1p
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G1 0 N009 2 10 1m
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B6 10 BGREF I=(.5+.5*tanh((V(1,10)-3.45)/10m))*1.251254u
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C18 INM1 10 100f
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C19 7 10 100f
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B7 10 N008 I=uplim(dnlim(500u*(V(6,Vout1DRV)-20*V(6,C2_1)),130u,10u),800u,100u)
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B5 10 N003 I=(.5+.5*tanh((V(On)-.8)/10m))*uplim(333.33u*(V(Vout1DRV,10)+580m),667u*V(2,10)+2m,10u)
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D4 10 6 DSUB
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D5 10 7 DSUB
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D6 10 1 DSUB
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D7 10 2 DSUB
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D11 10 4 DSUB
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A5 11 INM2 10 10 10 10 N015 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-10 Vhigh=1
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R6 9 INM2 768 noiseless
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C22 8 N015 38p Rser=20k noiseless
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C23 3 8 100f Rpar=1g noiseless
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C24 8 10 100f Rpar=1g noiseless
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Q3 S2 N017 8 0 NPN1 temp=27
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Q4 C2_2 N019 10 0 NPN1 temp=27
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C25 N016 10 1p Rpar=3k noiseless
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C26 8 C2_2 100f Rpar=1 noiseless
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C27 N019 10 100f Rpar=5k noiseless
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C28 N015 10 10f
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R9 3 S2 9 noiseless
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S2 N017 10 8 S2 SDRP2
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D12 N016 N017 DILIM2
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G9 10 Vout2DRV 10 N015 1m
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L6 Vout2DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
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C29 3 N017 1p
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C30 INM2 10 100f
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C31 9 10 100f
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B1 10 N019 I=uplim(dnlim(500u*(V(8,Vout2DRV)-35*V(8,C2_2)),130u,10u),800u,100u)
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B2 10 N016 I=(.5+.5*tanh((V(On)-.8)/100m))*uplim(333.33u*(V(Vout2DRV,10)+580m),667u*V(3,10)+2m,10u)
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D13 10 8 DSUB
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D14 10 9 DSUB
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D15 10 3 DSUB
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S3 N011 1 10 N011 S2V
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C32 N011 10 100f Rpar=1Meg noiseless
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D16 N011 4 DOD1
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D17 1 10 DBurnBG1
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D18 1 10 DBurnBG2
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S4 10 2 On 0 Sburn1
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S6 10 2 On 0 Sburn2
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S5 10 3 On 0 Sburn1
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S7 10 3 On 0 Sburn2
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B3 10 N008 I=(.5+.5*tanh((.9-V(On))/10m))*60u
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B4 10 N019 I=(.5+.5*tanh((.9-V(On))/10m))*60u
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A6 4 10 0 0 0 0 On 0 SCHMITT vt=1.4 vh=0 Rhigh=100k Rlow=1.5Meg Cout=100p
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R10 BGREF 10 1Meg tc=1e-6,0,8e-11 noiseless
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A2 5 BGREF 0 0 0 0 N025 0 OTA g=10u linear en=50n enk=2 Vlow=-1e308 Vhigh=1e308
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M3 1 N023 5 5 NBG temp=27
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M4 10 N023 5 5 PBG temp=27
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C33 1 5 1p
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C34 5 10 1p
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G17 10 N023 N024 10 1µ
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C35 N023 10 100f Rpar=1Meg noiseless
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C36 5 N024 12p Rser=280k noiseless
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D21 10 5 DSUB
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G18 10 N024 N025 0 50µ
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C37 N024 10 5p Rser=1 noiseless
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C38 N025 0 5p Rser=1k Rpar=100K noiseless
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D22 N024 10 DBGLIM
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R11 11 5 400 noiseless
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D23 10 11 DSUB
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A7 10 11 10 10 10 10 10 10 OTA g=0 linear in=170p/(1+freq/200k) vlow=-1e308 vhigh=1e308
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C39 11 10 100f
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G5 0 N009 3 0 10µ
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G10 10 0 3 10 1n
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G2 N002 10 3 10 50p
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G20 N015 10 2A 10 50p
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A1 2 S1 10 10 10 10 N002 10 OTA g=160n iout=1u vlow=-1e308 vhigh=1e308
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A4 3 S2 10 10 10 10 N015 10 OTA g=70n iout=1u vlow=-1e308 vhigh=1e308
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G6 10 0 2A 0 500p
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G19 0 2A 2 0 1
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L2 2A 0 795µ Rser=1 Rpar=5k noiseless
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R1 11 10 9600 noiseless
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L3 N009 0 132m Rser=1k Rpar=833k noiseless
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L4 N010 0 79.8m Rser=1k Rpar=500k noiseless
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G4 10 N023 0 N027 30n
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G8 0 N010 N009 0 4.5µ
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D2 N023 5 Y
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D3 5 N023 Y
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G11 0 N020 3 10 1m
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G13 0 N020 2 0 10µ
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L8 N020 0 26.6m Rser=1k Rpar=166k Cpar=10f noiseless
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G16 0 N021 N020 0 4.5µ
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G7 0 N026 1 10 100µ
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G12 0 N027 N026 0 1m
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L5 N026 0 2.66 Rser=10 Rpar=3.33k noiseless
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S1 N004 10 6 S1 SDRP1
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G14 10 N002 0 N010 1µ
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G15 10 N015 0 N021 1µ
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C7 N009 0 1p Rser=10k noiseless
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L7 N027 0 2.66 Rser=10 Rpar=3.33k noiseless
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L9 N021 0 26.6m Rser=1k Rpar=166k Cpar=10f noiseless
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C8 N021 N020 5p Rser=1 noiseless
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.model NPN1 NPN(IS=1E-14 VAF=100 BF=80 BR=1 ISC=1e-11 NC=2 IKR=15m CJC=100f CJE=100f noiseless)
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.model DILIM1 D(Ron=50 Roff=50 ilimit=2.5m noiseless)
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.model DILIM2 D(Ron=50 Roff=50 ilimit=1.47m noiseless)
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.model DSUB D(Ron=100 Roff=1G vfwd=600m epsilon=500m noiseless)
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.model DBGLIM D(Ron=10 Roff=20Meg vfwd=6.5 epsilon=500m vrev=-1 revepsilon=500m noiseless)
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.model Y D(Ron=1k Roff=1T Vfwd=740m epsilon=100m noiseless)
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.model NBG VDMOS(Vto=-100m Kp=80m noiseless)
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.model PBG VDMOS(Vto=100m Kp=80m pchan noiseless)
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.model SDRP1 SW(Ron=1 Roff=1Meg vt=-1.44 vh=-300m noiseless)
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.model SDRP2 SW(Ron=1 Roff=1Meg vt=-1.34 vh=-300m noiseless)
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.model S2V SW(level=2 Ron=1k Roff=1G vt=-2 vh=-20m noiseless)
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.model DOD1 D(Ron=59.4k Roff=1G vfwd=200m epsilon=10m noiseless)
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.model DBurnBG1 D(Ron=100 Roff=1G vfwd=0 epsilon=1 ilimit=569u noiseless)
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.model DBurnBG2 D(Ron=700k Roff=1G vfwd=1 epsilon=1 noiseless)
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.model Sburn1 SW(Ron=1k Roff=1G vt=.5 vh=-200m ilimit=97u noiseless)
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.model Sburn2 SW(Ron=700k Roff=1G vt=.5 vh=-200m noiseless)
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.ends LT6658-1.2
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*
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.subckt LT6658-1.8 1 2 3 4 5 6 7 8 9 10 11
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A3 11 INM1 10 10 10 10 N002 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-13 Vhigh=1
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R2 7 INM1 768 noiseless
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C1 6 N002 38p Rser=20k noiseless
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C2 2 6 100f Rpar=1g noiseless
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C3 6 10 100f Rpar=1g noiseless
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Q1 S1 N004 6 0 NPN1 temp=27
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Q2 C2_1 N008 10 0 NPN1 temp=27
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C5 N003 10 1p Rpar=3k noiseless
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C6 6 C2_1 100f Rpar=1 noiseless
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C11 N008 10 100f Rpar=5k noiseless
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C15 N002 10 10f
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R5 2 S1 3.4 noiseless
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S1 N004 10 6 S1 SDRP1
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D1 N003 N004 DILIM1
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G3 10 Vout1DRV 10 N002 1m
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L1 Vout1DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
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C4 2 N004 1p
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B6 10 BGREF I=(.5+.5*tanh((V(1,10)-3.45)/10m))*2.050103u
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C18 INM1 10 100f
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C19 7 10 100f
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B7 10 N008 I=uplim(dnlim(500u*(V(6,Vout1DRV)-20*V(6,C2_1)),130u,10u),800u,100u)
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B5 10 N003 I=(.5+.5*tanh((V(On)-.8)/10m))*uplim(333.33u*(V(Vout1DRV,10)+580m),667u*V(2,10)+2m,10u)
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D4 10 6 DSUB
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D5 10 7 DSUB
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D6 10 1 DSUB
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D7 10 2 DSUB
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D11 10 4 DSUB
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A5 11 INM2 10 10 10 10 N015 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-10 Vhigh=1
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R6 9 INM2 768 noiseless
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C22 8 N015 38p Rser=20k noiseless
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C23 3 8 100f Rpar=1g noiseless
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C24 8 10 100f Rpar=1g noiseless
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Q3 S2 N017 8 0 NPN1 temp=27
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Q4 C2_2 N019 10 0 NPN1 temp=27
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C25 N016 10 1p Rpar=3k noiseless
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C26 8 C2_2 100f Rpar=1 noiseless
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C27 N019 10 100f Rpar=5k noiseless
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C28 N015 10 10f
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R9 3 S2 9 noiseless
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S2 N017 10 8 S2 SDRP2
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D12 N016 N017 DILIM2
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G9 10 Vout2DRV 10 N015 1m
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L6 Vout2DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
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C29 3 N017 1p
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C30 INM2 10 100f
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C31 9 10 100f
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B1 10 N019 I=uplim(dnlim(500u*(V(8,Vout2DRV)-35*V(8,C2_2)),130u,10u),800u,100u)
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B2 10 N016 I=(.5+.5*tanh((V(On)-.8)/100m))*uplim(333.33u*(V(Vout2DRV,10)+580m),667u*V(3,10)+2m,10u)
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D13 10 8 DSUB
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D14 10 9 DSUB
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D15 10 3 DSUB
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S3 N010 1 10 N010 S2V
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C32 N010 10 100f Rpar=1Meg noiseless
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D16 N010 4 DOD1
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D17 1 10 DBurnBG1
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D18 1 10 DBurnBG2
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S4 10 2 On 0 Sburn1
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S6 10 2 On 0 Sburn2
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S5 10 3 On 0 Sburn1
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S7 10 3 On 0 Sburn2
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B3 10 N008 I=(.5+.5*tanh((.9-V(On))/10m))*60u
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B4 10 N019 I=(.5+.5*tanh((.9-V(On))/10m))*60u
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A6 4 10 0 0 0 0 On 0 SCHMITT vt=1.4 vh=0 Rhigh=100k Rlow=1.5Meg Cout=100p
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R10 BGREF 10 1Meg tc=0,-2e-8,8e-11 noiseless
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A2 5 BGREF 0 0 0 0 N025 0 OTA g=10u linear en=100n enk=2 Vlow=-1e308 Vhigh=1e308
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M3 1 N023 5 5 NBG temp=27
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M4 10 N023 5 5 PBG temp=27
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C33 1 5 1p
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C34 5 10 1p
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G17 10 N023 N024 10 1µ
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C35 N023 10 100f Rpar=1Meg noiseless
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C36 5 N024 20p Rser=280k noiseless
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D21 10 5 DSUB
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G18 10 N024 N025 0 50µ
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C37 N024 10 5p Rser=1 noiseless
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C38 N025 0 5p Rser=1k Rpar=100K noiseless
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D22 N024 10 DBGLIM
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R11 11 5 400 noiseless
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D23 10 11 DSUB
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A7 10 11 10 10 10 10 10 10 OTA g=0 linear in=170p/(1+freq/200k) vlow=-1e308 vhigh=1e308
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C39 11 10 100f
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G10 10 0 3 10 1n
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G2 N002 10 3 10 50p
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G20 N015 10 2A 10 50p
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A1 2 S1 10 10 10 10 N002 10 OTA g=160n iout=1u vlow=-1e308 vhigh=1e308
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A4 3 S2 10 10 10 10 N015 10 OTA g=70n iout=1u vlow=-1e308 vhigh=1e308
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G6 10 0 2A 0 500p
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G19 0 2A 2 0 1
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L2 2A 0 795µ Rser=1 Rpar=5k noiseless
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R1 11 10 2903 noiseless
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D2 N023 5 Y
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D3 5 N023 Y
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L3 N009 0 79.7m Rser=1k Rpar=500k noiseless
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G1 0 N009 N011 0 4.5µ
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G5 10 N002 0 N009 1µ
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G7 0 N011 2 10 1m
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G8 0 N011 3 0 10µ
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L4 N011 0 88.6m Rser=1k Rpar=555k noiseless
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L7 N021 0 26.6m Rser=1k Rpar=166k Cpar=10f noiseless
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G11 0 N021 N020 0 4.5µ
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G12 10 N015 0 N021 1µ
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G13 0 N020 3 10 1m
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G16 0 N020 2 0 10µ
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G4 10 N023 0 BVPSRRN 30n
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G14 0 N027 1 10 100µ
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G15 0 BVPSRRN N027 0 1m
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L5 N027 0 2.66 Rser=10 Rpar=3.33k noiseless
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L9 BVPSRRN 0 2.66 Rser=10 Rpar=3.33k noiseless
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L8 N020 0 26.6m Rser=1k Rpar=166k Cpar=10f noiseless
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.model NPN1 NPN(IS=1E-14 VAF=100 BF=80 BR=1 ISC=1e-11 NC=2 IKR=15m CJC=100f CJE=100f noiseless)
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.model DILIM1 D(Ron=50 Roff=50 ilimit=2.5m noiseless)
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.model DILIM2 D(Ron=50 Roff=50 ilimit=1.47m noiseless)
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.model DSUB D(Ron=100 Roff=1G vfwd=600m epsilon=500m noiseless)
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.model DBGLIM D(Ron=10 Roff=20Meg vfwd=6.5 epsilon=500m vrev=-1 revepsilon=500m noiseless)
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.model Y D(Ron=1k Roff=1T Vfwd=740m epsilon=100m noiseless)
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.model NBG VDMOS(Vto=-100m Kp=80m noiseless)
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.model PBG VDMOS(Vto=100m Kp=80m pchan noiseless)
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.model SDRP1 SW(Ron=1 Roff=1Meg vt=-1.44 vh=-300m noiseless)
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.model SDRP2 SW(Ron=1 Roff=1Meg vt=-1.34 vh=-300m noiseless)
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.model S2V SW(level=2 Ron=1k Roff=1G vt=-2 vh=-20m noiseless)
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.model DOD1 D(Ron=59.4k Roff=1G vfwd=200m epsilon=10m noiseless)
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.model DBurnBG1 D(Ron=100 Roff=1G vfwd=0 epsilon=1 ilimit=569u noiseless)
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.model DBurnBG2 D(Ron=700k Roff=1G vfwd=1 epsilon=1 noiseless)
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.model Sburn1 SW(Ron=1k Roff=1G vt=.5 vh=-200m ilimit=97u noiseless)
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.model Sburn2 SW(Ron=700k Roff=1G vt=.5 vh=-200m noiseless)
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.ends LT6658-1.8
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*
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.subckt LT6658-2.5 1 2 3 4 5 6 7 8 9 10 11
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A3 11 INM1 10 10 10 10 N002 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-13 Vhigh=1
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R2 7 INM1 800 noiseless
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C1 6 N002 38p Rser=20k noiseless
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C2 2 6 100f Rpar=1g noiseless
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C3 6 10 100f Rpar=1g noiseless
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Q1 S1 N004 6 0 NPN1 temp=27
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Q2 C2_1 N008 10 0 NPN1 temp=27
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C5 N003 10 1p Rpar=3k noiseless
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C6 6 C2_1 100f Rpar=1 noiseless
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C11 N008 10 100f Rpar=5k noiseless
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C15 N002 10 10f
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R5 2 S1 3.4 noiseless
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S1 N004 10 6 S1 SDRP1
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D1 N003 N004 DILIM1
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G3 10 Vout1DRV 10 N002 1m
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L1 Vout1DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
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C4 2 N004 1p
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G1 0 N009 2 10 1m
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G7 0 N010 N009 0 1m
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B6 10 BGREF I=(.5+.5*tanh((V(1,10)-3.45)/10m))*2.5025u
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C18 INM1 10 100f
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C19 7 10 100f
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B7 10 N008 I=uplim(dnlim(500u*(V(6,Vout1DRV)-70*V(6,C2_1)),130u,10u),800u,100u)
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B5 10 N003 I=(.5+.5*tanh((V(On)-.8)/10m))*uplim(333.33u*(V(Vout1DRV,10)+580m),667u*V(2,10)+2m,10u)
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D4 10 6 DSUB
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D5 10 7 DSUB
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D6 10 1 DSUB
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D7 10 2 DSUB
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D11 10 4 DSUB
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A5 11 INM2 10 10 10 10 N015 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-10 Vhigh=1
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R6 9 INM2 800 noiseless
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C22 8 N015 38p Rser=20k noiseless
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C23 3 8 100f Rpar=1g noiseless
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C24 8 10 100f Rpar=1g noiseless
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Q3 S2 N017 8 0 NPN1 temp=27
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Q4 C2_2 N019 10 0 NPN1 temp=27
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C25 N016 10 1p Rpar=3k noiseless
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C26 8 C2_2 100f Rpar=1 noiseless
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C27 N019 10 100f Rpar=5k noiseless
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C28 N015 10 10f
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R9 3 S2 9 noiseless
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S2 N017 10 8 S2 SDRP2
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D12 N016 N017 DILIM2
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G9 10 Vout2DRV 10 N015 1m
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L6 Vout2DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
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C29 3 N017 1p
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G11 0 N020 3 10 1m
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L7 N020 0 159m Rser=1k Rpar=10Meg noiseless
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G12 0 N021 N020 0 1m
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C30 INM2 10 100f
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C31 9 10 100f
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B1 10 N019 I=uplim(dnlim(500u*(V(8,Vout2DRV)-35*V(8,C2_2)),130u,10u),800u,100u)
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B2 10 N016 I=(.5+.5*tanh((V(On)-.8)/100m))*uplim(333.33u*(V(Vout2DRV,10)+580m),667u*V(3,10)+2m,10u)
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L8 N021 0 23.8m Rser=1.5k Rpar=3k noiseless
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D13 10 8 DSUB
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D14 10 9 DSUB
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D15 10 3 DSUB
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S3 N011 1 10 N011 S2V
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C32 N011 10 100f Rpar=1Meg noiseless
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D16 N011 4 DOD1
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D17 1 10 DBurnBG1
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D18 1 10 DBurnBG2
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S4 10 2 On 0 Sburn1
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S6 10 2 On 0 Sburn2
|
|
S5 10 3 On 0 Sburn1
|
|
S7 10 3 On 0 Sburn2
|
|
B3 10 N008 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
B4 10 N019 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
A6 4 10 0 0 0 0 On 0 SCHMITT vt=1.4 vh=0 Rhigh=100k Rlow=1.5Meg Cout=100p
|
|
R10 BGREF 10 1Meg tc=0,-8e-8,0,3e-12 noiseless
|
|
G14 0 N026 1 10 100µ
|
|
G15 0 N027 N026 0 10µ
|
|
G16 10 N024 0 N027 500n
|
|
A2 5 BGREF 0 0 0 0 N025 0 OTA g=10u linear en=150n enk=2 Vlow=-1e308 Vhigh=1e308
|
|
M3 1 N023 5 5 NBG temp=27
|
|
M4 10 N023 5 5 PBG temp=27
|
|
C33 1 5 1p
|
|
C34 5 10 1p
|
|
D19 5 N023 Y
|
|
G17 10 N023 N024 10 1µ
|
|
C35 N023 10 1f Rpar=1Meg noiseless
|
|
C36 5 N024 30p Rser=280k noiseless
|
|
D20 N023 5 Y
|
|
D21 10 5 DSUB
|
|
G18 10 N024 N025 0 50µ
|
|
C37 N024 10 5p Rser=1 noiseless
|
|
C38 N025 0 5p Rser=100k Rpar=100K noiseless
|
|
D22 N024 10 DBGLIM
|
|
R11 11 5 400 noiseless
|
|
D23 10 11 DSUB
|
|
A7 10 11 10 10 10 10 10 10 OTA g=0 linear in=170p/(1+freq/200k) vlow=-1e308 vhigh=1e308
|
|
C39 11 10 100f
|
|
G5 0 N009 3 0 10µ
|
|
G10 10 11 3 10 1n
|
|
G2 N002 10 3 10 50p
|
|
G8 0 N020 2 10 10µ
|
|
G20 N015 10 2A 10 50p
|
|
L5 N026 0 637m Rser=10 Rpar=8k
|
|
A1 2 S1 10 10 10 10 N002 10 OTA g=200n iout=1u vlow=-1e308 vhigh=1e308
|
|
A4 3 S2 10 10 10 10 N015 10 OTA g=80n iout=1u vlow=-1e308 vhigh=1e308
|
|
G6 10 11 2A 0 500p
|
|
G19 0 2A 2 0 1
|
|
L2 2A 0 795µ Rser=1 Rpar=5k noiseless
|
|
G4 10 N002 0 N010 4n
|
|
G13 10 N015 0 N021 4n
|
|
L3 N009 0 159m Rser=1k Rpar=10Meg noiseless
|
|
L4 N010 0 23.8m Rser=1.5k Rpar=3k noiseless
|
|
L9 N027 0 637m Rser=10 Rpar=8k
|
|
.model NPN1 NPN(IS=1E-14 VAF=100 BF=80 BR=1 ISC=1e-11 NC=2 IKR=15m CJC=100f CJE=100f noiseless)
|
|
.model DILIM1 D(Ron=50 Roff=50 ilimit=2.5m noiseless)
|
|
.model DILIM2 D(Ron=50 Roff=50 ilimit=1.47m noiseless)
|
|
.model DSUB D(Ron=100 Roff=1G vfwd=600m epsilon=500m noiseless)
|
|
.model DBGLIM D(Ron=10 Roff=20Meg vfwd=6.5 epsilon=500m vrev=-1 revepsilon=500m noiseless)
|
|
.model Y D(Ron=1k Roff=1T Vfwd=740m epsilon=100m noiseless)
|
|
.model NBG VDMOS(Vto=-100m Kp=80m noiseless)
|
|
.model PBG VDMOS(Vto=100m Kp=80m pchan noiseless)
|
|
.model SDRP1 SW(Ron=1 Roff=1Meg vt=-1.44 vh=-300m noiseless)
|
|
.model SDRP2 SW(Ron=1 Roff=1Meg vt=-1.34 vh=-300m noiseless)
|
|
.model S2V SW(level=2 Ron=1k Roff=1G vt=-2 vh=-20m noiseless)
|
|
.model DOD1 D(Ron=59.4k Roff=1G vfwd=200m epsilon=10m noiseless)
|
|
.model DBurnBG1 D(Ron=100 Roff=1G vfwd=0 epsilon=1 ilimit=569u noiseless)
|
|
.model DBurnBG2 D(Ron=700k Roff=1G vfwd=1 epsilon=1 noiseless)
|
|
.model Sburn1 SW(Ron=1k Roff=1G vt=.5 vh=-200m ilimit=97u noiseless)
|
|
.model Sburn2 SW(Ron=700k Roff=1G vt=.5 vh=-200m noiseless)
|
|
.ends LT6658-2.5
|
|
*
|
|
.subckt LT6658-3.3 1 2 3 4 5 6 7 8 9 10 11
|
|
A3 11 INM1 10 10 10 10 N002 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-13 Vhigh=1
|
|
R2 7 INM1 800 noiseless
|
|
C1 6 N002 38p Rser=20k noiseless
|
|
C2 2 6 100f Rpar=1g noiseless
|
|
C3 6 10 100f Rpar=1g noiseless
|
|
Q1 S1 N004 6 0 NPN1 temp=27
|
|
Q2 C2_1 N008 10 0 NPN1 temp=27
|
|
C5 N003 10 1p Rpar=3k noiseless
|
|
C6 6 C2_1 100f Rpar=1 noiseless
|
|
C11 N008 10 100f Rpar=5k noiseless
|
|
C15 N002 10 10f
|
|
R5 2 S1 3.4 noiseless
|
|
S1 N004 10 6 S1 SDRP1
|
|
D1 N003 N004 DILIM1
|
|
G3 10 Vout1DRV 10 N002 1m
|
|
L1 Vout1DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
|
|
C4 2 N004 1p
|
|
G1 0 N009 2 10 1m
|
|
G7 0 N010 N009 0 1m
|
|
B6 10 BGREF I=(.5+.5*tanh((V(1,10)-3.45)/10m))*3.3033u
|
|
C18 INM1 10 100f
|
|
C19 7 10 100f
|
|
B7 10 N008 I=uplim(dnlim(500u*(V(6,Vout1DRV)-70*V(6,C2_1)),130u,10u),800u,100u)
|
|
B5 10 N003 I=(.5+.5*tanh((V(On)-.8)/10m))*uplim(333.33u*(V(Vout1DRV,10)+580m),667u*V(2,10)+2m,10u)
|
|
D4 10 6 DSUB
|
|
D5 10 7 DSUB
|
|
D6 10 1 DSUB
|
|
D7 10 2 DSUB
|
|
D11 10 4 DSUB
|
|
A5 11 INM2 10 10 10 10 N017 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-10 Vhigh=1
|
|
R6 9 INM2 800 noiseless
|
|
C22 8 N017 38p Rser=20k noiseless
|
|
C23 3 8 100f Rpar=1g noiseless
|
|
C24 8 10 100f Rpar=1g noiseless
|
|
Q3 S2 N016 8 0 NPN1 temp=27
|
|
Q4 C2_2 N019 10 0 NPN1 temp=27
|
|
C25 N015 10 1p Rpar=3k noiseless
|
|
C26 8 C2_2 100f Rpar=1 noiseless
|
|
C27 N019 10 100f Rpar=5k noiseless
|
|
C28 N017 10 10f
|
|
R9 3 S2 9 noiseless
|
|
S2 N016 10 8 S2 SDRP2
|
|
D12 N015 N016 DILIM2
|
|
G9 10 Vout2DRV 10 N017 1m
|
|
L6 Vout2DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
|
|
C29 3 N016 1p
|
|
G11 0 N020 3 10 1m
|
|
G12 0 N021 N020 0 1m
|
|
C30 INM2 10 100f
|
|
C31 9 10 100f
|
|
B1 10 N019 I=uplim(dnlim(500u*(V(8,Vout2DRV)-35*V(8,C2_2)),130u,10u),800u,100u)
|
|
B2 10 N015 I=(.5+.5*tanh((V(On)-.8)/100m))*uplim(333.33u*(V(Vout2DRV,10)+580m),667u*V(3,10)+2m,10u)
|
|
D13 10 8 DSUB
|
|
D14 10 9 DSUB
|
|
D15 10 3 DSUB
|
|
S3 N011 1 10 N011 S2V
|
|
C32 N011 10 100f Rpar=1Meg noiseless
|
|
D16 N011 4 DOD1
|
|
D17 1 10 DBurnBG1
|
|
D18 1 10 DBurnBG2
|
|
S4 10 2 On 0 Sburn1
|
|
S6 10 2 On 0 Sburn2
|
|
S5 10 3 On 0 Sburn1
|
|
S7 10 3 On 0 Sburn2
|
|
B3 10 N008 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
B4 10 N019 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
A6 4 10 0 0 0 0 On 0 SCHMITT vt=1.4 vh=0 Rhigh=100k Rlow=1.5Meg Cout=100p
|
|
G14 0 N027 1 10 100µ
|
|
G15 0 N028 N027 0 10µ
|
|
G16 10 N024 0 N028 10µ
|
|
A2 5 BGREF 0 0 0 0 N025 0 OTA g=10u linear en=238n enk=4 Vlow=-1e308 Vhigh=1e308
|
|
M3 1 N023 5 5 NBG temp=27
|
|
M4 10 N023 5 5 PBG temp=27
|
|
C33 1 5 1p
|
|
C34 5 10 1p
|
|
D19 5 N023 Y
|
|
G17 10 N023 N024 10 1µ
|
|
C35 N023 10 1f Rpar=1Meg noiseless
|
|
C36 5 N024 30p Rser=280k noiseless
|
|
D20 N023 5 Y
|
|
D21 10 5 DSUB
|
|
G18 10 N024 N025 0 50µ
|
|
C37 N024 10 5p Rser=1 noiseless
|
|
C38 N025 0 5p Rser=100k Rpar=100K noiseless
|
|
D22 N024 10 DBGLIM
|
|
R11 11 5 400 noiseless
|
|
D23 10 11 DSUB
|
|
A7 10 11 10 10 10 10 10 10 OTA g=0 linear in=170p/(1+freq/200k) vlow=-1e308 vhigh=1e308
|
|
C39 11 10 100f
|
|
G5 0 N009 3 0 10µ
|
|
G10 10 11 3 10 1n
|
|
G2 N002 10 3 10 50p
|
|
G6 10 11 N026 0 5n
|
|
G8 0 N020 2 10 10µ
|
|
G19 0 N026 1 0 1
|
|
G20 N017 10 2A 10 50p
|
|
L3 N009 0 213m Rser=1k Rpar=13Meg noiseless
|
|
L4 N010 0 16.4m Rser=1.03k Rpar=34k noiseless
|
|
L2 N026 0 1.1m Rser=1 Rpar=6.9k noiseless
|
|
L5 N027 0 228m Rser=10 Rpar=2.86k noiseless
|
|
R1 BGREF 10 1Meg tc=0,-8e-8,0 noiseless
|
|
A1 2 S1 10 10 10 10 N002 10 OTA g=200n iout=1u vlow=-1e308 vhigh=1e308
|
|
A4 3 S2 10 10 10 10 N017 10 OTA g=80n iout=1u vlow=-1e308 vhigh=1e308
|
|
G21 10 11 2A 0 500p
|
|
G22 0 2A 2 0 1
|
|
L10 2A 0 795µ Rser=1 Rpar=5k noiseless
|
|
G4 10 N017 0 N021 4n
|
|
G13 10 N002 0 N010 4n
|
|
D2 N027 0 DLS
|
|
L7 N020 0 213m Rser=1k Rpar=13Meg noiseless
|
|
L8 N021 0 16.4m Rser=1.03k Rpar=34k noiseless
|
|
L9 N028 0 228m Rser=10 Rpar=2.86k noiseless
|
|
.model NPN1 NPN(IS=1E-14 VAF=100 BF=80 BR=1 ISC=1e-11 NC=2 IKR=15m CJC=100f CJE=100f noiseless)
|
|
.model DILIM1 D(Ron=50 Roff=50 ilimit=2.5m noiseless)
|
|
.model DILIM2 D(Ron=50 Roff=50 ilimit=1.47m noiseless)
|
|
.model DSUB D(Ron=100 Roff=1G vfwd=600m epsilon=500m noiseless)
|
|
.model DBGLIM D(Ron=10 Roff=20Meg vfwd=6.5 epsilon=500m vrev=-1 revepsilon=500m noiseless)
|
|
.model DLS D(Ron=500 Roff=100k vfwd=100m epsilon=100m vrev=100m revepsilon=100m noiseless)
|
|
.model Y D(Ron=1k Roff=1T Vfwd=740m epsilon=100m noiseless)
|
|
.model NBG VDMOS(Vto=-100m Kp=80m noiseless)
|
|
.model PBG VDMOS(Vto=100m Kp=80m pchan noiseless)
|
|
.model SDRP1 SW(Ron=1 Roff=1Meg vt=-1.44 vh=-300m noiseless)
|
|
.model SDRP2 SW(Ron=1 Roff=1Meg vt=-1.34 vh=-300m noiseless)
|
|
.model S2V SW(level=2 Ron=1k Roff=1G vt=-2 vh=-20m noiseless)
|
|
.model DOD1 D(Ron=59.4k Roff=1G vfwd=200m epsilon=10m noiseless)
|
|
.model DBurnBG1 D(Ron=100 Roff=1G vfwd=0 epsilon=1 ilimit=569u noiseless)
|
|
.model DBurnBG2 D(Ron=700k Roff=1G vfwd=1 epsilon=1 noiseless)
|
|
.model Sburn1 SW(Ron=1k Roff=1G vt=.5 vh=-200m ilimit=97u noiseless)
|
|
.model Sburn2 SW(Ron=700k Roff=1G vt=.5 vh=-200m noiseless)
|
|
.ends LT6658-3.3
|
|
*
|
|
.subckt LT6658-3 1 2 3 4 5 6 7 8 9 10 11
|
|
A3 11 INM1 10 10 10 10 N002 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-13 Vhigh=1
|
|
R2 7 INM1 800 noiseless
|
|
C1 6 N002 38p Rser=20k noiseless
|
|
C2 2 6 100f Rpar=1g noiseless
|
|
C3 6 10 100f Rpar=1g noiseless
|
|
Q1 S1 N004 6 0 NPN1 temp=27
|
|
Q2 C2_1 N008 10 0 NPN1 temp=27
|
|
C5 N003 10 1p Rpar=3k noiseless
|
|
C6 6 C2_1 100f Rpar=1 noiseless
|
|
C11 N008 10 100f Rpar=5k noiseless
|
|
C15 N002 10 10f
|
|
R5 2 S1 3.4 noiseless
|
|
S1 N004 10 6 S1 SDRP1
|
|
D1 N003 N004 DILIM1
|
|
G3 10 Vout1DRV 10 N002 1m
|
|
L1 Vout1DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
|
|
C4 2 N004 1p
|
|
G1 0 N009 2 10 1m
|
|
G7 0 N010 N009 0 1m
|
|
B6 10 BGREF I=(.5+.5*tanh((V(1,10)-3.45)/10m))*3.003u
|
|
C18 INM1 10 100f
|
|
C19 7 10 100f
|
|
B7 10 N008 I=uplim(dnlim(500u*(V(6,Vout1DRV)-70*V(6,C2_1)),130u,10u),800u,100u)
|
|
B5 10 N003 I=(.5+.5*tanh((V(On)-.8)/10m))*uplim(333.33u*(V(Vout1DRV,10)+580m),667u*V(2,10)+2m,10u)
|
|
D4 10 6 DSUB
|
|
D5 10 7 DSUB
|
|
D6 10 1 DSUB
|
|
D7 10 2 DSUB
|
|
D11 10 4 DSUB
|
|
A5 11 INM2 10 10 10 10 N017 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-10 Vhigh=1
|
|
R6 9 INM2 800 noiseless
|
|
C22 8 N017 38p Rser=20k noiseless
|
|
C23 3 8 100f Rpar=1g noiseless
|
|
C24 8 10 100f Rpar=1g noiseless
|
|
Q3 S2 N016 8 0 NPN1 temp=27
|
|
Q4 C2_2 N019 10 0 NPN1 temp=27
|
|
C25 N015 10 1p Rpar=3k noiseless
|
|
C26 8 C2_2 100f Rpar=1 noiseless
|
|
C27 N019 10 100f Rpar=5k noiseless
|
|
C28 N017 10 10f
|
|
R9 3 S2 9 noiseless
|
|
S2 N016 10 8 S2 SDRP2
|
|
D12 N015 N016 DILIM2
|
|
G9 10 Vout2DRV 10 N017 1m
|
|
L6 Vout2DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
|
|
C29 3 N016 1p
|
|
G11 0 N020 3 10 1m
|
|
G12 0 N021 N020 0 1m
|
|
C30 INM2 10 100f
|
|
C31 9 10 100f
|
|
B1 10 N019 I=uplim(dnlim(500u*(V(8,Vout2DRV)-35*V(8,C2_2)),130u,10u),800u,100u)
|
|
B2 10 N015 I=(.5+.5*tanh((V(On)-.8)/100m))*uplim(333.33u*(V(Vout2DRV,10)+580m),667u*V(3,10)+2m,10u)
|
|
D13 10 8 DSUB
|
|
D14 10 9 DSUB
|
|
D15 10 3 DSUB
|
|
S3 N011 1 10 N011 S2V
|
|
C32 N011 10 100f Rpar=1Meg noiseless
|
|
D16 N011 4 DOD1
|
|
D17 1 10 DBurnBG1
|
|
D18 1 10 DBurnBG2
|
|
S4 10 2 On 0 Sburn1
|
|
S6 10 2 On 0 Sburn2
|
|
S5 10 3 On 0 Sburn1
|
|
S7 10 3 On 0 Sburn2
|
|
B3 10 N008 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
B4 10 N019 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
A6 4 10 0 0 0 0 On 0 SCHMITT vt=1.4 vh=0 Rhigh=100k Rlow=1.5Meg Cout=100p
|
|
G14 0 N027 1 10 100µ
|
|
G15 0 N028 N027 0 10µ
|
|
G16 10 N024 0 N028 4.4e-6
|
|
A2 5 BGREF 0 0 0 0 N025 0 OTA g=10u linear en=184n enk=4.4 Vlow=-1e308 Vhigh=1e308
|
|
M3 1 N023 5 5 NBG temp=27
|
|
M4 10 N023 5 5 PBG temp=27
|
|
C33 1 5 1p
|
|
C34 5 10 1p
|
|
D19 5 N023 Y
|
|
G17 10 N023 N024 10 1µ
|
|
C35 N023 10 1f Rpar=1Meg noiseless
|
|
C36 5 N024 30p Rser=280k noiseless
|
|
D20 N023 5 Y
|
|
D21 10 5 DSUB
|
|
G18 10 N024 N025 0 50µ
|
|
C37 N024 10 5p Rser=1 noiseless
|
|
C38 N025 0 5p Rser=100k Rpar=100K noiseless
|
|
D22 N024 10 DBGLIM
|
|
R11 11 5 400 noiseless
|
|
D23 10 11 DSUB
|
|
A7 10 11 10 10 10 10 10 10 OTA g=0 linear in=170p/(1+freq/200k) vlow=-1e308 vhigh=1e308
|
|
C39 11 10 100f
|
|
G5 0 N009 3 0 10µ
|
|
G10 10 11 3 10 1n
|
|
G2 N002 10 3 10 50p
|
|
G6 10 11 N026 0 3.2n
|
|
G8 0 N020 2 10 10µ
|
|
G19 0 N026 1 0 1
|
|
G20 N017 10 2A 10 50p
|
|
L3 N009 0 189m Rser=1k Rpar=11.9Meg noiseless
|
|
L4 N010 0 16.6m Rser=1.046k Rpar=23.4k noiseless
|
|
L2 N026 0 946µ Rser=1 Rpar=6.06k noiseless
|
|
L5 N027 0 228m Rser=10 Rpar=2.86k noiseless
|
|
R1 BGREF 10 1Meg tc=0,-8e-8,0 noiseless
|
|
A1 2 S1 10 10 10 10 N002 10 OTA g=200n iout=1u vlow=-1e308 vhigh=1e308
|
|
A4 3 S2 10 10 10 10 N017 10 OTA g=80n iout=1u vlow=-1e308 vhigh=1e308
|
|
G21 10 11 2A 0 500p
|
|
G22 0 2A 2 0 1
|
|
L10 2A 0 795µ Rser=1 Rpar=5k noiseless
|
|
G4 10 N002 0 N010 4n
|
|
G13 10 N017 0 N021 4n
|
|
L7 N020 0 189m Rser=1k Rpar=11.9Meg noiseless
|
|
L8 N021 0 16.6m Rser=1.046k Rpar=23.4k noiseless
|
|
L9 N028 0 228m Rser=10 Rpar=2.86k noiseless
|
|
D2 N027 0 DLS
|
|
.model NPN1 NPN(IS=1E-14 VAF=100 BF=80 BR=1 ISC=1e-11 NC=2 IKR=15m CJC=100f CJE=100f noiseless)
|
|
.model DILIM1 D(Ron=50 Roff=50 ilimit=2.5m noiseless)
|
|
.model DILIM2 D(Ron=50 Roff=50 ilimit=1.47m noiseless)
|
|
.model DSUB D(Ron=100 Roff=1G vfwd=600m epsilon=500m noiseless)
|
|
.model DBGLIM D(Ron=10 Roff=20Meg vfwd=6.5 epsilon=500m vrev=-1 revepsilon=500m noiseless)
|
|
.model DLS D(Ron=500 Roff=100k vfwd=100m epsilon=100m vrev=100m revepsilon=100m noiseless)
|
|
.model Y D(Ron=1k Roff=1T Vfwd=740m epsilon=100m noiseless)
|
|
.model NBG VDMOS(Vto=-100m Kp=80m noiseless)
|
|
.model PBG VDMOS(Vto=100m Kp=80m pchan noiseless)
|
|
.model SDRP1 SW(Ron=1 Roff=1Meg vt=-1.44 vh=-300m noiseless)
|
|
.model SDRP2 SW(Ron=1 Roff=1Meg vt=-1.34 vh=-300m noiseless)
|
|
.model S2V SW(level=2 Ron=1k Roff=1G vt=-2 vh=-20m noiseless)
|
|
.model DOD1 D(Ron=59.4k Roff=1G vfwd=200m epsilon=10m noiseless)
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.model DBurnBG1 D(Ron=100 Roff=1G vfwd=0 epsilon=1 ilimit=569u noiseless)
|
|
.model DBurnBG2 D(Ron=700k Roff=1G vfwd=1 epsilon=1 noiseless)
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.model Sburn1 SW(Ron=1k Roff=1G vt=.5 vh=-200m ilimit=97u noiseless)
|
|
.model Sburn2 SW(Ron=700k Roff=1G vt=.5 vh=-200m noiseless)
|
|
.ends LT6658-3
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|
*
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.subckt LT6658-5 1 2 3 4 5 6 7 8 9 10 11
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A3 11 INM1 10 10 10 10 N002 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-13 Vhigh=1
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R2 7 INM1 800 noiseless
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C1 6 N002 38p Rser=20k noiseless
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|
C2 2 6 100f Rpar=1g noiseless
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C3 6 10 100f Rpar=1g noiseless
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|
Q1 S1 N004 6 0 NPN1 temp=27
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|
Q2 C2_1 N008 10 0 NPN1 temp=27
|
|
C5 N003 10 1p Rpar=3k noiseless
|
|
C6 6 C2_1 100f Rpar=1 noiseless
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C11 N008 10 100f Rpar=5k noiseless
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|
C15 N002 10 10f
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|
R5 2 S1 3.4 noiseless
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|
S1 N004 10 6 S1 SDRP1
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|
D1 N003 N004 DILIM1
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G3 10 Vout1DRV 10 N002 1m
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L1 Vout1DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
|
|
C4 2 N004 1p
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|
G1 0 N009 2 10 1m
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|
G7 0 N010 N009 0 1m
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|
B6 10 BGREF I=(.5+.5*tanh((V(1,10)-3.45)/10m))*2.5025u
|
|
C18 INM1 10 100f
|
|
C19 7 10 100f
|
|
B7 10 N008 I=uplim(dnlim(500u*(V(6,Vout1DRV)-70*V(6,C2_1)),130u,10u),800u,100u)
|
|
B5 10 N003 I=(.5+.5*tanh((V(On)-.8)/10m))*uplim(333.33u*(V(Vout1DRV,10)+580m),667u*V(2,10)+2m,10u)
|
|
D4 10 6 DSUB
|
|
D5 10 7 DSUB
|
|
D6 10 1 DSUB
|
|
D7 10 2 DSUB
|
|
D11 10 4 DSUB
|
|
A5 11 INM2 10 10 10 10 N017 10 OTA g=2.1m linear en=7.77n enk=1 Rout=120Meg Vlow=-10 Vhigh=1
|
|
R6 9 INM2 800 noiseless
|
|
C22 8 N017 38p Rser=20k noiseless
|
|
C23 3 8 100f Rpar=1g noiseless
|
|
C24 8 10 100f Rpar=1g noiseless
|
|
Q3 S2 N016 8 0 NPN1 temp=27
|
|
Q4 C2_2 N019 10 0 NPN1 temp=27
|
|
C25 N015 10 1p Rpar=3k noiseless
|
|
C26 8 C2_2 100f Rpar=1 noiseless
|
|
C27 N019 10 100f Rpar=5k noiseless
|
|
C28 N017 10 10f
|
|
R9 3 S2 9 noiseless
|
|
S2 N016 10 8 S2 SDRP2
|
|
D12 N015 N016 DILIM2
|
|
G9 10 Vout2DRV 10 N017 1m
|
|
L6 Vout2DRV 10 20.18m Rser=1.521k Rpar=2.9166k noiseless
|
|
C29 3 N016 1p
|
|
G11 0 N020 3 10 1m
|
|
G12 0 N021 N020 0 1m
|
|
C30 INM2 10 100f
|
|
C31 9 10 100f
|
|
B1 10 N019 I=uplim(dnlim(500u*(V(8,Vout2DRV)-35*V(8,C2_2)),130u,10u),800u,100u)
|
|
B2 10 N015 I=(.5+.5*tanh((V(On)-.8)/100m))*uplim(333.33u*(V(Vout2DRV,10)+580m),667u*V(3,10)+2m,10u)
|
|
D13 10 8 DSUB
|
|
D14 10 9 DSUB
|
|
D15 10 3 DSUB
|
|
S3 N011 1 10 N011 S2V
|
|
C32 N011 10 100f Rpar=1Meg noiseless
|
|
D16 N011 4 DOD1
|
|
D17 1 10 DBurnBG1
|
|
D18 1 10 DBurnBG2
|
|
S4 10 2 On 0 Sburn1
|
|
S6 10 2 On 0 Sburn2
|
|
S5 10 3 On 0 Sburn1
|
|
S7 10 3 On 0 Sburn2
|
|
B3 10 N008 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
B4 10 N019 I=(.5+.5*tanh((.9-V(On))/10m))*60u
|
|
A6 4 10 0 0 0 0 On 0 SCHMITT vt=1.4 vh=0 Rhigh=100k Rlow=1.5Meg Cout=100p
|
|
G14 0 N027 1 10 100µ
|
|
G15 0 N028 N027 0 10µ
|
|
G16 10 N024 0 N028 20µ
|
|
A2 5 BGREF 0 0 0 0 N025 0 OTA g=10u linear en=320n enk=5 Vlow=-1e308 Vhigh=1e308
|
|
M3 1 N023 5 5 NBG temp=27
|
|
M4 10 N023 5 5 PBG temp=27
|
|
C33 1 5 1p
|
|
C34 5 10 1p
|
|
D19 5 N023 Y
|
|
G17 10 N023 N024 10 1µ
|
|
C35 N023 10 1f Rpar=1Meg noiseless
|
|
C36 5 N024 30p Rser=280k noiseless
|
|
D20 N023 5 Y
|
|
D21 10 5 DSUB
|
|
G18 10 N024 N025 0 50µ
|
|
C37 N024 10 5p Rser=1 noiseless
|
|
C38 N025 0 5p Rser=100k Rpar=100K noiseless
|
|
D22 N024 10 DBGLIM
|
|
R11 11 5 400 noiseless
|
|
D23 10 11 DSUB
|
|
A7 10 11 10 10 10 10 10 10 OTA g=0 linear in=170p/(1+freq/200k) vlow=-1e308 vhigh=1e308
|
|
C39 11 10 100f
|
|
G5 0 N009 3 0 10µ
|
|
G10 10 11 3 10 1n
|
|
G2 N002 10 3 10 50p
|
|
G6 10 11 N026 0 16n
|
|
G8 0 N020 2 10 10µ
|
|
G19 0 N026 1 0 1
|
|
G20 N017 10 2A 10 50p
|
|
L3 N009 0 795m Rser=1k Rpar=50Meg noiseless
|
|
L4 N010 0 16m Rser=1.01k Rpar=100k noiseless
|
|
L2 N026 0 6.36m Rser=1 Rpar=40k
|
|
L5 N027 0 79.6m Rser=10 Rpar=7.5k noiseless
|
|
R1 BGREF 10 2Meg tc=0,-8e-8,0 noiseless
|
|
A1 2 S1 10 10 10 10 N002 10 OTA g=200n iout=1u vlow=-1e308 vhigh=1e308
|
|
A4 3 S2 10 10 10 10 N017 10 OTA g=80n iout=1u vlow=-1e308 vhigh=1e308
|
|
G21 10 11 2A 0 500p
|
|
G22 0 2A 2 0 1
|
|
L10 2A 0 795µ Rser=1 Rpar=5k noiseless
|
|
G4 10 N002 0 N010 4n
|
|
G13 10 N017 0 N021 4n
|
|
L9 N028 0 79.6m Rser=10 Rpar=7.5k noiseless
|
|
L7 N020 0 795m Rser=1k Rpar=50Meg noiseless
|
|
L8 N021 0 16m Rser=1.01k Rpar=100k noiseless
|
|
D2 N027 0 DLS
|
|
.model NPN1 NPN(IS=1E-14 VAF=100 BF=80 BR=1 ISC=1e-11 NC=2 IKR=15m CJC=100f CJE=100f noiseless)
|
|
.model DILIM1 D(Ron=50 Roff=50 ilimit=2.5m noiseless)
|
|
.model DILIM2 D(Ron=50 Roff=50 ilimit=1.47m noiseless)
|
|
.model DSUB D(Ron=100 Roff=1G vfwd=600m epsilon=500m noiseless)
|
|
.model DBGLIM D(Ron=10 Roff=20Meg vfwd=6.5 epsilon=500m vrev=-1 revepsilon=500m noiseless)
|
|
.model DLS D(Ron=500 Roff=100k vfwd=100m epsilon=100m vrev=100m revepsilon=100m noiseless)
|
|
.model DLS D(Ron=500 Roff=100k vfwd=100m epsilon=100m vrev=100m revepsilon=100m noiseless)
|
|
.model Y D(Ron=1k Roff=1T Vfwd=740m epsilon=100m noiseless)
|
|
.model NBG VDMOS(Vto=-100m Kp=80m noiseless)
|
|
.model PBG VDMOS(Vto=100m Kp=80m pchan noiseless)
|
|
.model SDRP1 SW(Ron=1 Roff=1Meg vt=-1.44 vh=-300m noiseless)
|
|
.model SDRP2 SW(Ron=1 Roff=1Meg vt=-1.34 vh=-300m noiseless)
|
|
.model S2V SW(level=2 Ron=1k Roff=1G vt=-2 vh=-20m noiseless)
|
|
.model DOD1 D(Ron=59.4k Roff=1G vfwd=200m epsilon=10m noiseless)
|
|
.model DBurnBG1 D(Ron=100 Roff=1G vfwd=0 epsilon=1 ilimit=569u noiseless)
|
|
.model DBurnBG2 D(Ron=700k Roff=1G vfwd=1 epsilon=1 noiseless)
|
|
.model Sburn1 SW(Ron=1k Roff=1G vt=.5 vh=-200m ilimit=97u noiseless)
|
|
.model Sburn2 SW(Ron=700k Roff=1G vt=.5 vh=-200m noiseless)
|
|
.ends LT6658-5
|