Version 4
SHEET 1 3380 6548
WIRE 1120 32 976 32
WIRE 1264 32 1120 32
WIRE 1408 32 1264 32
WIRE 1488 32 1408 32
WIRE 976 64 976 32
WIRE 1120 64 1120 32
WIRE 1264 64 1264 32
WIRE 1408 80 1408 32
WIRE 1120 160 1120 144
WIRE -640 192 -640 160
WIRE -640 192 -720 192
WIRE -720 208 -720 192
WIRE 1408 208 1408 160
WIRE 1408 208 1184 208
WIRE -640 224 -640 192
WIRE 976 288 976 144
WIRE 1008 288 976 288
WIRE 1152 288 1072 288
WIRE 1264 288 1264 144
WIRE 1264 288 1232 288
WIRE 1488 320 1488 32
WIRE 976 336 976 288
WIRE 1456 336 976 336
WIRE 1616 352 1520 352
WIRE 1808 352 1616 352
WIRE 1968 352 1808 352
WIRE 1264 368 1264 288
WIRE 1456 368 1264 368
WIRE 1808 416 1808 352
WIRE 976 432 976 336
WIRE 1264 432 1264 368
WIRE 1968 432 1968 352
WIRE 1120 480 1120 256
WIRE 1120 480 1040 480
WIRE 1200 480 1120 480
WIRE 1120 512 1120 480
WIRE 976 544 976 528
WIRE 1264 544 1264 528
WIRE 816 608 768 608
WIRE 928 608 896 608
WIRE 1728 608 1312 608
WIRE 1808 608 1808 496
WIRE 1808 608 1728 608
WIRE 1808 640 1808 608
WIRE 1968 640 1968 496
WIRE 768 656 768 608
WIRE 1728 656 1728 608
WIRE 768 752 768 736
WIRE 976 752 976 640
WIRE 1120 752 1120 592
WIRE 1120 752 976 752
WIRE 1264 752 1264 640
WIRE 1264 752 1120 752
WIRE 976 816 976 752
WIRE 1120 864 1040 864
WIRE 1120 896 1120 864
WIRE 976 928 976 912
WIRE 976 1024 976 1008
WIRE 1120 1024 1120 976
WIRE 1120 1024 976 1024
WIRE 1488 1024 1488 384
WIRE 1488 1024 1120 1024
FLAG 768 752 0
FLAG -720 208 0
FLAG -640 80 +15V
FLAG 976 32 +15V
FLAG -640 304 -15V
FLAG 976 1024 -15V
FLAG 768 608 in
FLAG 1808 720 0
FLAG 1968 720 0
FLAG 1728 720 0
FLAG 1616 352 out
SYMBOL voltage 768 640 R0
WINDOW 123 24 124 Left 2
WINDOW 39 0 0 Left 2
WINDOW 3 24 44 Left 2
SYMATTR Value2 AC 1
SYMATTR Value SINE(0 1m 1k)
SYMATTR InstName V6
SYMBOL voltage 1120 880 R0
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
SYMATTR InstName V8
SYMATTR Value 2
SYMBOL res 960 912 R0
SYMATTR InstName R15
SYMATTR Value 120
SYMATTR SpiceLine tol=1
SYMBOL res 912 592 R90
WINDOW 0 0 56 VBottom 2
WINDOW 3 32 56 VTop 2
SYMATTR InstName R21
SYMATTR Value 1m
SYMBOL npn 1040 816 M0
SYMATTR InstName Q13
SYMATTR Value 2SC3324
SYMATTR Prefix X
SYMBOL res 1248 48 R0
SYMATTR InstName R20
SYMATTR Value 1k
SYMATTR SpiceLine tol=1
SYMBOL res 960 48 R0
SYMATTR InstName R2
SYMATTR Value 1k
SYMATTR SpiceLine tol=1
SYMBOL voltage 1408 64 R0
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
SYMATTR InstName V1
SYMATTR Value 2
SYMBOL npn 1200 432 R0
SYMATTR InstName Q6
SYMATTR Value 2SC3324
SYMATTR Prefix X
SYMBOL npn 1040 432 M0
SYMATTR InstName Q10
SYMATTR Value 2SC3324
SYMATTR Prefix X
SYMBOL res 1792 624 R0
SYMATTR InstName R11
SYMATTR Value 470
SYMBOL njf 928 544 R0
WINDOW 3 62 103 Left 2
SYMATTR InstName J3
SYMATTR Value LSK489A
SYMBOL njf 1312 544 M0
SYMATTR InstName J4
SYMATTR Value LSK489A
SYMBOL cap 1952 432 R0
SYMATTR InstName C1
SYMATTR Value 1n
SYMBOL res 1952 624 R0
SYMATTR InstName R14
SYMATTR Value 10Meg
SYMBOL voltage -640 64 R0
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
WINDOW 3 24 44 Left 2
SYMATTR Value 15
SYMATTR InstName V3
SYMBOL res 1792 400 R0
SYMATTR InstName R8
SYMATTR Value 47k
SYMBOL cap 1712 656 R0
SYMATTR InstName C2
SYMATTR Value 100
SYMBOL voltage -640 208 R0
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
WINDOW 3 24 44 Left 2
SYMATTR Value 15
SYMATTR InstName V2
SYMBOL pnp 1184 256 R180
SYMATTR InstName Q4
SYMATTR Value 2SA1312
SYMATTR Prefix X
SYMBOL res 1104 48 R0
SYMATTR InstName R4
SYMATTR Value 470
SYMATTR SpiceLine tol=1
SYMBOL voltage 1120 496 R0
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
SYMATTR InstName V4
SYMATTR Value 4
SYMBOL Opamps\\opamp2 1488 288 R0
SYMATTR InstName U1
SYMATTR Value OPA211
SYMBOL cap 1072 272 R90
WINDOW 0 0 32 VBottom 2
WINDOW 3 32 32 VTop 2
SYMATTR InstName C3
SYMATTR Value 0.1p
SYMBOL res 1248 272 R90
WINDOW 0 0 56 VBottom 2
WINDOW 3 32 56 VTop 2
SYMATTR InstName R1
SYMATTR Value 100
TEXT -56 848 Left 2 !.four {freq} V(out)
TEXT -56 776 Left 2 !.opt plotwinsize=0
TEXT -56 800 Left 2 !.param freq=1k
TEXT -56 736 Left 2 !.param fft=2*pi*2**11
TEXT -56 896 Left 2 !.four {freq} V(in)
TEXT -2008 -304 Left 2 !.MODEL KSC2690A NPN (\n \n+  IS    =1.7783E-13      \n \n+  BF    =132.5\n \n+  NF    =1.0 \n \n+  BR    =8.495\n \n+  NR    =1.005\n \n*+ IBC   =1.7783E-13 \n \n*+ IBC   =1.7783E-13 \n \n+  ISE   =1.9953E-13\n \n+  NE    =1.5\n \n+  ISC   =1.5849E-9\n \n+  NC    =1.98\n \n+  VAF   =580.75\n \n+  VAR   =18.15\n \n+  IKF   =4.0271\n \n+  IKR   =0.0120\n \n+  RB    =2.98\n \n+  RBM   =0.001\n \n+  IRB   =0.6396\n \n+  RE    =0.0909\n \n+  RC    =1.4705\n \n+  QCO   =0.68\n \n+  RCO   =3.6239\n \n+  VO    =6.587\n \n+  GAMMA =2.8216E-7\n \n+  CJE   =4.0082E-10\n \n+  VJE   =0.6696\n \n+  MJE   =0.3296\n \n+  FC    =0.5\n \n+  CJC   =6.0404E-11\n \n+  VJC   =0.5\n \n+  MJC   =0.4266\n \n+  XCJC  =0.4955   \n \n+  XTB   =1.2590    \n \n+  EG    =1.2277 \n \n+  XTI   =3.0         )
TEXT -1336 -312 Left 2 !.MODEL KSA1220A PNP (\n \n+  IS    =4.7863E-13      \n \n+  BF    =289.3\n \n+  NF    =1.0 \n \n+  BR    =9.76\n \n+  NR    =1.006\n \n*+ IBC   =4.7863E-13\n \n*+ IBC   =4.7863E-13\n \n+  ISE   =5.2481E-12\n \n+  NE    =2\n \n+  ISC   =2.4909E-11\n \n+  NC    =1.5\n \n+  VAF   =98.5\n \n+  VAR   =6.7\n \n+  IKF   =2.7061\n \n+  IKR   =0.0759\n \n+  RB    =2.26\n \n+  RBM   =0.2308\n \n+  IRB   =0.001\n \n+  RE    =0.1908\n \n+  RC    =1.1748\n \n+  QCO   =0.02\n \n+  RCO   =3.9811\n \n+  VO    =11.078\n \n+  GAMMA =5.01187E-8\n \n+  CJE   =3.4786E-10\n \n+  VJE   =0.9575\n \n+  MJE   =0.4694\n \n+  FC    =0.5\n \n+  CJC   =1.1224E-10\n \n+  VJC   =0.5761\n \n+  MJC   =0.4365\n \n+  XCJC  =0.4955   \n \n+  XTB   =1.7978    \n \n+  EG    =1.2255 \n \n+  XTI   =3.0         )
TEXT -2728 -288 Left 2 !*********************************************************************\n*  (C)  Copyright  TOSHIBA CORPORATION  2016\n*  Date                 :16/08/2016\n*  File Name            :2SC3324.lib\n*  Part Number          :2SC3324\n*  Parameter Ver.       :Ver.1\n*  Simulator            :PSpice\n*  Model Call Name      :2SC3324\n*  TNOM                 :25 degree\n*  Pin Assign           :1=Collector 2=Base 3=Emitter\n*********************************************************************\n.SUBCKT 2SC3324 1 2 3\nQ1 1 2 3 3 2SC3324_BJT\n.MODEL 2SC3324_BJT NPN(\n+ LEVEL = 1\n+ IS = 1.3e-013\n+ BF = 475\n+ NF = 1\n+ VAF = 200\n+ IKF = 0.2\n+ ISE = 3.5e-014\n+ NE = 1.3\n+ BR = 28\n+ NR = 1\n+ VAR = 10\n+ IKR = 0.004\n+ ISC = 1.5e-010\n+ NC = 1.5\n+ NK = 0.5\n+ RE = 0.25\n+ RB = 2\n+ RC = 0.02\n+ CJE = 3.0625e-011\n+ VJE = 0.75\n+ MJE = 0.33\n+ CJC = 4.9687e-012\n+ VJC = 0.9247\n+ MJC = 0.1914\n+ FC = 0.5\n+ TF = 3e-010\n+ XTF = 50\n+ VTF = 5\n+ ITF = 0.1\n+ PTF = 0\n+ TR = 10E-09\n+ EG = 1.11\n+ XTB = 1.5\n+ XTI = 4\n+ TRC1 = 0.05\n+ TNOM = 25)\n.ENDS
TEXT -3432 -288 Left 2 !*********************************************************************\n*  (C)  Copyright  TOSHIBA CORPORATION  2016\n*  Date                 :16/08/2016\n*  File Name            :2SA1312.lib\n*  Part Number          :2SA1312\n*  Parameter Ver.       :Ver.2\n*  Simulator            :PSpice\n*  Model Call Name      :2SA1312\n*  TNOM                 :25 degree\n*  Pin Assign           :1=Collector 2=Base 3=Emitter\n*********************************************************************\n.SUBCKT 2SA1312 1 2 3\nQ1 1 2 3 3 2SA1312_BJT\n.MODEL 2SA1312_BJT PNP(\n+ LEVEL = 1\n+ IS = 2e-013\n+ BF = 415\n+ NF = 1\n+ VAF = 60\n+ IKF = 0.2\n+ ISE = 1.05e-009\n+ NE = 5\n+ BR = 10\n+ NR = 1.02\n+ VAR = 8\n+ IKR = 0.0001\n+ ISC = 1.5e-011\n+ NC = 1.3\n+ NK = 0.5\n+ RE = 0.5\n+ RB = 0.2\n+ RC = 2\n+ CJE = 10E-012\n+ VJE = 0.75\n+ MJE = 0.33\n+ CJC = 1.0176e-011\n+ VJC = 0.79167\n+ MJC = 0.319\n+ FC = 0.5\n+ TF = 900E-012\n+ XTF = 10\n+ VTF = 2\n+ ITF = 500E-003\n+ PTF = 0\n+ TR = 10E-09\n+ EG = 1.11\n+ XTB = 1.55\n+ XTI = 3\n+ TRC1 = 0.005\n+ TNOM = 25)\n.ENDS
TEXT -56 960 Left 2 !;tran 0 {10/freq} 0 {10/freq/fft}
TEXT -56 992 Left 2 !.ac dec 1000 10 100meg
TEXT -56 1032 Left 2 !;noise V(out) V6 oct 100 10 20k
TEXT -4360 -328 Left 2 !* Copyright 2007 by Texas Instruments Corporation\n* BEGIN MODEL OPA211\n* MODEL FEATURES INCLUDE OUTPUT SWING, OUTPUT CURRENT THROUGH\n* THE SUPPLY RAILS, RAIL-TO-RAIL OUTPUT STAGE, OUTPUT CURRENT\n* LIMIT, OPEN LOOP GAIN AND PHASE WITH RL AND CL EFFECTS,\n* SLEW RATE WITH TEMPERATURE EFFECTS, SETTLING TIME TO 0.01 %,\n* OVERLOAD RECOVERY TIME, COMMON MODE REJECTION WITH FREQUENCY\n* EFFECTS, OUTPUT IMPEDANCE, POWER SUPPLY REJECTION WITH\n* FREQUENCY EFFECTS, INPUT VOLTAGE NOISE WITH 1/F AND FEATURE\n* AT 20 MEGAHERTZ, INPUT CURRENT NOISE WITH 1/F, INPUT BIAS\n* CURRENT, INPUT IMPEDANCE, INPUT COMMON MODE RANGE, INPUT\n* OFFSET VOLTAGE WITH TEMPERATURE EFFECTS, AND QUIESCENT\n* CURRENT VS VOLTAGE AND TEMPERATURE. MODEL INCLUDES INPUT\n* PROTECTION DIODES.\n* MODEL DOES NOT INCLUDE SHUTDOWN.\n* PINOUT ORDER +IN -IN +V -V OUT\n* PINOUT ORDER  3   2   7  4  6\n.SUBCKT OPA211 3 2 7 4 6\nD17 9 0 DIN\nD18 10 0 DIN\nI14 0 9 0.1E-3\nI15 0 10 0.1E-3\nD19 11 0 DVN\nD20 12 0 DVN\nI16 0 11 0.1E-3\nI17 0 12 0.1E-3\nE15 13 14 11 12 4.23E-2\nG5 15 13 9 10 1.1E-4\nE16 16 0 17 0 1\nE17 18 0 19 0 1\nE18 20 0 21 0 1\nR56 16 22 1E6\nR57 18 23 1E6\nR58 20 24 1E4\nR59 0 22 10\nR60 0 23 10\nR61 0 24 7\nE19 25 26 27 0 0.1\nR62 28 21 1E3\nR63 21 29 1E3\nC15 16 22 1E-12\nC16 18 23 1E-12\nC17 20 24 1E-9\nE20 30 25 23 0 -1E-3\nE21 31 30 22 0 1E-3\nR64 0 32 1E12\nG12 15 13 33 0 1.45E-14\nR136 0 33 10E3\nR137 0 33 10E3\nR138 26 25 1E9\nR139 25 30 1E9\nR140 30 31 1E9\nE74 29 0 15 0 1\nE75 28 0 13 0 1\nC23 15 13 0.05E-12\nE77 26 3 34 0 1.98E-4\nR146 26 3 1E9\nR147 0 32 1E12\nQ41 35 36 19 QLN\nR148 36 37 1E3\nR149 38 39 1E3\nR150 40 17 5\nR151 19 41 5\nR153 42 43 850\nR154 44 17 5\nR155 19 45 5\nD22 46 7 DD\nD23 4 46 DD\nE58 19 0 4 0 1\nE79 17 0 7 0 1\nR156 4 7 1.1E9\nE60 47 19 17 19 0.5\nD24 48 17 DD\nD25 19 49 DD\nR157 50 51 100\nR158 52 53 100\nG14 42 47 54 47 0.1E-3\nR159 47 42 5.3E6\nC24 43 55 5P\nC25 46 0 0.5E-12\nD26 53 35 DD\nD27 56 51 DD\nQ42 56 39 17 QLP\nR160 46 57 1\nR161 58 46 1\nE71 59 47 60 61 1\nR162 59 54 1E4\nC26 54 47 0.02P\nG15 62 47 42 47 -1E-3\nG16 47 63 42 47 1E-3\nG17 47 64 65 19 1E-3\nG18 66 47 17 67 1E-3\nD28 66 62 DD\nD29 63 64 DD\nR163 62 66 100E6\nR164 64 63 100E6\nR165 66 17 1E3\nR166 19 64 1E3\nR167 63 47 1E6\nR168 64 47 1E6\nR169 47 66 1E6\nR170 47 62 1E6\nG19 7 4 68 0 3.5E-3\nR171 47 54 1E9\nR172 50 17 1E9\nR173 19 52 1E9\nG20 67 65 32 0 1E-3\nL2 46 6 0.4E-9\nR175 46 6 400\nR176 67 17 1E8\nR177 19 65 1E8\nR178 41 53 1E8\nR179 40 51 1E8\nR180 0 32 1E9\nE84 17 38 17 40 5\nE85 37 19 41 19 3\nE24 55 0 46 0 1\nR219 42 55 1.8E9\nI30 0 69 1E-3\nD46 69 0 DD\nR278 0 69 10E6\nV27 69 34 0.65\nR279 0 34 10E6\nQ52 57 51 40 QOP\nQ53 58 53 41 QON\nQ54 65 65 45 QON\nQ55 67 67 44 QOP\nE144 17 50 17 66 1\nE145 52 19 64 19 1\nQ56 70 15 71 QIN\nQ57 72 13 73 QIN\nQ58 61 74 70 QIN\nQ59 60 75 72 QIN\nQ60 74 74 76 QIP\nQ61 15 74 76 QIP\nQ62 75 75 76 QIP\nQ63 13 75 76 QIP\nR280 61 77 1200\nR281 60 77 1200\nR282 78 71 4\nR283 78 73 4\nQ64 78 79 80 QTN\nC108 61 81 1E-15\nR284 81 55 600\nI33 0 82 1E-3\nD49 82 0 DD\nR287 0 82 10E6\nV30 82 83 1.2301\nR288 0 83 10E6\nE50 84 0 83 0 -1.75\nR289 0 84 10E6\nR290 85 84 10E6\nM3 85 86 0 0 NEN L=2U W=1000U\nG22 80 79 85 0 12E-6\nV32 87 0 1\nR291 87 86 1E6\nM4 86 32 0 0 NEN L=2U W=100U\nC109 61 60 4.75E-12\nV34 77 76 1\nE51 42 49 47 19 0.7\nE52 48 42 17 47 0.7\nG23 7 0 57 46 1\nG24 4 0 46 58 -1\nV35 17 8 1\nM45 88 89 90 90 NEN L=3U W=3000U\nR293 90 91 1E4\nR294 88 17 1E6\nV36 17 90 1\nC110 17 8 1E-12\nE53 32 0 92 90 1\nV37 88 92 1.111E-6\nR295 90 92 1E12\nR296 8 17 1E6\nC111 91 90 3E-15\nC112 17 88 3E-15\nM50 93 94 90 90 NEN L=3U W=300U\nM51 89 93 90 90 NEN L=3U W=300U\nR297 93 17 1E4\nR298 89 17 1E4\nC113 17 93 55E-12\nC114 17 89 150E-12\nE54 95 42 32 0 30\nE55 96 47 32 0 -30\nV38 97 96 15\nV39 98 95 -15\nR300 95 0 1E12\nR301 96 0 1E12\nM52 47 98 42 99 PSW L=1.5U W=150U\nM53 42 97 47 100 NSW L=1.5U W=150U\nR302 99 0 1E12\nR303 100 0 1E12\nM54 91 8 17 17 PEN L=6U W=60U\nE56 101 90 91 90 -1\nR304 90 101 10E6\nR305 90 101 10E6\nV40 94 101 1\nR306 90 94 10E6\nE57 102 0 24 0 1\nR307 102 27 1E4\nR308 0 27 7\nC115 102 27 1E-9\nM55 103 104 4 4 NEN L=2U W=1000U\nR309 103 7 160E3\nE78 104 4 32 0 3\nV41 80 19 1.23\nV42 17 76 0.48\nR310 105 13 100\nM56 68 106 0 0 NEN L=2U W=10M\nR311 68 84 850E3\nE70 107 0 32 0 -1\nR312 0 107 10E6\nR313 0 107 10E6\nV43 106 107 1\nR314 0 106 10E6\nG25 7 4 32 0 -0.85E-3\nG26 7 4 108 0 -4E-5\nE61 109 0 7 4 1\nM57 108 106 0 0 NEN L=2U W=10M\nR315 108 109 75E3\nE62 2 14 110 0 0.93\nR317 0 110 1E3\nC116 110 0 2.4E-12\nL5 0 110 40E-6\nR318 14 2 1E9\nC117 0 15 6E-12\nC118 13 0 6E-12\nV44 31 15 -29E-6\nJ2 105 15 105 JC\nJ3 15 105 15 JC\n.MODEL JC NJF IS=1E-18\n.MODEL QON NPN RC=5\n.MODEL QOP PNP RC=5\n.MODEL DD D\n.MODEL QIN NPN BF=235\n.MODEL QIP PNP BF=235\n.MODEL QTN NPN\n.MODEL DVN D KF=2.5E-15\n.MODEL DIN D KF=1E-15\n.MODEL QLN NPN\n.MODEL QLP PNP\n.MODEL NEN NMOS KP=200U VTO=0.5 IS=1E-18\n.MODEL PEN PMOS KP=200U VTO=-0.7 IS=1E-18\n.MODEL PSW PMOS KP=200U VTO=-7.5 IS=1E-18\n.MODEL NSW NMOS KP=200U VTO=7.5 IS=1E-18\n.ENDS\n* END MODEL OPA211