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.9 $Circuit$?[All] minx1=-5maxx1=5 divsx1=10 scalex1=0miny2=5 maxy2=35 divsy2=6 scaley2=1miny4=5 maxy4=35 divsy4=6 scaley4=1 minx2=10000maxx2=1000000 divsx2=2 scalex2=2 minx4=10000maxx4=1000000 divsx4=2 scalex4=2miny1=0maxy1=5 divsy1=5 scaley1=0 minx14=1maxx14=9999999.99999999 divsx14=7 scalex14=2 miny14=0 maxy14=0.003 divsy14=3 scaley14=0 miny12=1E-8 maxy12=1E-7 divsy12=1 scaley12=2 [OUT_A1]minx1=0maxx1=0.00015 divsx1=3 scalex1=0 miny1=2.4 maxy1=2.6 divsy1=4 scaley1=0[Vcm]miny1=0 maxy1=80 divsy1=1 scaley1=0[Zout]miny2=1 maxy2=1000 divsy2=3 scaley2=2miny4=1 maxy4=1000 divsy4=3 scaley4=2 minx7=0.001maxx7=1000000 divsx7=2 scalex7=2 minx2=10maxx2=10000000 divsx2=2 scalex2=2 minx4=10maxx4=10000000 divsx4=2 scalex4=2[CMRR]miny2=0 maxy2=100 divsy2=5 scaley2=1miny4=0 maxy4=100 divsy4=5 scaley4=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx4=10maxx4=1000000 divsx4=5 scalex4=2[Vout] miny12=1E-8 maxy12=1E-7 divsy12=1 scaley12=0minx1=0 maxx1=0.1 divsx1=4 scalex1=0 miny1=0.15 maxy1=0.45 divsy1=3 scaley1=0 minx12=10maxx12=100000 divsx12=4 scalex12=2 minx2=100maxx2=10000000 divsx2=5 scalex2=2 minx4=100maxx4=10000000 divsx4=5 scalex4=2miny2=2.9253496922E-5maxy2=199.255266675 divsy2=1 scaley2=2miny4=2.9253496922E-5maxy4=199.255266675 divsy4=1 scaley4=2[PSRR]miny2=0 maxy2=120 divsy2=6 scaley2=1miny4=0 maxy4=120 divsy4=6 scaley4=1minx2=1maxx2=1000000 divsx2=6 scalex2=2minx4=1maxx4=1000000 divsx4=6 scalex4=2[Vos]miny1=0.00025maxy1=0.00075 divsy1=2 scaley1=0 minx1=-40 maxx1=125 divsx1=6 scalex1=0[VG1] miny1=0.025 maxy1=0.225 divsy1=1 scaley1=0[Vin] miny1=0.01 maxy1=0.02 divsy1=1 scaley1=0[RVRR]minx1=0 maxx1=1.8 divsx1=2 scalex1=0miny1=-4.839182692E-6maxy1=-8.34617926111E-7 divsy1=2 scaley1=0miny2=-113.640471976maxy2=-27.625512374 divsy2=2 scaley2=1miny4=-113.640471976maxy4=-27.625512374 divsy4=2 scaley4=1 [RVRR_A1]miny1=-4.838987819E-6maxy1=-8.34430840642E-7 divsy1=2 scaley1=0minx1=0 maxx1=1.8 divsx1=2 scalex1=0miny2=-113.640471976maxy2=-27.626906918 divsy2=2 scaley2=1miny4=-113.640471976maxy4=-27.626906918 divsy4=2 scaley4=1[Zo]miny2=0.244494646784maxy2=96.328732646 divsy2=2 scaley2=2miny4=0.244494646784maxy4=96.328732646 divsy4=2 scaley4=2 [Vlimit] miny1=0.035 maxy1=0.14 divsy1=1 scaley1=0[IG1] miny1=-2maxy1=2 divsy1=1 scaley1=0 [Vsense]miny1=0.025000134982maxy1=0.225000134815 divsy1=1 scaley1=0 [I_LOAD] miny1=-3maxy1=3 divsy1=1 scaley1=0[VIN_2] miny1=-0.1 maxy1=0.1 divsy1=1 scaley1=0[VIN_1] miny1=-0.1 maxy1=0.1 divsy1=1 scaley1=0[OUT_1] miny1=0.5 maxy1=4.5 divsy1=1 scaley1=0[Error]miny1=5 maxy1=20 divsy1=3 scaley1=0minx1=0 maxx1=1.2 divsx1=6 scalex1=0[ALERT]miny1=0.000499950005maxy1=4.95049505 divsy1=1 scaley1=0[OUTf]miny1=0.007982815746maxy1=2.069737561 divsy1=1 scaley1=0 [VIN_DIFF]miny1=-5.5580604938E-8maxy1=0.039999943975 divsy1=1 scaley1=0 [Vout_diff] miny1=-1.2 maxy1=1.2 divsy1=1 scaley1=0 [ErrINA293]miny1=0.550878807037maxy1=0.822485867074 divsy1=1 scaley1=0 [INA293]miny1=0.201644971734maxy1=2.011017576 divsy1=1 scaley1=0[INA293_ideal] miny1=0.2maxy1=2 divsy1=1 scaley1=0[ErrTMCS1100]miny1=0.146267632731maxy1=0.354260976206 divsy1=1 scaley1=0 [TMCS1100]miny1=0.451594174393maxy1=2.253291022 divsy1=1 scaley1=0[TMCS1100_ideal] miny1=0.45 maxy1=2.25 divsy1=1 scaley1=0 [ErrAMC1301]miny1=-0.240828239113maxy1=0.362651089384 divsy1=1 scaley1=0[AMC1301_ideal] miny1=0.082 maxy1=0.82 divsy1=1 scaley1=0 [AMC1301]miny1=0.081802520844maxy1=0.822973738933 divsy1=1 scaley1=0 [ErrINA597]miny1=2.122187046maxy1=13.565573407 divsy1=1 scaley1=0 [INA597]miny1=0.563495547865maxy1=4.596706479 divsy1=1 scaley1=0[INA597_ideal]miny1=0.475244430451maxy1=4.466742213 divsy1=1 scaley1=0 [ErrOPA388]miny1=3.214082052maxy1=3.219121601 divsy1=1 scaley1=0 [OPA388]miny1=0.412876486406maxy1=4.128563282 divsy1=1 scaley1=0[OPA388_ideal] miny1=0.4maxy1=4 divsy1=1 scaley1=0 [ErrTLV9061]miny1=4.926658794maxy1=5.040779212 divsy1=1 scaley1=0 [TLV9061]miny1=0.419706635177maxy1=4.201631168 divsy1=1 scaley1=0[TLV9061_ideal] miny1=0.4maxy1=4 divsy1=1 scaley1=0[VF2]miny1=0maxy1=5 divsy1=2 scaley1=0[VErr]miny1=0 maxy1=0.3 divsy1=3 scaley1=0minx1=0 maxx1=1.2 divsx1=6 scalex1=0[Err]miny1=1.487690769maxy1=9.756534432 divsy1=1 scaley1=0 [INA293_err]miny1=0.550878807037maxy1=0.822485867074 divsy1=1 scaley1=0 [INA293_sim]miny1=0.201644971734maxy1=2.011017576 divsy1=1 scaley1=0[AMC1301_err]miny1=-0.240828239149maxy1=0.362651089396 divsy1=1 scaley1=0[AMC1301_sim]miny1=0.081802520844maxy1=0.822973738933 divsy1=1 scaley1=0 [INA597_err]miny1=1.709846515maxy1=11.844483753 divsy1=1 scaley1=0 [INA597_sim]miny1=0.531534679802maxy1=4.543116649 divsy1=1 scaley1=0[TMCS1100_err]miny1=0.438098035658maxy1=1.813412991 divsy1=1 scaley1=0[TMCS1100_sim]miny1=0.458160358459maxy1=2.259857206 divsy1=1 scaley1=0 [COMP_OUT]miny1=0maxy1=5 divsy1=1 scaley1=0[CMR]minx2=1maxx2=1000000 divsx2=2 scalex2=2minx4=1maxx4=1000000 divsx4=2 scalex4=2[VF1] miny2=0.1 maxy2=1000 divsy2=2 scaley2=2 miny4=0.1 maxy4=1000 divsy4=2 scaley4=2 minx2=10maxx2=10000000 divsx2=2 scalex2=2 minx4=10maxx4=10000000 divsx4=2 scalex4=2 [Isense] miny1=2.5 maxy1=22.5 divsy1=1 scaley1=0[Claw+]miny1=0 maxy1=12 divsy1=4 scaley1=0minx1=0 maxx1=0.025 divsx1=5 scalex1=0[OUT] minx7=100maxx7=10000000 divsx7=5 scalex7=2 miny2=-120 maxy2=40 divsy2=4 scaley2=1 miny4=-120 maxy4=40 divsy4=4 scaley4=1 miny7=-540maxy7=0 divsy7=6 scaley7=0k`??ƚ`@(?lB`@( EMF4 8UP RpMS Sans Serif""","r~r"JL "@"~r9 L w"~r""(" I"(( @H"  t ("dv%  '%   TT AA LPT % RpArial"n"p XR=pK0?}w8 8K=`8K8KXR?jw`@Yjw=XRnnp=HI=ntp=Fwp\=8Kf\=D`@dv%  % RpArialCCP0500000000000000000w!"CpKC0$C 0100000000000000000Xil?CWdv%  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   +M% %   +M% &%  666% ))&%  6)6% ))%  6))6)y)y6y)F)F6F% ))%  6))6% ))&%  6% %  &%    T|34BAA3L\Time (s) 53% %    Td" =/AA" LT100u> % ))%  6)5565@@6@LL6LXX6Xcc6coo6o{{6{66% %    Td /AA LT125u % %  6666666666% %    Td  &/AA  LT150u' % %  66))6)5565AA6ALL6LXX6Xdd6doo6o{{6{% %    Td /AA LT175u % %  6666666666% %    Td /AA LT200u % %  6% ))6)% %  %    % Rp Ariald@"=wG} "z?w!| 0"z?w!"z?w!"-?wt(@" `  &Iw ` =} |"=w ""Uv!8% "NAIh"'C!8% "B8% Ş'C "#/@ "2]@<EMdv%  TsAA L`Output (V)  ?% ( %  % %    TT AA LP0 %   %  6)%%6)%%6)%%6)% %    TTAALP1%   %  6)%%6)%%6)%%6)% %    TTAALP2%   %  6)%%6)%%6)%%6)% %    TTqAAqLP3q%  y y%  6)y%l%l6)l%_%_6)_%R%R6)R% %    TT>MAA>LP4>%  F F%  6)F%9%96)9%,%,6),%%6)% %    TT AA LP5 %   %  6)% % ))& %  6**6++6,,6--6//6116336556666886::6;;6<<6==6>>6??6@@6BB6DD6FF6GG6II6KK6MM6NN6NN6OO6PP6QQ6SS6UU6WW6XX6ZZ6\\6^^6``6aa6aa6bb6cc6dd6ff6hh6ii6kk6mm6oo6qq6ss6tt6uu6vv6ww6yy6zz6||6~~666666666666666666666666666666666666666666666666666666666666666666666666666666666666666  6  6  6  6666666666666  6""6$$6%%6''6))6++6--6..6..6//6006116226446556776996;;6==6??6@@6AA6BB6CC6DD6FF6HH6JJ6LL6NN6PP6QQ6RR6SS6SS6TT6UU6VV6WW6XX6ZZ6\\6^^6``6bb6dd6ff6ff6gg6hh6ii6jj6ll6nn6pp6rr6ss6uu6ww6yy6zz6{{6}}666666666666666666666666666666666666666666666666666666666666666666666666666666666% ))& %  6**6++6,,6--6//6116336556666886::6;;6<<6==6>>6??6@@6BB6DD6FF6GG6II6KK6MM6NN6NN6OO6PP6QQ6SS6UU6WW6XX6ZZ6\\6^^6``6aa6aa6bb6cc6dd6ff6hh6ii6kk6mm6oo6qq6ss6tt6uu6vv6ww6yy6zz6||6~~66666||6||6||6||6||6||6||6||6||6||6||6zz6zz6zz6zz6zz6zz6zz6zz6zz6zz6zz6yy6yy6yy6yy6yy6yy6yy6yy6yy6yy6yy6yy6{{6{{6{{6{{6{{6{{6{{6{{6{{6{{6{{6}}6}}6}}6}}6}}6}}6}}6}}6}}6}}6}}6}}66666666666666666666666666  6  6  6  6666666666666  6""6$$6%%6''6))6++6--6..6..6//6006116226446556776996;;6==6??6@@6AA6BB6CC6DD6FF6HH6JJ6LL6NN6PP6QQ6RR6SS6SS6TT6UU6VV6WW6XX6ZZ6\\6^^6``6bb6dd6ff6ff6gg6hh6ii6jj6ll6nn6pp6rr6ss6uu6ww6yy6zz6{{6}}666666666666666666666666666666666666666666666666666666666666666666666666666666666% ))& %  6**6++6,,6--6//6116336556666886::6;;6<<6==6>>6??6@@6BB6DD6FF6GG6II6KK6MM6NN6NN6OO6PP6QQ6SS6UU6WW6XX6ZZ6\\6^^6``6aa6auau6bubu6cucu6dudu6fufu6huhu6iuiu6kuku6mumu6ouou6ququ6susu6tktk6ukuk6vkvk6wkwk6ykyk6zkzk6|k|k6~k~k6kk6kk6kk6kk6dd6dd6dd6dd6dd6dd6dd6dd6dd6dd6dd6``6aa6aa6``6``6aa6aa6aa6aa6aa6aa6``6``6``6``6``6``6``6``6``6``6``6``6bb6bb6bb6bb6bb6bb6bb6bb6bb6bb6bb6hh6hh6hh6hh6hh6hh6hh6hh6hh6hh6hh6hh6pp6pp6pp6pp6pp6pp6pp6pp6pp6pp6pp6pp6pp6zz6zz6zz6zz6zz6zz6zz6zz6zz6zz6zz6zz6  6  6  6  6666666666666  6""6$$6%%6''6))6++6--6..6..6//6006116226446556776996;;6==6??6@@6AA6BB6CC6DD6FF6HH6JJ6LL6NN6PP6QQ6RR6SS6SS6TT6UU6VV6WW6XX6ZZ6\\6^^6``6bb6dd6ff6ff6gg6hh6ii6jj6ll6nn6pp6rr6ss6uu6ww6yy6zz6{{6}}666666666666666666666666666666666666666666666666666666666666666666666666666666666% ))& %  6**6++6,,6--6//6116336556666886::6;;6<<6==6>>6??6@@6BB6DD6FF6GG6II6KK6MM6NN6NmNm6OmOm6PmPm6QmQm6SmSm6UmUm6WmWm6XmXm6ZmZm6\m\m6^m^m6`m`m6amam6aVaV6bVbV6cVcV6dVdV6fVfV6hVhV6iViV6kVkV6mVmV6oVoV6qVqV6sVsV6tDtD6uDuD6vDvD6wDwD6yDyD6zDzD6|D|D6~D~D6DD6DD6DD6DD6666666666666666666666666666666666..6..6..6..6..6..6..6..6..6..6..6,,6,,6,,6,,6,,6,,6,,6,,6,,6,,6,,6,,6116116116116116116116116116116116<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6<<6LL6LL6LL6LL6LL6MM6MM6MM6MM6MM6MM6MM6MM6aa6aa6aa6aa6aa6aa6aa6aa6aa6aa6aa6aa6 y y6 y y6 y y6 y y6yy6yy6yy6yy6yy6yy6yy6yy66666  6""6$$6%%6''6))6++6--6..6..6//6006116226446556776996;;6==6??6@@6AA6BB6CC6DD6FF6HH6JJ6LL6NN6PP6QQ6RR6SS6SS6TT6UU6VV6WW6XX6ZZ6\\6^^6``6bb6dd6ff6ff6ff6gg6hh6ii6jj6ll6nn6pp6rr6ss6uu6ww6yy6zz6{{6}}666666666666666666666666666666666666666666666666666666666666666666666666666666666% % Rp Arial"Ћ"Lxt"rt" "8:I`""8FI;F4l+u^IL^I";F" I"";FArial`Z" EB`eCeC`Zä6I"6Iw" `Z"&B{dv%  &%  %   +/.% % ( %  %     T|5~*AA5L\MODE = 0   % % % RpArial"(`  &Iw(` =;ww(("=w -Iwp"=wZv";wpK;w0$w` CCH"D"Cמ,C4Cp p "CAriadv%  % %  % %  % %  % %  % RpSymbol"z0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  &%  %   +i x% % ( % %  % %  % %  % %  % RpSymbol"z0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z t"Ch Ilv!("C~CCt"Ch P"CCCBxt""CŞ,C4Ch h @"CSymboldv%  % ( %  %  %   +i x % o)%  6)% %   Tl 1AA LX A1   % RpSymbol"z0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % o?%  6?% %   Td6GAA6LT A2 6% RpSymbol"z0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % oU%  6U% %   TlL]AALLX A3  L% RpSymbol"z0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % ok%  6k% %   TdbsAAbLT A4 b% RpSymbol"z0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % RpSymbol &Iwz0$!` z z T"Ch Ilv!"C~CCT"Ch 0"CCCBxT""CŞ,C4Ch h "CSymboldv%  % ( %  % % % 8`??ƚ`@(?l B`@( EMFlr8UP RpMS Sans Serif""","r~r"JL "@"~r9 L w"~r""(" I"(( @H"  t ("dv%  '%   TT AA LPT % RpArial"n"p XR=pK0?}w8 8K=`8K8KXR?jw`@Yjw=XRnnp=HI=ntp=Fwp\=8Kf\=D`@dv%  % RpArialCCP0500000000000000000w!"CpKC0$C 0100000000000000000Xil?CWdv%  % %  % %  % %  % %  % %  % %  % %  % %  % % %  %   +M% %   +M% ZZ&%  6Z6666MM6M~~6~66% ))&%  6)6% ))%  6))6)y)y6y)F)F6F% ))%  6))6% ))&%  6% %  &%    T3LBAA3LpInput Current (A)  M3% %    TX" ,/AA" LP-5- % ))%  6)5565AA6ANN6N% %    TXS ]/AAS LP-4^ % ZZ%  6Zff6frr6r~~6~% %    TX /AA LP-3 % %  6666% %    TX /AA LP-2 % %  6666% %    TX /AA LP-1 % %  6666% %    TT /AA LP0 % %  6))6)5565AA6A% %    TTF L/AAF LP1M % MM%  6MYY6Yff6frr6r% %    TTw }/AAw LP2~ % ~~%  6~666% %    TT /AA LP3 % %  6666% %    TT /AA LP4 % %  6666% %    TT  /AA  LP5 % %  6% ))6)% %  %    % Rp Ariald@"=wG} "z?w2!| 0"z?w2!"z?w2!"-?wt(@"  &Iw =2} |"=w ""Uv2!($ "NAIh"'C!($ "B($ Ş'C "#/@ "2]@<EMdv%  TsAA L`Output (V)  ?% ( %  % %    TT AA LP0 %   %  6)%%6)%%6)%%6)% %    TTAALP1%   %  6)%%6)%%6)%%6)% %    TTAALP2%   %  6)%%6)%%6)%%6)% %    TTqAAqLP3q%  y y%  6)y%l%l6)l%_%_6)_%R%R6)R% %    TT>MAA>LP4>%  F F%  6)F%9%96)9%,%,6),%%6)% %    TT AA LP5 %   %  6)% % ))& %  6..6336886<<6AA6FF6KK6PP6UU6ZZ6__6cc6hh6mm6rr6ww6||66666666666666666666666666666  66666!!6&&6++6006556::6??6CC6HH6MM6RR6WW6\\6aa6ff6jj6oo6tt6yy6~~66666666666666666666666666666  6% ))& %  6..6336886<<6AA6FF6KK6PP6UU6ZZ6__6cc6hh6mm6rr6ww6||66666666666666666666666666666  66666!!6&&6++6006556::6??6CC6HH6MM6RR6WW6\\6aa6ff6jj6oo6tt6yy6~~66666666666666666666~~6~~6}}6}}6||6||6{{6{{6zz6 z z6y% ))& %  6..6336886<<6AA6FF6KK6PP6UU6ZZ6__6cc6hh6mm6rr6ww6||66666666666666666666666666666  66666!!6&&6++6006556::6??6CC6HH6MM6RR6WW6\\6aa6ff6jj6oo6tt6yy6~~~~6}}6||6{{6zz6yy6xx6ww6vv6uu6tt6ss6rr6qq6pp6oo6nn6mm6ll6kk6ii6hh6gg6ff6ee6dd6cc6bb6aa6 ` `6_% ))& %  6..6336886<<6AA6FF6KK6PP6UU6ZZ6__6cc6hh6mm6rr6ww6||66666666666666666666666666666  66666!!6&&6++6006556::6??6CC6HH6M~M~6R|R|6WzWz6\x\x6auau6fsfs6jqjq6oooo6tmtm6ykyk6~i~i6gg6ee6cc6aa6__6]]6[[6YY6WW6UU6RR6PP6NN6LL6JJ6HH6FF6DD6BB6@@6>>6<<6::6886666446226006 - -6+% % Rp Arial"(`  &Iw(` =;ww(("=w -Iwp"=wZv";wpK;w0$w` CCH"D"Cמ,C4Cp p "CAriadv%  % %  % %  % %  % %  % RpSymbol"z20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  &%  %   + % % ( % %  % %  % %  % %  % RpSymbol"z20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z t"Cx Ilv2!("C~CCt"Cx P"CCCB@t""CŞ,C4Cx x @"CSymboldv%  % ( %  %  %   + % %   % %  6% %   TdAALT A1 % RpSymbol"z20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % %  6% %   TlAALX A2  % RpSymbol"z20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % %  6% %   TlAALX A3  % RpSymbol"z20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % %  6% %   TdAALT A4 % RpSymbol"z20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % RpSymbol &Iwz20$! z z T"Cx Ilv2!"C~CCT"Cx 0"CCCB@T""CŞ,C4Cx x "CSymboldv%  % ( %  % % % RpArial"Ћ"Lxt"rt" "8:I`""8FI;F4l+u^IL^I";F" I"";FArial`Z" EB`eCeC`Zä6I"6Iw" `Z"&B{dv%  &%  %   +01% % ( %  %     T|6-AA6L\MODE = 1   % % % 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,77,18,39F0=TMCS1101 1.5% Precision, Basic Isolation Hall-Effect F3=SBOS825C June 2020F4=A F5=07/06/20F6=1F7=1.F1=Current Sensor With 600-V Working Voltage p@p Arial(TMCS1101 TINA-TI Test Circuit based on +Green-Williams-Lis Pspice simulation modelSymbol????333333??@ ArialTest Circuit ResultsSymbol????333333??(@( Arial ,Circuit configuration as shown on schematic:Vs = 5V, Vcm = 100V, RL = 10k, CL = 10pF connected to GNDSymbol????333333??p>@p> Arial ,NOTE: Model supports two modes of operation3Set "MODE" parameter in model properties as neededMODE = 0 by default0***********************************************/MODE = 0 = Transient (shows sampling behavior))MODE = 1 = AC/DC (shows linear behavior)Symbol????333333??;xXXxXXT_10050E3020200706173429? (  (T_1005557020200706173429; @ @T_1005593020200706173429;    T_10055CF020200706173429;  T_100560B020200706173429;T_10056FB020200706173429;T_1005773020200706173429?XXXXXT_1005863020200706173429;XXXXT_100589F020200706173429?XhXXhT_10058DB020200706173429;hXhXT_1005917020200706173429;PXXPXXT_1005953020200706173429;T_100598F020200706173429;pXXpXXT_1004B04020200706173429?xXX`xXXXX`T_1004B40020200706173429;XXXXT_1004B7C020200706173429?xxXxxXxXT_1004BB8020200706173429;xxxxT_1004BF4020200706173429;`88`88T_1004C30020200706173429?T_1004CA8020200706173429;  T_05C6CBB020200706173429;T_05C6C7F020200706173429;T_05C6C43020200706173429;xxxpxxxpT_05C6C07020200706173429;xpxpT_05C6BCB020200706173429?8x888x8T_05C6B8F020200706173429;8888T_05C6B53020200706173429?x8xHx8x8xHT_05C6B17020200706173429;H8H8T_05C6ADB020200706173429;88x888x8T_05C6A9F020200706173429;pxpxT_05C6A63020200706173429;8XHX8XHXT_05C6A27020200706173429;X@X`X@X`T_05C69EB020200706173429;XXXXT_05C69AF020200706173429;T_05C6973020200706173429;@`@`T_05C6937020200706173429;@`@`T_05C68FB020200706173429;T_05C68BF020200706173429? (  (T_05C6883020200706173429; @ @T_05C6847020200706173429;    T_05C680B020200706173429;  T_05C67CF020200706173429;xxxxT_05C6793020200706173429;T_05C6757020200706173429?XxXXXxXT_05C671B020200706173429;XXXXT_05C66DF020200706173429?xXxhxXxXxhT_05C66A3020200706173429;hXhXT_05C6667020200706173429;8XxX8XxXT_05C662B020200706173429;T_05C65EF020200706173429?xHXPxHXHXPT_05C65B3020200706173429;HHHHT_05C6577020200706173429;`((`((T_05C653B020200706173429?T_05C64FF020200706173429;T_05C64C3020200706173429;T_05C6487020200706173429;T_05C644B020200706173429;xhx`xhx`T_05C640F020200706173429;h`h`T_05C63D3020200706173429?(x(((x(T_05C631F020200706173429;((((T_05C62A7020200706173429?x(x8x(x(x8T_05C626B020200706173429;8(8(T_05C8FB8020200706173429;8(x(8(x(T_05C8F7C020200706173429;`h`hT_05C8F40020200706173429?x@XHx@X@XHT_05C8F04020200706173429;@@@@T_05C8EC8020200706173429;`  `  T_05C8E8C020200706173429?T_05C8E50020200706173429;T_05C8E14020200706173429;T_05C8DD8020200706173429;T_05C8D9C020200706173429;x`xXx`xXT_05C8D60020200706173429;`X`XT_05C8D24020200706173429? x   x T_05C8CE8020200706173429;    T_05C8CAC020200706173429?x x0x x x0T_05C8C70020200706173429;0 0 T_0608F57020200706173429;8 x 8 x T_05FD64A020200706173429;X`X`T_0C53B36020200706173429?xx`xx`x`T_0927AAE020200706174326;xxxxT_0927A72020200706174326;xxT_0927A36020200706174326;T_09279FA020200706174326;xxxxT_0948C58020200706174332?xX``xX`X``T_09D0FF4020200706174726;XXXXT_09D0FB8020200706174726;x88x88T_09D0F7C020200706174726?T_09D0F40020200706174726;  T_09D0F04020200706174726;T_09D0EC8020200706174726;T_09D0E8C020200706174726;xpxpT_09D0E50020200706174726;xpxpT_09D0E14020200706174726?88888T_09D0DD8020200706174726;8888T_09D0D9C020200706174726?8H88HT_09D0D60020200706174726;H8H8T_09D0D24020200706174726;P88P88T_09D0CE8020200706174726;pxpxT_09D0CAC020200706174726;hXhXT_09D0C70020200706174726;XXXXT_09D0C34020200706174726;T_09D0BF8020200706174726?xH`PxH`H`PT_09EEC40020200706174841;HHHHT_09EEC04020200706174841;x((x((T_09EEBC8020200706174841?T_09EEB8C020200706174841;T_09EEB50020200706174841;T_09EEB14020200706174841;T_09EEAD8020200706174841;h`h`T_09EEA9C020200706174841;h`h`T_09EEA60020200706174841?(((((T_09EEA24020200706174841;((((T_09EE9E8020200706174841?(8((8T_09EE9AC020200706174841;8(8(T_09EE970020200706174841;P((P((T_09EE934020200706174841;`h`hT_09EE8F8020200706174841?x@`Hx@`@`HT_09F11A8020200706174841;@@@@T_09F116C020200706174841;x  x  T_09F1130020200706174841?T_09F10F4020200706174841;T_09F10B8020200706174841;T_09F107C020200706174841;T_09F1040020200706174841;`X`XT_09F1004020200706174841;`X`XT_09F0FC8020200706174841?     T_09F0F8C020200706174841;    T_09F0F50020200706174841? 0  0T_09F0F14020200706174841;0 0 T_09F0ED8020200706174841;P  P  T_09F0E9C020200706174841;X`X`T_09F0E60020200706174841;T_09F0E24020200706174841;XHXHT_09F0DE8020200706174841;HHHHT_09F0DAC020200706174841;xxT_09F0D70020200706174841;P@P@T_09F0D34020200706174841;@@@@T_09F0CF8020200706174841 BxhRLT_0A7E26B020190831132213R_AX600_W200 (R)@@?Y@ BhCLT_0A7E2C9020190831132216CP_CYL300_D700_L1400 (C) dy=@eAY@?BqXA1BT_0A7E327020190831132226 NOPCB (VF) B C2T_0A7EBF7020190831132254CP_CYL300_D700_L1400 (C) Hz>@eAY@?DB` GNDT_0A7E441020190831132412Battery_9V_V (V)DB` VsT_0A7E675020190831132454Battery_9V_V (V)@DBX` VcmT_0A7F731020190831150939Battery_9V_V (V)Y@BpXVmT_0A7F84B020190831151014 Voltgen (VS) BxHRL2T_0A7FA21020190831151055R_AX600_W200 (R)@@?Y@ BHCL2T_0A7F9C3020190831151055CP_CYL300_D700_L1400 (C) dy=@eAY@?Bq8A2BT_0A7F7ED020190831151055 NOPCB (VF) BC3T_0A7FCB3020190831151055CP_CYL300_D700_L1400 (C) Hz>@eAY@?BxxIG1T_037E34F020200706151311@@V.A7BxX'CCCS1T_0427F78020200706152200VM? Bx8R1T_05A6B09020200706152942R_AX600_W200 (R)@@?Y@ B8C1T_05A6C81020200706152942CP_CYL300_D700_L1400 (C) dy=@eAY@?Bq(A3BT_05A6CDF020200706152942 NOPCB (VF) BC4T_05A6C23020200706152942CP_CYL300_D700_L1400 (C) Hz>@eAY@?7BxH'CCCS2T_05A6BC5020200706152942VM? Bx0R2T_05C4B6C020200706152950R_AX600_W200 (R)@@?Y@ B0C5T_05C4B0E020200706152950CP_CYL300_D700_L1400 (C) dy=@eAY@?Bq A4BT_05C4AB0020200706152950 NOPCB (VF) BC6T_05C4A52020200706152950CP_CYL300_D700_L1400 (C) Hz>@eAY@?7Bx@'CCCS3T_05C49F4020200706152950VM?:B0h U1T_1000A26020200706172400  TMCS1101A1B TMCS1101A1BWC:\Users\a0282827\AppData\Local\Temp\DesignSoft\{Tina9-TI-04052019-143025}\TMCS1101A1BSCK#MODE=0 TMCS1101A1BLabelC+9!pPd*OUT @ @d*IN-  @d*IN+m|  @d*VS  @d*GND ( @f8 g& TMCS1101A1BArial?#3W~@#3W~@* TMCS1101A1B - Rev. A&* Created by Ian Williams; 2020-07-03M* Created with Green-Williams-Lis Current Sense Amp Macro-model Architecture2* Copyright 2020 by Texas Instruments Corporation7******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************* AC PARAMETERS**********************>* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A1B IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1761294 1E-15 %C_C11 N1761662 GND 1E-15 %C_C12 GND N1762178 1E-15 %C_C13 N1762250 GND 1E-15 %C_C14 GND N1759326 1E-15 %C_C15 N1759426 GND 1E-15 %C_C16 GND N1759960 1E-15 +C_C1A1 N1760932 PSR_V 9.36E-12 .C_C1A6 N1758542 N1758416 2.65E-11 .C_C1A7 N1759106 N1758724 2.65E-11 .C_C1A8 N1760054 N1759418 2.65E-11 +C_C1A9 N1758106 CMR_V 9.36E-12 )C_C1B1 GND N1759738 3.98E-12 /C_C1C1 N1758216 N1758230 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1757544 1E-15 $C_C9 GND N1758752 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1762906 GND OUT GND 15G_G10 N1759602 GND CL_CLAMP N1758204 -4.44E5.G_G11 N1758542 GND N1759418 GND -3.75%G_G36 N1761474 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1757398 GND GND IN- -1)G_G62 VICM GND IN+ N1757398 -0.5.G_G64 N1759106 GND N1758416 GND -3.75.G_G65 N1758216 GND N1758724 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1757544 GND -1E-3,G_G9 GND_CLP GND N1758752 GND -1E-3+G_GB1 N1760054 GND N1759718 GND -1/G_G_CMR N1758106 GND VICM GND -2.95E-1,G_G_PSR N1760932 GND VS_B GND -2E-2&G_G_REF REF GND VS_B GND -0.5!I_I_Q VS GND DC 4.5E-3 *R_R107 N1761474 GND R_NOISELESS 1.R_R110 N1761474 VS_B R_NOISELESS 1E-3*R_R147 N1757398 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1758542 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1760122 R_NOISELESS 1)R_R18 GND N1759106 R_NOISELESS 1.R_R1A1 N1760932 PSR_V R_NOISELESS 1E82R_R1A10 N1758416 N1758542 R_NOISELESS 1E4/R_R1A11 N1758106 CMR_V R_NOISELESS 1E81R_R1A5 N1758724 N1759106 R_NOISELESS 1E41R_R1A6 N1759418 N1760054 R_NOISELESS 1E41R_R1B1 N1759738 N1759718 R_NOISELESS 1E41R_R1C1 N1758230 N1758216 R_NOISELESS 1E4*R_R2 N1760932 GND R_NOISELESS 1E3)R_R20 GND N1759602 R_NOISELESS 1)R_R21 GND N1758216 R_NOISELESS 1)R_R22 GND N1760054 R_NOISELESS 1,R_R29 N1757414 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1758416 R_NOISELESS 3.64E3/R_R2A7 GND N1758724 R_NOISELESS 3.64E3/R_R2A8 GND N1759418 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1759718 N1759602 R_NOISELESS 3.64E7-R_R2C1 GND N1758230 R_NOISELESS 3E-2.R_R30 N1757544 N1757414 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1758678 GND R_NOISELESS 1E3.R_R33 N1758752 N1758678 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1761230 GND R_NOISELESS 11R_R37 N1761294 N1761230 R_NOISELESS 1E-31R_R38 N1761662 N1761696 R_NOISELESS 1E-3)R_R39 GND N1761696 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1758328 R_NOISELESS 1E9)R_R42 N1762106 GND R_NOISELESS 11R_R43 N1762178 N1762106 R_NOISELESS 1E-31R_R44 N1762250 N1762306 R_NOISELESS 1E-3)R_R45 GND N1762306 R_NOISELESS 1+R_R46 GND N1757326 R_NOISELESS 1E9+R_R49 GND N1759708 R_NOISELESS 1E9(R_R5 N1758106 GND R_NOISELESS 1)R_R50 N1759258 GND R_NOISELESS 11R_R51 N1759326 N1759258 R_NOISELESS 1E-31R_R52 N1759426 N1759482 R_NOISELESS 1E-3)R_R53 GND N1759482 R_NOISELESS 1+R_R54 GND N1759654 R_NOISELESS 1E9/R_R55 N1759960 VSENSE R_NOISELESS 1E-3+R_R81 GND N1762004 R_NOISELESS 1E9+R_R83 GND N1762906 R_NOISELESS 1E9.R_RDUMMY GND N1758204 R_NOISELESS 1E4/R_RX N1758204 N1760122 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1762004 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1762906 R_NOISELESS 100"V_VMEAS N1761284 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1759654 GND -15 V_V_GRP N1759708 GND 15"V_V_ISCN N1757326 GND -90!V_V_ISCP N1758328 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1758678 CLAWN_TMCS1101A1B ;X_CLAWP VIMON GND N1757414 VS_B CLAWP_TMCS1101A1B YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1761230 N1761696 CLAMP_AMP_LO_TMCS1101A1B JX_CLAW_SRC N1761294 N1761662 CLAW_CLAMP GND CLAW_SRC_TMCS1101A1B YX_CL_AMP N1758328 N1757326 VIMON GND N1762106 N1762306 CLAMP_AMP_LO_TMCS1101A1B DX_CL_SRC N1762178 N1762250 CL_CLAMP GND CL_SRC_TMCS1101A1B >X_F1 IN+ N1761284 SENS REF 08_COMPLETE_A1B_F1_TMCS1101A1B \X_GR_AMP N1759708 N1759654 N1759960 GND N1759258 N1759482 CLAMP_AMP_HI_TMCS1101A1B AX_GR_SRC N1759326 N1759426 CLAMP GND GR_SRC_TMCS1101A1B BX_H3 OUT N1758204 N1762004 GND 08_COMPLETE_A1B_H3_TMCS1101A1B ,X_IOS CMR GND VICM IBP_TMCS1101A1B ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A1B DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A1B_S_MODE_TMCS1101A1B 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A1B *X_U2 GND CMR FEMT_A1_TMCS1101A1B ?X_ZO_SRC N1758230 GND GND N1760122 ZO_SRC_TMCS1101A1B '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A1B*1.SUBCKT 08_COMPLETE_A1B_F1_TMCS1101A1B 1 2 3 4 !F_F1 3 4 VF_F1 4.9857E-8VF_F1 1 2 0V&.ENDS 08_COMPLETE_A1B_F1_TMCS1101A1B*1.SUBCKT 08_COMPLETE_A1B_H3_TMCS1101A1B 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A1B_H3_TMCS1101A1B*5.SUBCKT 08_COMPLETE_A1B_S_MODE_TMCS1101A1B 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A1B_S_MODE_TMCS1101A1B*..SUBCKT AOL_1_TMCS1101A1B VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A1B*9.SUBCKT CLAMP_AMP_HI_TMCS1101A1B VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A2B IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1774096 1E-15 %C_C11 N1774436 GND 1E-15 %C_C12 GND N1774950 1E-15 %C_C13 N1775022 GND 1E-15 %C_C14 GND N1778218 1E-15 %C_C15 N1778318 GND 1E-15 %C_C16 GND N1778874 1E-15 +C_C1A1 N1773740 PSR_V 9.36E-12 .C_C1A6 N1777498 N1777380 2.65E-11 .C_C1A7 N1778006 N1777646 2.65E-11 .C_C1A8 N1778968 N1778310 2.65E-11 +C_C1A9 N1775852 CMR_V 9.36E-12 )C_C1B1 GND N1778630 3.98E-12 /C_C1C1 N1777186 N1777200 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1776518 1E-15 $C_C9 GND N1777674 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1775672 GND OUT GND 15G_G10 N1778494 GND CL_CLAMP N1773270 -4.44E5.G_G11 N1777498 GND N1778310 GND -3.75%G_G36 N1774272 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1776372 GND GND IN- -1)G_G62 VICM GND IN+ N1776372 -0.5.G_G64 N1778006 GND N1777380 GND -3.75.G_G65 N1777186 GND N1777646 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1776518 GND -1E-3,G_G9 GND_CLP GND N1777674 GND -1E-3+G_GB1 N1778968 GND N1778610 GND -1/G_G_CMR N1775852 GND VICM GND -2.95E-1,G_G_PSR N1773740 GND VS_B GND -1E-2&G_G_REF REF GND VS_B GND -0.5!I_I_Q VS GND DC 4.5E-3 *R_R107 N1774272 GND R_NOISELESS 1.R_R110 N1774272 VS_B R_NOISELESS 1E-3*R_R147 N1776372 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1777498 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1779036 R_NOISELESS 1)R_R18 GND N1778006 R_NOISELESS 1.R_R1A1 N1773740 PSR_V R_NOISELESS 1E82R_R1A10 N1777380 N1777498 R_NOISELESS 1E4/R_R1A11 N1775852 CMR_V R_NOISELESS 1E81R_R1A5 N1777646 N1778006 R_NOISELESS 1E41R_R1A6 N1778310 N1778968 R_NOISELESS 1E41R_R1B1 N1778630 N1778610 R_NOISELESS 1E41R_R1C1 N1777200 N1777186 R_NOISELESS 1E4*R_R2 N1773740 GND R_NOISELESS 1E3)R_R20 GND N1778494 R_NOISELESS 1)R_R21 GND N1777186 R_NOISELESS 1)R_R22 GND N1778968 R_NOISELESS 1,R_R29 N1776388 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1777380 R_NOISELESS 3.64E3/R_R2A7 GND N1777646 R_NOISELESS 3.64E3/R_R2A8 GND N1778310 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1778610 N1778494 R_NOISELESS 3.64E7-R_R2C1 GND N1777200 R_NOISELESS 3E-2.R_R30 N1776518 N1776388 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1777600 GND R_NOISELESS 1E3.R_R33 N1777674 N1777600 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1774008 GND R_NOISELESS 11R_R37 N1774096 N1774008 R_NOISELESS 1E-31R_R38 N1774436 N1774494 R_NOISELESS 1E-3)R_R39 GND N1774494 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1777298 R_NOISELESS 1E9)R_R42 N1774878 GND R_NOISELESS 11R_R43 N1774950 N1774878 R_NOISELESS 1E-31R_R44 N1775022 N1775078 R_NOISELESS 1E-3)R_R45 GND N1775078 R_NOISELESS 1+R_R46 GND N1776280 R_NOISELESS 1E9+R_R49 GND N1778600 R_NOISELESS 1E9(R_R5 N1775852 GND R_NOISELESS 1)R_R50 N1778158 GND R_NOISELESS 11R_R51 N1778218 N1778158 R_NOISELESS 1E-31R_R52 N1778318 N1778374 R_NOISELESS 1E-3)R_R53 GND N1778374 R_NOISELESS 1+R_R54 GND N1778546 R_NOISELESS 1E9/R_R55 N1778874 VSENSE R_NOISELESS 1E-3+R_R81 GND N1774776 R_NOISELESS 1E9+R_R83 GND N1775672 R_NOISELESS 1E9.R_RDUMMY GND N1773270 R_NOISELESS 1E4/R_RX N1773270 N1779036 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1774776 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1775672 R_NOISELESS 100"V_VMEAS N1774086 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1778546 GND -15 V_V_GRP N1778600 GND 15"V_V_ISCN N1776280 GND -90!V_V_ISCP N1777298 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1777600 CLAWN_TMCS1101A2B ;X_CLAWP VIMON GND N1776388 VS_B CLAWP_TMCS1101A2B YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1774008 N1774494 CLAMP_AMP_LO_TMCS1101A2B JX_CLAW_SRC N1774096 N1774436 CLAW_CLAMP GND CLAW_SRC_TMCS1101A2B YX_CL_AMP N1777298 N1776280 VIMON GND N1774878 N1775078 CLAMP_AMP_LO_TMCS1101A2B DX_CL_SRC N1774950 N1775022 CL_CLAMP GND CL_SRC_TMCS1101A2B >X_F1 IN+ N1774086 SENS REF 08_COMPLETE_A2B_F1_TMCS1101A2B \X_GR_AMP N1778600 N1778546 N1778874 GND N1778158 N1778374 CLAMP_AMP_HI_TMCS1101A2B AX_GR_SRC N1778218 N1778318 CLAMP GND GR_SRC_TMCS1101A2B BX_H3 OUT N1773270 N1774776 GND 08_COMPLETE_A2B_H3_TMCS1101A2B ,X_IOS CMR GND VICM IBP_TMCS1101A2B ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A2B DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A2B_S_MODE_TMCS1101A2B 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A2B *X_U2 GND CMR FEMT_A2_TMCS1101A2B ?X_ZO_SRC N1777200 GND GND N1779036 ZO_SRC_TMCS1101A2B '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A2B*1.SUBCKT 08_COMPLETE_A2B_F1_TMCS1101A2B 1 2 3 4 !F_F1 3 4 VF_F1 9.9715E-8VF_F1 1 2 0V&.ENDS 08_COMPLETE_A2B_F1_TMCS1101A2B*1.SUBCKT 08_COMPLETE_A2B_H3_TMCS1101A2B 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A2B_H3_TMCS1101A2B*5.SUBCKT 08_COMPLETE_A2B_S_MODE_TMCS1101A2B 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A2B_S_MODE_TMCS1101A2B*..SUBCKT AOL_1_TMCS1101A2B VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A2B*9.SUBCKT CLAMP_AMP_HI_TMCS1101A2B VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A3B IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1784544 1E-15 %C_C11 N1784884 GND 1E-15 %C_C12 GND N1785398 1E-15 %C_C13 N1785470 GND 1E-15 %C_C14 GND N1788668 1E-15 %C_C15 N1788768 GND 1E-15 %C_C16 GND N1789302 1E-15 +C_C1A1 N1784188 PSR_V 9.36E-12 .C_C1A6 N1787948 N1787830 2.65E-11 .C_C1A7 N1788456 N1788072 2.65E-11 .C_C1A8 N1789396 N1788760 2.65E-11 +C_C1A9 N1786300 CMR_V 9.36E-12 )C_C1B1 GND N1789080 3.98E-12 /C_C1C1 N1787636 N1787650 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1786968 1E-15 $C_C9 GND N1788124 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1786120 GND OUT GND 15G_G10 N1788944 GND CL_CLAMP N1787624 -4.44E5.G_G11 N1787948 GND N1788760 GND -3.75%G_G36 N1784720 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1786822 GND GND IN- -1)G_G62 VICM GND IN+ N1786822 -0.5.G_G64 N1788456 GND N1787830 GND -3.75.G_G65 N1787636 GND N1788072 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1786968 GND -1E-3,G_G9 GND_CLP GND N1788124 GND -1E-3+G_GB1 N1789396 GND N1789060 GND -1/G_G_CMR N1786300 GND VICM GND -2.95E-1,G_G_PSR N1784188 GND VS_B GND -5E-3&G_G_REF REF GND VS_B GND -0.5!I_I_Q VS GND DC 4.5E-3 *R_R107 N1784720 GND R_NOISELESS 1.R_R110 N1784720 VS_B R_NOISELESS 1E-3*R_R147 N1786822 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1787948 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1789464 R_NOISELESS 1)R_R18 GND N1788456 R_NOISELESS 1.R_R1A1 N1784188 PSR_V R_NOISELESS 1E82R_R1A10 N1787830 N1787948 R_NOISELESS 1E4/R_R1A11 N1786300 CMR_V R_NOISELESS 1E81R_R1A5 N1788072 N1788456 R_NOISELESS 1E41R_R1A6 N1788760 N1789396 R_NOISELESS 1E41R_R1B1 N1789080 N1789060 R_NOISELESS 1E41R_R1C1 N1787650 N1787636 R_NOISELESS 1E4*R_R2 N1784188 GND R_NOISELESS 1E3)R_R20 GND N1788944 R_NOISELESS 1)R_R21 GND N1787636 R_NOISELESS 1)R_R22 GND N1789396 R_NOISELESS 1,R_R29 N1786838 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1787830 R_NOISELESS 3.64E3/R_R2A7 GND N1788072 R_NOISELESS 3.64E3/R_R2A8 GND N1788760 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1789060 N1788944 R_NOISELESS 3.64E7-R_R2C1 GND N1787650 R_NOISELESS 3E-2.R_R30 N1786968 N1786838 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1788050 GND R_NOISELESS 1E3.R_R33 N1788124 N1788050 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1784456 GND R_NOISELESS 11R_R37 N1784544 N1784456 R_NOISELESS 1E-31R_R38 N1784884 N1784942 R_NOISELESS 1E-3)R_R39 GND N1784942 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1787748 R_NOISELESS 1E9)R_R42 N1785302 GND R_NOISELESS 11R_R43 N1785398 N1785302 R_NOISELESS 1E-31R_R44 N1785470 N1785526 R_NOISELESS 1E-3)R_R45 GND N1785526 R_NOISELESS 1+R_R46 GND N1786730 R_NOISELESS 1E9+R_R49 GND N1789050 R_NOISELESS 1E9(R_R5 N1786300 GND R_NOISELESS 1)R_R50 N1788584 GND R_NOISELESS 11R_R51 N1788668 N1788584 R_NOISELESS 1E-31R_R52 N1788768 N1788824 R_NOISELESS 1E-3)R_R53 GND N1788824 R_NOISELESS 1+R_R54 GND N1788996 R_NOISELESS 1E9/R_R55 N1789302 VSENSE R_NOISELESS 1E-3+R_R81 GND N1785224 R_NOISELESS 1E9+R_R83 GND N1786120 R_NOISELESS 1E9.R_RDUMMY GND N1787624 R_NOISELESS 1E4/R_RX N1787624 N1789464 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1785224 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1786120 R_NOISELESS 100"V_VMEAS N1784534 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1788996 GND -15 V_V_GRP N1789050 GND 15"V_V_ISCN N1786730 GND -90!V_V_ISCP N1787748 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1788050 CLAWN_TMCS1101A3B ;X_CLAWP VIMON GND N1786838 VS_B CLAWP_TMCS1101A3B YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1784456 N1784942 CLAMP_AMP_LO_TMCS1101A3B JX_CLAW_SRC N1784544 N1784884 CLAW_CLAMP GND CLAW_SRC_TMCS1101A3B YX_CL_AMP N1787748 N1786730 VIMON GND N1785302 N1785526 CLAMP_AMP_LO_TMCS1101A3B DX_CL_SRC N1785398 N1785470 CL_CLAMP GND CL_SRC_TMCS1101A3B >X_F1 IN+ N1784534 SENS REF 08_COMPLETE_A3B_F1_TMCS1101A3B \X_GR_AMP N1789050 N1788996 N1789302 GND N1788584 N1788824 CLAMP_AMP_HI_TMCS1101A3B AX_GR_SRC N1788668 N1788768 CLAMP GND GR_SRC_TMCS1101A3B BX_H3 OUT N1787624 N1785224 GND 08_COMPLETE_A3B_H3_TMCS1101A3B ,X_IOS CMR GND VICM IBP_TMCS1101A3B ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A3B DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A3B_S_MODE_TMCS1101A3B 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A3B *X_U3 GND CMR FEMT_A3_TMCS1101A3B ?X_ZO_SRC N1787650 GND GND N1789464 ZO_SRC_TMCS1101A3B '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A3B*1.SUBCKT 08_COMPLETE_A3B_F1_TMCS1101A3B 1 2 3 4 !F_F1 3 4 VF_F1 1.9943E-7VF_F1 1 2 0V&.ENDS 08_COMPLETE_A3B_F1_TMCS1101A3B*1.SUBCKT 08_COMPLETE_A3B_H3_TMCS1101A3B 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A3B_H3_TMCS1101A3B*5.SUBCKT 08_COMPLETE_A3B_S_MODE_TMCS1101A3B 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A3B_S_MODE_TMCS1101A3B*..SUBCKT AOL_1_TMCS1101A3B VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A3B*9.SUBCKT CLAMP_AMP_HI_TMCS1101A3B VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A4B IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1799114 1E-15 %C_C11 N1799454 GND 1E-15 %C_C12 GND N1799968 1E-15 %C_C13 N1800040 GND 1E-15 %C_C14 GND N1797168 1E-15 %C_C15 N1797268 GND 1E-15 %C_C16 GND N1797802 1E-15 +C_C1A1 N1798758 PSR_V 9.36E-12 .C_C1A6 N1796448 N1796330 2.65E-11 .C_C1A7 N1796956 N1796572 2.65E-11 .C_C1A8 N1797896 N1797260 2.65E-11 +C_C1A9 N1794800 CMR_V 9.36E-12 )C_C1B1 GND N1797580 3.98E-12 /C_C1C1 N1796136 N1796150 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1795468 1E-15 $C_C9 GND N1796624 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1800690 GND OUT GND 15G_G10 N1797444 GND CL_CLAMP N1796118 -4.44E5.G_G11 N1796448 GND N1797260 GND -3.75%G_G36 N1799290 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1795322 GND GND IN- -1)G_G62 VICM GND IN+ N1795322 -0.5.G_G64 N1796956 GND N1796330 GND -3.75.G_G65 N1796136 GND N1796572 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1795468 GND -1E-3,G_G9 GND_CLP GND N1796624 GND -1E-3+G_GB1 N1797896 GND N1797560 GND -1/G_G_CMR N1794800 GND VICM GND -2.95E-1.G_G_PSR N1798758 GND VS_B GND -2.5E-3&G_G_REF REF GND VS_B GND -0.5!I_I_Q VS GND DC 4.5E-3 *R_R107 N1799290 GND R_NOISELESS 1.R_R110 N1799290 VS_B R_NOISELESS 1E-3*R_R147 N1795322 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1796448 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1797964 R_NOISELESS 1)R_R18 GND N1796956 R_NOISELESS 1.R_R1A1 N1798758 PSR_V R_NOISELESS 1E82R_R1A10 N1796330 N1796448 R_NOISELESS 1E4/R_R1A11 N1794800 CMR_V R_NOISELESS 1E81R_R1A5 N1796572 N1796956 R_NOISELESS 1E41R_R1A6 N1797260 N1797896 R_NOISELESS 1E41R_R1B1 N1797580 N1797560 R_NOISELESS 1E41R_R1C1 N1796150 N1796136 R_NOISELESS 1E4*R_R2 N1798758 GND R_NOISELESS 1E3)R_R20 GND N1797444 R_NOISELESS 1)R_R21 GND N1796136 R_NOISELESS 1)R_R22 GND N1797896 R_NOISELESS 1,R_R29 N1795338 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1796330 R_NOISELESS 3.64E3/R_R2A7 GND N1796572 R_NOISELESS 3.64E3/R_R2A8 GND N1797260 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1797560 N1797444 R_NOISELESS 3.64E7-R_R2C1 GND N1796150 R_NOISELESS 3E-2.R_R30 N1795468 N1795338 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1796550 GND R_NOISELESS 1E3.R_R33 N1796624 N1796550 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1799026 GND R_NOISELESS 11R_R37 N1799114 N1799026 R_NOISELESS 1E-31R_R38 N1799454 N1799512 R_NOISELESS 1E-3)R_R39 GND N1799512 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1796248 R_NOISELESS 1E9)R_R42 N1799872 GND R_NOISELESS 11R_R43 N1799968 N1799872 R_NOISELESS 1E-31R_R44 N1800040 N1800096 R_NOISELESS 1E-3)R_R45 GND N1800096 R_NOISELESS 1+R_R46 GND N1795224 R_NOISELESS 1E9+R_R49 GND N1797550 R_NOISELESS 1E9(R_R5 N1794800 GND R_NOISELESS 1)R_R50 N1797084 GND R_NOISELESS 11R_R51 N1797168 N1797084 R_NOISELESS 1E-31R_R52 N1797268 N1797324 R_NOISELESS 1E-3)R_R53 GND N1797324 R_NOISELESS 1+R_R54 GND N1797496 R_NOISELESS 1E9/R_R55 N1797802 VSENSE R_NOISELESS 1E-3+R_R81 GND N1799794 R_NOISELESS 1E9+R_R83 GND N1800690 R_NOISELESS 1E9.R_RDUMMY GND N1796118 R_NOISELESS 1E4/R_RX N1796118 N1797964 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1799794 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1800690 R_NOISELESS 100"V_VMEAS N1799104 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1797496 GND -15 V_V_GRP N1797550 GND 15"V_V_ISCN N1795224 GND -90!V_V_ISCP N1796248 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1796550 CLAWN_TMCS1101A4B ;X_CLAWP VIMON GND N1795338 VS_B CLAWP_TMCS1101A4B YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1799026 N1799512 CLAMP_AMP_LO_TMCS1101A4B JX_CLAW_SRC N1799114 N1799454 CLAW_CLAMP GND CLAW_SRC_TMCS1101A4B YX_CL_AMP N1796248 N1795224 VIMON GND N1799872 N1800096 CLAMP_AMP_LO_TMCS1101A4B DX_CL_SRC N1799968 N1800040 CL_CLAMP GND CL_SRC_TMCS1101A4B >X_F1 IN+ N1799104 SENS REF 08_COMPLETE_A4B_F1_TMCS1101A4B \X_GR_AMP N1797550 N1797496 N1797802 GND N1797084 N1797324 CLAMP_AMP_HI_TMCS1101A4B AX_GR_SRC N1797168 N1797268 CLAMP GND GR_SRC_TMCS1101A4B BX_H3 OUT N1796118 N1799794 GND 08_COMPLETE_A4B_H3_TMCS1101A4B ,X_IOS CMR GND VICM IBP_TMCS1101A4B ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A4B DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A4B_S_MODE_TMCS1101A4B 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A4B *X_U2 GND CMR FEMT_A4_TMCS1101A4B ?X_ZO_SRC N1796150 GND GND N1797964 ZO_SRC_TMCS1101A4B '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A4B*1.SUBCKT 08_COMPLETE_A4B_F1_TMCS1101A4B 1 2 3 4 !F_F1 3 4 VF_F1 3.9886E-7VF_F1 1 2 0V&.ENDS 08_COMPLETE_A4B_F1_TMCS1101A4B*1.SUBCKT 08_COMPLETE_A4B_H3_TMCS1101A4B 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A4B_H3_TMCS1101A4B*5.SUBCKT 08_COMPLETE_A4B_S_MODE_TMCS1101A4B 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A4B_S_MODE_TMCS1101A4B*..SUBCKT AOL_1_TMCS1101A4B VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A4B*9.SUBCKT CLAMP_AMP_HI_TMCS1101A4B VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)@eAY@?:B0h U5T_05C7E0F020200706173438  TMCS1101A1U TMCS1101A1UWC:\Users\a0282827\AppData\Local\Temp\DesignSoft\{Tina9-TI-04052019-143025}\TMCS1101A1USCK#MODE=0 TMCS1101A1ULabelC+9!pPd*OUTwmwm( @ @d*IN-8n8n(  @d*IN+ĔmĔm( @d*VS  @d*GND ( @f8 g& TMCS1101A1UArial?UkW~@UkW~@* TMCS1101A1U - Rev. A&* Created by Ian Williams; 2020-07-03M* Created with Green-Williams-Lis Current Sense Amp Macro-model Architecture2* Copyright 2020 by Texas Instruments Corporation7******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************* AC PARAMETERS**********************>* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A1U IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1812582 1E-15 %C_C11 N1806836 GND 1E-15 %C_C12 GND N1807366 1E-15 %C_C13 N1807438 GND 1E-15 %C_C14 GND N1810658 1E-15 %C_C15 N1810758 GND 1E-15 %C_C16 GND N1811292 1E-15 +C_C1A1 N1812226 PSR_V 9.36E-12 .C_C1A6 N1809938 N1809820 2.65E-11 .C_C1A7 N1810446 N1810062 2.65E-11 .C_C1A8 N1811386 N1810750 2.65E-11 +C_C1A9 N1808290 CMR_V 9.36E-12 )C_C1B1 GND N1811070 3.98E-12 /C_C1C1 N1809620 N1809640 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1808958 1E-15 $C_C9 GND N1810114 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1808088 GND OUT GND 15G_G10 N1810934 GND CL_CLAMP N1809608 -4.44E5.G_G11 N1809938 GND N1810750 GND -3.75%G_G36 N1806676 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1808812 GND GND IN- -1)G_G62 VICM GND IN+ N1808812 -0.5.G_G64 N1810446 GND N1809820 GND -3.75.G_G65 N1809620 GND N1810062 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1808958 GND -1E-3,G_G9 GND_CLP GND N1810114 GND -1E-3+G_GB1 N1811386 GND N1811050 GND -1/G_G_CMR N1808290 GND VICM GND -2.95E-1,G_G_PSR N1812226 GND VS_B GND -2E-2&G_G_REF REF GND VS_B GND -0.1!I_I_Q VS GND DC 4.5E-3 *R_R107 N1806676 GND R_NOISELESS 1.R_R110 N1806676 VS_B R_NOISELESS 1E-3*R_R147 N1808812 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1809938 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1811454 R_NOISELESS 1)R_R18 GND N1810446 R_NOISELESS 1.R_R1A1 N1812226 PSR_V R_NOISELESS 1E82R_R1A10 N1809820 N1809938 R_NOISELESS 1E4/R_R1A11 N1808290 CMR_V R_NOISELESS 1E81R_R1A5 N1810062 N1810446 R_NOISELESS 1E41R_R1A6 N1810750 N1811386 R_NOISELESS 1E41R_R1B1 N1811070 N1811050 R_NOISELESS 1E41R_R1C1 N1809640 N1809620 R_NOISELESS 1E4*R_R2 N1812226 GND R_NOISELESS 1E3)R_R20 GND N1810934 R_NOISELESS 1)R_R21 GND N1809620 R_NOISELESS 1)R_R22 GND N1811386 R_NOISELESS 1,R_R29 N1808828 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1809820 R_NOISELESS 3.64E3/R_R2A7 GND N1810062 R_NOISELESS 3.64E3/R_R2A8 GND N1810750 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1811050 N1810934 R_NOISELESS 3.64E7-R_R2C1 GND N1809640 R_NOISELESS 3E-2.R_R30 N1808958 N1808828 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1810040 GND R_NOISELESS 1E3.R_R33 N1810114 N1810040 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1812494 GND R_NOISELESS 11R_R37 N1812582 N1812494 R_NOISELESS 1E-31R_R38 N1806836 N1806910 R_NOISELESS 1E-3)R_R39 GND N1806910 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1809738 R_NOISELESS 1E9)R_R42 N1807270 GND R_NOISELESS 11R_R43 N1807366 N1807270 R_NOISELESS 1E-31R_R44 N1807438 N1807494 R_NOISELESS 1E-3)R_R45 GND N1807494 R_NOISELESS 1+R_R46 GND N1808714 R_NOISELESS 1E9+R_R49 GND N1811040 R_NOISELESS 1E9(R_R5 N1808290 GND R_NOISELESS 1)R_R50 N1810574 GND R_NOISELESS 11R_R51 N1810658 N1810574 R_NOISELESS 1E-31R_R52 N1810758 N1810814 R_NOISELESS 1E-3)R_R53 GND N1810814 R_NOISELESS 1+R_R54 GND N1810986 R_NOISELESS 1E9/R_R55 N1811292 VSENSE R_NOISELESS 1E-3+R_R81 GND N1807192 R_NOISELESS 1E9+R_R83 GND N1808088 R_NOISELESS 1E9.R_RDUMMY GND N1809608 R_NOISELESS 1E4/R_RX N1809608 N1811454 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1807192 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1808088 R_NOISELESS 100"V_VMEAS N1812572 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1810986 GND -15 V_V_GRP N1811040 GND 15"V_V_ISCN N1808714 GND -90!V_V_ISCP N1809738 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1810040 CLAWN_TMCS1101A1U ;X_CLAWP VIMON GND N1808828 VS_B CLAWP_TMCS1101A1U YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1812494 N1806910 CLAMP_AMP_LO_TMCS1101A1U JX_CLAW_SRC N1812582 N1806836 CLAW_CLAMP GND CLAW_SRC_TMCS1101A1U YX_CL_AMP N1809738 N1808714 VIMON GND N1807270 N1807494 CLAMP_AMP_LO_TMCS1101A1U DX_CL_SRC N1807366 N1807438 CL_CLAMP GND CL_SRC_TMCS1101A1U >X_F1 IN+ N1812572 SENS REF 08_COMPLETE_A1U_F1_TMCS1101A1U \X_GR_AMP N1811040 N1810986 N1811292 GND N1810574 N1810814 CLAMP_AMP_HI_TMCS1101A1U AX_GR_SRC N1810658 N1810758 CLAMP GND GR_SRC_TMCS1101A1U BX_H3 OUT N1809608 N1807192 GND 08_COMPLETE_A1U_H3_TMCS1101A1U ,X_IOS CMR GND VICM IBP_TMCS1101A1U ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A1U DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A1U_S_MODE_TMCS1101A1U 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A1U *X_U2 GND CMR FEMT_A1_TMCS1101A1U ?X_ZO_SRC N1809640 GND GND N1811454 ZO_SRC_TMCS1101A1U '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A1U*1.SUBCKT 08_COMPLETE_A1U_F1_TMCS1101A1U 1 2 3 4 !F_F1 3 4 VF_F1 4.9857E-8VF_F1 1 2 0V&.ENDS 08_COMPLETE_A1U_F1_TMCS1101A1U*1.SUBCKT 08_COMPLETE_A1U_H3_TMCS1101A1U 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A1U_H3_TMCS1101A1U*5.SUBCKT 08_COMPLETE_A1U_S_MODE_TMCS1101A1U 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A1U_S_MODE_TMCS1101A1U*..SUBCKT AOL_1_TMCS1101A1U VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A1U*9.SUBCKT CLAMP_AMP_HI_TMCS1101A1U VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)@eAY@?7BxX'CCCS5T_09C13DA020200706174726VM?:B0HU6T_09C137C020200706174726  TMCS1101A2U TMCS1101A2UWC:\Users\a0282827\AppData\Local\Temp\DesignSoft\{Tina9-TI-04052019-143025}\TMCS1101A2USCK#MODE=0 TMCS1101A2ULabelC+9!pPd*OUT &ML @ @d*IN-  @d*IN+ @d*VS  @d*GND ( @f8 g& TMCS1101A2UArial?gTvW~@gTvW~@* TMCS1101A2U - Rev. A&* Created by Ian Williams; 2020-07-03M* Created with Green-Williams-Lis Current Sense Amp Macro-model Architecture2* Copyright 2020 by Texas Instruments Corporation7******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************* AC PARAMETERS**********************>* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A2U IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1818518 1E-15 %C_C11 N1818858 GND 1E-15 %C_C12 GND N1819394 1E-15 %C_C13 N1819466 GND 1E-15 %C_C14 GND N1822664 1E-15 %C_C15 N1822764 GND 1E-15 %C_C16 GND N1823298 1E-15 +C_C1A1 N1818162 PSR_V 9.36E-12 .C_C1A6 N1821944 N1821826 2.65E-11 .C_C1A7 N1822452 N1822068 2.65E-11 .C_C1A8 N1823392 N1822732 2.65E-11 +C_C1A9 N1820296 CMR_V 9.36E-12 )C_C1B1 GND N1823076 3.98E-12 /C_C1C1 N1821626 N1821646 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1820940 1E-15 $C_C9 GND N1822120 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1820116 GND OUT GND 15G_G10 N1822940 GND CL_CLAMP N1821608 -4.44E5.G_G11 N1821944 GND N1822732 GND -3.75%G_G36 N1818698 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1820818 GND GND IN- -1)G_G62 VICM GND IN+ N1820818 -0.5.G_G64 N1822452 GND N1821826 GND -3.75.G_G65 N1821626 GND N1822068 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1820940 GND -1E-3,G_G9 GND_CLP GND N1822120 GND -1E-3+G_GB1 N1823392 GND N1823056 GND -1/G_G_CMR N1820296 GND VICM GND -2.95E-1,G_G_PSR N1818162 GND VS_B GND -1E-2&G_G_REF REF GND VS_B GND -0.1!I_I_Q VS GND DC 4.5E-3 *R_R107 N1818698 GND R_NOISELESS 1.R_R110 N1818698 VS_B R_NOISELESS 1E-3*R_R147 N1820818 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1821944 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1823460 R_NOISELESS 1)R_R18 GND N1822452 R_NOISELESS 1.R_R1A1 N1818162 PSR_V R_NOISELESS 1E82R_R1A10 N1821826 N1821944 R_NOISELESS 1E4/R_R1A11 N1820296 CMR_V R_NOISELESS 1E81R_R1A5 N1822068 N1822452 R_NOISELESS 1E41R_R1A6 N1822732 N1823392 R_NOISELESS 1E41R_R1B1 N1823076 N1823056 R_NOISELESS 1E41R_R1C1 N1821646 N1821626 R_NOISELESS 1E4*R_R2 N1818162 GND R_NOISELESS 1E3)R_R20 GND N1822940 R_NOISELESS 1)R_R21 GND N1821626 R_NOISELESS 1)R_R22 GND N1823392 R_NOISELESS 1,R_R29 N1820834 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1821826 R_NOISELESS 3.64E3/R_R2A7 GND N1822068 R_NOISELESS 3.64E3/R_R2A8 GND N1822732 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1823056 N1822940 R_NOISELESS 3.64E7-R_R2C1 GND N1821646 R_NOISELESS 3E-2.R_R30 N1820940 N1820834 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1822046 GND R_NOISELESS 1E3.R_R33 N1822120 N1822046 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1818406 GND R_NOISELESS 11R_R37 N1818518 N1818406 R_NOISELESS 1E-31R_R38 N1818858 N1818922 R_NOISELESS 1E-3)R_R39 GND N1818922 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1821744 R_NOISELESS 1E9)R_R42 N1819298 GND R_NOISELESS 11R_R43 N1819394 N1819298 R_NOISELESS 1E-31R_R44 N1819466 N1819522 R_NOISELESS 1E-3)R_R45 GND N1819522 R_NOISELESS 1+R_R46 GND N1820720 R_NOISELESS 1E9+R_R49 GND N1823046 R_NOISELESS 1E9(R_R5 N1820296 GND R_NOISELESS 1)R_R50 N1822556 GND R_NOISELESS 11R_R51 N1822664 N1822556 R_NOISELESS 1E-31R_R52 N1822764 N1822804 R_NOISELESS 1E-3)R_R53 GND N1822804 R_NOISELESS 1+R_R54 GND N1822992 R_NOISELESS 1E9/R_R55 N1823298 VSENSE R_NOISELESS 1E-3+R_R81 GND N1819220 R_NOISELESS 1E9+R_R83 GND N1820116 R_NOISELESS 1E9.R_RDUMMY GND N1821608 R_NOISELESS 1E4/R_RX N1821608 N1823460 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1819220 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1820116 R_NOISELESS 100"V_VMEAS N1818508 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1822992 GND -15 V_V_GRP N1823046 GND 15"V_V_ISCN N1820720 GND -90!V_V_ISCP N1821744 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1822046 CLAWN_TMCS1101A2U ;X_CLAWP VIMON GND N1820834 VS_B CLAWP_TMCS1101A2U YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1818406 N1818922 CLAMP_AMP_LO_TMCS1101A2U JX_CLAW_SRC N1818518 N1818858 CLAW_CLAMP GND CLAW_SRC_TMCS1101A2U YX_CL_AMP N1821744 N1820720 VIMON GND N1819298 N1819522 CLAMP_AMP_LO_TMCS1101A2U DX_CL_SRC N1819394 N1819466 CL_CLAMP GND CL_SRC_TMCS1101A2U >X_F1 IN+ N1818508 SENS REF 08_COMPLETE_A2U_F1_TMCS1101A2U \X_GR_AMP N1823046 N1822992 N1823298 GND N1822556 N1822804 CLAMP_AMP_HI_TMCS1101A2U AX_GR_SRC N1822664 N1822764 CLAMP GND GR_SRC_TMCS1101A2U BX_H3 OUT N1821608 N1819220 GND 08_COMPLETE_A2U_H3_TMCS1101A2U ,X_IOS CMR GND VICM IBP_TMCS1101A2U ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A2U DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A2U_S_MODE_TMCS1101A2U 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A2U *X_U2 GND CMR FEMT_A2_TMCS1101A2U ?X_ZO_SRC N1821646 GND GND N1823460 ZO_SRC_TMCS1101A2U '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A2U*1.SUBCKT 08_COMPLETE_A2U_F1_TMCS1101A2U 1 2 3 4 !F_F1 3 4 VF_F1 9.9715E-8VF_F1 1 2 0V&.ENDS 08_COMPLETE_A2U_F1_TMCS1101A2U*1.SUBCKT 08_COMPLETE_A2U_H3_TMCS1101A2U 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A2U_H3_TMCS1101A2U*5.SUBCKT 08_COMPLETE_A2U_S_MODE_TMCS1101A2U 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A2U_S_MODE_TMCS1101A2U*..SUBCKT AOL_1_TMCS1101A2U VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A2U*9.SUBCKT CLAMP_AMP_HI_TMCS1101A2U VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)@eAY@?7BxH'CCCS6T_09C8DDA020200706174841VM? B0R6T_09C8D7C020200706174841R_AX600_W200 (R)@@?Y@ B0C13T_09C8D1E020200706174841CP_CYL300_D700_L1400 (C) dy=@eAY@? BC14T_09C8CC0020200706174841CP_CYL300_D700_L1400 (C) Hz>@eAY@?7Bx@'CCCS7T_09C8C62020200706174841VM?:B08 U7T_09C935C020200706174841  TMCS1101A3U TMCS1101A3UWC:\Users\a0282827\AppData\Local\Temp\DesignSoft\{Tina9-TI-04052019-143025}\TMCS1101A3USCK#MODE=0 TMCS1101A3ULabelC+9!pPd*OUT @ @d*IN- &M8A  @d*IN+ @d*VS  @d*GND ( @f8 g& TMCS1101A3UArial?V|W~@V|W~@* TMCS1101A3U - Rev. A&* Created by Ian Williams; 2020-07-03M* Created with Green-Williams-Lis Current Sense Amp Macro-model Architecture2* Copyright 2020 by Texas Instruments Corporation7******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************* AC PARAMETERS**********************>* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A3U IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1830061 1E-15 %C_C11 N1830373 GND 1E-15 %C_C12 GND N1830915 1E-15 %C_C13 N1830987 GND 1E-15 %C_C14 GND N1834169 1E-15 %C_C15 N1834285 GND 1E-15 %C_C16 GND N1834819 1E-15 +C_C1A1 N1829705 PSR_V 9.36E-12 .C_C1A6 N1833465 N1833347 2.65E-11 .C_C1A7 N1833973 N1833589 2.65E-11 .C_C1A8 N1834913 N1834229 2.65E-11 +C_C1A9 N1831817 CMR_V 9.36E-12 )C_C1B1 GND N1834597 3.98E-12 /C_C1C1 N1833141 N1833161 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1832455 1E-15 $C_C9 GND N1833641 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1831637 GND OUT GND 15G_G10 N1834461 GND CL_CLAMP N1833123 -4.44E5.G_G11 N1833465 GND N1834229 GND -3.75%G_G36 N1830213 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1832339 GND GND IN- -1)G_G62 VICM GND IN+ N1832339 -0.5.G_G64 N1833973 GND N1833347 GND -3.75.G_G65 N1833141 GND N1833589 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1832455 GND -1E-3,G_G9 GND_CLP GND N1833641 GND -1E-3+G_GB1 N1834913 GND N1834577 GND -1/G_G_CMR N1831817 GND VICM GND -2.95E-1,G_G_PSR N1829705 GND VS_B GND -5E-3&G_G_REF REF GND VS_B GND -0.1!I_I_Q VS GND DC 4.5E-3 *R_R107 N1830213 GND R_NOISELESS 1.R_R110 N1830213 VS_B R_NOISELESS 1E-3*R_R147 N1832339 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1833465 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1834981 R_NOISELESS 1)R_R18 GND N1833973 R_NOISELESS 1.R_R1A1 N1829705 PSR_V R_NOISELESS 1E82R_R1A10 N1833347 N1833465 R_NOISELESS 1E4/R_R1A11 N1831817 CMR_V R_NOISELESS 1E81R_R1A5 N1833589 N1833973 R_NOISELESS 1E41R_R1A6 N1834229 N1834913 R_NOISELESS 1E41R_R1B1 N1834597 N1834577 R_NOISELESS 1E41R_R1C1 N1833161 N1833141 R_NOISELESS 1E4*R_R2 N1829705 GND R_NOISELESS 1E3)R_R20 GND N1834461 R_NOISELESS 1)R_R21 GND N1833141 R_NOISELESS 1)R_R22 GND N1834913 R_NOISELESS 1,R_R29 N1832355 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1833347 R_NOISELESS 3.64E3/R_R2A7 GND N1833589 R_NOISELESS 3.64E3/R_R2A8 GND N1834229 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1834577 N1834461 R_NOISELESS 3.64E7-R_R2C1 GND N1833161 R_NOISELESS 3E-2.R_R30 N1832455 N1832355 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1833567 GND R_NOISELESS 1E3.R_R33 N1833641 N1833567 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1829949 GND R_NOISELESS 11R_R37 N1830061 N1829949 R_NOISELESS 1E-31R_R38 N1830373 N1830443 R_NOISELESS 1E-3)R_R39 GND N1830443 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1833265 R_NOISELESS 1E9)R_R42 N1830819 GND R_NOISELESS 11R_R43 N1830915 N1830819 R_NOISELESS 1E-31R_R44 N1830987 N1831043 R_NOISELESS 1E-3)R_R45 GND N1831043 R_NOISELESS 1+R_R46 GND N1832241 R_NOISELESS 1E9+R_R49 GND N1834567 R_NOISELESS 1E9(R_R5 N1831817 GND R_NOISELESS 1)R_R50 N1834071 GND R_NOISELESS 11R_R51 N1834169 N1834071 R_NOISELESS 1E-31R_R52 N1834285 N1834325 R_NOISELESS 1E-3)R_R53 GND N1834325 R_NOISELESS 1+R_R54 GND N1834513 R_NOISELESS 1E9/R_R55 N1834819 VSENSE R_NOISELESS 1E-3+R_R81 GND N1830741 R_NOISELESS 1E9+R_R83 GND N1831637 R_NOISELESS 1E9.R_RDUMMY GND N1833123 R_NOISELESS 1E4/R_RX N1833123 N1834981 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1830741 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1831637 R_NOISELESS 100"V_VMEAS N1830051 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1834513 GND -15 V_V_GRP N1834567 GND 15"V_V_ISCN N1832241 GND -90!V_V_ISCP N1833265 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1833567 CLAWN_TMCS1101A3U ;X_CLAWP VIMON GND N1832355 VS_B CLAWP_TMCS1101A3U YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1829949 N1830443 CLAMP_AMP_LO_TMCS1101A3U JX_CLAW_SRC N1830061 N1830373 CLAW_CLAMP GND CLAW_SRC_TMCS1101A3U YX_CL_AMP N1833265 N1832241 VIMON GND N1830819 N1831043 CLAMP_AMP_LO_TMCS1101A3U DX_CL_SRC N1830915 N1830987 CL_CLAMP GND CL_SRC_TMCS1101A3U >X_F1 IN+ N1830051 SENS REF 08_COMPLETE_A3U_F1_TMCS1101A3U \X_GR_AMP N1834567 N1834513 N1834819 GND N1834071 N1834325 CLAMP_AMP_HI_TMCS1101A3U AX_GR_SRC N1834169 N1834285 CLAMP GND GR_SRC_TMCS1101A3U BX_H3 OUT N1833123 N1830741 GND 08_COMPLETE_A3U_H3_TMCS1101A3U ,X_IOS CMR GND VICM IBP_TMCS1101A3U ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A3U DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A3U_S_MODE_TMCS1101A3U 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A3U *X_U2 GND CMR FEMT_A3_TMCS1101A3U ?X_ZO_SRC N1833161 GND GND N1834981 ZO_SRC_TMCS1101A3U '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A3U*1.SUBCKT 08_COMPLETE_A3U_F1_TMCS1101A3U 1 2 3 4 !F_F1 3 4 VF_F1 1.9943E-7VF_F1 1 2 0V&.ENDS 08_COMPLETE_A3U_F1_TMCS1101A3U*1.SUBCKT 08_COMPLETE_A3U_H3_TMCS1101A3U 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A3U_H3_TMCS1101A3U*5.SUBCKT 08_COMPLETE_A3U_S_MODE_TMCS1101A3U 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A3U_S_MODE_TMCS1101A3U*..SUBCKT AOL_1_TMCS1101A3U VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A3U*9.SUBCKT CLAMP_AMP_HI_TMCS1101A3U VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)* CLOSED-LOOP OUTPUT IMPEDANCE VS. FREQUENCY (Zout vs. Freq.)U* CLOSED-LOOP SENSITIVITY AND PHASE VS. FREQUENCY WITH RL, CL EFFECTS (S vs. Freq.)=* COMMON-MODE REJECTION RATIO VS. FREQUENCY (CMRR vs. Freq.)>* POWER SUPPLY REJECTION RATIO VS. FREQUENCY (PSRR vs. Freq.);* INPUT CURRENT NOISE DENSITY VS. FREQUENCY (in vs. Freq.)*********************** DC PARAMETERS*********************** SENSITIVITY ERROR (Es)6* INPUT OFFSET CURRENT VS. TEMPERATURE (Ios vs. Temp):* OUTPUT VOLTAGE SWING vs. OUTPUT CURRENT (Vout vs. Iout)%* SHORT-CIRCUIT OUTPUT CURRENT (Isc)* QUIESCENT CURRENT (Iq)*********************** TRANSIENT PARAMETERS*********************** 4-S SAMPLING INTERVAL* SLEW RATE (SR))* SETTLING TIME VS. CAPACITIVE LOAD (ts)* OVERLOAD RECOVERY TIME (tor)7******************************************************'.subckt TMCS1101A4U IN+ IN- VS GND OUT7******************************************************$* SET MODE = 1 for AC/DC SIMULATION(* SET MODE = 0 for TRANSIENT SIMULATION7****************************************************** + params: + MODE = 1%C_C10 GND N1840587 1E-15 %C_C11 N1840899 GND 1E-15 %C_C12 GND N1841441 1E-15 %C_C13 N1841513 GND 1E-15 %C_C14 GND N1844695 1E-15 %C_C15 N1844811 GND 1E-15 %C_C16 GND N1845345 1E-15 +C_C1A1 N1840231 PSR_V 9.36E-12 .C_C1A6 N1843991 N1843873 2.65E-11 .C_C1A7 N1844499 N1844115 2.65E-11 .C_C1A8 N1845439 N1844755 2.65E-11 +C_C1A9 N1842343 CMR_V 9.36E-12 )C_C1B1 GND N1845123 3.98E-12 /C_C1C1 N1843661 N1843687 5.305E-12 !C_C33 VS_B GND 1E-15 !C_C35 GND SAMPLE 10P "C_C36 GND CLAMP 19.8N $C_C8 GND N1842981 1E-15 $C_C9 GND N1844167 1E-15 %C_C_VIMON GND VIMON 1E-9 'C_C_VOUT_S GND VOUT_S 1E-9 $E_E3 N1842163 GND OUT GND 15G_G10 N1844987 GND CL_CLAMP N1843649 -4.44E5.G_G11 N1843991 GND N1844755 GND -3.75%G_G36 N1840739 GND VS GND -1"G_G5 CMR GND CMR_V GND -1&G_G61 N1842865 GND GND IN- -1)G_G62 VICM GND IN+ N1842865 -0.5.G_G64 N1844499 GND N1843873 GND -3.75.G_G65 N1843661 GND N1844115 GND -3.75#G_G66 CMR GND PSR_V GND -1!G_G68 SIG GND ACL GND -1)G_G69 VSENSE GND CLAMP GND -1E-3$G_G70 ACL GND VSENSE GND -1.G_G72 CLAW_CLAMP GND SAMPLE GND -1E-30G_G73 CL_CLAMP GND CLAW_CLAMP GND -1E-3+G_G8 VS_CLP GND N1842981 GND -1E-3,G_G9 GND_CLP GND N1844167 GND -1E-3+G_GB1 N1845439 GND N1845103 GND -1/G_G_CMR N1842343 GND VICM GND -2.95E-1.G_G_PSR N1840231 GND VS_B GND -2.5E-3&G_G_REF REF GND VS_B GND -0.1!I_I_Q VS GND DC 4.5E-3 *R_R107 N1840739 GND R_NOISELESS 1.R_R110 N1840739 VS_B R_NOISELESS 1E-3*R_R147 N1842865 GND R_NOISELESS 1(R_R149 REF SENS R_NOISELESS 1E6*R_R152 GND SAMPLE R_NOISELESS 1E9&R_R153 GND SW R_NOISELESS 1E9%R_R154 GND SIG R_NOISELESS 1)R_R155 CLAMP GND R_NOISELESS 1E6*R_R156 VSENSE GND R_NOISELESS 1E3%R_R157 GND ACL R_NOISELESS 1)R_R16 GND N1843991 R_NOISELESS 1&R_R160 VICM GND R_NOISELESS 1.R_R161 GND CLAW_CLAMP R_NOISELESS 1E3,R_R162 GND CL_CLAMP R_NOISELESS 1E3%R_R163 GND REF R_NOISELESS 1)R_R17 GND N1845507 R_NOISELESS 1)R_R18 GND N1844499 R_NOISELESS 1.R_R1A1 N1840231 PSR_V R_NOISELESS 1E82R_R1A10 N1843873 N1843991 R_NOISELESS 1E4/R_R1A11 N1842343 CMR_V R_NOISELESS 1E81R_R1A5 N1844115 N1844499 R_NOISELESS 1E41R_R1A6 N1844755 N1845439 R_NOISELESS 1E41R_R1B1 N1845123 N1845103 R_NOISELESS 1E41R_R1C1 N1843687 N1843661 R_NOISELESS 1E4*R_R2 N1840231 GND R_NOISELESS 1E3)R_R20 GND N1844987 R_NOISELESS 1)R_R21 GND N1843661 R_NOISELESS 1)R_R22 GND N1845439 R_NOISELESS 1,R_R29 N1842881 VS_B R_NOISELESS 1E3,R_R2A1 PSR_V GND R_NOISELESS 2.62E5/R_R2A6 GND N1843873 R_NOISELESS 3.64E3/R_R2A7 GND N1844115 R_NOISELESS 3.64E3/R_R2A8 GND N1844755 R_NOISELESS 3.64E3+R_R2A9 CMR_V GND R_NOISELESS 1.7E34R_R2B1 N1845103 N1844987 R_NOISELESS 3.64E7-R_R2C1 GND N1843687 R_NOISELESS 3E-2.R_R30 N1842981 N1842881 R_NOISELESS 1)R_R31 VS_CLP GND R_NOISELESS 1E3+R_R32 N1844093 GND R_NOISELESS 1E3.R_R33 N1844167 N1844093 R_NOISELESS 1*R_R34 GND_CLP GND R_NOISELESS 1E3)R_R35 GND VS_CLP R_NOISELESS 1E9)R_R36 N1840475 GND R_NOISELESS 11R_R37 N1840587 N1840475 R_NOISELESS 1E-31R_R38 N1840899 N1840969 R_NOISELESS 1E-3)R_R39 GND N1840969 R_NOISELESS 1*R_R40 GND GND_CLP R_NOISELESS 1E9+R_R41 GND N1843791 R_NOISELESS 1E9)R_R42 N1841345 GND R_NOISELESS 11R_R43 N1841441 N1841345 R_NOISELESS 1E-31R_R44 N1841513 N1841569 R_NOISELESS 1E-3)R_R45 GND N1841569 R_NOISELESS 1+R_R46 GND N1842767 R_NOISELESS 1E9+R_R49 GND N1845093 R_NOISELESS 1E9(R_R5 N1842343 GND R_NOISELESS 1)R_R50 N1844597 GND R_NOISELESS 11R_R51 N1844695 N1844597 R_NOISELESS 1E-31R_R52 N1844811 N1844851 R_NOISELESS 1E-3)R_R53 GND N1844851 R_NOISELESS 1+R_R54 GND N1845039 R_NOISELESS 1E9/R_R55 N1845345 VSENSE R_NOISELESS 1E-3+R_R81 GND N1841267 R_NOISELESS 1E9+R_R83 GND N1842163 R_NOISELESS 1E9.R_RDUMMY GND N1843649 R_NOISELESS 1E4/R_RX N1843649 N1845507 R_NOISELESS 1E5*R_R_IN CMR IN- R_NOISELESS 1.8E-31R_R_VIMON VIMON N1841267 R_NOISELESS 1003R_R_VOUT_S VOUT_S N1842163 R_NOISELESS 100"V_VMEAS N1840577 CMR 0VDCV_VSW SW GND +PULSE 0 1 0 300P 300P 2N 4U!V_V_GRN N1845039 GND -15 V_V_GRP N1845093 GND 15"V_V_ISCN N1842767 GND -90!V_V_ISCP N1843791 GND 90!V_V_MODE MODE GND {MODE}:X_CLAWN GND VIMON GND N1844093 CLAWN_TMCS1101A4U ;X_CLAWP VIMON GND N1842881 VS_B CLAWP_TMCS1101A4U YX_CLAW_AMP VS_CLP GND_CLP VOUT_S GND N1840475 N1840969 CLAMP_AMP_LO_TMCS1101A4U JX_CLAW_SRC N1840587 N1840899 CLAW_CLAMP GND CLAW_SRC_TMCS1101A4U YX_CL_AMP N1843791 N1842767 VIMON GND N1841345 N1841569 CLAMP_AMP_LO_TMCS1101A4U DX_CL_SRC N1841441 N1841513 CL_CLAMP GND CL_SRC_TMCS1101A4U >X_F1 IN+ N1840577 SENS REF 08_COMPLETE_A4U_F1_TMCS1101A4U \X_GR_AMP N1845093 N1845039 N1845345 GND N1844597 N1844851 CLAMP_AMP_HI_TMCS1101A4U AX_GR_SRC N1844695 N1844811 CLAMP GND GR_SRC_TMCS1101A4U BX_H3 OUT N1843649 N1841267 GND 08_COMPLETE_A4U_H3_TMCS1101A4U ,X_IOS CMR GND VICM IBP_TMCS1101A4U ;X_SAMPLEHOLD SIG SW SAMPLE SAMPLEHOLD_TMCS1101A4U DX_S_MODE MODE GND SAMPLE ACL 08_COMPLETE_A4U_S_MODE_TMCS1101A4U 3X_U1 SENS ACL GND CLAMP AOL_1_TMCS1101A4U *X_U2 GND CMR FEMT_A4_TMCS1101A4U ?X_ZO_SRC N1843687 GND GND N1845507 ZO_SRC_TMCS1101A4U '.MODEL R_NOISELESS RES (T_ABS=-273.15).ENDS TMCS1101A4U*1.SUBCKT 08_COMPLETE_A4U_F1_TMCS1101A4U 1 2 3 4 !F_F1 3 4 VF_F1 3.9886E-7VF_F1 1 2 0V&.ENDS 08_COMPLETE_A4U_F1_TMCS1101A4U*1.SUBCKT 08_COMPLETE_A4U_H3_TMCS1101A4U 1 2 3 4 H_H3 3 4 VH_H3 -1E3VH_H3 1 2 0V&.ENDS 08_COMPLETE_A4U_H3_TMCS1101A4U*5.SUBCKT 08_COMPLETE_A4U_S_MODE_TMCS1101A4U 1 2 3 4 !S_S_MODE 3 4 1 2 _S_MODERS_S_MODE 1 2 1GE.MODEL _S_MODE VSWITCH ROFF=1E12 RON=1E-6 VOFF=0.1V VON=0.9V*.ENDS 08_COMPLETE_A4U_S_MODE_TMCS1101A4U*..SUBCKT AOL_1_TMCS1101A4U VC+ VC- IOUT+ IOUT-.PARAM GAIN = 1E-2.PARAM IPOS = 30M.PARAM INEG = -30M8G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ENDS AOL_1_TMCS1101A4U*9.SUBCKT CLAMP_AMP_HI_TMCS1101A4U VC+ VC- VIN COM VO+ VO- .PARAM G=10OGVO+ 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)V(VC+,COM),((V(VIN,COM)-V(VC+,COM))*G),0)}OGVO- COM VO- VALUE = {IF(V(VIN,COM)*dd@Y@IG1[dddd??.AcA.AeAMbP?@@?,C6?,C6*?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