Version 4
SHEET 1 3684 3860
WIRE 1360 -176 592 -176
WIRE 1360 -112 1360 -176
WIRE 592 -96 592 -176
WIRE 592 -96 544 -96
WIRE 624 -96 592 -96
WIRE 1360 -96 1360 -112
WIRE -80 -64 -224 -64
WIRE 96 -64 -80 -64
WIRE 544 -64 544 -96
WIRE 544 -64 96 -64
WIRE 1296 -16 1248 -16
WIRE 1536 -16 1296 -16
WIRE 1552 -16 1536 -16
WIRE 624 64 624 -16
WIRE 624 64 496 64
WIRE 96 80 96 -64
WIRE 1360 80 1360 64
WIRE -224 112 -224 -64
WIRE 1456 112 1456 96
WIRE 1536 112 1536 -16
WIRE 208 128 160 128
WIRE 384 128 288 128
WIRE -80 144 -80 -64
WIRE 96 176 -16 176
WIRE -16 192 -16 176
WIRE 1360 192 1360 80
WIRE 1360 192 496 192
WIRE 1456 192 1456 112
WIRE 1456 192 1360 192
WIRE 624 256 624 64
WIRE -224 304 -224 192
WIRE -80 304 -80 240
WIRE -80 304 -224 304
WIRE 1632 320 1632 -16
WIRE -80 368 -80 304
WIRE 624 368 624 336
FLAG -80 368 0
FLAG 624 368 0
FLAG 1632 320 0
SYMBOL npn 160 80 M0
SYMATTR InstName Q1
SYMATTR Value BC547C
SYMBOL npn -16 144 M0
SYMATTR InstName Q2
SYMATTR Value 2N3055
SYMBOL res 304 112 R90
WINDOW 0 0 56 VBottom 2
WINDOW 3 32 56 VTop 2
SYMATTR InstName R1
SYMATTR Value 2000
SYMBOL lm358 448 128 R180
SYMATTR InstName U1
SYMBOL res 608 -112 R0
SYMATTR InstName R2
SYMATTR Value 1000
SYMBOL res 608 240 R0
SYMATTR InstName R3
SYMATTR Value 1000
SYMBOL res 1552 96 R90
WINDOW 0 0 56 VBottom 2
WINDOW 3 32 56 VTop 2
SYMATTR InstName R4
SYMBOL res 1648 -32 R90
WINDOW 0 0 56 VBottom 2
WINDOW 3 32 56 VTop 2
SYMATTR InstName R5
SYMBOL voltage -224 96 R0
WINDOW 123 0 0 Left 2
WINDOW 39 0 0 Left 2
SYMATTR InstName V1
SYMATTR Value 12
SYMBOL xreg3 1360 -16 R90
SYMATTR InstName U2
SYMATTR Value LM317TI
TEXT -258 392 Left 2 !.tran 1
TEXT 1864 0 Left 2 !*SRC=LM317MOT;LM317MOT;Voltage Reg.;Motorola;\n*SYM=LM317MOT\n.SUBCKT LM317MOT 1 2 3\n*Connections Input Adj. Output\n*LM317A voltage regulator - Motorola\nJ1 1 3 4 JN\nQ2 5 5 6 QPL .1\nQ3 5 8 9 QNL .2\nQ4 8 5 7 QPL .1\nQ5 81 8 3 QNL .2\nQ6 3 81 10 QPL .2\nQ7 12 81 13 QNL .2\nQ8 10 5 11 QPL .2\nQ9 14 12 10 QPL .2\nQ10 16 5 17 QPL .2\nQ11 16 14 15 QNL .2\nQ12 3 20 16 QPL .2\nQ13 1 19 20 QNL .2\nQ14 19 5 18 QPL .2\nQ15 3 21 19 QPL .2\nQ16 21 22 16 QPL .2\nQ17 21 3 24 QNL .2\nQ18 22 22 16 QPL .2\nQ19 22 3 241 QNL 2\nQ20 3 25 16 QPL .2\nQ21 25 26 3 QNL .2\nQ22A 35 35 1 QPL 2\nQ22B 16 35 1 QPL 2\nQ23 35 16 30 QNL 2\nQ24A 27 40 29 QNL .2\nQ24B 27 40 28 QNL .2\nQ25 1 31 41 QNL 5\nQ26 1 41 32 QNL 50\nD1 3 4 DZ\nD2 33 1 DZ\nD3 29 34 DZ\nR1 1 6 310\nR2 1 7 310\nR3 1 11 230\nR4 1 17 120\nR5 1 18 5.6K\nR6 4 8 125K\nR7 8 81 135\nR8 10 12 12.4K\nR9 9 3 190\nR10 13 3 3.6K\nR11 14 3 5.8K\nR12 15 3 110\nR13 20 3 5.1K\nR14 2 24 12.5K\nR15 24 241 2.4K\nR16 16 25 6.7K\nR17 16 40 12K\nR18 30 41 160\nR19 16 31 170\nR20 26 27 6.8K\nR21 27 40 510\nR22 3 41 200\nR23 33 34 13K\nR24 28 29 105\nR25 28 32 4\nR26 32 3 .1\nC1 21 3 30PF\nC2 21 2 30PF\nC3 25 26 5PF\nCBS1 5 3 2PF\nCBS2 35 3 1PF\nCBS3 22 3 1PF\n.MODEL JN NJF(BETA=1E-4 VTO=-7)\n.MODEL DZ D(BV=6.3)\n.MODEL QNL NPN(EG=1.22 BF=80 RB=100 CCS=1.5PF TF=.3NS TR=6NS CJE=2PF\n+ CJC=1PF VAF=100)\n.MODEL QPL PNP(BF=40 RB=20 TF=.6NS TR=10NS CJE=1.5PF CJC=1PF VAF=50)\n.ENDS
TEXT 1056 512 Left 2 !*$\n**************** Power Diode Electrical Parameters ********************\n** Product: FFPF20UP40S\n** Package: TO-220F-2L\n* -------------------------------------------------------------------\n.MODEL FFPF20UP40S D\n+ IS=1.4309E-11     N=1.0            RS=0.01102    TRS1=1.5e-4\n+ TRS2=1.6e-6       ISR=5.052E-9     NR=2.0        CJO=8.435E-10\n+ VJ=0.6905         M=0.415          BV=440        IBV=1.0E-4\n+ TT=1.1642E-8      EG=1.12          \n* -------------------------------------------------------------------\n* Creation: May-28-2014   Rev: 0.0\n* Fairchild Semiconductor\n\n.MODEL J111 NJF(VTO=-5.3638 BETA=3.25000E-3 BETATCE=-0.5 LAMBDA=2.00000E-2\n+ RD=2.42642 RS=2.42642 CGS=1.10000E-11 CGD=1.30000E-11 PB=7.01712E-1 \n+ IS=2.17605E-15 XTI=3 AF=1 FC=0.5 N=1 NR=2 MFG=PHILIPS)\n \n.MODEL PMBFJ309 NJF(VTO=-2.3973E+000 BETA=3.81468E-003 LAMBDA=3.80761E-002 RD=2.33008E+000 RS=2.33008E+000 IS=3.02702E-016 CGS=6.50000E-012 CGD=5.70000E-012 PB=6.83767E-001 FC=5.00000E-001 MFG=Philips)\n \n.MODEL J105 NJF(VTO=-7.25 BETA=5M LAMBDA=.035 RD=4.20E-01 RS=3.78E-01 IS=9.48E-14 PB=1.00 FC=.5 CGS=8.00E-11 CGD=1.40E-10 KF=3.886E-16 AF=1 MFG=Siliconix)\n \n.MODEL J310P NJF(VTO=-4.25 BETA=2.33E-03 LAMBDA=.035 RD=3.50E+00 RS=3.15E+00 IS=7.90E-15 PB=1.00 FC=.5 CGS=6.50E-12 CGD=2.50E-12 AF=1 KF=1.4208E-17 MFG=Siliconix)\n \n*******************************************************************\n** Released by: Analog eLab Design Center, Texas Instruments Inc.\n* Part: TL431\n* Date: 12/14/2009\n* Model Type: Transient and AC\n*******************************************************************\n.SUBCKT TL431 7 6 11\n*             K A FDBK\nV1 1 6 2.495\nR1 6 2 15.6\nC1 2 6 .5U\nR2 2 3 100\nC2 3 4 .08U\nR3 4 6 10\nGB1 6 8 VALUE = {IF(V(3,6)< 0 , 1.73*V(3,6) -1U , -1U)}\nD1 5 8 DCLAMP\nD2 7 8 DCLAMP\nV4 5 6 2\nG1 6 2 1 11 0.11\n.MODEL DCLAMP D (IS=13.5N RS=25M N=1.59\n+ CJO=45P VJ=.75 M=.302 TT=50.4N BV=34V IBV=1MA)\n.ENDS\n \n\n*LM317 Voltage Reg. (Texas Inst)\n \n.SUBCKT LM317TI 1      2    3\n*Connections  Input  Adj. Output\n*LM317 voltage regulator - Texas Instruments\nJ1 1 3 4 JN\nQ2 5 5 6 QPL .1\nQ3 5 8 9 QNL  .2\nQ4 8 5 7 QPL .1\nQ5 81 8 3 QNL .2\nQ6 3 81 10 QPL .2\nQ7 12 81 13 QNL  .2\nQ8 10 5 11 QPL  .2 \nQ9 14 12 10 QPL .2\nQ10 16 5 17 QPL  .2\nQ11 16 14 15 QNL .2\nQ12 3 20 16 QPL .2\nQ13 1 19 20 QNL .2\nQ14 19 5 18 QPL .2\nQ15 3 21 19 QPL .2\nQ16 21 22 16 QPL .2\nQ17 21 3 24 QNL   .2\nQ18 22 22 16 QPL .2\nQ19 22 3 241 QNL 2\nQ20 3 25 16 QPL .2\nQ21 25 26 3 QNL .2\nQ22A 35 35 1 QPL 2\nQ22B 16 35 1 QPL 2\nQ23 35 16 30 QNL  2\nQ24A 27 40 29 QNL .2\nQ24B 27 40 28 QNL .2\nQ25 1 31 41 QNL 5\nQ26 1 41 32 QNL 50\nD1 3 4 DZ\nD2 33 1 DZ\nD3 29 34 DZ\nR1 1 6 310\nR2 1 7 310\nR3 1 11 190\nR4 1 17 82\nR5 1 18 5.6K\nR6 4 8 100K\nR7 8 81 130\nR8 10 12 12.4K\nR9 9 3 180\nR10 13 3 4.1K\nR11 14 3 5.8K\nR12 15 3 72\nR13 20 3 5.1K\nR14 2 24 12K\nR15 24 241 2.4K\nR16 16 25 6.7K\nR17 16 40 12K\nR18 30 41 130\nR19 16 31 370\nR20 26 27 13K\nR21 27 40 400\nR22 3 41 160\nR23 33 34 18K\nR24 28 29 160\nR25 28 32 3\nR26 32 3 .1\nC1 21 3 30PF\nC2 21 2 30PF\nC3 25 26 5PF\nCBS1 5 3 2PF\nCBS2 35 3 1PF\nCBS3 22 3 1PF\n.MODEL JN NJF(BETA=1E-4 VTO=-7)\n.MODEL DZ D(BV=6.3)\n.MODEL QNL NPN(EG=1.22 BF=80 RB=100 CCS=1.5PF TF=.3NS TR=6NS CJE=2PF\n+ CJC=1PF VAF=100)\n.MODEL QPL PNP(BF=40 RB=20 TF=.6NS TR=10NS CJE=1.5PF CJC=1PF VAF=50)\n.ENDS LM317TI
TEXT 144 544 Left 2 !*//////////////////////////////////////////////////////////////////////\n* (C) National Semiconductor, Inc.\n* Models developed and under copyright by:\n* National Semiconductor, Inc.  \n*/////////////////////////////////////////////////////////////////////\n* Legal Notice: This material is intended for free software support.\n* The file may be copied, and distributed; however, reselling the \n*  material is illegal\n*////////////////////////////////////////////////////////////////////\n* For ordering or technical information on these models, contact:\n* National Semiconductor's Customer Response Center\n*                 7:00 A.M.--7:00 P.M.  U.S. Central Time\n*                                (800) 272-9959\n* For Applications support, contact the Internet address:\n*  amps-apps@galaxy.nsc.com\n*//////////////////////////////////////////////////////////\n*LM358 DUAL OPERATIONAL AMPLIFIER MACRO-MODEL\n*//////////////////////////////////////////////////////////\n*\n* connections:      non-inverting input\n*                   |   inverting input\n*                   |   |   positive power supply\n*                   |   |   |   negative power supply\n*                   |   |   |   |   output\n*                   |   |   |   |   |\n*                   |   |   |   |   |\n.SUBCKT LM358/NS    1   2  99  50  28\n*\n*Features:\n*Eliminates need for dual supplies\n*Large DC voltage gain =             100dB\n*High bandwidth =                     1MHz\n*Low input offset voltage =            2mV\n*Wide supply range =       +-1.5V to +-16V\n*\n*NOTE: Model is for single device only and simulated\n*      supply current is 1/2 of total device current.\n*      Output crossover distortion with dual supplies\n*      is not modeled.\n*\n****************INPUT STAGE**************\n*\nIOS 2 1 5N\n*^Input offset current\nR1 1 3 500K\nR2 3 2 500K\nI1 99 4 100U\nR3 5 50 517\nR4 6 50 517\nQ1 5 2 4 QX\nQ2 6 7 4 QX\n*Fp2=1.2 MHz\nC4 5 6 128.27P\n*\n***********COMMON MODE EFFECT***********\n*\nI2 99 50 75U\n*^Quiescent supply current\nEOS 7 1 POLY(1) 16 49 2E-3 1\n*Input offset voltage.^\nR8 99 49 60K\nR9 49 50 60K\n*\n*********OUTPUT VOLTAGE LIMITING********\nV2 99 8 1.63\nD1 9 8 DX\nD2 10 9 DX\nV3 10 50 .635\n*\n**************SECOND STAGE**************\n*\nEH 99 98 99 49 1\nG1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459\n*Fp1=7.86 Hz\nR5 98 9 101.2433MEG\nC3 98 9 200P\n*\n***************POLE STAGE***************\n*\n*Fp=2 MHz\nG3 98 15 9 49 1E-6\nR12 98 15 1MEG\nC5 98 15 7.9577E-14\n*\n*********COMMON-MODE ZERO STAGE*********\n*\n*Fpcm=10 KHz\nG4 98 16 3 49 5.6234E-8               \nL2 98 17 15.9M\nR13 17 16 1K\n*\n**************OUTPUT STAGE**************\n*\nF6 50 99 POLY(1) V6 300U 1\nE1 99 23 99 15 1\nR16 24 23 17.5\nD5 26 24 DX\nV6 26 22 .63V\nR17 23 25 17.5\nD6 25 27 DX\nV7 22 27 .63V\nV5 22 21 0.27V\nD4 21 15 DX\nV4 20 22 0.27V\nD3 15 20 DX\nL3 22 28 500P\nRL3 22 28 100K\n*\n***************MODELS USED**************\n*\n.MODEL DX D(IS=1E-15)\n.MODEL QX PNP(BF=1.111E3)\n*\n.ENDS\n*$