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diff --git a/Windows/spice/examples/p-to-n-examples/OPA171.txt b/Windows/spice/examples/p-to-n-examples/OPA171.txt deleted file mode 100644 index 2bb29b31..00000000 --- a/Windows/spice/examples/p-to-n-examples/OPA171.txt +++ /dev/null @@ -1,376 +0,0 @@ -* OPA171 - Rev. B -* Created by Ian Williams; January 17, 2017 -* Created with Green-Williams-Lis Op Amp Macro-model Architecture -* Copyright 2017 by Texas Instruments Corporation -****************************************************** -* MACRO-MODEL SIMULATED PARAMETERS: -****************************************************** -* OPEN-LOOP GAIN AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (Aol) -* UNITY GAIN BANDWIDTH (GBW) -* INPUT COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR) -* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR) -* DIFFERENTIAL INPUT IMPEDANCE (Zid) -* COMMON-MODE INPUT IMPEDANCE (Zic) -* OPEN-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zo) -* OUTPUT CURRENT THROUGH THE SUPPLY (Iout) -* INPUT VOLTAGE NOISE DENSITY VS. FREQUENCY (en) -* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in) -* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vo) -* SHORT-CIRCUIT OUTPUT CURRENT (Isc) -* QUIESCENT CURRENT (Iq) -* SETTLING TIME VS. CAPACITIVE LOAD (ts) -* SLEW RATE (SR) -* SMALL SIGNAL OVERSHOOT VS. CAPACITIVE LOAD -* LARGE SIGNAL RESPONSE -* OVERLOAD RECOVERY TIME (tor) -* INPUT BIAS CURRENT (Ib) -* INPUT OFFSET CURRENT (Ios) -* INPUT OFFSET VOLTAGE (Vos) -* INPUT COMMON-MODE VOLTAGE RANGE (Vcm) -* INPUT/OUTPUT ESD CELLS (ESDin, ESDout) -****************************************************** -.subckt OPA171 IN+ IN- VCC VEE OUT -****************************************************** -* MODEL DEFINITIONS: -.model BB_SW VSWITCH(Ron=50 Roff=1e9 Von=700e-3 Voff=0) -.model ESD_SW VSWITCH(Ron=50 Roff=1e9 Von=500e-3 Voff=100e-3) -.model OL_SW VSWITCH(Ron=1e-3 Roff=1e9 Von=900e-3 Voff=800e-3) -.model OR_SW VSWITCH(Ron=10e-3 Roff=1e9 Von=1e-3 Voff=0) -.model R_NOISELESS RES(T_ABS=-273.15) -****************************************************** -V_OS N041 en_n 214.023e-6 -R1 N043 N042 R_NOISELESS 1e-3 -R2 N049 ESDn R_NOISELESS 1e-3 -R3 N063 0 R_NOISELESS 1e12 -C1 N063 0 1 -R4 VCC_B N062 R_NOISELESS 1e-3 -C2 N062 0 1e-15 -C3 N064 0 1e-15 -R5 N064 VEE_B R_NOISELESS 1e-3 -G_PSR N043 N044 N005 N014 1e-3 -R6 MID N047 R_NOISELESS 1e9 -VCM_MIN N048 VEE_B -0.1 -R7 N048 MID R_NOISELESS 1e9 -VCM_MAX N047 VCC_B -2 -XVCM_CLAMP N044 MID N045 MID N047 N048 VCCS_EXT_LIM -R8 N045 MID R_NOISELESS 1 -C4 VCM_CLAMP MID 1e-15 -R9 N045 VCM_CLAMP R_NOISELESS 1e-3 -V4 N061 OUT 0 -R10 MID N051 R_NOISELESS 1e9 -R11 MID N052 R_NOISELESS 1e9 -XIQp VIMON MID VCC MID VCCS_LIM_IQ -XIQn MID VIMON VEE MID VCCS_LIM_IQ -R12 VCC_B N016 R_NOISELESS 1e3 -R13 N029 VEE_B R_NOISELESS 1e3 -XCLAWp VIMON MID N016 VCC_B VCCS_LIM_CLAWp -XCLAWn MID VIMON VEE_B N029 VCCS_LIM_CLAWn -R14 VEE_CLP MID R_NOISELESS 1e3 -R15 MID VCC_CLP R_NOISELESS 1e3 -R16 N017 N016 R_NOISELESS 1e-3 -R17 N030 N029 R_NOISELESS 1e-3 -C5 MID N017 1e-15 -C6 N030 MID 1e-15 -R18 VOUT_S N052 R_NOISELESS 100 -C7 VOUT_S MID 1e-9 -G2 MID VCC_CLP N017 MID 1e-3 -G3 MID VEE_CLP N030 MID 1e-3 -XCL_AMP N013 N039 VIMON MID N020 N027 CLAMP_AMP_LO -V_ISCp N013 MID 25 -V_ISCn N039 MID -35 -XOL_SENSE MID N068 OLN OLP OL_SENSE -R19 N039 MID R_NOISELESS 1e9 -R20 N027 MID R_NOISELESS 1 -C8 N028 MID 1e-15 -R21 MID N020 R_NOISELESS 1 -R22 MID N013 R_NOISELESS 1e9 -C9 MID N021 1e-15 -XCLAW_AMP VCC_CLP VEE_CLP VOUT_S MID N018 N025 CLAMP_AMP_LO -R23 VEE_CLP MID R_NOISELESS 1e9 -R24 N025 MID R_NOISELESS 1 -C10 N026 MID 1e-15 -R25 MID N018 R_NOISELESS 1 -R26 MID VCC_CLP R_NOISELESS 1e9 -C11 MID N019 1e-15 -XCL_SRC N021 N028 CL_CLAMP MID VCCS_LIM_4 -XCLAW_SRC N019 N026 CLAW_CLAMP MID VCCS_LIM_3 -R27 N018 N019 R_NOISELESS 1e-3 -R28 N026 N025 R_NOISELESS 1e-3 -R29 N020 N021 R_NOISELESS 1e-3 -R30 N028 N027 R_NOISELESS 1e-3 -R31 N068 MID R_NOISELESS 1 -R32 N068 SW_OL R_NOISELESS 100 -C12 SW_OL MID 10e-12 -R33 VIMON N051 R_NOISELESS 100 -C13 VIMON MID 1e-9 -C_DIFF en_p ESDn 3e-12 -C_CMn ESDn MID 3e-12 -C_CMp MID en_p 3e-12 -I_Q VCC VEE 475e-6 -I_B N044 MID 8e-12 -I_OS N049 MID 4e-12 -R36 N037 MID R_NOISELESS 1 -R37 N040 MID R_NOISELESS 1e9 -R38 MID N023 R_NOISELESS 1 -R39 MID N015 R_NOISELESS 1e9 -XGR_AMP N015 N040 N022 MID N023 N037 CLAMP_AMP_HI -XGR_SRC N024 N038 CLAMP MID VCCS_LIM_GR -C17 MID N024 1e-15 -C18 N038 MID 1e-15 -V_GRn N040 MID -50 -V_GRp N015 MID 50 -R40 N023 N024 R_NOISELESS 1e-3 -R41 N038 N037 R_NOISELESS 1e-3 -R42 VSENSE N022 R_NOISELESS 1e-3 -C19 MID N022 1e-15 -R43 MID VSENSE R_NOISELESS 1e3 -G_CMR N041 N042 N012 MID 1e-3 -G8 MID CLAW_CLAMP N050 MID 1e-3 -R45 MID CLAW_CLAMP R_NOISELESS 1e3 -G9 MID CL_CLAMP CLAW_CLAMP MID 1e-3 -R46 MID CL_CLAMP R_NOISELESS 1e3 -R47 N059 VCLP R_NOISELESS 100 -C24 MID VCLP 100e-12 -E4 N059 MID CL_CLAMP MID 1 -E5 N052 MID OUT MID 1 -H1 N051 MID V4 1e3 -S1 N054 N053 SW_OL MID OL_SW -R52 MID en_p R_NOISELESS 1e9 -R53 ESDn MID R_NOISELESS 1e9 -R_CMR N042 N041 R_NOISELESS 1e3 -R59 N062 N063 R_NOISELESS 1e6 -R60 N063 N064 R_NOISELESS 1e6 -R_PSR N044 N043 R_NOISELESS 1e3 -G15 MID VSENSE CLAMP MID 1e-3 -V_ORp N036 VCLP 3 -V_ORn N031 VCLP -3 -V11 N033 N032 0 -V12 N034 N035 0 -H2 OLN MID V11 -1 -H3 OLP MID V12 1 -S2 VCC ESDn ESDn VCC ESD_SW -S3 VCC en_p en_p VCC ESD_SW -S4 ESDn VEE VEE ESDn ESD_SW -S5 en_p VEE VEE en_p ESD_SW -S6 VCC OUT OUT VCC ESD_SW -S7 OUT VEE VEE OUT ESD_SW -E1 MID 0 N063 0 1 -G16 0 VCC_B VCC 0 1 -G17 0 VEE_B VEE 0 1 -R88 VCC_B 0 R_NOISELESS 1 -R89 VEE_B 0 R_NOISELESS 1 -S8 N034 CLAMP CLAMP N034 OR_SW -S9 CLAMP N033 N033 CLAMP OR_SW -Xi_np en_n MID FEMT -Xi_nn ESDn MID FEMT -XVCCS_LIM_1 VCM_CLAMP N049 MID N046 VCCS_LIM_1 -XVCCS_LIM_2 N046 MID MID CLAMP VCCS_LIM_2 -R44 N046 MID R_NOISELESS 1e6 -R58 CLAMP MID R_NOISELESS 1e6 -C20 CLAMP MID 1.484e-7 -S10 en_p ESDn ESDn en_p BB_SW -S11 ESDn en_p en_p ESDn BB_SW -R34 en_p IN+ R_NOISELESS 10e-3 -R35 ESDn IN- R_NOISELESS 10e-3 -R48 MID N050 R_NOISELESS 1e6 -G1 MID N050 VSENSE MID 1e-6 -C14 N050 MID 7.4e-15 -Rx N061 N060 R_NOISELESS 1.65e4 -Rdummy N061 MID R_NOISELESS 1.65e3 -G_Zo MID N053 CL_CLAMP N061 172 -Rdc1 N053 MID R_NOISELESS 1 -R49 N053 N054 R_NOISELESS 1e5 -R50 N054 MID R_NOISELESS 1.266e3 -G4 MID N057 N054 MID 80 -C15 N054 N053 1.592e-6 -R51 N057 MID R_NOISELESS 1 -C16 N067 MID 1.929e-10 -R54 N067 N058 R_NOISELESS 10e3 -R55 N058 N057 R_NOISELESS 1.547e6 -C23 N007 N006 1.516e-12 -G_adjust1 MID N006 en_p MID 4.75e-4 -Rsrc1 N006 MID R_NOISELESS 1 -R56 N007 MID R_NOISELESS 2.104e5 -R57 N007 N006 R_NOISELESS 1e8 -G5 MID N008 N007 MID 1 -Rsrc2 N008 MID R_NOISELESS 1 -R61 N009 N008 R_NOISELESS 1e4 -C25 N009 N008 1.516e-8 -R62 N009 MID R_NOISELESS 2.104e1 -G6 MID N012 N009 MID 4.762e2 -Rsrc3 N012 MID R_NOISELESS 1 -C26 N011 N010 3.745e-10 -G_adjust2 MID N010 VEE_B MID 1.588e-1 -Rsrc4 N010 MID R_NOISELESS 1 -R63 N011 MID R_NOISELESS 6.296e2 -R64 N011 N010 R_NOISELESS 1e8 -G7 MID N014 N011 MID 1 -Rsrc5 N014 MID R_NOISELESS 1 -C27 N003 N004 2.792e-12 -G_adjust3 MID N004 VCC_B MID 3.772e-4 -Rsrc6 N004 MID R_NOISELESS 1 -R65 N003 MID R_NOISELESS 2.658e5 -R66 N003 N004 R_NOISELESS 1e8 -G10 MID N002 N003 MID 1 -Rsrc7 N002 MID R_NOISELESS 1 -R67 N001 N002 R_NOISELESS 1e4 -C28 N001 N002 2.792e-8 -R68 N001 MID R_NOISELESS 2.658e1 -G11 MID N005 N001 MID 3.772e2 -Rsrc8 N005 MID R_NOISELESS 1 -Xe_n N065 MID VNSE -G12 MID N066 N065 N069 1 -R69 N066 N069 R_NOISELESS 1e6 -R70 N066 N069 R_NOISELESS 11.786e3 -C29 N066 N069 6.75e-12 -R71 N069 N070 R_NOISELESS 15e3 -C30 N070 MID 106e-12 -Rpd N070 MID R_NOISELESS 1e9 -E2 en_p en_n N066 MID 1 -G13 MID N055 N058 MID 1 -R72 N055 MID R_NOISELESS 1 -R73 N056 N055 R_NOISELESS 1e4 -R74 MID N056 R_NOISELESS 5 -C21 N056 N055 3.183e-13 -XVCCS_LIM_ZO N056 MID MID N060 VCCS_LIM_ZO -R76 MID N060 R_NOISELESS 1 -G14 MID N032 N031 MID 1 -G18 MID N035 N036 MID 1 -R77 MID N032 R_NOISELESS 1 -R78 MID N035 R_NOISELESS 1 -.ends OPA171 -* -.subckt CLAMP_AMP_HI VC+ VC- VIN COM VO+ VO- -.param G=10 -GVo+ COM Vo+ Value = {IF(V(VIN,COM)>V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)} -GVo- COM Vo- Value = {IF(V(VIN,COM)<V(VC-,COM),((V(VC-,COM)-V(VIN,COM))*G),0)} -.ends CLAMP_AMP_HI -* -.subckt OL_SENSE 1 2 3 4 -GSW+ 1 2 Value = {IF((V(3,1)>10e-3 | V(4,1)>10e-3),1,0)} -.ends OL_SENSE -* -.subckt FEMT 1 2 -.param FLWF=1e-3 -.param NLFF=1 -.param NVRF=1 -.param GLFF={PWR(FLWF,0.25)*NLFF/1164} -.param RNVF={1.184*PWR(NVRF,2)} -.model DVNF D KF={PWR(FLWF,0.5)/1e11} IS=1.0e-16 -I1 0 7 10e-3 -I2 0 8 10e-3 -D1 7 0 DVNF -D2 8 0 DVNF -E1 3 6 7 8 {GLFF} -R1 3 0 1e9 -R2 3 0 1e9 -R3 3 6 1e9 -E2 6 4 5 0 10 -R4 5 0 {RNVF} -R5 5 0 {RNVF} -R6 3 4 1e9 -R7 4 0 1e9 -G1 1 2 3 4 1e-6 -.ends FEMT -* -.subckt VCCS_EXT_LIM VIN+ VIN- IOUT- IOUT+ VP+ VP- -.param Gain = 1 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VIN+,VIN-),V(VP-,VIN-), V(VP+,VIN-))} -.ends VCCS_EXT_LIM -* -.subckt VCCS_LIM_1 VC+ VC- IOUT+ IOUT- -.param Gain = 1e-4 -.param Ipos = .5 -.param Ineg = -.5 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)} -.ends VCCS_LIM_1 -* -.subckt VCCS_LIM_2 VC+ VC- IOUT+ IOUT- -.param Gain = 3.40e-2 -.param Ipos = 0.224 -.param Ineg = -0.224 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)} -.ends VCCS_LIM_2 -* -.subckt VCCS_LIM_3 VC+ VC- IOUT+ IOUT- -.param Gain = 1 -.param Ipos = 100e-3 -.param Ineg = -100e-3 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)} -.ends VCCS_LIM_3 -* -.subckt VCCS_LIM_4 VC+ VC- IOUT+ IOUT- -.param Gain = 1 -.param Ipos = 200e-3 -.param Ineg = -200e-3 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)} -.ends VCCS_LIM_4 -* -.subckt VCCS_LIM_CLAWn VC+ VC- IOUT+ IOUT- -G1 IOUT+ IOUT- TABLE {abs(V(VC+,VC-))} = -+(0, 1e-5) -+(3.38, 3.1e-5) -+(3.66, 3.2e-5) -+(3.87, 7.8e-5) -+(6.67, 5.64e-4) -+(8, 8.48e-4) -+(15, 2.23e-3) -+(35, 6.3e-3) -.ends VCCS_LIM_CLAWn -* -.subckt VCCS_LIM_IQ VC+ VC- IOUT+ IOUT- -.param Gain = 1e-3 -G1 IOUT+ IOUT- VALUE={IF( (V(VC+,VC-)<=0),0,Gain*V(VC+,VC-) )} -.ends VCCS_LIM_IQ -* -.subckt VNSE 1 2 -.param FLW=20 -.param NLF=45 -.param NVR=14 -.param GLF={PWR(FLW,0.25)*NLF/1164} -.param RNV={1.184*PWR(NVR,2)} -.model DVN D KF={PWR(FLW,0.5)/1E11} IS=1.0E-16 -I1 0 7 10E-3 -I2 0 8 10E-3 -D1 7 0 DVN -D2 8 0 DVN -E1 3 6 7 8 {GLF} -R1 3 0 1E9 -R2 3 0 1E9 -R3 3 6 1E9 -E2 6 4 5 0 10 -R4 5 0 {RNV} -R5 5 0 {RNV} -R6 3 4 1E9 -R7 4 0 1E9 -E3 1 2 3 4 1 -.ends VNSE -* -.subckt CLAMP_AMP_LO VC+ VC- VIN COM VO+ VO- -.param G=1 -GVo+ COM Vo+ Value = {IF(V(VIN,COM)>V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)} -GVo- COM Vo- Value = {IF(V(VIN,COM)<V(VC-,COM),((V(VC-,COM)-V(VIN,COM))*G),0)} -.ends CLAMP_AMP_LO -* -.subckt VCCS_LIM_GR VC+ VC- IOUT+ IOUT- -.param Gain = 1 -.param Ipos = 0.5 -.param Ineg = -0.5 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)} -.ends VCCS_LIM_GR -* -.subckt VCCS_LIM_CLAWp VC+ VC- IOUT+ IOUT- -G1 IOUT+ IOUT- TABLE {abs(V(VC+,VC-))} = -+(0, 1e-5) -+(7.1, 6.8e-4) -+(14.64, 1.54e-3) -+(25, 2.7e-3) -.ends VCCS_LIM_CLAWp -* -.subckt VCCS_LIM_ZO VC+ VC- IOUT+ IOUT- -.param Gain = 2e3 -.param Ipos = 1e3 -.param Ineg = -1.5e3 -G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)} -.ends VCCS_LIM_ZO -*
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