OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.200.277 SF-TIB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved. $Circuit$?[Vout] miny1=-2.5 maxy1=2.5 divsy1=1 scaley1=0miny2=4.3450075601E-5maxy2=1.976988853 divsy2=2 scaley2=0miny4=4.3450075601E-5maxy4=1.976988853 divsy4=2 scaley4=0minx1=0 maxx1=0.067 divsx1=2 scalex1=0 miny12=0maxy12=3.2783757459E-14 divsy12=2 scaley12=0 minx2=1000maxx2=100000000 divsx2=5 scalex2=2 minx4=1000maxx4=100000000 divsx4=5 scalex4=2 minx7=0.001maxx7=100000000 divsx7=2 scalex7=2miny7=0 maxy7=180 divsy7=4 scaley7=0[All] minx7=0.001maxx7=10000000 divsx7=10 scalex7=2 minx2=0.001maxx2=100000000 divsx2=11 scalex2=2 minx4=0.001maxx4=100000000 divsx4=11 scalex4=2 miny2=-20maxy2=46.193250532 divsy2=2 scaley2=1 miny4=-20maxy4=46.193250532 divsy4=2 scaley4=1 minx1=0.001maxx1=100000000 divsx1=2 scalex1=2miny7=0 maxy7=180 divsy7=4 scaley7=0 miny1=-0.08 maxy1=0.08 divsy1=2 scaley1=0 [Imported] minx1=1038.9maxx1=9280000 divsx1=2 scalex1=2 miny1=30 maxy1=110 divsy1=4 scaley1=0[Vos]miny1=-10000000maxy1=10000000 divsy1=2 scaley1=0 [Aol_fp2] minx7=0.001maxx7=10000000 divsx7=10 scalex7=2[VG1] miny1=0.25 maxy1=0.26 divsy1=1 scaley1=0[Vo]miny1=0 maxy1=3.2 divsy1=4 scaley1=0 miny2=-20maxy2=0 divsy2=4 scaley2=1 miny4=-20maxy4=0 divsy4=4 scaley4=1minx2=1maxx2=1000000 divsx2=6 scalex2=2minx4=1maxx4=1000000 divsx4=6 scalex4=2minx1=0 maxx1=1E-7 divsx1=4 scalex1=0 miny7=30 maxy7=180 divsy7=2 scaley7=0 [Inoise] miny14=0 maxy14=1E-8 divsy14=2 scaley14=0 miny12=1E-13 maxy12=5E-13 divsy12=4 scaley12=0[Aol] miny2=-120 maxy2=100 divsy2=11 scaley2=1 miny4=-120 maxy4=100 divsy4=11 scaley4=1 minx2=0.001maxx2=100000000 divsx2=11 scalex2=2 minx4=0.001maxx4=100000000 divsx4=11 scalex4=2 minx7=10 maxx7=10000 divsx7=3 scalex7=2[Vin] miny1=-0.5 maxy1=0.5 divsy1=1 scaley1=0[Zo]miny2=828.731754211maxy2=828.731754212 divsy2=2 scaley2=2miny4=828.731754211maxy4=828.731754212 divsy4=2 scaley4=2 minx2=0.001maxx2=100000000000 divsx2=7 scalex2=2 minx4=0.001maxx4=100000000000 divsx4=7 scalex4=2[CMRR]miny2=0 maxy2=150 divsy2=3 scaley2=1miny4=0 maxy4=150 divsy4=3 scaley4=1 minx2=0.001maxx2=100000000 divsx2=11 scalex2=2 minx4=0.001maxx4=100000000 divsx4=11 scalex4=2[PSRRp]miny2=0 maxy2=130 divsy2=2 scaley2=1miny4=0 maxy4=130 divsy4=2 scaley4=1 minx2=0.001maxx2=100000000 divsx2=11 scalex2=2 minx4=0.001maxx4=100000000 divsx4=11 scalex4=2[PSRRn]miny2=0 maxy2=120 divsy2=6 scaley2=1miny4=0 maxy4=120 divsy4=6 scaley4=1 minx2=0.01maxx2=100000000 divsx2=10 scalex2=2 minx4=0.01maxx4=100000000 divsx4=10 scalex4=2[ADM] minx2=0.01maxx2=100000000 divsx2=10 scalex2=2 minx4=0.01maxx4=100000000 divsx4=10 scalex4=2 miny2=-100 maxy2=100 divsy2=10 scaley2=1 miny4=-100 maxy4=100 divsy4=10 scaley4=1[Vi] miny1=-4.5 maxy1=4.5 divsy1=2 scaley1=0 [Vnoise]miny12=3.5E-8maxy12=2.5E-7 divsy12=2 scaley12=0 minx12=1maxx12=10000000 divsx12=7 scalex12=2 [Zo_Fwd] miny2=-200 maxy2=200 divsy2=4 scaley2=1 miny4=-200 maxy4=200 divsy4=4 scaley4=19!??ƚ:p#Nl >:p# EMF9 8( @RpMS Sans Serif"R"$"$"L"cc "JL "`"c9 L w"c4"4"-" I4"-- ?h"  s H"dv%  '%   TT UA_BA LPT % RpArial 4"wv  D".@ "]@ L"^@X"@"@Time (#s)40100000000000000000@dv@dvdv%  % RpArialwQQ d3y@'0274083793396642016pv"wQ\FwQ Q0100000000000000000dv=?kdv%  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   + I% %   + I% FF&%  6F``6`oo6ozz6z66666666666666666  6 6&&6&//6/5565;;6;@@6@EE6EII6III6Icc6crr6r||6|666666666666666% FF&%  6F6% FF%  6% FF%  6FF6% FF&%  6% %  &%    T/_>UA_BA/LhFrequency (Hz) `/% %    TX?M+UA_BA?LP1kN% ( FF%  6F``6`oo6ozz6z66666% &%    T`+UA_BALT10k% ( %  666666666% &%    Td+UA_BALT100k% ( %  6  6 6&&6&//6/5565;;6;@@6@EE6E% &%    TdBe+UA_BABLT1MEG f% ( II%  6Icc6crr6r||6|66666% &%    Tl+UA_BALX10MEG % ( %  666666666% &%    Tp+UA_BALX100MEG  % ( %  6% FF6F% %  &%    % Rp Arial"t  vܪ^<"y v!6g^<"y v!6"y v!6H" v!" G v G=p6<@"8ov "\"Uv!6 "NAI,"'C!6 "B'C"#/@"2]@7EMdv%  TsUA_BA L`Gain (dB)  :% ( %  % %    Tp:UA_BALX-60.83;% ( ==%  6FDD6FDD6FDD6FDD6FBB6FDD6FDD6FDD6FDD6F% &%    Tp:UA_BALX-20.41;% ( ==%  6FDD6FDxDx6FxDkDk6FkD^D^6F^BRBR6FRDEDE6FED8D86F8D+D+6F+DD6F% &%    Tl :UA_BA LX20.00; % ( ==%  6F% % FF&%  6JJ6OO6SS6WW6\\6``6dd6hh6mm6qq6uu6zz6~~666666666666666666666666666666666  66666""6&&6**6//6336776<<6@@6DD6II6MM6QQ6VV6Z!Z!6^#^#6b%b%6g(g(6k+k+6o-o-6t0t06x4x46|7|76::6>>6BB6FF6JJ6NN6SS6XX6]]6cc6ii6oo6uu6||66666666666666%  % % % ?>G? ?ƚ:!+Ll.:! EMF>I 8( @RpMS Sans Serif"R"$"$"L"cc "JL "`"c9 L w"c4"4"-" I4"-- ?h"  s H"dv%  '%   TT UA_BA LPT % RpArialxv"X"`>lSegoe UISei""p+tL" I"p+tp+txvI;PTX"p""wv""i~^I"dv%  % RpArial@`w9Q0200099871951397760pvP"`9[ G0100000000000000000qe*,@#dv%  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   + 9% %   + 9% XX&%  6Xdd6dkk6kmm6m66666666666666  6   6 6))6)00602262EE6EQQ6QXX6XZZ6Zmm6myy6y6666666666666% EE&%  6E6% EE%  6% EE%  6EE6% EE&%  6% %  &%    T  [.UA_BA  LhFrequency (Hz) \ % %    TX>OUA_BA>LP1m P% ( EE%  6E XX6Xdd6dkk6k% &%    T`f~UA_BAfLT10m % ( mm%  6m 666% &%    TdUA_BALT100m % ( %  6 666% &%    TTUA_BALP1% ( %  6 666% &%    TXUA_BALP10% ( %  6 66  6 % &%    T`UA_BALT100% (   %  6  6))6)0060% &%    TX+9UA_BA+LP1k9% ( 22%  62 EE6EQQ6QXX6X% &%    T`ShUA_BASLT10kh% ( ZZ%  6Z mm6myy6y6% &%    TdzUA_BAzLT100k% ( %  6 666% &%    TdUA_BALT1MEG  % ( %  6 666% &%    TlUA_BALX10MEG  % ( %  6 666% &%    TpUA_BALX100MEG   % ( %  6 % EE6E% %  &%    % Rp Arial" vhd; ^<"y v !g^<"y v !"y v !H" v" G v G=@ <@"8ov "\"Uv !g; "NAI,"'C!g; "Bg; `'C"#/@"2]@4EMdv%  TmUA_BA L`Gain (dB) 7% ( %  % %    Tp: UA_BALX-43.72;% ( ==%  6EDD6EDD6EDD6EDD6EBB6EDD6EDD6EDD6EDD6E% &%    Tl:UA_BALX48.14;% ( ==%  6ED~D~6E~DrDr6ErDeDe6EeDYDY6EYBMBM6EMDADA6EAD5D56E5D(D(6E(DD6E% &%    Tp:UA_BALX140.00;% ( ==%  6E% % EE&%  6II6NN6RR6VV6[[6__6cc6hh6ll6pp6uu6yy6~~66666666666666666666  6##6&&6((6++6..6116446776::6==6@@6 C C6 F F6II6KK6NN6QQ6#T#T6'W'W6,Z,Z60]0]64`4`69c9c6=f=f6AiAi6FlFl6JoJo6NqNq6StSt6WwWw6[z[z6`}`}6dd6hh6mm6qq6vv6zz6~~6666666666666666666666666666%  % % % OO3@?U`~R?ƚF3"l F3 EMFO 8( @RpMS Sans Serif"R"$"$"L"cc "JL "`"c9 L w"c4"4"-" I4"-- ?h"  s H"dv%  '%   TT UA_BA LPT % RpArial=FQ@" 0100000000000000000X ""gyvdv%  % RpArialwQQ0100000000000000000v"H"wQFwQ Q3wQ Q3dv%  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   +% %   +% bb&%  6b% XX&%  6Xll6lXX6lXX6l% bb%  6b% XX%  6Xll6lXX6lXX6l% XX&%  6l% %  &%    T|XUA_BAXL\Time (s)  % %    TdOmUA_BAOLT0.00  n% XX%  6Xss6s666666--6-GG6G% %    TlYUA_BAYLX1.00m  % bb%  6b}}6}6666667767QQ6Q% %    TlcUA_BAcLX2.00m  % ll%  6l% XX6X% %  %    T`bsUA_BAbLTVin b% %    Tl$GUA_BA$LX-1.00  H% KK%  6XVV6XVV6XVV6XVV6XRqRq6XqV^V^6X^VLVL6XLV9V96X9V'V'6X'% %    Td) GUA_BA) LT1.00  H % KK%  6X% XX6X% %  & %    Td0#AUA_BA0LTVout $0% % ( %  %    Tl$GUA_BA$LX-1.01  H% KK%  6XVV6XVwVw6XwVdVd6XdVRVR6XRR?R?6X?V,V,6X,VV6XVV6XVV6X% %    Td)GUA_BA)LT1.01  H% KK%  6X% % XqXq& %  6XX666bb6bqbq6bb666ll6lq% X?X?& %  6X>X>6X=X=6X>X>6X@X@6XAXA6XCXC6XEXE6XIXI6XOXO6XZXZ6XhXh6X{X{6XX6XX6XX6XX6XX6XX6YY6ZZ6[[6__6dd6ii6oo6tt6yy6~~6666666666666666666666666yy6oo6ZZ6JJ6006666666666666666666  6666  6&&6++6006666;;6@@6FF6KK6PP6VV6[[6``6bb6bb6bb6bb6bb6bb6bb6bb6bb6b$b$6b4b46bObO6bkbk6bb6bb6bb6bb6bb6bb6bb6cc6ee6gg6kk6qq6vv6{{6666666666666666666666666666yy6oo6YY6II6..666666666666666666  6666##6((6--6336886==6CC6HH6MM6RR6XX6]]6bb6hh6l% % %  % %  % %  % Rp SymbolC`p"z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  & %  %   +[\% % ( % %  % %  % Rp SymbolC`p"z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z 8"CjsIlv !k"C~CC8"Cjs"CCCBHs8""C,C4Cjsjs"CSymboldv%  % ( %  %  %   +[\% %   % ae%  6e% %   Tx\mUA_BA\L\ Vin '' \% Rp SymbolC`z k !k3z z "CjsIlv !k"C~CC"Cjs"CCCBHs""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z "CjsIlv !k"C~CC"Cjs"CCCBHs""C,C4Cjsjs"CSymboldv%  % ( %  % a{%  6{% %   T|rUA_BArL\ Vout  r% Rp SymbolC`z k !k3z z "CjsIlv !k"C~CC"Cjs"CCCBHs""C,C4Cjsjs"CSymboldv%  % ( %  % Rp SymbolC`z k !k3z z "CjsIlv !k"C~CC"Cjs"CCCBHs""C,C4Cjsjs"CSymboldv%  % ( %  % % % oRI4]?E_J?ƚF3"l F3 EMF8R 8( @RpMS Sans Serif"R"$"$"L"cc "JL "`"c9 L w"c4"4"-" I4"-- ?h"  s H"dv%  '%   TT UA_BA LPT % RpArial=FQ@" 0100000000000000000X ""gyvdv%  % RpArialwQQ0100000000000000000v"H"wQFwQ Q3wQ Q3dv%  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   +% %   +% bb&%  6b% YY&%  6Yll6lYY6lYY6l% bb%  6b% YY%  6Yll6lYY6lYY6l% YY&%  6l% %  &%    T|YUA_BAYL\Time (s)  % %    TdPnUA_BAPLT0.00  o% YY%  6Ytt6t666666--6-HH6H% %    TlZUA_BAZLX1.00m  % bb%  6b}}6}6666667767QQ6Q% %    TlcUA_BAcLX2.00m  % ll%  6l% YY6Y% %  %    T`bsUA_BAbLTVin b% %    TlHUA_BALX-500m I% LL%  6YVV6YVV6YVV6YVV6YSqSq6YqV^V^6Y^VLVL6YLV9V96Y9V'V'6Y'% %    Td HUA_BA LT500m I % LL%  6Y% YY6Y% %  & %    Td0#AUA_BA0LTVout $0% % ( %  %    Tl%HUA_BA%LX-2.50  I% LL%  6YVV6YVwVw6YwVdVd6YdVRVR6YRS?S?6Y?V,V,6Y,VV6YVV6YVV6Y% %    Td*HUA_BA*LT2.50  I% LL%  6Y% % YqYq& %  6]g]g6b^b^6fTfT6kKkK6oBoB6t:t:6x3x36|,|,6&&6  6666666666  6&&6,,6336::6CC6KK6TT6^^6gg6qq6{{666666666  66666  6%%6))6--6226666;;6??6DD6HH6LL6QQ6UU6ZZ6^{^{6cqcq6gggg6k^k^6pTpT6tKtK6yCyC6}:}:6336,,6&&6  6666666666  6&&6,,6336::6BB6KK6TT6^^6gg6qq6{{6666666  66666!!6%%6**6..6226776;;6@@6DD6II6MM6QQ6VV6ZZ6__6cc6h{h{6lq% Y?Y?& %  6^K^K6aQaQ6eYeY6iaia6nlnl6tvtv6yy6~~6666666666666vv6ll6aa6VV6JJ6CC6776,,6!!66  6666  6666!!6&&6,,6116666;;6AA6FF6KK6QQ6V$V$6[/[/6a;a;6fGfG6kRkR6q]q]6vhvh6{r{r6||66666666666666yy6oo6ee6ZZ6OO6CC6776,,6!!66  66  6666  6%%6**6006556::6@@6EE6JJ6PP6UU6ZZ6`$`$6e/e/6j;j;6l?% % %  % %  % %  % Rp SymbolC`p"z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  & %  %   +]% % ( % %  % %  % Rp SymbolC`p"z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z 8"CxsIlv!"C~CC8"Cxs"CCCBo8""C,C4Cxsxs"CSymboldv%  % ( %  %  %   +]% %   % c%  6% %   TxUA_BAL\ Vin  % Rp SymbolC`z ! z z "CxsIlv!"C~CC"Cxs"CCCBo""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z "CxsIlv!"C~CC"Cxs"CCCBo""C,C4Cxsxs"CSymboldv%  % ( %  % c%  6% %   T|UA_BAL\ Vout  % Rp SymbolC`z ! z z "CxsIlv!"C~CC"Cxs"CCCBo""C,C4Cxsxs"CSymboldv%  % ( %  % Rp SymbolC`z ! z z "CxsIlv!"C~CC"Cxs"CCCBo""C,C4Cxsxs"CSymboldv%  % ( %  % % % VER=1.0Font0=Verdana,14Font1=Verdana,14,BRect0=2,0,0,85,22Rect1=1,0,0,85,10Rect2=1,0,10,10,17Rect3=1,10,10,75,17Rect4=1,75,10,85,17Rect5=1,0,17,50,22Rect6=1,50,17,85,22Text0=0,2,2,TitleText1=0,2,11,SizeText2=0,2,18,DateText3=0,12,11,Document No.Text4=0,77,11,RevText5=0,52,18,SheetText6=0,70,18,ofField0=1,T,11,2,80Field1=1,T,11,5,80Field2=1,S,4,13,5Field3=1,T,14,13,40Field4=1,R,78,13,6Field5=1,D,12,18,30Field6=1,P,64,18,3Field7=1,A,77,18,3$F0=TLV6742 TINA-TI Reference Design!F3=Datasheet: SBOS817F EVM: n/aF4=AF5=Jan 8, 2020F6=1F7=17F1=based on Green-Williams-Lis PSpice simulation modelV[@[ Arial SIMULATION EXAMPLES:ACircuit configurations altered as needed for the particular testEVs = 2.75V, Vcm = Vout = Vs/2, RL = 2k, CL = 10pF connected to Vs/2Symbol????333333?? F@F Arial+TLV9002 TINA-TI Reference Design based on *Green-William-Lis Pspice simulation modelSymbol????333333??O9r@9r Arial* TLV9002 - Rev. B(* Created by Paul Goedeke; May 01, 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)Symbol????333333??@ ArialGain = 10V/V or 20dBSymbol????333333??U@U ArialAolSymbol????333333??@ Arial$Transient Response G = -1V/V or 0dBSymbol????333333??"@" ArialTransient Response G = -5V/VSymbol????333333??;T_08040A6020180221130234;88T_08040E2020180221130234;T_080411E020180221130234?P@`HP@`@`HT_080415A020180221130234?(@ h(@ @ hT_0804196020180221130234;    T_08041D2020180221130234;    T_080420E020180221130234;`X`XT_080424A020180221130234?``T_0804286020180221130234;T_08042C2020180221130234?00T_08042FE020180221130234;T_080433A020180221130234?T_0804376020180221130234;T_08043B2020180221130234;HHT_08043EE020180221130234?HXHXXT_080442A020180221130234?HhXpHhXhXpT_0804466020180221130234; h  h T_08044A2020180221130234;    T_08044DE020180221130234;T_080451A020180221130234DB  VccT_079BBCC020180215122906 JP100 (V)@DBP@VeeT_079BB6E020180215122906 JP100 (V)@ B8RFT_079BB10020180215122906R_AX600_W200 (R)@@?fffffqY@B0 VinT_079BAB2020180215122906 JP100 (VG)?@@V BRIT_079BA54020180215122906R_AX600_W200 (R)@@@?fffffqY@BqVosT_079B9F6020180215122906 NOPCB (VF) BC1T_079BCE6020180215123050CP_CYL300_D700_L1400 (C) dy=@eAY@? B C2T_0F056F0020180215123248CP_CYL300_D700_L1400 (C) Iz>@eAY@? B hC3T_0F05692020180215123248CP_CYL300_D700_L1400 (C) Iz>@eAY@?BrVoutT_0F057AC020180215123307 NOPCB (VF):B6(U1T_0F42508020200108175556 TLV6742TLV6742SC:\Users\a0227579\AppData\Local\Temp\DesignSoft\{Tina9-TI-09052019-154922}\TLV6742SCK#TLV6742Label#PP(d*IN+  @d*IN-pJ@; @d*OUT,  @d*VCCptJEz,  @d*VEE8  @h 00g"- Courier New?g"+ Courier New ?g"+ Courier New?g@g@* TLV6742 - Rev. A)* Created by Bala Ravi; January 08, 2020B* Created with Green-Williams-Lis Op Amp Macro-model Architecture2* Copyright 2020 by Texas Instruments Corporation7******************************************************$* 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 TLV6742 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 2.5PI_B 21 MID 3PV_GRp 50 MID 20V_GRn 51 MID -20V_ISCp 44 MID 68V_ISCn 45 MID -68V_ORn 29 VCLP -900MV11 49 28 0V_ORp 27 VCLP 900MV12 48 26 0V4 37 OUT 0VCM_MIN 72 VEE_B 0VCM_MAX 73 VCC_B -1.2I_Q VCC VEE 990UV_OS 80 21 146.46U-SW11 ESDp ESDn ESDp ESDn S_VSWITCH_1-SW10 ESDn ESDp ESDn ESDp S_VSWITCH_2+S5 VEE ESDp VEE ESDp S_VSWITCH_3+S4 VEE ESDn VEE ESDn S_VSWITCH_4+S2 ESDn VCC ESDn VCC S_VSWITCH_5+S3 ESDp VCC ESDp VCC S_VSWITCH_6C28 22 MID 1P #R77 23 22 R_NOISELESS 100 C27 24 MID 1P #R76 25 24 R_NOISELESS 100 "R75 MID 26 R_NOISELESS 1 GVCCS8 26 MID 27 MID -1"R74 28 MID R_NOISELESS 1 GVCCS7 28 MID 29 MID -1"R73 30 MID R_NOISELESS 1 )XVCCS_LIM_ZO 31 MID MID 30 VCCS_LIM_ZO_0Xi_nn ESDn MID FEMT_0Xi_np MID 21 FEMT_0Xe_n ESDp 21 VNSE_0C25 32 MID 7.96F %R69 MID 32 R_NOISELESS 1MEG #GVCCS6 32 MID VSENSE MID -1UC20 CLAMP MID 144.7N (R68 MID CLAMP R_NOISELESS 1MEG *XVCCS_LIM_2 33 MID MID CLAMP VCCS_LIM_2_0%R44 MID 33 R_NOISELESS 1MEG &XVCCS_LIM_1 34 35 MID 33 VCCS_LIM_1_0C21 36 31 636.6F $R51 31 MID R_NOISELESS 2.5 #R50 31 36 R_NOISELESS 10K &Rdummy MID 37 R_NOISELESS 1.65K %Rx 37 30 R_NOISELESS 16.5K "Rdc 36 MID R_NOISELESS 1 $G_Aol_Zo 36 MID CL_CLAMP 37 -90&R61 MID 38 R_NOISELESS 812.5 C16 38 39 24.49P &R58 39 38 R_NOISELESS 100MEG &GVCCS2 39 MID VEE_B MID -87.13M"R57 MID 39 R_NOISELESS 1 &R56 MID 40 R_NOISELESS 1.14K C15 40 41 19.89P &R55 41 40 R_NOISELESS 100MEG &GVCCS1 41 MID VCC_B MID -61.95M"R54 MID 41 R_NOISELESS 1 &R49 MID 42 R_NOISELESS 8.33K C14 42 43 3.18P &R48 43 42 R_NOISELESS 100MEG %G_adjust 43 MID ESDp MID -37.95M"Rsrc MID 43 R_NOISELESS 1 .XIQPos VIMON MID MID VCC VCCS_LIMIT_IQ_0.XIQNeg MID VIMON VEE MID VCCS_LIMIT_IQ_0C_DIFF ESDp ESDn 6P 1XCL_AMP 44 45 VIMON MID 46 47 CLAMP_AMP_LO_0+SOR_SWp CLAMP 48 CLAMP 48 S_VSWITCH_7+SOR_SWn 49 CLAMP 49 CLAMP S_VSWITCH_8.XGR_AMP 50 51 52 MID 53 54 CLAMP_AMP_HI_0#R39 50 MID R_NOISELESS 1T #R37 51 MID R_NOISELESS 1T &R42 VSENSE 52 R_NOISELESS 1M C19 52 MID 1F "R38 53 MID R_NOISELESS 1 "R36 MID 54 R_NOISELESS 1 "R40 53 55 R_NOISELESS 1M "R41 54 56 R_NOISELESS 1M C17 55 MID 1F C18 MID 56 1F *XGR_SRC 55 56 CLAMP MID VCCS_LIM_GR_0"R21 46 MID R_NOISELESS 1 "R20 MID 47 R_NOISELESS 1 "R29 46 57 R_NOISELESS 1M "R30 47 58 R_NOISELESS 1M C9 57 MID 1F C8 MID 58 1F ,XCL_SRC 57 58 CL_CLAMP MID VCCS_LIM_4_0#R22 44 MID R_NOISELESS 1T #R19 MID 45 R_NOISELESS 1T 0XCLAWp VIMON MID 59 VCC_B VCCS_LIM_CLAW+_00XCLAWn MID VIMON VEE_B 60 VCCS_LIM_CLAW-_0%R12 59 VCC_B R_NOISELESS 1K "R16 59 61 R_NOISELESS 1M %R13 VEE_B 60 R_NOISELESS 1K "R17 62 60 R_NOISELESS 1M C6 62 MID 1F C5 MID 61 1F $G2 VCC_CLP MID 61 MID -1M(R15 VCC_CLP MID R_NOISELESS 1K $G3 VEE_CLP MID 62 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-VCCVEEOUTBf T_079B998020180215122906 NOPCB (GND)Bf`HT_079B93A020180215122906 NOPCB (GND)Bf`T_079B8DC020180215122906 NOPCB (GND)BfT_079BC88020180215122906 NOPCB (GND)BfT_07C6D48020180215123058 NOPCB (GND)BfXT_0F05634020180215123248 NOPCB (GND)BfXpT_0F0580A020180215123328 NOPCB (GND)8? ]@"MbP??ư>'dd?Y@[dddd@@?.AחA.AeAMbP?@@?Mb`?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