* ON SEMICONDUCTOR NEXT GEN MODEL, JAN 2019
* BEGIN MODEL NCS333
*
*  MODEL FEATURES INCLUDE OUTPUT SWING, OUTPUT CURRENT
*  THROUGH THE SUPPLY RAILS, RAIL-TO-RAIL OUTPUT STAGE,
*  OUTPUT CURRENT LIMIT, SLEW RATE, OUTPUT SWING VERSUS
*  CURRENT, OPEN LOOP GAIN AND PHASE WITH CL EFFECTS,
*  POWER SUPPLY REJECTION WITH FREQUENCY EFFECTS,
*  COMMON MODE REJECTION WITH FREQUENCY AND SUPPLY
*  VOLTAGE EFFECTS, INPUT VOLTAGE NOISE WITH PEAK,
*  INPUT CURRENT NOISE, INPUT BIAS CURRENT WITH
*  TEMPERATURE EFFECTS, DIFFERENTIAL INPUT CAPACITANCE,
*  COMMON MODE INPUT CAPACITANCE, INPUT COMMON MODE
*  RANGE, OFFSET WITH TEMPERATURE EFFECTS, INPUT AND
*  OUTPUT CLAMPS TO THE RAILS, INPUT EMI FILTER,
*  AND QUIESCENT CURRENT.
*  MODEL TOTAL SUPPLY VOLTAGE RANGE IS 1.8 TO 5.5 V.
*  MODEL TEMP RANGE IS -40 TO +125 DEG C.
*  NOTE THAT MODEL IS FUNCTIONAL OVER THIS RANGE BUT
*  NOT ALL PARAMETERS TRACK THOSE OF THE REAL PART.

*  NOTE - FOR ACCURATE BIAS CURRENTS AT ROOM AND COLD
*  SET THE SPICE ANALYSIS OPTIONS AS FOLLOWS:
*  GMIN 1E-13, ABSTOL 1E-14, VNTOL 1E-9.
*  AND FOR ACCURATE OFFSET VOLTAGE SET:
*  RELTOL 1E-8.
*  ALL OF THESE OPTIONS ARE SMALLER THAN THE
*  DEFAULTS IN MOST SIMULATORS, SET THEM ALL AS SMALL
*  AS WILL ALLOW CONVERGANCE ON YOUR SIMULATOR.
*
*  IF YOU ARE USING LTSPICE17 ADD THE OPTIONS
*  PLOTRELTOL=1E-4 AND PLOTVNTOL=1E-6 FOR MORE
*  ACCURATE TIME DOMAIN WAVEFORM PLOTTING.
*
* PINOUT  1    2    3    4    5
* PINOUT +IN  -IN  +V   -V   OUT
*
.SUBCKT NCS333 1 2 3 4 5
E10 144 222 221 0 4E-4
R36 223 VCM 1E3
R37 VCM 224 1E3
C6 216 219 2.2E-9
C7 217 220 2.2E-9
C8 218 221 400E-12
E11 225 1 220 0 -0.015
E12 213 225 219 0 0.015
E14 115 112 110 112 0.5
M1 226 113 204 204 NOUT L=3U W=1400U
M2 227 228 203 203 POUT L=3U W=1400U
M3 118 118 205 205 POUT L=3U W=1400U
M4 229 230 197 197 HVP L=30U W=6000U
M5 231 232 199 199 HVP L=30U W=6000U
M8 119 119 206 206 NOUT L=3U W=1400U
R43 111 228 300
R44 233 113 300
G3 114 115 234 115 3.33E-4
R45 115 114 2.0E11
R46 112 229 490
R47 112 231 490
C13 229 231 1E-10
C14 230 0 2.2E-12
C15 232 0 2.2E-12
C16 120 0 0.1E-12
D13 113 195 D
D14 235 228 D
Q15 235 201 110 QP
V18 236 230 2.02E-6
M19 237 238 239 239 PIN L=60U W=5000U
E17 224 0 213 0 1
E18 223 0 2 0 1
M23 238 238 239 239 PIN L=60U W=5000U
V21 237 240 0
R59 120 227 30 TC=6E-3,2.5E-5
R60 226 120 18 TC=6E-3,2.5E-5
Q20 195 196 112 Q
R3 197 198 2
R4 199 198 2
R10 196 200 1000
R11 201 202 1000
R12 203 3 3.4
R13 4 204 0.65
R17 205 110 3.4
R18 112 206 0.65
D7 207 0 DIN
D8 208 0 DIN
I8 0 207 12E-6
I9 0 208 12E-6
E2 112 0 4 0 1
E3 110 0 3 0 1
E4 209 210 211 212 1
G2 213 2 214 215 1.97E-6
E5 216 0 110 0 1
E6 217 0 112 0 1
E7 218 0 VCM 115 1
R30 216 219 1E6
R31 217 220 1E6
R32 218 221 1E6
R33 0 219 10
R34 0 220 10
R35 0 221 10
J1 241 213 241 J
J2 241 209 241 J
J3 209 242 209 J
J4 213 242 213 J
C21 230 232 1.1E-12
E20 144 115 231 229 1.1
R62 222 143 1E4
C23 143 115 10E-12
C27 228 227 200E-15
C28 226 113 200E-15
R74 4 3 4.05E5
G12 3 4 243 0 -2.5E-5
I20 0 244 1E-3
D20 244 0 D
V24 244 194 0.71
R75 0 194 1E6
I21 3 4 150.0E-8
E25 245 0 120 0 1
C30 114 246 62.5E-12
R78 246 245 200
R81 114 245 1.5E11
I63 0 247 1E-3
D23 247 0 DD
R307 0 247 10E6
V81 247 248 1.798
R308 0 248 2E7
E52 249 0 248 0 -0.875
R309 0 249 1E7
R312 0 248 2E7
G14 238 112 122 0 50E-6
D24 250 251 DL
V142 251 0 3
R313 0 250 3.3E7
G51 2 0 250 0 4.2E-9
I64 2 0 -25E-12
G52 213 0 250 0 4.5E-9
I65 213 0 25E-12
G56 118 119 122 0 10E-6
R345 0 120 1E9
S1 120 3 120 3 VSWC
S2 114 110 114 110 VSWC
S3 112 114 112 114 VSWC
S4 252 115 252 115 VSWC
S5 115 253 115 253 VSWC
S6 4 120 4 120 VSWC
E68 116 115 VALUE = {LIMIT(V(114,115) ,-100,0)}
E69 117 115 VALUE = {LIMIT(V(114,115) ,0,100)}
R355 115 116 1E9
R356 115 117 1E9
E70 110 111 VALUE = {V(115,116)-V(118,110)}
R357 111 110 1E9
E71 233 112 VALUE = {V(117,115)-V(112,119)}
R358 112 233 1E9
E72 200 112 204 112 50
E73 202 110 203 110 50
V159 254 112 0.30
V160 110 255 0.30
V161 110 239 -1.85
E89 129 0 110 112 1
R203 0 129 1E7
R210 115 144 1E12
G58 3 4 122 0 530E-16
V170 122 0 1
E92 256 257 258 0 1.68E-5
V171 248 258 -1
E93 209 256 259 0 -6E-7
R213 0 259 1E9
D25 240 198 D
R217 0 258 1E12
R220 0 259 1E9
R230 V1 110 1E3
R231 260 V1 60E3
R232 V2 260 60E3
R233 112 V2 1E3
E97 VB1 0 VALUE = {LIMIT(V(VC2) ,V(VC3),99)}
R234 0 VB1 1E9
E98 VB2 0 VALUE = {LIMIT(V(VC1) ,-99,V(VC3))}
R235 0 VB2 1E9
E99 VC1 0 VALUE = {4*(V(V1A)-V(VCM))}
R236 0 VC1 1E9
E100 VC2 0 VALUE = {4*(V(V2A)-V(VCM))}
R237 0 VC2 1E9
E101 VC3 0 VALUE = {V(VCM)*(-1)*0.25}
R238 0 VC3 1E9
E102 VB3 0 VALUE = {LIMIT(V(VC3) ,V(VB2),V(VB1))}
R239 0 VB3 1E9
E103 COUT 0 VALUE = {V(VB1)+V(VB2)}
R240 0 COUT 1E9
E104 V1A 0 VALUE = {(0.75+0.125)*V(V1)}
R241 0 V1A 1E9
E105 V2A 0 VALUE = {(0.75+0.125)*V(V2)}
R242 0 V2A 1E9
S8 221 0 221 0 VSWI
S9 0 221 0 221 VSWI
R246 207 214 100
R247 0 214 1E12
R248 208 215 100
R249 0 215 1E12
E106 243 0 VALUE = {(V(194)-0.01)* (V(194)-0.01)+ V(194)*3E-01}
R250 0 243 1E9
V179 252 114 -1.2
V180 114 253 -1.2
E109 255 241 194 0 1.25
E110 242 254 194 0 1.25
S10 231 229 261 232 VSWV
S11 231 229 232 262 VSWV
S12 231 229 261 213 VSWV
S13 231 229 213 262 VSWV
V182 110 261 -0.10
R256 261 110 1E12
V183 262 112 -0.10
R257 112 262 1E12
R258 120 5 0.1
E111 234 115 VALUE = {LIMIT(V(143,115) ,-0.999,0.999)}
R259 115 234 1E9
R359 213 263 413
R360 263 236 413
C31 263 0 1.2E-14
R361 264 257 413
R362 232 264 413
C32 264 0 1.2E-14
R367 0 211 1.05E5
R368 0 212 1.05E5
R369 0 211 1E12
R370 0 212 1E12
E112 210 2 265 0 1.26
L2 265 0 0.55
R371 265 0 2E5
C35 0 265 2.0E-10
G59 3 4 3 4 -2.0E-8
E113 259 0 VALUE = {(12/(V(VCK))* V(COUT))}
R377 0 259 1E9
E114 VCL 0 VALUE = {LIMIT((V(3)-V(4)), 3,5.5)}
R378 0 VCL 1E9
E116 VCK 0 VALUE = {V(VCL)*3.5-8}
R380 0 VCK 1E9
.MODEL NOUT NMOS (LEVEL=3 PHI=0.7 TOX=2E-8 XJ=5E-7
+ TPG=1 VTO=0.5 DELTA=0.5 LD=1E-7 KP=2E-4 UO=650
+ THETA=0.1 GAMMA=0.5 NSUB=1E17 NFS=6E11 FC=0.5
+ VMAX=1E5 ETA=3E-6 KAPPA=10 PB=1 IS=1E-18)
.MODEL POUT PMOS (LEVEL=3 PHI=0.7 TOX=2E-8 XJ=5E-7
+ TPG=-1 VTO=-0.5 DELTA=0.5 LD=1E-7 KP=2E-4 UO=650
+ THETA=0.1 GAMMA=0.5 NSUB=1E17 NFS=6E11 FC=0.5
+ VMAX=1E5 ETA=3E-6 KAPPA=10 PB=1 IS=1E-18)
.MODEL DVN D KF=1.45E-14 IS=1E-16 RS=12E6
.MODEL DIN D KF=1E-17 RS=949E3
.MODEL PIN PMOS KP=200U VTO=-0.7
.MODEL NIN NMOS KP=200U VTO=0.7
.MODEL HVP PMOS KP=200U VTO=-0.7
.MODEL DL D IS=0.95E-12 N=1.47 XTI=3.5
.MODEL DD D CJO=0.1E-12 TT=10E-9 RS=10
.MODEL D D CJO=0.1E-12 TT=10E-9 RS=10
.MODEL J NJF VTO=-0.7 BETA=1E-4 CGS=0.03E-12
+ CGD=0.03E-12 RD=10 RS=10 IS=1E-18
.MODEL Q NPN
.MODEL QP PNP
.MODEL VSWV VSWITCH VON=-0.05 VOFF=0.05 RON=1E-3 ROFF=1E8
.MODEL VSWC VSWITCH VON=0.71 VOFF=0.62 RON=10 ROFF=1E12
.MODEL VSWI VSWITCH VON=0.11 VOFF=0.02 RON=1 ROFF=1E11
.ENDS
* END MODEL NCS333