OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.80.273 SFB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved. $Circuit$ZYFT?F[Vout] miny1=-2.5 maxy1=2.5 divsy1=1 scaley1=0 miny2=-20 maxy2=140 divsy2=8 scaley2=1 miny4=-20 maxy4=140 divsy4=8 scaley4=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx4=10maxx4=1000000 divsx4=5 scalex4=2 minx1=1E-5 maxx1=0.0003 divsx1=2 scalex1=0miny7=0 maxy7=160 divsy7=8 scaley7=0 minx7=1000maxx7=10000000 divsx7=4 scalex7=2[Vo]minx1=0maxx1=1 divsx1=4 scalex1=0 minx2=10maxx2=100000000 divsx2=7 scalex2=2 minx4=10maxx4=100000000 divsx4=7 scalex4=2 miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny4=-40 maxy4=20 divsy4=3 scaley4=1miny1=0maxy1=5 divsy1=1 scaley1=0[All] minx1=-2maxx1=2 divsx1=8 scalex1=0 miny1=-2.5 maxy1=2.5 divsy1=5 scaley1=0 miny2=-40 maxy2=120 divsy2=8 scaley2=1 miny4=-40 maxy4=120 divsy4=8 scaley4=1 minx2=10maxx2=1000000 divsx2=2 scalex2=2 minx4=10maxx4=1000000 divsx4=2 scalex4=2[Vi2] miny1=-1maxy1=1 divsy1=2 scaley1=0[Vi1] miny1=-1maxy1=1 divsy1=2 scaley1=0[Vcm]miny1=2.212500009maxy1=2.287500004 divsy1=2 scaley1=0[Vsh]miny1=-0.074999964063maxy1=0.075000026562 divsy1=2 scaley1=0 [Vout[1]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[2]]miny1=4.70761582maxy1=4.707615821 divsy1=1 scaley1=0 [Vout[3]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[4]]miny1=4.894673663maxy1=4.894673664 divsy1=1 scaley1=0 [Vout[101]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[102]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[103]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[104]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[10]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[87]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[83]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[194]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[9]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[256]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Vout[208]]miny1=4.800239158maxy1=4.800239159 divsy1=1 scaley1=0 [Default]minx34=4.707615822maxx34=4.894673661 divsx34=2 scalex34=0[Vout2] minx2=10maxx2=100000000 divsx2=7 scalex2=2 minx4=10maxx4=100000000 divsx4=7 scalex4=2[Vtri]miny1=0maxy1=5 divsy1=1 scaley1=0[Vinp]miny1=0maxy1=5 divsy1=1 scaley1=0 [VF1[1]]miny1=2.02020202maxy1=2.020202021 divsy1=1 scaley1=0 [VF1[2]]miny1=2maxy1=2.000000001 divsy1=1 scaley1=0 [VF1[3]]miny1=1.98019802maxy1=1.980198021 divsy1=1 scaley1=0 [VF1[4]]miny1=2maxy1=2.000000001 divsy1=1 scaley1=0[VF1]miny1=2maxy1=2.000000001 divsy1=1 scaley1=0 miny2=-20maxy2=0 divsy2=1 scaley2=1 miny4=-20maxy4=0 divsy4=1 scaley4=1 [AolBeta] miny7=-180 maxy7=180 divsy7=4 scaley7=0minx7=1maxx7=10000000 divsx7=7 scalex7=2[Aol] miny2=-40 maxy2=120 divsy2=8 scaley2=1 miny4=-40 maxy4=120 divsy4=8 scaley4=1 minx7=1000maxx7=3000000 divsx7=2 scalex7=2 miny7=80 maxy7=160 divsy7=2 scaley7=0 [Vnoise] miny1=-0.01 maxy1=0.01 divsy1=1 scaley1=0[OUT] miny1=-2.5 maxy1=2.5 divsy1=5 scaley1=0[Vd] miny1=-1maxy1=1 divsy1=4 scaley1=0 minx1=-2maxx1=2 divsx1=8 scalex1=0 [margin]miny7=0 maxy7=160 divsy7=8 scaley7=0 minx7=1000maxx7=10000000 divsx7=4 scalex7=2 'J0fTI&rXV?X?ƚ:L!LlH:L! EMFI 8X?RpMS Sans Serif8  iv iv8E\aN0X0X@XXX(TX$Es}aN0XEC}a(0XXC en-USE IE00 C aEE11 KvXRX+N@E YOoNGmdv%  '%   TT UUAA LPT % RpArial#5 iv ivE\aNQQEb}aEs}aNQEC}a,uQQCen-US|E IE$~\t6#兵RoRì"$EtEEi:^IEdv%  % RpArial iv ivXEE\aNQQEb}aEs}aNQFC}aKQQCen-US@u STv4@dv%  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   +H% %   +H% GG&%  6G66##6#FF6Fcc6c||6|6666##6#cc6c666666% GG&%  6G""6"% GzGz%  6"z% GG%  6"GG6"% GG&%  6"GG6G% %  &%    % Rp Arial E^stNC(5:Eau!;Eau!;EšuE  u =@;:EQu XE0EUXt!;(l XENAIE/C!;(l XE B(l y/CE#/@EV_@4 dv%  T]UUAA L`Gain (dB) 7% ( %  % %    Tp?UUAALX-40.00@% ( AA%  6GFF6GFF6GFF6GFF6GDD6GFF6GFF6GFF6GFF6G% &%    Tpq?UUAAqLX-20.03@q% ( AzAz%  6GzFoFo6GoFdFd6GdFZFZ6GZFOFO6GODDDD6GDF9F96G9F.F.6G.F$F$6G$FF6G% &%    Td(?UUAA(LT0.00@% ( AA%  6G% % GG&%  6NN6VV6]]6dd6ll6ss6zz666666666~~6xx6qq6kk6ee6^^6XX6RR6LL6EE6@@6 : :6446//6"*"*6*&*&61"1"6886@@6GG6NN6UU6]]6dd6kk6ss6zz66666666666666666666  666""6))61168"8"6?&?&6G*G*6N/N/6U4U46]9]96d?d?6kDkD6sJsJ6zPzP6VV6]]6cc6ii6pp6vv6}}6666666666666  666"% % %  %   +H% GG%  6G66##6#FF6Fcc6c||6|6666##6#cc6c666666% GG%  6G""6"% GRGR%  6"R% GG%  6"GG6"% GG%  6"% %  & %    TUUAALhFrequency (Hz) % %    Tp@eUUAA@LX100.00f% ( GG%  6G66##6#FF6Fcc6c||6|66% & %    TlUUAALX3.16k% ( %  6##6#cc6c666666% & %    TxHUUAAL\100.00kH% ( ""%  6"% GG6G% %  & %    % Rp Arial ERu%:Eau!;5:Eau!;Eau!;EšuE  u = ;:EQu XE0EUXt!;(l XENAIE/C!;(l XE B(l y/CE#/@EV_@B dv%  T/pUUAAp LdPhase [deg]Dp% ( %  % %    Tx?UUAAL\-172.42@% ( AA%  6GFF6GFF6GFF6GFF6GD}D}6G}FtFt6GtFlFl6GlFcFc6GcF[F[6G[% & %    Td(I?WUUAA(ILT0.00@I% ( ARAR%  6GRFIFI6GIFAFA6GAF8F86G8F0F06G0D'D'6G'FF6GFF6GF F 6G FF6G% & %    Tp?UUAALX171.25@% ( AA%  6G% % GG%  6NN6VV6]]6dd6ll6ss6zz666666666666  6  6  6  66666  666""6*!*!61$1$68(8(6@+@+6G.G.6N1N16U4U46]7]76d:d:6k<k<6s?s?6zAzA6DD6FF6HH6JJ6LL6NN6PP6RR6TT6VV6WW6YY6[[6^^6``6bb6dd6gg6ii6 l l6oo6rr6"u"u6)x)x61{1{68~8~6??6GG6NN6UU6]]6dd6kk6ss6zz66666666666666666666  666"%  % % % odf逼5?Y"b?ƚ:L!Ll F:L! EMF8d 8X?RpMS Sans Serif8  iv iv8E\aN0X0X@XXX(TX$Es}aN0XEC}a(0XXC en-USE IE00 C aEE11 KvXRX+N@E YOoNGmdv%  '%   TT UUAA LPT % RpArial iv ivETE\aN%Q%Q@Eb}a@Es}aN%QC}aH%QQCen-USdv%  % RpArial iv ivETE\aN%Q%Q@Eb}a@Es}aN%QHC}aH%QQCen-USWf?Cdv%  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   +H% %   +H% &%  6% GG&%  6G6GG6GG6% %  6% GG%  6G6GG6GG6% GG&%  6% %  &%    T|UUAAL\Time (s)  % %    Tx>wUUAA>L\100.00u  x% ( GG%  6Gkk6k66666CC6Cgg6g6% &%    TxUUAAL\125.00u  % ( %  6666>>6>bb6b6666% &%    Tx FUUAA L\150.00u  G% ( %  6% GG6G% %  &%    TX`qUUAA`LPVi `% %    Tl6UUAALX-2.45  7% ( ::%  6GDD6GDD6GDD6GDD6GApAp6GpD^D^6G^DKDK6GKD9D96G9D&D&6G&% &%    Td 6UUAA LT2.45  7 % ( ::%  6G% GG6G% %  &%    TX,=UUAA,LPVo ,% % ( %  &%    Td6UUAALT0.00  7% ( ::%  6GDD6GDsDs6GsDaDa6GaDNDN6GNA<A<6G<D*D*6G*DD6GDD6GDD6G% &%    Td6UUAALT5.00  7% ( ::%  6G% % GpGp&%  6IfIf6L]L]6NTNT6QKQK6SBSB6U:U:6X2X26Z,Z,6]&]&6_ _ 6aa6dd6ff6ii6kk6mm6pp6rr6uu6w w 6y&y&6|,|,6~2~26::6BB6KK6TT6]]6ff6pp6zz6666666666666666666666666666zz6pp6ff6]]6TT6KK6BB6::6226,,6&&6  6666666666  6 & &6 , ,6226::6BB6KK6TT6]]6ff6pp6!z!z6##6&&6((6++6--6//6226446776996;;6>>6@@6CC6EE6GG6JJ6LL6OO6QQ6SS6VV6XX6[[6]]6__6bb6dzdz6gpgp6ifif6k]k]6nTnT6pKpK6sBsB6u:u:6w2w26z,z,6|&|&6  6666666666  6&&6,,6226::6BB6KK6TT6]]6ff6pp6zz6666666666666666666666666666zz6pp6ff6]]6TT6KK6BB6::6226 , ,6 & &6  66666666""6$$6& & 6)&)&6+,+,6.2.260:0:62B2B65K5K67T7T6:]:]6<f<f6>p>p6AzAz6CC6EE6HH6JJ6MM6OO6QQ6TT6VV6YY6[[6]]6``6bb6ee6gg6ii6ll6nn6qq6ss6uu6xx6zz6}}666zz6pp6ff6]]6TT6KK6BB6::6226,,6&&6  6666666666  6&&6,,6226::6BB6KK6TT6]]6ff6pp6zz666666666666666666666666  6  666zz6p% H=H=& %  6L=L=6O=O=6S>S>6W>W>6Z>Z>6]>]>6a>a>6e>e>6h>h>6l>l>6o>o>6s>s>6w>w>6z>z>6~=~=6==6==6==6==6==6==6==6==6==6==6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6==6==6==6==6==6==6==6==6>>6>>6>>6>>6>>6>>6>>6>>6>>6>>6 = =6==6==6==6==6==6==6==6==6==6==6!=!=6%<%<6(<(<6,<,<6/</<63<3<67<7<6:<:<6><><6@<@<6A<A<6B<B<6D<D<6F<F<6G<G<6H<H<6I<I<6J<J<6K<K<6M<M<6P<P<6T<T<6X<X<6[<[<6_=_=6a=a=6e=e=6i=i=6l=l=6p=p=6s=s=6w=w=6{>{>6~>~>6>>6>>6>>6>>6>>6>>6==6==6==6==6==6==6==6==6==6==6==6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6==6==6==6==6==6==6==6 = =6>>6>>6>>6>>6>>6 > >6$=$=6'='=6+=+=6.=.=62=2=63=3=64=4=65=5=68=8=6<=<=6>=>=6A<A<6D<D<6H<H<6K<K<6O<O<6S<S<6V<V<6Z<Z<6]<]<6_<_<6`<`<6a<a<6b<b<6c<c<6e<e<6g<g<6h<h<6i<i<6j<j<6k<k<6n<n<6r<r<6u<u<6y<y<6|<|<6<<6==6==6==6==6==6==6==6==6==6>>6>>6>>6>>6==6==6==6==6==6==6==6==6==6==6==6==6==6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6 < <6 < <6<<6==6==6=%  % % % w@w Arial HP FilterSymbol????333333??@ Arial LP FilterSymbol????333333??Q@Q Arial+Simulation file for BP SK Filter (SBOA229)Symbol????333333?? `@` ArialTransient Analysis 1) Analysis 2) Transient4) Sweep from 100us to 150usSymbol????333333??#{@{ Arial AC Sweep 1) Analysis2) AC Analysis3) AC Transfer Characteristic4) Sweep from 100 to 100kHzSymbol????333333??;xPxhxPxhT_322893C020191203155232?x(x(xT_3228A68020191203155232?T_3228A2C020191203155232;((T_3228978020191203155232;T_05B1E24020191203155232;T_05B1DE8020191203155232;T_05B1DAC020191203155232;88T_05B1D70020191203155232;  T_05B1CBC020191203155232;ppppT_32363F4020191203155232?(((T_323646C020191203155232;T_32364E4020191203155232?(8((88T_32360AC020191203155232G @ @ T_06C4072020191203155232?x`xx`T_06C40AE020191203155232;((((T_05C8F72020191203155232;T_32272D5020191203155232?88T_32271A9020191203155232;``T_322734D020191203155232;(8(0(8(0T_32271E5020191203155232G`@@`T_322725D020191203155232;T_3227221020191203155232;`(`(T_3227311020191203155232?@(@(@(T_04D0544020191203155232;8(8(T_04D9298020191203155312?( (( T_04D92D4020191203155312;xx xx T_279B169020191203161202;T_0577AEF020191203161730?T_0577B2B020191203161730;ppT_057E790020191203161813?p@pp@T_057E7CC020191203161813?@@@T_05609B3020191203161838;T_0561E5F020191203161840?T_0561E9B020191203161840;pp8pp8T_056F5DF020191203161902;8H8HT_3230D75020191203162651DB V1T_05BC65B020191203154416Battery_9V_V (V)@ BR2T_05BC60C020191203154416R_AX600_W200 (R)@@?Y@ BR1T_05BC5BD020191203154416R_AX600_W200 (R)@@?Y@ Bp 6C2T_05BC56E020191203154416CP_CYL300_D700_L1400 (C) qR>@eAY@? B(CacT_05BC51F020191203154416CP_CYL300_D700_L1400 (C) Iz>@eAY@? B@C1T_05BC4D0020191203154416CP_CYL300_D700_L1400 (C) qR">@eAY@?Bp8VoT_05BC432020191203154416 NOPCB (VF):Bg: U2T_05BC971020191203154514 TLV9062TLV9062SC:\Users\a0225818\AppData\Local\Temp\DesignSoft\{Tina9-TI-11062017-190831}\TLV9062SCK#TLV9062Label#PP(d*IN+  @d*IN-pJ@; @d*OUT,  @d*VCCptJEz,  @d*VEE8  @h 00g"- Courier New?g"+ Courier New ?g"+ Courier New? %@ %@* TLV9062 - Rev. C7* Created by Paul Goedeke, Ian Williams; July 27, 2018B* Created with Green-Williams-Lis Op Amp Macro-model Architecture2* Copyright 2018 by Texas Instruments Corporation7******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************D* OPEN-LOOP GAIN AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (Aol)* UNITY GAIN BANDWIDTH (GBW)9* INPUT COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR)4* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR)%* DIFFERENTIAL INPUT IMPEDANCE (Zid)$* COMMON-MODE INPUT IMPEDANCE (Zic)0* OPEN-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zo)+* OUTPUT CURRENT THROUGH THE SUPPLY (Iout)1* INPUT VOLTAGE NOISE DENSITY VS. FREQUENCY (en)1* 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)C* INPUT OFFSET VOLTAGE VS. INPUT COMMON-MODE VOLTAGE (Vos vs. Vcm))* INPUT/OUTPUT ESD CELLS (ESDin, ESDout)7******************************************************$.subckt TLV9062 IN+ IN- VCC VEE OUT7******************************************************* MODEL DEFINITIONS:9.model BB_SW VSWITCH(Ron=50 Roff=1e12 Von=700e-3 Voff=0):.model ESD_SW VSWITCH(Ron=50 Roff=1e12 Von=250e-3 Voff=0)?.model OL_SW VSWITCH(Ron=1e-3 Roff=1e9 Von=900e-3 Voff=800e-3)9.model OR_SW VSWITCH(Ron=10e-3 Roff=1e9 Von=1e-3 Voff=0)&.model R_NOISELESS RES(T_ABS=-273.15)7******************************************************I_OS ESDn MID 450FI_B 25 MID 500FV_GRp 60 MID 60V_GRn 61 MID -60V_ISCp 54 MID 54V_ISCn 55 MID -54V_ORn 34 VCLP -1.5V11 59 33 0V_ORp 32 VCLP 1.5V12 58 31 0V4 47 OUT 0VCM_MIN 82 VEE_B -100MVCM_MAX 83 VCC_B 100MI_Q VCC VEE 538UV_OS 26 37 282.259U,C30 21 MID 3.18000000000000E-0016 %R69 MID 21 R_NOISELESS 1MEG G7 21 MID 22 MID -1UC29 22 MID 1.56F %R80 MID 22 R_NOISELESS 1MEG G19 22 MID 23 MID -1U$R51 ESDp 24 R_NOISELESS 1M $XVOS_VCM 25 26 VCC VEE VOS_SRC_0+S5 VEE ESDp VEE ESDp S_VSWITCH_1+S4 VEE ESDn VEE ESDn S_VSWITCH_2+S2 ESDn VCC ESDn VCC S_VSWITCH_3+S3 ESDp VCC ESDp VCC S_VSWITCH_4C28 27 MID 1P #R72 28 27 R_NOISELESS 100 C27 29 MID 1P #R71 30 29 R_NOISELESS 100 "R75 MID 31 R_NOISELESS 1 G14 31 MID 32 MID -1"R74 33 MID R_NOISELESS 1 G13 33 MID 34 MID -1"R89 35 MID R_NOISELESS 1 )XVCCS_LIM_ZO 36 MID MID 35 VCCS_LIM_ZO_0Xi_nn ESDn MID FEMT_0Xi_np MID 37 FEMT_0Xe_n 24 37 VNSE_0C26 23 MID 3.18F %R79 MID 23 R_NOISELESS 1MEG #G18 23 MID VSENSE MID -1UC36 CLAMP MID 39.2N (R68 MID CLAMP R_NOISELESS 1MEG *XVCCS_LIM_2 38 MID MID CLAMP VCCS_LIM_2_0%R44 MID 38 R_NOISELESS 1MEG &XVCCS_LIM_1 39 40 MID 38 VCCS_LIM_1_0&R72_2 36 MID R_NOISELESS 1.11K C31 36 41 15.92F #R87 36 41 R_NOISELESS 10K "R86 41 MID R_NOISELESS 1 Gb1 41 MID 42 MID -1C22 43 MID 45F #R85 42 43 R_NOISELESS 10K #R84 42 44 R_NOISELESS 90K "R83 44 MID R_NOISELESS 1 G21 44 MID 45 MID -6.5C21 46 45 1.59U &R55 45 MID R_NOISELESS 1.82K #R54 45 46 R_NOISELESS 10K #Rdummy MID 47 R_NOISELESS 4K #Rx 47 35 R_NOISELESS 40K "Rdc2 46 MID R_NOISELESS 1 'G10 46 MID CL_CLAMP 47 -60.61'R46 MID 48 R_NOISELESS 3.572K C14 48 49 15.9P &R48 49 48 R_NOISELESS 100MEG &G6 49 MID VEE_B MID -99.34M"Rsrc1 MID 49 R_NOISELESS 1 'R49 MID 50 R_NOISELESS 3.572K C16 50 51 15.9P &R50 51 50 R_NOISELESS 100MEG &G9 51 MID VCC_B MID -99.34M"Rsrc2 MID 51 R_NOISELESS 1 #R81 MID 52 R_NOISELESS 6K C20 52 53 265.3F &R82 53 52 R_NOISELESS 100MEG $G20 53 MID ESDp MID -2.089"Rsrc3 MID 53 R_NOISELESS 1 .XIQPos VIMON MID MID VCC VCCS_LIMIT_IQ_0.XIQNeg MID VIMON VEE MID VCCS_LIMIT_IQ_0C_DIFF ESDp ESDn 2P 1XCL_AMP 54 55 VIMON MID 56 57 CLAMP_AMP_LO_0+S8 CLAMP 58 CLAMP 58 S_VSWITCH_5+S9 59 CLAMP 59 CLAMP S_VSWITCH_6.XGR_AMP 60 61 62 MID 63 64 CLAMP_AMP_HI_0#R39 60 MID R_NOISELESS 1T #R37 61 MID R_NOISELESS 1T &R42 VSENSE 62 R_NOISELESS 1M C19 62 MID 1F "R38 63 MID R_NOISELESS 1 "R36 MID 64 R_NOISELESS 1 "R40 63 65 R_NOISELESS 1M "R41 64 66 R_NOISELESS 1M C17 65 MID 1F C18 MID 66 1F *XGR_SRC 65 66 CLAMP MID VCCS_LIM_GR_0"R21 56 MID R_NOISELESS 1 "R20 MID 57 R_NOISELESS 1 "R29 56 67 R_NOISELESS 1M "R30 57 68 R_NOISELESS 1M C9 67 MID 1F C8 MID 68 1F ,XCL_SRC 67 68 CL_CLAMP MID VCCS_LIM_4_0#R22 54 MID R_NOISELESS 1T #R19 MID 55 R_NOISELESS 1T 0XCLAWp VIMON MID 69 VCC_B VCCS_LIM_CLAWP_00XCLAWn MID VIMON VEE_B 70 VCCS_LIM_CLAWN_0%R12 69 VCC_B R_NOISELESS 1K "R16 69 71 R_NOISELESS 1M %R13 VEE_B 70 R_NOISELESS 1K "R17 72 70 R_NOISELESS 1M C6 72 MID 1F C5 MID 71 1F $G2 VCC_CLP MID 71 MID -1M(R15 VCC_CLP MID R_NOISELESS 1K $G3 VEE_CLP MID 72 MID -1M(R14 MID VEE_CLP R_NOISELESS 1K V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)10E-3 | V(OLP,COM)>10E-3),1,0)}.ENDS*6.SUBCKT VCCS_EXT_LIM_0 VIN+ VIN- IOUT- IOUT+ VP+ VP-.PARAM GAIN = 1IG1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VIN+,VIN-),V(VP-,VIN-), V(VP+,VIN-))}.ENDS*IN+IN-VCCVEEOUT BC4T_05BC8D3020191203154514CP_CYL300_D700_L1400 (C) :0yE>@eAY@? B(<R4T_05BC884020191203154514R_AX600_W200 (R)v@@?Y@ BC3T_05BC835020191203154514CP_CYL300_D700_L1400 (C) :0yE>@eAY@? B`R3T_05BC7E6020191203154514R_AX600_W200 (R)|@@?Y@DB(8 V2T_05BC6F9020191203154514Battery_9V_V (V)@:Bg: U1T_05BC9C0020191203154954 TLV9062TLV9062SC:\Users\a0225818\AppData\Local\Temp\DesignSoft\{Tina9-TI-11062017-190831}\TLV9062SCK#TLV9062Label#PP(d*IN+  @d*IN-pJ@; @d*OUT,  @d*VCCptJEz,  @d*VEE8  @h 00g"- Courier New?g"+ Courier New ?g"+ Courier New? %@ %@* TLV9062 - Rev. C7* Created by Paul Goedeke, Ian Williams; July 27, 2018B* Created with Green-Williams-Lis Op Amp Macro-model Architecture2* Copyright 2018 by Texas Instruments Corporation7******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************D* OPEN-LOOP GAIN AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (Aol)* UNITY GAIN BANDWIDTH (GBW)9* INPUT COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR)4* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR)%* DIFFERENTIAL INPUT IMPEDANCE (Zid)$* COMMON-MODE INPUT IMPEDANCE (Zic)0* OPEN-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zo)+* OUTPUT CURRENT THROUGH THE SUPPLY (Iout)1* INPUT VOLTAGE NOISE DENSITY VS. FREQUENCY (en)1* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in)/* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vo)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* SLEW RATE (SR)-* SMALL SIGNAL OVERSHOOT VS. CAPACITIVE LOAD* LARGE SIGNAL RESPONSE* OVERLOAD RECOVERY TIME (tor)* INPUT BIAS CURRENT (Ib)* INPUT OFFSET CURRENT (Ios)* INPUT OFFSET VOLTAGE (Vos)(* INPUT COMMON-MODE VOLTAGE RANGE (Vcm)C* INPUT OFFSET VOLTAGE VS. INPUT COMMON-MODE VOLTAGE (Vos vs. Vcm))* INPUT/OUTPUT ESD CELLS (ESDin, ESDout)7******************************************************$.subckt TLV9062 IN+ IN- VCC VEE OUT7******************************************************* MODEL DEFINITIONS:9.model BB_SW VSWITCH(Ron=50 Roff=1e12 Von=700e-3 Voff=0):.model ESD_SW VSWITCH(Ron=50 Roff=1e12 Von=250e-3 Voff=0)?.model OL_SW VSWITCH(Ron=1e-3 Roff=1e9 Von=900e-3 Voff=800e-3)9.model OR_SW VSWITCH(Ron=10e-3 Roff=1e9 Von=1e-3 Voff=0)&.model R_NOISELESS RES(T_ABS=-273.15)7******************************************************I_OS ESDn MID 450FI_B 25 MID 500FV_GRp 60 MID 60V_GRn 61 MID -60V_ISCp 54 MID 54V_ISCn 55 MID -54V_ORn 34 VCLP -1.5V11 59 33 0V_ORp 32 VCLP 1.5V12 58 31 0V4 47 OUT 0VCM_MIN 82 VEE_B -100MVCM_MAX 83 VCC_B 100MI_Q VCC VEE 538UV_OS 26 37 282.259U,C30 21 MID 3.18000000000000E-0016 %R69 MID 21 R_NOISELESS 1MEG G7 21 MID 22 MID -1UC29 22 MID 1.56F %R80 MID 22 R_NOISELESS 1MEG G19 22 MID 23 MID -1U$R51 ESDp 24 R_NOISELESS 1M $XVOS_VCM 25 26 VCC VEE VOS_SRC_0+S5 VEE ESDp VEE ESDp S_VSWITCH_1+S4 VEE ESDn VEE ESDn S_VSWITCH_2+S2 ESDn VCC ESDn VCC S_VSWITCH_3+S3 ESDp VCC ESDp VCC S_VSWITCH_4C28 27 MID 1P #R72 28 27 R_NOISELESS 100 C27 29 MID 1P #R71 30 29 R_NOISELESS 100 "R75 MID 31 R_NOISELESS 1 G14 31 MID 32 MID -1"R74 33 MID R_NOISELESS 1 G13 33 MID 34 MID -1"R89 35 MID R_NOISELESS 1 )XVCCS_LIM_ZO 36 MID MID 35 VCCS_LIM_ZO_0Xi_nn ESDn MID FEMT_0Xi_np MID 37 FEMT_0Xe_n 24 37 VNSE_0C26 23 MID 3.18F %R79 MID 23 R_NOISELESS 1MEG #G18 23 MID VSENSE MID -1UC36 CLAMP MID 39.2N (R68 MID CLAMP R_NOISELESS 1MEG *XVCCS_LIM_2 38 MID MID CLAMP VCCS_LIM_2_0%R44 MID 38 R_NOISELESS 1MEG &XVCCS_LIM_1 39 40 MID 38 VCCS_LIM_1_0&R72_2 36 MID R_NOISELESS 1.11K C31 36 41 15.92F #R87 36 41 R_NOISELESS 10K "R86 41 MID R_NOISELESS 1 Gb1 41 MID 42 MID -1C22 43 MID 45F #R85 42 43 R_NOISELESS 10K #R84 42 44 R_NOISELESS 90K "R83 44 MID R_NOISELESS 1 G21 44 MID 45 MID -6.5C21 46 45 1.59U &R55 45 MID R_NOISELESS 1.82K #R54 45 46 R_NOISELESS 10K #Rdummy MID 47 R_NOISELESS 4K #Rx 47 35 R_NOISELESS 40K "Rdc2 46 MID R_NOISELESS 1 'G10 46 MID CL_CLAMP 47 -60.61'R46 MID 48 R_NOISELESS 3.572K C14 48 49 15.9P &R48 49 48 R_NOISELESS 100MEG &G6 49 MID VEE_B MID -99.34M"Rsrc1 MID 49 R_NOISELESS 1 'R49 MID 50 R_NOISELESS 3.572K C16 50 51 15.9P &R50 51 50 R_NOISELESS 100MEG &G9 51 MID VCC_B MID -99.34M"Rsrc2 MID 51 R_NOISELESS 1 #R81 MID 52 R_NOISELESS 6K C20 52 53 265.3F &R82 53 52 R_NOISELESS 100MEG $G20 53 MID ESDp MID -2.089"Rsrc3 MID 53 R_NOISELESS 1 .XIQPos VIMON MID MID VCC VCCS_LIMIT_IQ_0.XIQNeg MID VIMON VEE MID VCCS_LIMIT_IQ_0C_DIFF ESDp ESDn 2P 1XCL_AMP 54 55 VIMON MID 56 57 CLAMP_AMP_LO_0+S8 CLAMP 58 CLAMP 58 S_VSWITCH_5+S9 59 CLAMP 59 CLAMP S_VSWITCH_6.XGR_AMP 60 61 62 MID 63 64 CLAMP_AMP_HI_0#R39 60 MID R_NOISELESS 1T #R37 61 MID R_NOISELESS 1T &R42 VSENSE 62 R_NOISELESS 1M C19 62 MID 1F "R38 63 MID R_NOISELESS 1 "R36 MID 64 R_NOISELESS 1 "R40 63 65 R_NOISELESS 1M "R41 64 66 R_NOISELESS 1M C17 65 MID 1F C18 MID 66 1F *XGR_SRC 65 66 CLAMP MID VCCS_LIM_GR_0"R21 56 MID R_NOISELESS 1 "R20 MID 57 R_NOISELESS 1 "R29 56 67 R_NOISELESS 1M "R30 57 68 R_NOISELESS 1M C9 67 MID 1F C8 MID 68 1F ,XCL_SRC 67 68 CL_CLAMP MID VCCS_LIM_4_0#R22 54 MID R_NOISELESS 1T #R19 MID 55 R_NOISELESS 1T 0XCLAWp VIMON MID 69 VCC_B VCCS_LIM_CLAWP_00XCLAWn MID VIMON VEE_B 70 VCCS_LIM_CLAWN_0%R12 69 VCC_B R_NOISELESS 1K "R16 69 71 R_NOISELESS 1M %R13 VEE_B 70 R_NOISELESS 1K "R17 72 70 R_NOISELESS 1M C6 72 MID 1F C5 MID 71 1F $G2 VCC_CLP MID 71 MID -1M(R15 VCC_CLP MID R_NOISELESS 1K $G3 VEE_CLP MID 72 MID -1M(R14 MID VEE_CLP R_NOISELESS 1K V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)10E-3 | V(OLP,COM)>10E-3),1,0)}.ENDS*6.SUBCKT VCCS_EXT_LIM_0 VIN+ VIN- IOUT- IOUT+ VP+ VP-.PARAM GAIN = 1IG1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VIN+,VIN-),V(VP-,VIN-), V(VP+,VIN-))}.ENDS*IN+IN-VCCVEEOUTBx( ViT_04ACAC6020191203155220 Sgen (VG)@j@VBmV+T_05BC345020191203154416 NOPCB (J)BmV+T_05BC2F6020191203154416 NOPCB (J)Bmx V+T_2F65357020191203161152 NOPCB (J)BfT_05BC2A7020191203154416 NOPCB (GND)BfHT_05BC258020191203154416 NOPCB (GND)Bfp8T_05BC209020191203154416 NOPCB (GND)Bf`T_05BC16B020191203154514 NOPCB (GND)Bf(`T_05BC11C020191203154514 NOPCB (GND)BfxhT_04ACB64020191203155220 NOPCB (GND)8?)-_@EMbP??ư>'dd?Y@[ddddY@?.Aj@.AeAMbP?@@?,C6?a2U0*#?ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#i;@& .>-q=ư>MbP?-q=MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F@?+= _BKH9$@Y@& .>ư>?.AMbP??????I@Default analysis parameters. These parameters establish convergence and sufficient accuracy for most circuits. In case of convergence or accuracy problems click on the "hand " button to Open other parameter sets.?Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname