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Diffstat (limited to 'Windows/spice/examples/p-to-n-examples/TLC555.LIB')
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diff --git a/Windows/spice/examples/p-to-n-examples/TLC555.LIB b/Windows/spice/examples/p-to-n-examples/TLC555.LIB deleted file mode 100644 index cebcf9ae..00000000 --- a/Windows/spice/examples/p-to-n-examples/TLC555.LIB +++ /dev/null @@ -1,438 +0,0 @@ -* TLC555 -***************************************************************************** -* (C) Copyright 2011 Texas Instruments Incorporated. All rights reserved. -***************************************************************************** -** This model is designed as an aid for customers of Texas Instruments. -** TI and its licensors and suppliers make no warranties, either expressed -** or implied, with respect to this model, including the warranties of -** merchantability or fitness for a particular purpose. The model is -** provided solely on an "as is" basis. The entire risk as to its quality -** and performance is with the customer. -***************************************************************************** -* -* This model is subject to change without notice. Texas Instruments -* Incorporated is not responsible for updating this model. -* -***************************************************************************** -* -** Released by: Analog eLab Design Center, Texas Instruments Inc. -* Part: TLC555 -* Date: 13JUN2011 -* Model Type: ALL IN ONE -* Simulator: PSPICE -* Simulator Version: 16.0.0.p001 -* EVM Order Number: N/A -* EVM Users Guide: N/A -* Datasheet: SLFS043F - SEPTEMBER 1983 - REVISED FEBRUARY 2005 -* -* Model Version: 1.0 -* -***************************************************************************** -* -* Updates: -* -* Version 1.0 : -* Release to Web -* -***************************************************************************** -* -* THIS MODEL IS APPLICABLE FOR TLC555 & TLC556 -* -***************************************************************************** -.SUBCKT TLC555 THRES CONT TRIG RESET OUT DISC VCC GND -XD8 GND RESI D_Z18V -XD7 GND RESET D_Z18V -XR2 RESET RESI TLC55X_RWELL -+ PARAMS: W=50u L=20u -XD2 GND TRGI D_Z18V -XD1 GND TRIG D_Z18V -XR3 TRIG TRGI TLC55X_RWELL -+ PARAMS: W=50u L=20u -XD4 GND THRI D_Z18V -XD3 GND THRES D_Z18V -XR2_2 THRES THRI TLC55X_RWELL -+ PARAMS: W=50u L=20u -XD6 GND CONTI D_Z18V -XD5 GND CONT D_Z18V -XR2_3 CONT CONTI TLC55X_RWELL -+ PARAMS: W=50u L=20u -XMN15 GOUT GND QFF GND MDSWN -+ PARAMS: W=100U L=10U M=7 -XMP15 GOUT VCC QFF GND MDSWP -+ PARAMS: W=195U L=10U M=9 -XMN3 GND TRGO 23 IIMIRRN -+ PARAMS: W1=170U L1=18U M1=1 W2=170U L2=18U M2=1 IDIN=1U -XMN5 GND THRS 25 IIMIRRN -+ PARAMS: W1=13U L1=26U M1=1 W2=52U L2=13U M2=2 IDIN=50N -XMp9 VCC RESO 15 GND IMIRRP -+ PARAMS: W=112U L=15U M=2 IO=2U -XMp6 VCC 25 15 GND IMIRRP -+ PARAMS: W=18U L=26U M=1 IO=100n -XMp5 VCC TRGS 15 GND IMIRRP -+ PARAMS: W=112U L=15U M=2 IO=2U -XMp1 VCC THRO 29 IIMIRRP -+ PARAMS: W1=172U L1=15U M1=1 W2=172U L2=15U M2=1 IDIN=1U -XIB VCC GND 15 IBIAS -XRSFF TRGO THRO RESO QFF 30 VCC GND RR1SFF -+ PARAMS: VOUTH=1 VOUTL=0 RIN=1E12 DELAY=30N ROUT=10 -XMN9 TRGO RESO GND MSWN -+ PARAMS: W=100U L=10U M=1 -XMN17 DISC GOUT GND GND TLC55X_NMOS_HV -+ PARAMS: W=350U L=10U M=20 -XMN16 OUT GOUT GND GND TLC55X_NMOS_HV -+ PARAMS: W=175U L=10U M=20 -XMP16 OUT GOUT VCC VCC TLC55X_PMOS_HV -+ PARAMS: W=270u L=10u M=7 -XMN10 RESO RESI GND GND TLC55X_NMOS_HV_L1 -+ PARAMS: W=100u L=10u M=1 -XMN2 THRO THRI THRS GND TLC55X_NMOS_MV -+ PARAMS: W=170u L=18u M=2 -XMP4 TRGO TRGI TRGS VCC TLC55X_PMOS_MV -+ PARAMS: W=172u L=15u M=2 -XMP3 23 TRGC TRGS VCC TLC55X_PMOS_MV -+ PARAMS: W=172u L=15u M=2 -XMPR1F GND GND 32 TRGC TLC55X_PMOS_LV -+ PARAMS: W=20U L=15U M=1 -XMPR1E 32 32 TRGC TRGC TLC55X_PMOS_LV -+ PARAMS: W=20U L=15U M=1 -XMPR1D TRGC TRGC 33 CONTI TLC55X_PMOS_LV -+ PARAMS: W=20U L=15U M=1 -XMPR1C 33 33 CONTI CONTI TLC55X_PMOS_LV -+ PARAMS: W=20U L=15U M=1 -XMPR1B CONTI CONTI 34 VCC TLC55X_PMOS_LV -+ PARAMS: W=20u L=15u M=1 -XMPR1A 34 34 VCC VCC TLC55X_PMOS_LV -+ PARAMS: W=20u L=15u M=1 -XMN1 29 CONTI THRS GND TLC55X_NMOS_MV -+ PARAMS: W=170u L=18u M=2 -.ENDS TLC555 - -.SUBCKT TLC55X_NMOS_HV D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_NMOSD_HV W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.SUBCKT TLC55X_NMOS_HV_L1 D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_NMOSD_HV_L1 W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.SUBCKT TLC55X_NMOS_MV D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_NMOSD_MV W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.SUBCKT TLC55X_NMOS_LV D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_NMOSD_LV W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.MODEL TLC55X_NMOSD_HV NMOS LEVEL=3 L=10U W=100U KP={KPN} VTO={VTOHN} LAMBDA=2E-3 THETA=1.8E-01 -+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} RSH= 10 PB=0.65 LD= 70N TOX={TOX} -*$ -.MODEL TLC55X_NMOSD_HV_L1 NMOS LEVEL=1 L=10U W=100U KP={KPN} VTO={VTOHN} LAMBDA=2E-3 -+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} RSH= 10 PB=0.65 LD= 70N TOX={TOX} -*$ -.MODEL TLC55X_NMOSD_MV NMOS LEVEL=1 L=10U W=100U KP={KPN} VTO={VTOMN} LAMBDA=2E-3 -+ CJ={CJNCG} CJSW={CJSWNCG} CGSO={CGSONCG} CGDO={CGDONCG} PB=0.65 LD= 70N TOX={TOXCG} -*+ RSH= 10 -*$ -.MODEL TLC55X_NMOSD_LV NMOS LEVEL=1 L=10U W=100U KP={KPN} VTO={VTON} LAMBDA=2E-3 -+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} PB=0.65 LD= 300N TOX={TOX} -*+ RSH= 10 -*$ -.SUBCKT TLC55X_PMOS_HV D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_PMOSD_HV W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.SUBCKT TLC55X_PMOS_MV D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_PMOSD_MV W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.SUBCKT TLC55X_PMOS_LV D G S B PARAMS: W = 100U L = 10U M = 1 -M1 D G S B TLC55X_PMOSD_LV W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} -+ NRD={LS/W} NRS={LS/W} -.ENDS -*$ -.MODEL TLC55X_PMOSD_HV PMOS LEVEL=3 L=10U W=100U KP={KPP} VTO={-VTOHP} LAMBDA=2E-3 THETA=2.2E-01 -+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} RSH=10 PB=0.65 LD=70N TOX={TOX} -*$ -.MODEL TLC55X_PMOSD_MV PMOS LEVEL=1 L=10U W=100U KP={KPP} VTO={-VTOMP} LAMBDA=2E-3 -*+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} PB=0.65 LD=70N TOX={TOX} -+ CJ={CJNCG} CJSW={CJSWNCG} CGSO={CGSONCG} CGDO={CGDONCG} PB=0.65 LD= 70N TOX={TOXCG} -*+ RSH= 10 -*$ -.MODEL TLC55X_PMOSD_LV PMOS LEVEL=1 L=10U W=100U KP={KPP} VTO={-VTOP} LAMBDA=2E-3 -+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} PB=0.65 LD=300N TOX={TOX} -*+ RSH= 10 -*$ -.SUBCKT TLC55X_RWELL 1 2 PARAMS: W = 10U L = 100U -XR1 1 2 TLC55X_RWELLD PARAMS: W = {W} L = {L} -.ENDS -*$ -.SUBCKT TLC55X_RWELLD 1 2 PARAMS: W = 10U L = 100U -R1 1 2 {RSW*L/W} -.ENDS -*$ -.SUBCKT TLC55X_RNSD 1 2 PARAMS: W = 10U L = 100U -XR1 1 2 TLC55X_RNSD_D PARAMS: W = {W} L = {L} -.ENDS -*$ -.SUBCKT TLC55X_RNSD_D 1 2 PARAMS: W = 10U L = 100U -R1 1 2 {RSN*L/W} -.ENDS -*$ -.SUBCKT TLC55X_RC 1 2 PARAMS: WW = 10U LW = 100U WNSD = 10U LNSD = 100U -XR1 1 2 TLC55X_RC_D PARAMS: WW = {WW} LW = {LW} WNSD = {WNSD} LNSD = {LNSD} -.ENDS -*$ -.SUBCKT TLC55X_RC_D 1 2 PARAMS: WW = 10U LW = 100U WNSD = 10U LNSD = 100U -R1 1 2 {RSW*LW/WW + RSN*LNSD/WNSD} -.ENDS -* -.SUBCKT IBIAS VCC GND VIB -* -.PARAM M1 = 8 -.PARAM M2 = 5 -.PARAM MP = 1 -.PARAM WP = 13U -.PARAM WN = 130U -.PARAM LPE = {36U - LDP} -.PARAM LNE = {13U - LDN} -.PARAM BP = {MP*(WP/LPE)*(KPP/2)} -.PARAM WW = 13U -.PARAM LW = 213U -.PARAM WNN = 25U -.PARAM LNN = 87U -.PARAM R1 = {(RSW*LW/WW + RSN*LNN/WNN)} -.PARAM K2 = {M2*(WN/LNE)*(KPN/2)} -.PARAM MR = {M2/M1} -* -R1 VIB GND {VBMUL} -GB VCC VIB VALUE = {LIMIT( IF ( V(VCC,GND) > VTOHP, BP*PWR(V(VCC,GND)-VTOHP, 2), 0), -+ (1 + 1*LAMBDA*(V(VCC,GND) - VTOHN))*PWR(( 1 - SQRT(MR/(1+2*LAMBDA*(V(VCC,GND) - VTOHP))) )/R1, 2)/K2, 0)} -R2 VIB VCC {RPAR} -.ENDS - -.SUBCKT IMIRRP VCC IO VIB GND PARAMS: W = 100U L = 10U M = 1 IO = 1U -* -.PARAM MP = 1 -.PARAM WP = 13U -.PARAM LPE = {36U - LDP} -.PARAM LE = {L - LDP} -.PARAM MR = { M*W/LE/(MP*WP/LPE)/VBMUL } -.PARAM B1 = { (KPP/2*MP*WP/LPE)*VBMUL } -.PARAM IS = 1E-12 -.PARAM N = {VTOHP/(VT*Log(1 + IO/IS))} -* -GB VCC IO VIB GND {MR} -R1 VCC IO {RPAR} -C1 VCC IO {M*(CBDJ*CJP*LS*W + CBDS*CJSWP*(2*LS + W))} -V1 VCC 10 {VTOHP} -D1 IO 10 DMOD1 -.MODEL DMOD1 D (IS={IS} N={N} ) -.ENDS - -.SUBCKT IIMIRRP VCC IO II PARAMS: W1 = 100U L1 = 10U M1 = 1 W2 = 100U L2= 10U M2 = 2 IDIN = 1U -* -.PARAM L1E = {L1 - LDP} -.PARAM L2E = {L2 - LDP} -.PARAM B1 = {M1*(W1/L1)*(KPP/2)} -.PARAM MR = {M2*W2/L2E/(M1*W1/L1E)} -.PARAM RDS = {1/(2*SQRT(M2*(W2/L2E)*(KPP/2)*IDIN))} -.PARAM IS = 1E-12 -.PARAM NP = {VTOP/(VT*Log(1 + IDIN/IS))} -* -FB VCC IO V1 {MR} -R1 VCC IO {RPAR} -C1 VCC IO {M2*(CBDJ*CJP*LS*W2 + CBDS*CJSWP*(2*LS + W2))} -D1 IO 10 DMODP -V1 VCC 10 {VTOP} -R2 II 10 {RDS} -C2 VCC II {M1*(CBDJ*CJP*LS*W1 + CBDS*CJSWP*(2*LS + W1)) + 2/3*COX*(M1*W1*L1E + M2*W2*L2E) + M1*CGSOP*W1} -C3 II IO {CGDOP*W2} -.MODEL DMODP D (IS={IS} N={NP} ) -.ENDS - -.SUBCKT IIMIRRN GND IO II PARAMS: W1 = 100U L1 = 10U M1 = 1 W2 = 100U L2= 10U M2 = 2 IDIN = 1U -* -.PARAM L1E = {L1 - LDN} -.PARAM L2E = {L2 - LDN} -.PARAM B1 = {M1*(W1/L1)*(KPN/2)} -.PARAM MR = { M2*W2/L2E/(M1*W1/L1E) } -.PARAM RDS = {1/(2*SQRT(M2*(W2/L2E)*(KPN/2)*IDIN))} -.PARAM IS = 1E-12 -.PARAM NN = {VTON/(VT*Log(1 + IDIN/IS))} -* -FB IO GND V1 {MR} -R1 IO GND {RPAR} -C1 IO GND {M2*(CBDJ*CJN*LS*W2 + CBDS*CJSWN*(2*LS + W2))} -D1 10 IO DMODN -V1 10 GND {VTON} -R2 II 10 {RDS} -C2 II GND {M1*(CBDJ*CJN*LS*W1 + CBDS*CJSWN*(2*LS + W1)) + 2/3*COX*(M1*W1*L1E + M2*W2*L2E) + M1*CGSON*W1} -C3 II IO {M2*CGDON*W2} -.MODEL DMODN D (IS={IS} N={NN} ) -.ENDS - -.SUBCKT MDSWP D S DG GND PARAMS: W = 100U L = 10U M = 1 -* -.PARAM LE = {L - LDP} -* -S1 D S DG GND SWN -C1 D S {M*(CBDJ*CJP*LS*W + CBDS*CJSWP*(2*LS + W))} -*D B -.MODEL SWN VSWITCH ( VON = {0.49} VOFF = {0.55} RON={1/(2*M*(W/LE)*(KPP/2)*10)} ROFF={1G} ) -.ENDS - -.SUBCKT MDSWN D S DG GND PARAMS: W = 100U L = 10U M = 1 -* -.PARAM LE = {L - LDN} -* -S1 D S DG GND SWN -C1 D S {M*(CBDJ*CJN*LS*W + CBDS*CJSWN*(2*LS + W))} -*D B -.MODEL SWN VSWITCH ( VON = {0.55} VOFF = {0.49} RON={1/(2*M*(W/LE)*(KPN/2)*10)} ROFF={1G} ) -.ENDS - -.SUBCKT MSWN D G S PARAMS: W = 100U L = 10U M = 1 -* -.PARAM LE = {L - LDN} -* -*C1 D S {M*(CBDJ*CJN*LS*W + CBDS*CJSWN*(2*LS + W))} -*D B -*C2 G S {M*2/3*COX*(W*LE) + CGSON*W} -*C3 G D {CGDON*W} -S1 D S G S SWN -.MODEL SWN VSWITCH ( VON = {VTON+1} VOFF = {VTON} RON={1/(2*M*(W/L)*(KPN/2)*10)} ROFF={1G} ) -.ENDS -* -* CONNECTIONS: A -* | C -* | | -.SUBCKT D_Z18V 1 2 -D1 1 2 DZ_18V -.ENDS - -.PARAM ISZ = 5P -.PARAM NZ = {0.3/(VT*Log(1 + 5.0M/ISZ))} -.MODEL DZ_18V D( IS={ISz} N={Nz} BV=18.0 IBV=5.0M EG={8*Nz*VT}) - -.SUBCKT RR1SFF S R R1 Q Q_ VCC GND -+ PARAMS: VOUTH=5.0 VOUTL=0 RIN=1E12 DELAY=10N ROUT=10 -.PARAM W1 = 100U -.PARAM L1 = 10U -.PARAM W2 = 100U -.PARAM L2= 10U -.PARAM W3 = 10U -.PARAM L3 = 25U -.PARAM W4 = 10U -.PARAM L4= 100U -* -XU1 Q GND S GND Q_ GND COMP2INPNORSD -+ PARAMS: ROUT={ROUT} DELAYLH={1N} DELAYHL={1N} VOUTH={VOUTH} VOUTL={VOUTL} -+ VTHRES1={0.5*(VOUTH-VOUTL)} VTHRES2={VTOCN} -XU2 VCC R R1 GND Q_ GND Q VCC GND COMP3INPNORSD -+ PARAMS: ROUT={ROUT} DELAYLH={15N} DELAYHL={1N} VOUTH={VOUTH} VOUTL={VOUTL} -+ VTHRES1={VTOCP} VTHRES2={VTOCN} VTHRES3={0.49*(VOUTH-VOUTL)} -*C1 S GND {0.5*COX*(W1*L1) + CGSON*W1} -*C2 R VCC {0.5*COX*(W2*L2) + CGSOP*W2} -*C3 R1 GND {0.5*COX*(W3*L3) + CGSON*W3} -*C4 R1 VCC {0.5*COX*(W4*L4) + CGSOP*W4} -.ENDS - -.SUBCKT COMP2INPNORSD IN1+ IN1- IN2+ IN2- OUT GND -+ PARAMS: ROUT=0 DELAYLH=0 DELAYHL=0 VOUTH=0 VOUTL=0 VTHRES1=0 VTHRES2=0 -* -.PARAM TDELLH = {IF ( (DELAYLH < 1E-9) , 1E-9, DELAYLH ) } -.PARAM TDELHL = {IF ( (DELAYHL < 1E-9) , 1E-9, DELAYHL ) } -.PARAM RO = {IF ( (TDEL > 1E-15) & (ROUT < 1), 1, ROUT ) } -.PARAM TDEL = {(TDELLH+TDELHL)/2} -.PARAM COUT={TDEL/(0.693*(RO+1U))} -.PARAM RDELLH = {TDELLH/(0.693*(COUT+1F))} -.PARAM RDELHL = {TDELHL/(0.693*(COUT+1F))} - -EOUT OUT GND VALUE= { IF ( (V(IN1+,IN1-) > {VTHRES1}) | (V(IN2+,IN2-) > {VTHRES2}), -+ VOUTL + RDELLH*I(EOUT), VOUTH + RDELHL*I(EOUT) ) } -COUT OUT GND {COUT} -.ENDS COMP2INPNORSD - -.SUBCKT COMP3INPNORSD IN1+ IN1- IN2+ IN2- IN3+ IN3- OUT VCC GND -+ PARAMS: ROUT=0 DELAYLH=0 DELAYHL=0 VOUTH=0 VOUTL=0 VTHRES1=0 VHYST1=0 VTHRES2=0 VHYST2=0 VTHRES3=0 VHYST3=0 -* -.PARAM TDELLH = {IF ( (DELAYLH < 1E-9) , 1E-9, DELAYLH ) } -.PARAM TDELHL = {IF ( (DELAYHL < 1E-9) , 1E-9, DELAYHL ) } -.PARAM RO = {IF ( (TDEL > 1E-15) & (ROUT < 1), 1, ROUT ) } -.PARAM TDEL = {(TDELLH+TDELHL)/2} -.PARAM COUT={TDEL/(0.693*(RO+1U))} -.PARAM VREFN = {(15-VTOHN)} -.PARAM VREFP = {(15-VTOHP)} -.PARAM RDELLH = {TDELLH/(0.693*(COUT+1F))*VREFP} -.PARAM RDELHL = {TDELHL/(0.693*(COUT+1F))*VREFN} -* -EOUT OUT GND VALUE= { IF ( (V(IN1+,IN1-) > {VTHRES1}) | (V(IN2+,IN2-) > {VTHRES2}) | (V(IN3+,IN3-) > {VTHRES3}), -+ VOUTL + RDELLH*I(EOUT)*V(1,GND), VOUTH + RDELHL*I(EOUT)*V(1,GND) ) } -E1 1 GND VALUE= { IF ( (V(VCC,GND) > {VTOHP+0.01}), 1/(V(VCC,GND)-VTOHP), 100 ) } -COUT OUT GND {COUT} -.ENDS COMP3INPNORSD - -.SUBCKT 1N4148 1 2 -D1 1 2 D_1N4148_1 -.MODEL D_1N4148_1 D( IS=1N N=1.7 BV=75 IBV=5U RS=2M -+ CJO=4P VJ=750M M=330M FC=500M TT=25.9N -+ EG=1.11 XTI=3 KF=0 AF=1 ) -.ENDS - -.PARAM LS = 1.0U -.PARAM VTOP_ = 0.31 -.PARAM VTOP = 0.14 -.PARAM VTON = 0.14 -.PARAM VTOMP = 0.6 -.PARAM VTOMN = 0.55 -.PARAM VTOHP = 0.85 -.PARAM VTOHN = 0.80 -.PARAM LAMBDA = 2M -.PARAM KPN = 6.0E-05 -.PARAM KPP = 3.0E-05 -.PARAM LDN = 0.07U -.PARAM LDP = 0.07U -.PARAM RSW = 1810 -.PARAM RSN = 1.41 -.PARAM VBMUL = 1E6 -.PARAM RPAR = 1T -.PARAM CBDJ = 1 -.PARAM CBDS = 1 -.PARAM CN = 0.8 -*0.8U -.PARAM CJN = {CN*180U} -.PARAM CJP = {CN*300U} -.PARAM CJSWN = {CN*1N} -.PARAM CJSWP = {CN*2.2N} -.PARAM XJN = 0.2U -.PARAM CGSON = {CN*0.6 * XJN * COX} -.PARAM CGDON = {CGSON} -.PARAM XJP = 0.3U -.PARAM CGSOP = {CN*0.6 * XJN * COX} -.PARAM CGDOP = {CGSOP} -.PARAM EPSSIO2 = {3.9*8.854214871E-12} -.PARAM TOX = 1000E-10 -.PARAM COX = {EPSSIO2/TOX} -.PARAM EC = 1.5E6 -.PARAM VTOCP = {VTOHP+0.05} -.PARAM VTOCN = {VTOHN+0.05} -*CG -.PARAM CCG = 0.2 -.PARAM CJNCG = {CCG*180U} -.PARAM CJPCG = {CCG*300U} -.PARAM CJSWNCG = {CCG*1N} -.PARAM CJSWPCG = {CCG*2.2N} -.PARAM XJNCG = 0.2U -.PARAM CGSONCG = {CCG*0.6 * XJNCG * COXCG} -.PARAM CGDONCG = {CGSONCG} -.PARAM XJPCG = 0.3U -.PARAM CGSOPCG = {CCG*0.6 * XJNCG * COXCG} -.PARAM CGDOPCG = {CGSOPCG} -.PARAM TOXCG = 1000E-10 -.PARAM COXCG = {EPSSIO2/TOXCG}
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