OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.150.0 SFB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved. $Circuit$?,[AM1]miny1=0 maxy1=0.0001 divsy1=4 scaley1=0 minx1=10 maxx1=10000 divsx1=3 scalex1=2[AM2]miny1=0 maxy1=0.015 divsy1=2 scaley1=0[VF1] miny1=-10 maxy1=10 divsy1=2 scaley1=0[VG1] miny1=-0.2 maxy1=0.2 divsy1=2 scaley1=0[Vout] miny2=-40 maxy2=120 divsy2=4 scaley2=1 miny3=-40 maxy3=120 divsy3=4 scaley3=1minx1=9.99999999999999E-11 maxx1=0.01 divsx1=8 scalex1=2 miny1=-9.5 maxy1=9.5 divsy1=2 scaley1=0 miny9=3E-6 maxy9=6E-6 divsy9=6 scaley9=0 miny10=1E-7 maxy10=1E-6 divsy10=2 scaley10=2 minx9=100 maxx9=100000 divsx9=3 scalex9=2[VM1] miny2=-20 maxy2=40 divsy2=6 scaley2=1 miny3=-20 maxy3=40 divsy3=6 scaley3=1 miny1=-2.5 maxy1=2.5 divsy1=4 scaley1=0 minx1=-2.5 maxx1=2.5 divsx1=4 scalex1=0 miny10=1E-9 maxy10=1E-7 divsy10=2 scaley10=2[All]minx1=0 maxx1=0.0005 divsx1=4 scalex1=0 miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny3=-40 maxy3=20 divsy3=3 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2 miny10=1E-9 maxy10=1E-7 divsy10=2 scaley10=2 minx10=1maxx10=1000000 divsx10=6 scalex10=2 miny1=-2.5 maxy1=2.5 divsy1=4 scaley1=0 miny4=-60maxy4=0 divsy4=2 scaley4=0minx4=1000000maxx4=1000000000 divsx4=3 scalex4=2[Out] miny2=70 maxy2=140 divsy2=7 scaley2=1 miny3=70 maxy3=140 divsy3=7 scaley3=1minx2=1 maxx2=100000 divsx2=5 scalex2=2minx3=1 maxx3=100000 divsx3=5 scalex3=2miny1=0maxy1=4 divsy1=2 scaley1=0[OUT1] miny2=-20 maxy2=40 divsy2=3 scaley2=1 miny3=-20 maxy3=40 divsy3=3 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT5] miny2=-20 maxy2=60 divsy2=4 scaley2=1 miny3=-20 maxy3=60 divsy3=4 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT4] miny2=-20 maxy2=80 divsy2=5 scaley2=1 miny3=-20 maxy3=80 divsy3=5 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT2] minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT3] minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[VG1_4] miny1=-0.04 maxy1=0.04 divsy1=2 scaley1=0[Vdiff] miny1=-0.02 maxy1=0.02 divsy1=2 scaley1=0 [Vout[1]] miny1=-10.5 maxy1=10.5 divsy1=2 scaley1=0 [Vout[2]] miny1=-10.5 maxy1=10.5 divsy1=2 scaley1=0 [Default]minx28=4.13755maxx28=4.13795 divsx28=4 scalex28=0[Vsk1] miny2=-40 maxy2=20 divsy2=2 scaley2=1 miny3=-40 maxy3=20 divsy3=2 scaley3=1[Vodif] miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny3=-40 maxy3=20 divsy3=3 scaley3=1 miny1=-1.6 maxy1=1.6 divsy1=2 scaley1=0[Voutn] miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny3=-40 maxy3=20 divsy3=3 scaley3=1miny1=1.754086157maxy1=3.347029497 divsy1=2 scaley1=0[Voutp] miny2=-40 maxy2=30 divsy2=3 scaley2=1 miny3=-40 maxy3=30 divsy3=3 scaley3=1miny1=1.752966854maxy1=3.345910028 divsy1=2 scaley1=0?:"@:" Arial Original: R3 = 4.17kR3' = 0Ideal: R3=6.67784k R3'=6.66671kReal: R3 = 6.65k R3' = 6.56kSymbol????333333??C!T_000000003205BDE020200516175749C8888!T_000000003205B9C020200516175749C((((!T_000000003205A10020200516175749Kppxx!T_0000000032059CE020200516175749Kppxx!T_00000000320594A020200516175749C!T_0000000032057BE020200516175749C!T_0000000027E0260020200516175749Cxx!T_0000000027E02E4020200516175749C!T_0000000027E0326020200516175749C!T_0000000027E03AA020200516175749C!T_0000000027E03EC020200516175749C!T_0000000027E063E020200516175749C!T_0000000027E0680020200516175749C8888!T_0000000027E06C2020200516175749CHHHH!T_0000000027E0704020200516175749G88888!T_0000000027E0788020200516175749GX8XX88!T_0000000027E080C020200516175749C88!T_0000000027E08D2020200516175749GXHXXHH!T_0000000005B1FFA020200516175749GHHH!T_0000000005D6E86020200516175749C88!T_00000000065CA06020200517073713C88!T_000000000695166020200517073719C(8(8!T_0000000006AC487020200517073824C8888!T_0000000006AC4C9020200517073824G!T_0000000006AF5A2020200517073830G!T_0000000006AA190020200517073850C!T_0000000036166C5020200518130022G!T_000000003616707020200518130022G!T_00000000051EAA7020200518130030G!T_00000000051EAE9020200518130030CHH8HH8!T_00000000051BB6D020200518130034C0808!T_00000000051FECD020200518130038CH8HHH8HH!T_00000000051FF0F020200518130038G08088!T_000000000519967020200518130043G8H888H8!T_0000000005199A9020200518130043C`X`X!T_000000000552FFE020200518161728C(8(8!T_0000000024B6CA5020200518162149C8888!T_0000000024B6CE7020200518162149C!T_00000000358E250020200518172339C!T_0000000035AEAEA020200518172341K((!T_0000000035ABEF5020200518172347C(( (( !T_0000000035ABF37020200518172347Kx8xhh8!T_0000000035AA623020200518172353G8(8888(8!T_0000000035AA665020200518172353Kx8xhh8!T_0000000035AD779020200518172401G8H88HH!T_0000000035AD7BB020200518172401Cx`xXx`xX!T_0000000035D80C3020200518172525Cxx!T_0000000035F8ACA020200518172550Gxxxxx!T_0000000035F8B0C020200518172550G88!T_0000000035F8B4E020200518172550Bx` 0VS1T_04619C4C20110407150343 JP100 (VS)@B` VS2T_04626C6C20110407150433 JP100 (VS)@DB#VhvT_04DC43C020110407154128 JP100 (V) BH R_1/2!T_00000000257AA4E020200516101219R_AX600_W200 (R) NA@?Y@ BR3!T_00000000257A992020200516101219R_AX600_W200 (R) p= @@?Y@ B8 R3'!T_00000000257A934020200516101219R_AX600_W200 (R) )\µ @@?Y@DBXV1!T_00000000059851A020200516101219Battery_9V_V (V)n@"B~ VinDIF!T_00000000257AB68020200516104729 Vmet (VM)"BVoutDif!T_00000000257B2C0020200516112300 NOPCB (VM)B|!VinN!T_0000000006536E6020200517073816 Vmet (VM)B|VinP!T_0000000006419F7020200517073838 Vmet (VM)B}VoutN!T_0000000035CD2BF020200518130010 Vmet (VM)B}VoutP!T_0000000035CD31D020200518130017 Vmet (VM):BY8U1!T_000000003ADAF05020200518152149 AMC1300AMC1300QC:\Documents and Settings\Istvan.DESIGNSO-CORE2Q.000\Local Settings\Temp\AMC1200UAMC1300Label;;11}#}#@@d*VDD1PEY#  @d*INPPNVOS_DTND V @d*INNN  @d*GND1 VM IGND V 8 @d*GND20/I0 IGND V 8 @d*OUTNN VM IGND V 8 @d*OUTPN VM IGND V 8 @d*VDD2P  @f00h$(0h   eddeddeddedde0ddgVDD1Arial۶m۶m?gVDD2Arial۶m۶m?gGND1Arial#۶m۶m?gGND2Arial#۶m۶m?f e0ddQ`1\@Q`1\@LN*****************************************************************************O* (C) Copyright 2018 Texas Instruments Incorporated. All rights reserved. N*****************************************************************************N** This model is designed as an aid for customers of Texas Instruments. N** TI and its licensors and suppliers make no warranties, either expressed N** or implied, with respect to this model, including the warranties of M** merchantability or fitness for a particular purpose. The model is M** provided solely on an "as is" basis. The entire risk as to its quality L** and performance is with the customer O***************************************************************************** A* Released by: Analog eLab Design Center, Texas Instruments Inc.* Part: AMC1300B:* Precision, 250-mV Input, Reinforced Isolated Amplifier* Date: 06/05/2018* Model Type: TINA* Simulator: TINA-TI&* Simulator Version: 7.0.30.267 SF-TI* Datasheet: SBAS895 MAY 2018*N****************************************************************************** version 1.0:*O***************************************************************************** * AMC1300B SUBCIRCUIT:* Precision, 250-mV Input, Reinforced Isolated Amplifier** source AMC1300B6.SUBCKT AMC1300 VDD1 INP INN GND1 GND2 OUTN OUTP VDD29XDFilter POut1_10 VOCM NOut1_11 INP_12 GND2 DFilter_0XD10 13 GND1 D_ZR_5V3_0XD9 14 GND1 D_ZR_5V3_0:EVCVS2 GainO 0 VALUE = {V(OUTP,OUTN)/V(INP_12,GND2)}AEVCVS1 Gain 0 VALUE = {V(INP_12,GND2)/V(POut1_17,NOut1_19)}FXFilter POut1_10 NOut1_11 GND2 VDD2 OUTN VOCM OUTP Filter_Block_0XD8 13 INN D_D2_0XD7 INN VDD1 D_D2_0XD6 14 INP D_D2_0XD5 INP VDD1 D_D2_0XD4 GND2 OUTN D_D2_0XD3 OUTN VDD2 D_D2_0XD2 GND2 OUTP D_D2_0XD1 OUTP VDD2 D_D2_0JXGain POut1_17 NOut1_19 VDD1 GND1 VDD2 GND2 INP_12 GND2 FSO VGAIN_0R3 GND2 GND1 100G !C1 GND2 GND1 1.2P IC=0RIO VDD2 VDD1 100G !CIO VDD2 VDD1 1.2P IC=0IXInput INP INN GND2 POut1_17 FSO VDD1 GND1 NOut1_19 Input_circuit_0.ENDS,.SUBCKT DFilter_0 POut1 VOCM NOut1 INP GND2R25 20 GND2 1 GVCCS3 20 GND2 21 GND2 -10GVCCS2 NOut1 VOCM VALUE = {0.5*V(20,GND2)}0GVCCS1 VOCM POut1 VALUE = {0.5*V(20,GND2)}R22 VOCM NOut1 1 R21 POut1 VOCM 1 R6 22 INP 200K &C6 21 GND2 428.833333F IC=0$C4 20 22 885.333333F IC=0R5 21 22 200K .ENDS:.SUBCKT Filter_Block_0 INP INN GND2 VDD2 VOUTN VOCM VOUTPVPSref 34 GND2 3.3R21ops 30 0 29 "L2ops 30 0 15.384978U IC=0R1 31 30 1 R11ops 32 0 59 #L1ops 32 0 111.787401U IC=0R1ops 33 32 1 G2ops 0 31 33 0 1%G1ops 0 33 34 VDD2 10.009586UR22ops 35 0 10 $C2ops Veps 35 1.607626N IC=0R3ops Veps 0 990 #G3ops 0 Veps 31 0 1.010101MGXBias IAVDD_29 VDD2 IGND_28 GND2 Bias VM_24 Vt0p Vt0 VOCM Bias_0NXOutputn VM_24 Neg_36 IGND_28 Bias IAVDD_29 VOUTN VDD2 Plus_37 GND2 Vt0p Vt0 + Output_0 NXOutputp VM_24 Neg_38 IGND_28 Bias IAVDD_29 VOUTP VDD2 Plus_39 GND2 Vt0p Vt0 + Output_1 "C7 40 41 2.641935P IC=0EVCVS2 40 GND2 43 GND2 1EVCVS1 42 GND2 44 GND2 1R16 45 INP 200K "C8 44 43 1.083871P IC=0R15 41 INN 200K R14 43 41 200K "C5 42 45 2.641935P IC=0R11 44 45 200K R8 46 42 200K $Epsp VOCM Plus_39 Veps 0 -1$Epsn Plus_37 VOCM Veps 0 -1"C3 46 47 3.454839P IC=0R7 47 40 200K *C4 VOUTP Neg_38 745.16129F IC=0R6 Neg_38 47 100K R5 VOUTP 47 200K *C2 VOUTN Neg_36 745.16129F IC=0R3 Neg_36 46 100K R2 VOUTN 46 200K .ENDS:.SUBCKT Bias_0 IAVDD VDD2 IGND GND2 Bias VM Vt0p Vt0 VOCMVS2 50 51 1.2"XU5 0 Vocmtemp VOCMTEMP_0cEVSOCM VOCM GND2 VALUE = {LIMIT(V(Vt0,GND2)*2,0,(1.4461-1.8182M*V(VDD2,GND2))*V(Vocmtemp,0))}=GIb2 IGND Bias VALUE = {48.98M*V(VDD2,GND2)+730.612M}%Rb3 Bias IGND 1 TC=970U,-77NR3 51 GND2 10MEG R2 VDD2 52 10MEG 0EVCVS1 VM IGND VALUE = {0.5*V(IAVDD,IGND)}0EAVDD IAVDD IGND VALUE = {5*V(Bias,IGND)}EGND IGND 0 GND2 0 1EBMG 53 GND2 Vt0 GND2 1,XT4 52 52 VDD2 VDD2 Q_PMOS_OUT_L1_0+ PARAMS: M=1 W=10U L=4U -XT1 VT1 53 GND2 GND2 Q_NMOS_OUT_L1_0+ PARAMS: M=9 W=21U L=0.8U,XT3 51 51 GND2 GND2 Q_NMOS_OUT_L1_1+ PARAMS: M=1 W=10U L=4U XD2 50 52 D_LIM1_0 Rsp1 VDD2 VT1 2.111111K !GIb1 52 51 Bias IGND 10URpsrr1 52 51 10MEG !EVMP1 Vt0p VDD2 52 VDD2 1 EVMN1 Vt0 GND2 51 GND2 1.ENDSD.SUBCKT Output_0 VM Neg IGND Bias IAVDD OUT VDD2 Plus GND2 Vt0p Vt0&VAM2 58 VGN_56 ; Current Arrow#VAM1 61 OUT ; Current Arrow!Vo21 IAVDD 64 695.218247M Vo22 59 IGND 695.218247M&XD5 VGP_55 VDD2 D_LIM100_05_0&XD3 GND2 VGN_56 D_LIM100_05_0$XD6 57 VGP_55 D_LIM100_05_0XD1 59 VV_54 D_LIM1_1$XD4 VGN_56 60 D_LIM100_05_0RO2 VDD2 62 10 RO1 63 GND2 10 XD2 VV_54 64 D_LIM1_1&C33 VV_54 VM 15.915494F IC=0.XT7 61 VGP_55 62 VDD2 Q_PMOS_OUT_L1_1+ PARAMS: M=25 W=20U L=0.8U/XT2 OUT VGN_56 63 GND2 Q_NMOS_OUT_L1_2+ PARAMS: M=25 W=20U L=0.8UFEVMP2 VDD2 57 VALUE = {LIMIT(1.02*V(VDD2,Vt0p),0,V(VDD2,GND2))}EEVMN2 60 GND2 VALUE = {LIMIT(1.02*V(Vt0,GND2),0,V(VDD2,GND2))}Ro23 VM Neg 100G Ro22 Plus VM 100G Ro21 Neg Plus 1G Co21 Neg Plus 10F IC=0%Rdn2 VGP_55 Vt0p 2.041402MEG *Gdn2 Vt0p VGP_55 VM VV_54 146.95U Rdn1 58 Vt0 2.041402MEG %Gdn1 Vt0 58 VM VV_54 146.95UCf5 OUT 58 1P IC=0 Cf4 VGP_55 OUT 1P IC=0Co23 VM Neg 10F IC=0RCo23_RPAR VM Neg 1TCo22 Plus VM 10F IC=0RCo22_RPAR Plus VM 1TR83 VV_54 VM 100K #G23 VM VV_54 Plus Neg 10U.ENDSD.SUBCKT Output_1 VM Neg IGND Bias IAVDD OUT VDD2 Plus GND2 Vt0p Vt0&VAM2 69 VGN_67 ; Current Arrow#VAM1 72 OUT ; Current Arrow!Vo21 IAVDD 75 695.218247M Vo22 70 IGND 695.218247M&XD5 VGP_66 VDD2 D_LIM100_05_0&XD3 GND2 VGN_67 D_LIM100_05_0$XD6 68 VGP_66 D_LIM100_05_0XD1 70 VV_65 D_LIM1_1$XD4 VGN_67 71 D_LIM100_05_0RO2 VDD2 73 10 RO1 74 GND2 10 XD2 VV_65 75 D_LIM1_1&C33 VV_65 VM 15.915494F IC=0.XT7 72 VGP_66 73 VDD2 Q_PMOS_OUT_L1_1+ PARAMS: M=25 W=20U L=0.8U/XT2 OUT VGN_67 74 GND2 Q_NMOS_OUT_L1_2+ PARAMS: M=25 W=20U L=0.8UFEVMP2 VDD2 68 VALUE = {LIMIT(1.02*V(VDD2,Vt0p),0,V(VDD2,GND2))}EEVMN2 71 GND2 VALUE = {LIMIT(1.02*V(Vt0,GND2),0,V(VDD2,GND2))}Ro23 VM Neg 100G Ro22 Plus VM 100G Ro21 Neg Plus 1G Co21 Neg Plus 10F IC=0%Rdn2 VGP_66 Vt0p 2.041402MEG *Gdn2 Vt0p VGP_66 VM VV_65 146.95U Rdn1 69 Vt0 2.041402MEG %Gdn1 Vt0 69 VM VV_65 146.95UCf5 OUT 69 1P IC=0 Cf4 VGP_66 OUT 1P IC=0Co23 VM Neg 10F IC=0RCo23_RPAR VM Neg 1TCo22 Plus VM 10F IC=0RCo22_RPAR Plus VM 1TR83 VV_65 VM 100K #G23 VM VV_65 Plus Neg 10U.ENDSA.SUBCKT Input_circuit_0 VINP VINN GND2 POut1 FSO VDD1 GND1 NOut1VCMref CMref GND1 667MVPSref 106 GND1 5:XBias GND1 IGND_80 IAVDD_84 VM_83 VDD1 SHTDN Bias_11XU1 VDD1 GND1 SHTDN IGND_80 HYSTCOMPGD_0E+ PARAMS: VTHRES=2.73 VHYST=200M VOUTH=1 VOUTL=0 ROUT=100 DELAY=100N"Rint21 86 Neg_87 10.666667K #Rint11 88 Plus_89 10.666667K Cin1 88 86 10.56P IC=0QGVCCS1 IGND_80 FSO VALUE = {IF(V(SHTDN,IGND_80)<0.5|V(90,IGND_80)<0.5,1,0)}R11 FSO IGND_80 1 .XU2 VDD1 VICM 90 IGND_80 HYSTCOMPGD_0A+ PARAMS: VTHRES=2 VHYST=47.5M VOUTH=1 VOUTL=0 ROUT=100 DELAY=1NUEios 91 88 VALUE = {V(102,0)+V(93,0)+ 50.1187N*V(GND1,GND2)+V(VOS,0)+V(96,0)}!L3 92 0 3.693334U IC=0R10 92 0 999 R9 93 92 1 #Gnoise 0 93 0 94 233.333333M!L2 95 0 4.774648U IC=0R8 95 0 9 R7 96 95 1 G88ps 0 96 0 97 1,Rfb1 88 NOut1 53.333333K TC=21.6667U)Rfb2 86 98 53.333333K TC=21.6667U+Rint1 VINP 91 13.333333K TC=21.6667U+Rint2 VINN 86 13.333333K TC=21.6667U(Eps 98 POut1 POLY(1) 96 0 0 1N R6 100 0 1.1 #L1 100 0 833.66875U IC=0R5 97 100 1 "C2 101 0 29.47314N IC=0R4 101 0 9 R3 102 101 1 R210 103 0 200M $L4 103 0 454.728409U IC=0R20 104 103 1 G88 0 102 0 104 110M%G8ps 0 97 106 VDD1 7.079458U"G8 0 104 CMref VLCM 11UXU5 0 VOS VOST_0R2 VICM VINN 1G R1 VINP VICM 1G &Enoise POut 98 POLY(1) 93 0 0 5 Rnoise2 94 0 4.8263MEG Rnoise1 94 0 4.8263MEG C37 VINN GND1 1P IC=0C38 VINP GND1 1P IC=0%Cfb2 Neg_87 POut 2.145P IC=0'Cfb1 Plus_89 NOut1 2.145P IC=0NXInput1 VM_83 Neg_87 IGND_80 VLCM IAVDD_84 NOut1 VDD1 POut Plus_89 GND1 VICM + Input1_0 .ENDS-.SUBCKT Bias_1 GND1 IGND IAVDD VM VDD1 SHTDN-Rp1 VDD1 GND1 3.846154MEG TC=-6M,22UdGIS1 108 GND1 VALUE = {(5.90M*(973.4933M+TEMP*1060.3U)+V(108,GND1)/1.9231K)*(V(SHTDN,GND1))}%EVSVM VM IGND IAVDD IGND 400MAEAVDD IAVDD IGND VALUE = {LIMIT(5*(V(VDD1,GND1)-1.4),5,0)}*Rs4 108 GND1 1.923077G TC=-6M,22UXD1 GND1 108 D_D4_0XDZb1 108 VDD1 D_ZB1_0EGND IGND 0 GND1 0 1.ENDSF.SUBCKT Input1_0 VM Neg IGND VLCM IAVDD NOut VDD1 POut Plus GND1 VICM.PARAM EGdc= {0.100}.PARAM Ndc= {0.1}.PARAM RSdc= {10}$VIvcvs3 119 115 ; Current Arrow$VIvs1 113 120 ; Current Arrow!VS1 120 IGND 290.136578M"VdrophO1 IAVDD 123 915.387691M!VdroplO1 122 IGND 915.387691MD6 113 114 D_LIMCM_0D5 114 115 D_LIMCM_0D3 113 116 D_LIMCM_0*GVCCS4 117 IGND VALUE = {I(VIVCVS3)}R4 117 IGND 10MEG (GVCCS3 118 IGND VALUE = {I(VIVS1)}R3 118 IGND 10MEG >GVCCS1 IGND 116 VALUE = {10U*(V(Plus,IGND)-V(116,IGND))}=GVCCS2 IGND 114 VALUE = {10U*(V(Neg,IGND)-V(114,IGND))}BEVCVS3 119 IGND VALUE = {245.3009M+(V(VDD1,GND1))*666.6667M}R2 114 IGND 1T D2 116 115 D_LIMCM_0R1 116 IGND 1T DEVCVS2 MCM 0 VALUE = {1- LIMIT((V(118,IGND)+V(117,IGND)),0,1)}Ro110 VLCM Neg 1G Ro11 VLCM Plus 1G 4Go13 VM VB VALUE = {50M*V(116,114)*V(MCM,0)}RGo13 0 0 50M XD1 122 VB D_LIM1T_0XD4 VB 123 D_LIM1T_0Ro15 VM Neg 100G Ro12 Plus VM 100G Co11 Neg Plus 10F IC=0Co13 IGND Neg 10F IC=0 Co12 Plus IGND 10F IC=0Ro13 NOut VM 1 Go11 VM NOut VM VB 1Ro14 POut VM 1 Go12 VM POut VB VM 1#Co19 VB VM 79.577472P IC=0RCo19_RPAR VB VM 1TRo19 VB VM 10MEG H.MODEL D_LIMCM_0 D( IS=10f N={Ndc} RS={RSdc} XTI=0 AF=0 KF=0 EG={EGdc}).ENDS.SUBCKT D_ZR_5V3_0 1 2D1 1 2 D_Z5V3C.MODEL D_Z5V3 D( IS=1P N=1.0 BV=5.3 IBV=1.0M RS=10 XTI=0 EG=0.48 ).ENDS .SUBCKT D_D2_0 1 2 D1 1 2 D2.ENDS*:.SUBCKT VGAIN_0 INP INN VDD1 GND1 VDD2 GND2 OUTP OUTN FSO*EG Gain error,*AMC1300, initial, at TA = 25C 1% 0.4% 1%3*AMC1300B, initial, at TA = 25C 0.3% 0.05% 0.3%*GAIN ERROR THERMAL DRIFT3*VS TEMPERATURE: TCGERR 50 15 50 PPM/K AMC1300B*.PARAM TCGERR= {-15E-6}.PARAM TCGERR= {-7.5E-6}.PARAM EG= {-50E-3/100}.PARAM Gin={4.0}.PARAM Gout={1.0/1.0}.PARAM G={8.2} ;AMC1300.PARAM G0={8.0} ;AMC1200.PARAM RG1= {1/Gin}.PARAM RG2= {1}.PARAM I0 = 1.PARAM R0 = {1/(I0*Gout)*G/G0}'.PARAM Rout = {R0*(1 + 2*TCGERR + 0u)}.PARAM TC1= {TCGERR/R0/I0}.PARAM C25={56.0014427}.PARAM B25={0.146489}.PARAM C125={47.45704}.PARAM B125={0.17289}.PARAM C0={53.589}.PARAM BA={206.5114M}.PARAM B0={149.3714M}.PARAM V0={5}.PARAM MB={V0*-2.00U}.PARAM A0={14.1107M}.PARAM MA={V0*-2.1169M}.PARAM D0={-755.0867M}.PARAM MD={V0*113.2662M}.PARAM Vclip={302.7m}.PARAM VL={Vclip*Gin}.PARAM VLFSO={-2.563/R0 - 1m}ZGVDD1 0 G1 TABLE {V(VDD1,GND1)} = (3.00 0.9996) (4.00 0.9995) (5.00 0.9995) (5.50 0.9995)RG1 G1 0 {RG1}^GVDD2 0 G12 TABLE {V(VDD2,GND1)} = (3.00 0.99955) (4.00 0.9995) (5.00 0.99945) (5.50 0.99945)RG12 G12 0 1.0 1E-15) & (Rout < 1), 1, Rout ) }.Param VoutM={(VoutH+VoutL)/2}.Param VthH={Vthres+Vhyst}.Param VthL={Vthres-Vhyst}%.Param Cout={Tdel/(0.693*(Rdel+1u))}.Param Gdlh={1/Rdel}.Param Gdhl={1*Gdlh}*CGthr gnd thr Value= { IF ( V(out,gnd) < {VoutM}, {VthH}, {VthL}) }Rthr gnd thr 1oGout gnd out Value= { IF ( (V(inp,inm) > V(thr,gnd)), (VoutH - V(out,gnd))*Gdlh, (VoutL - V(out,gnd))*Gdhl ) }Cout out gnd {Cout}Rout out gnd {1e5*Rdel}.ENDS.SUBCKT VOST_0 1 2_*Input offset voltage, VOS = 2 0.01 2 mV AMC1300, initial, at TA = 25C, VINP = VINN = GND19*TCVOS Input offset drift DVOS/DT 4 1.3 4 uV/C AMC1300c*Input offset voltage, VOS = 0.2 0.01 0.2 mV AMC1300B, initial, at TA = 25C, VINP = VINN = GND1<*TCVOS Input offset drift, DVOS/DT = 3 1 3 uV/C AMC1300B.PARAM I0 = 1M*.PARAM DVOS_DT= {1.0U}.PARAM DVOS_DT= {0.13U}#.PARAM VOFFS = {31.0u + 2*DVOS_DT}.PARAM R0 = {VOFFS/I0}.PARAM TC1= {DVOS_DT/R0/I0}R2 40 0 RMOD2 {R0} I2 40 0 {I0}E3 1 2 40 0 1).MODEL RMOD2 RES (TC1={TC1} TC2=0 TCE=0).ENDS.SUBCKT D_D4_0 1 2 D1 1 2 DD/.MODEL DD D( IS=10n N=0.50 RS=1 XTI=0 Eg=0.35) .ENDS D_D.SUBCKT D_ZB1_0 1 2D1 1 2 D_4_9V CD 1 2 10PA.MODEL D_4_9V D( IS=1n N=1.0 BV=2.4 IBV=1.0m RS=0 XTI=0 EG=0.55).ENDS .SUBCKT D_LIMCM_0 1 2D1 1 2 D_LimcmF.MODEL D_LIMcm D( IS=10f N={Ndc} RS={RSdc} XTI=0 AF=0 KF=0 EG={EGdc}).ENDS.SUBCKT D_LIM1T_0 1 2D1 1 2 D_Lim1T .ENDS ?.MODEL D_LIM1T D( IS=10F N=1.0 RS=10 XTI=0 AF=0 KF=0 EG=0.555)*Parameters: 0.4um CMOS.PARAM LS = 1.0U.PARAM VTOHP = 0.75.PARAM VTOHN = 0.75.PARAM LAMBDA = 10M.PARAM GAMMA = 0.00.PARAM KAPPA = 1.0.PARAM THETA = 0.23.PARAM ETA = 3.PARAM KPN = {UON*COX * 1e-4}.PARAM KPP = {UOP*COX * 1e-4}.PARAM LDN = 0.09U.PARAM LDP = 0.09U.PARAM RSW = 1810.PARAM RSN = 1.41.PARAM RDS = 10MEG.PARAM VBMUL = 1E6.PARAM RPAR = 1T.PARAM CBDJ = 1.0 .PARAM CBDS = 1.0.PARAM CGBF = 1.0.PARAM PBP = 0.7.PARAM PBN = 0.7.PARAM UON = 450.PARAM UOP = 450*.PARAM UOP = 150*.PARAM CJN = {200U}.PARAM CJP = {400U} .PARAM CJSWN = {1.2N}.PARAM CJSWP = {2.4N}.PARAM XJN = 0.15U.PARAM CGSON = {0.6*XJN*COX} .PARAM CGDON = {CGSON}.PARAM CGBON = {CGBF*CGDON}.PARAM XJP = 0.18U.PARAM CGSOP = {0.6*XJP*COX} .PARAM CGDOP = {CGSOP}.PARAM CGBOP = {CGBF*CGDOP}'.PARAM EPSSIO2 = {3.9*8.854214871E-12}.PARAM TOX = 80E-10.PARAM COX = {EPSSIO2/TOX}*$F.MODEL Q_NMOS NMOS Level=1 L=2U W=10U KP={KPN} VTO={VTOHN} AF=0 KF=0*$G.MODEL Q_PMOS PMOS Level=1 L=2U W=10U KP={KPP} VTO={-VTOHP} AF=0 KF=0*$T.MODEL Q_NMOS_Out_L1 NMOS LEVEL=1 L=10U W=100U KP={KPN} VTO={VTOHN} LAMBDA={LAMBDA}W+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} RSH= 4 PB={PBN} LD= {LDN} RDS={RDS} *$O.MODEL Q_NMOS_Out NMOS LEVEL=3 L=10U W=100U KP={KPN} VTO={VTOHN} THETA={THETA}i+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} RSH= 4 PB={PBN} LD= {LDN} RDS={RDS} TOX={TOX} XJ={XJN}(+ GAMMA={GAMMA} KAPPA={KAPPA} ETA={ETA}*$U.MODEL Q_PMOS_Out_L1 PMOS LEVEL=1 L=10U W=100U KP={KPP} VTO={-VTOHP} LAMBDA={LAMBDA}V+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} RSH=4 PB={PBP} LD= {LDP} RDS={RDS} *$P.MODEL Q_PMOS_Out PMOS LEVEL=3 L=10U W=100U KP={KPP} VTO={-VTOHP} THETA={THETA}h+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} RSH=4 PB={PBP} LD= {LDP} RDS={RDS} TOX={TOX} XJ={XJP}(+ GAMMA={GAMMA} KAPPA={KAPPA} ETA={ETA}*$?.MODEL D_Lim1 D( IS=10F N=1.0 RS=1000 XTI=0 AF=0 KF=0 EG=1.11)*$@.MODEL D_Lim100 D( IS=10F N=1.0 RS=100 XTI=0 AF=0 KF=0 EG=1.11)*$B.MODEL D_Lim1005 D( IS=10F N=0.5 RS=100 XTI=0 AF=0 KF=0 EG=0.555)*$D.MODEL D_Lim100_05 D( IS=10F N=0.5 RS=100 XTI=0 AF=0 KF=0 EG=0.555)*$>.MODEL D_Lim10 D( IS=10F N=1.0 RS=10 XTI=0 AF=0 KF=0 EG=1.11)*$>.MODEL D_Lim2 D( IS=10f N=0.5 RS=1 XTI=0 AF=0 KF=0 EG=0.555 )*$6.MODEL D_Lim3 D( IS=1E-18 N=1.0 RS=1 XTI=0 AF=0 KF=0)*$5.MODEL D_Lim4 D( IS=10F N=1.0 RS=1m XTI=0 AF=0 KF=0)*$0.MODEL D1 D( IS=1p N=1.0 RS=0 XTI=3 AF=0 KF=0 )*$;.MODEL DZ_14V D( IS=1p N=1.0 BV=14.0 IBV=5.0M XTI=0 RS=10);.MODEL DZ_80V D( IS=1p N=1.0 BV=80.0 IBV=5.0M XTI=0 RS=10)*$&.MODEL D2 D( IS=1p N=1.0 XTI=0 RS=10)VINNVINPVOUTNVOUTPGND1VDD1VDD2GND2:BU2!T_0000000035CF9ED020200518172055AMC13xx_250_AFEAMC13xx_250_AFEAMC13xx_250_AFELabel3%) p(d*VOpn 0 @d*GND1 0 @d*VOnd 0 @d*VINp @d*VINn  @f)"taߘ6x@taߘ6x@OBSS; $Circuit$? 'fU 4+}h u;J3C@ @@ @!T_000000003597998020200518172055C@  @  !T_0000000035979DA020200518172055C@P@P!T_000000003597A1C020200518172055C````!T_000000003597A5E020200518172055C@@@@!T_000000003597AA0020200518172055CP @ P @ !T_000000003597AE2020200518172055G!T_000000003597B24020200518172055C!T_000000003597B66020200518172055G!T_000000003597BA8020200518172055G `  `!T_000000003597BEA020200518172055G`````!T_000000003597C2C020200518172055C    !T_000000003597C6E020200518172055G ` ``!T_000000003597CB0020200518172055C!T_000000003597CF2020200518172055Cx  x  !T_000000003597D34020200518172055G``!T_000000003597D76020200518172055C!T_000000003597DB8020200518172055G!T_000000003597DFA020200518172055C!T_000000003597E3C020200518172055C!T_000000003597E7E020200518172055Cxx!T_000000003597EC0020200518172055G!T_000000003597F02020200518172055C X  X !T_000000003597F44020200518172055G0X0XX!T_000000003597F86020200518172055G`````!T_000000003597FC8020200518172055C    !T_00000000359800A020200518172055G ` ``!T_00000000359804C020200518172055G0X0XX!T_00000000359808E020200518172055C    !T_0000000035980D0020200518172055G``!T_000000003598112020200518172055G!T_000000003598154020200518172055C!T_000000003598196020200518172055K `  ``!T_0000000035981D8020200518172055K!T_00000000359821A020200518172055C!T_00000000359825C020200518172055C!T_00000000359829E020200518172055C``!T_0000000035982E0020200518172055C````!T_000000003598322020200518172055C!T_000000003598364020200518172055C!T_0000000035983A6020200518172055G!T_0000000035983E8020200518172055C!T_00000000359842A020200518172055K0x000x0x!T_00000000359846C020200518172055C@@!T_0000000035984AE020200518172055C X  X !T_0000000035984F0020200518172055KX 0`X X X`0`!T_000000003598532020200518172055CXX!T_000000003598574020200518172055GXXX!T_000000003596160020200518172055CxXxX!T_0000000035961A2020200518172055Gxxx!T_0000000035961E4020200518172055GX0XX0!T_000000003596226020200518172055Bx`VCVS1!T_0000000035CF931020200518172055BxVCVS2!T_0000000035CF8D3020200518172055 BP R4!T_0000000035CF875020200518172055R_AX600_W200 (R) j@@?Y@ B R5!T_0000000035CF98F020200518172055R_AX600_W200 (R) j@@?Y@ BR5'!T_0000000035985B9020200518172055R_AX600_W200 (R) j@@?Y@ BPR4'!T_000000003598617020200518172055R_AX600_W200 (R) j@@?Y@BVcm In!T_000000003598675020200518172055 JP100 (VS)333333? B@Rvcm!T_0000000035986D3020200518172055R_AX600_W200 (R) jA@?Y@"B) Vout MOD!T_000000003598731020200518172055 Vmet (VM)Bx`VCVS3!T_00000000359878F020200518172055BxVCVS4!T_0000000035987ED020200518172055 B R1!T_00000000359884B020200518172055R_AX600_W200 (R) @@@?Y@ B R2!T_0000000035988A9020200518172055R_AX600_W200 (R) @@@?Y@ BR6!T_000000003598907020200518172055R_AX600_W200 (R) @@@?Y@ BR7!T_000000003598965020200518172055R_AX600_W200 (R) @@@?Y@;BnGND1!T_0000000035989C3020200518172055;Bm VOp!T_000000003598A21020200518172055;BmVOn!T_000000003598A7F020200518172055;Bn VINp!T_000000003598ADD020200518172055;BnVINn!T_000000003598B3B020200518172055BoGND2T_0458233420110407150113 NOPCB (J)BoGND1T_0458825420110407150125 NOPCB (J)BoxX VDD1T_04614A5420110407150329 NOPCB (J)BoXVDD2T_04C423A420110407150815 NOPCB (J)BwHVDD2!T_000000003AD6D01020200516112300 NOPCB (J)Bw( VDD1!T_000000003AD6D5F020200516112300 NOPCB (J)BwHHGND2!T_000000003AD6F35020200516112300 NOPCB (J)Bw( GND1!T_000000003AD6F93020200516112300 NOPCB (J)Bn!T_000000000598578020200516100837 NOPCB (GND)8?V ư>?ư>)Xdrr@Y@V1[dddd$@?.A.A.AeAMbP?@@?Mb@?ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#;;@& .>-q=ư>MbP?-q=MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F,@?+= _BKH9$@Y@#B ;ư>?.AMbP??????I@MbP?Transient Convergence Solutions Increase the TR max iteration number which is the maximum number of iterations on a step in transient analysis. (Default = 20). Increasing to 50-100 helps to solve "Time step too small" errors. Relax the DC relative error to 0.01. The default value is 10-3 [ % ].You may increase the value of this parameter in order to get the results faster but with less accuracy. Loosen DC absolute current error to 1 microamp (Spice ABSTOL - absolute current error tolerance. The default value is 1 nanoamp. ) and DC absolute voltage error to 1 milivolt (Spice VNTOL - absolute voltage error tolerance of the program. The default value is 1 microvolt. ) ?Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname