OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.150.0 SFB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved. $Circuit$?,[AM1]miny1=0 maxy1=0.0001 divsy1=4 scaley1=0 minx1=10 maxx1=10000 divsx1=3 scalex1=2[AM2]miny1=0 maxy1=0.015 divsy1=2 scaley1=0[VF1] miny1=-10 maxy1=10 divsy1=2 scaley1=0[VG1] miny1=-0.2 maxy1=0.2 divsy1=2 scaley1=0[Vout] miny2=-40 maxy2=120 divsy2=4 scaley2=1 miny3=-40 maxy3=120 divsy3=4 scaley3=1minx1=9.99999999999999E-11 maxx1=0.01 divsx1=8 scalex1=2 miny1=-9.5 maxy1=9.5 divsy1=2 scaley1=0 miny9=3E-6 maxy9=6E-6 divsy9=6 scaley9=0 miny10=1E-7 maxy10=1E-6 divsy10=2 scaley10=2 minx9=100 maxx9=100000 divsx9=3 scalex9=2[VM1] miny2=-20 maxy2=40 divsy2=6 scaley2=1 miny3=-20 maxy3=40 divsy3=6 scaley3=1 miny1=-2.5 maxy1=2.5 divsy1=4 scaley1=0 minx1=-2.5 maxx1=2.5 divsx1=4 scalex1=0 miny10=1E-9 maxy10=1E-7 divsy10=2 scaley10=2[All]minx1=0 maxx1=0.0005 divsx1=4 scalex1=0 miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny3=-40 maxy3=20 divsy3=3 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2 miny10=1E-9 maxy10=1E-7 divsy10=2 scaley10=2 minx10=1maxx10=1000000 divsx10=6 scalex10=2 miny1=-2.5 maxy1=2.5 divsy1=4 scaley1=0 miny4=-60maxy4=0 divsy4=2 scaley4=0minx4=1000000maxx4=1000000000 divsx4=3 scalex4=2[Out] miny2=70 maxy2=140 divsy2=7 scaley2=1 miny3=70 maxy3=140 divsy3=7 scaley3=1minx2=1 maxx2=100000 divsx2=5 scalex2=2minx3=1 maxx3=100000 divsx3=5 scalex3=2miny1=0maxy1=4 divsy1=2 scaley1=0[OUT1] miny2=-20 maxy2=40 divsy2=3 scaley2=1 miny3=-20 maxy3=40 divsy3=3 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT5] miny2=-20 maxy2=60 divsy2=4 scaley2=1 miny3=-20 maxy3=60 divsy3=4 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT4] miny2=-20 maxy2=80 divsy2=5 scaley2=1 miny3=-20 maxy3=80 divsy3=5 scaley3=1 minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT2] minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[OUT3] minx2=10maxx2=1000000 divsx2=5 scalex2=2 minx3=10maxx3=1000000 divsx3=5 scalex3=2[VG1_4] miny1=-0.04 maxy1=0.04 divsy1=2 scaley1=0[Vdiff] miny1=-0.02 maxy1=0.02 divsy1=2 scaley1=0 [Vout[1]] miny1=-10.5 maxy1=10.5 divsy1=2 scaley1=0 [Vout[2]] miny1=-10.5 maxy1=10.5 divsy1=2 scaley1=0 [Default]minx28=4.13755maxx28=4.13795 divsx28=4 scalex28=0[Vsk1] miny2=-40 maxy2=20 divsy2=2 scaley2=1 miny3=-40 maxy3=20 divsy3=2 scaley3=1[Vodif] miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny3=-40 maxy3=20 divsy3=3 scaley3=1 miny1=-1.6 maxy1=1.6 divsy1=2 scaley1=0[Voutn] miny2=-40 maxy2=20 divsy2=3 scaley2=1 miny3=-40 maxy3=20 divsy3=3 scaley3=1miny1=1.754086157maxy1=3.347029497 divsy1=2 scaley1=0[Voutp] miny2=-40 maxy2=30 divsy2=3 scaley2=1 miny3=-40 maxy3=30 divsy3=3 scaley3=1miny1=1.752966854maxy1=3.345910028 divsy1=2 scaley1=0/ @/  Arial Vhv - Barrier High VoltageSymbol????333333??A@A Arial!TINA-TI AMC1301 Reference DesignSymbol????333333??b8!??ƚL6"@Cl *PL6" EMFbZ@RpMS Sans Serif(/%ws2_32.dllMS Sans Serif|Dr`GDrDr||ppp& X[|0uAHr@IA }odv%  '%   TT AA LPT % &%  +(% % ( &%  %   +()64% '%   V,,41,41% ( % RpArial`H@@ CuArialG*A~F@@x01000000000000000~0A~*A~B~@@;F?HB~@@;F0uA@IAgdv%  %  %     Tl%AALXVodif % &%  +? c% % ( %  %   +? cd6j% '%   V,djidji% ( %     Tl?NAA?LXVoutp ? TlQ`AAQLXVoutn Q% % % %  %   +*[% %   +*[% 4"4"&%  64R"R"6Rc"c"6co"o"6oy"y"6y""6""6""6""6""6""6""6""6""6""6""6""6""6""6""6""6""6("("6(4"4"64>">"6>E"E"6EL"L"6LR"R"6RW"W"6W["["6[["["6[y"y"6y""6""6""6""6""6""6""6""6""6""6""6""6""6 " "6 ""6""6""6% 4"4"&%  64 " "6 % 44%  6 4m4m6 m% 4"4"%  6 "446 % 4"4"&%  6 "% %  %    TA[PAAALhFrequency (Hz) \A% RpArial295656192w|(Arialww @w8w|8w|PVTn *IAHJAJAtAJA0uA@IAgdv%    TX-.:=AA-.LP10;.% 4"4"%  64,R"R"6R'c"c"6c'o"o"6o'y"y"6y'""6'""6'""6'""6'% %    T`.=AA.LT100.% ""%  6,""6'""6'""6'""6'""6'""6'""6'""6'% %    TX.=AA.LP1k.% ""%  6,""6'("("6('4"4"64'>">"6>'E"E"6E'L"L"6L'R"R"6R'W"W"6W'% %    T`T.i=AAT.LT10kj.% ["["%  6[,y"y"6y'""6'""6'""6'""6'""6'""6'""6'% %    Td.=AA.LT100k.% ""%  6,""6'""6'""6'""6' " "6 '""6'""6'""6'% %    TX.*=AA.LP1M *.%  " "%  6 ,% 4"4"64% %  %    % Rp Arialdw xnw @w00<|R%w!s0uA(k@IA hJA4w<4k @k(kpLALAtALAp.@Z^@A[[AJAtA>)AlJAddv%  TwAA LdVoltage (V)  D% ( %    T`()AALT-40)% +"+"%  64"226422642264226400642264226422642264% %    T`(AALT-20)% ++%  64226422642264226400642264226422642v2v64v% %    TT"e(tAA"eLP0)e% +m+m%  64m2d2d64d2[2[64[2Q2Q64Q2H2H64H0?0?64?26266462-2-64-2$2$64$2264% %    TX (AA LP20) % ++%  64% % 44& %  6996>>6CC6HH6MM6RR6VV6[[6``6ee6jj6oo6tt6yy6~~66666666666666666666666666666  6666  6%%6**6//6446996>>6CC6HH6LL6QQ6VV6[[6``6ee6jj6oo6tt6yy6~~6666666666  6""6&&6,,6336<<6EE6PP6\\6hh6tt666666666  6666"% 4646& %  696966>6>66C6C66H6H66M6M66R6R66V6V66[6[66`6`66e6e66j6j66o6o66t6t66y6y66~6~66666666666666666666666666666666666666666666666666666666666666666666666666666666666666 6 66666666666 6 66%6%66*6*66/6/664646696966>6>66C6C66H6H66L6L66Q6Q66V6V66[6[66`6`66e6e66j6j66o6o66t6t66y6y66~6~66666666666666666776776886996;;6>>6BB6GG6NN6WW6aa6kk6ww66666666666  6""6"% 4646& %  696966>6>66C6C66H6H66M6M66R6R66V6V66[6[66`6`66e6e66j6j66o6o66t6t66y6y66~6~66666666666666666666666666666666666666666666666666666666666666666666666666666666666666 6 66666666666 6 66%6%66*6*66/6/664646696966>6>66C6C66H6H66L6L66Q6Q66V6V66[6[66`6`66e6e66j6j66o6o66t6t66y6y66~6~66666666666666666776776886996;;6>>6BB6GG6NN6WW6aa6kk6ww66666666666  6""6"% % & %  %   +L3% % ( & %  %   +L3% ( Rp Arial |(|"|||DArial,$I$,|H/\A|x]|p/==6 |@==0=x= |=]|8=B~0=x=8=FHTx=JAtAdv%  & %    TRAARLAMC1200 gain vs. bandwidth      TR-AARLAdiff = 18dB, -3dB BW = 93kHz        . T|RAARL\RL = 10k   % % % &%  %   +? c% % ( %  %   +? cd6j% '%   V,djidji% ( % ( %  %  %     Tl?NAA?LXVoutp ? TlQ`AAQLXVoutn Q% % & %  %   +(% % ( %  %   +()64% ' %   V,,41,41% ( %     Tl%AALXVodif % % % ǐ:??ƚL6"@Cl0PL6" EMFM @RpMS Sans Serif(/%ws2_32.dllMS Sans Serif|Dr`GDrDr||ppp& X[|0uAHr@IA }odv%  '%   TT AA LPT % % %  %   +*[% %   +*[% aa&%  6@a@a6@aa6% ^a^a&%  6^"a"a6"% ^8^8%  6"8% ^a^a%  6"a^^6"% %  6q@@6@q6q% ^^%  6^q""6"q% ^^%  6"% ^^%  6"^q^q6"q% ""%  6@"@"6@""6% ^"^"%  6^""""6"% ^^%  6"% ^"^"%  6""^^6"% ^"^"&%  6""% RpArial`H@@ CuArialG*A~F@@x01000000000000000~0A~*A~B~@@;F?HB~@@;F0uA@IAgdv%  &%    TAPAAAL|Barrier High Voltage (V)    A% RpArial295656192w|(Arialww @w8w|8w|PVTn *IAHJAJAtAJA0uA@IAgdv%    TTW.]=AAW.LP0VI^.% ( ^"^"%  6^,i"i"6i$u"u"6u$""6$""6$""6'""6$""6$""6$""6$% &%    T`.=AA.LT250ps.% ( ""%  6,""6$""6$""6$""6$""6'""6$""6$)")"6)$5"5"65$% &%    T`9.M=AA9.LT5000N.% ( @"@"%  6@,K"K"6K$W"W"6W$b"b"6b$m"m"6m$x"x"6x'""6$""6$""6$""6$% &%    T`.=AA.LT750 .% ( ""%  6,""6$""6$""6$""6$""6'""6$""6$ " "6 $""6$% &%    TX.)=AA.LP1k*.% ( """"%  6",% ^a^a6^% %  &%    Tl+!:AA+LXVodif=1 !+% %    Tp+YRhAA+YLX-1.25m SY% ( UaUa%  6^aZWZW6^WZMZM6^MZCZC6^C% &%    Tp+0R?AA+0LX-1.00m S0% ( U8U8%  6^8Z.Z.6^.Z$Z$6^$ZZ6^% &%    T|!RAA!L\-750.00uS% ( UU%  6^% ^^6^q% %  &%    Tl%AALXVoutnND &% % ( %  &%    Tp,RAA,LX2.5500S% ( UU%  6^ZZ6^ZZ6^ZZ6^% &%    Tp,RAA,LX2.5505S% ( UU%  6^ZZ6^ZZ6^Z{Z{6^{% &%    Tp,iRxAA,iLX2.5510Si% ( UqUq%  6^q% ^"^"6^% %  &%    Tl%AALXVoutpN_ &% % ( %  &%    Tp,R)AA,LX2.5490S% ( U"U"%  6^"ZZ6^ZZ6^ZZ6^% &%    Tp,RAA,LX2.5495S% ( UU%  6^ZZ6^ZZ6^ZZ6^% &%    Tp,RAA,LX2.5500S% ( UU%  6^% % ^^&%  6``6bb6cc6ee6gg6ii6kk6ll6nn6pp6rr6tt6vv6ww6yy6{{6}}666666666666666666666666666666666666666  6  6  6  6!!6!!6!!6!!6""6""6""6##6##6##6##6$$6$$6$$6$$6%%6%%6%%6%%6&&6&&6&&6&&6''6''6''6''6((6((6((6((6))6))6))6**6 * *6 * *6 * *6++6++6++6++6,,6,,6,,6,,6--6--6!-!-6#-#-6%.%.6'.'.6(.(.6*.*.6,/,/6././60/0/62/2/630306505067070691916;1;16<1<16>1>16@2@26B2B26D2D26E2E26G3G36I3I36K3K36M3M36N4N46P4P46R4R46T4T46V5V56X5X56Y5Y56[5[56]6]66_6_66a6a66b6b66d7d76f7f76h7h76j8j86k8k86m8m86o8o86q9q96s9s96t9t96v9v96x:x:6z:z:6|:|:6}:}:6;;6;;6;;6;;6<<6<<6<<6<<6==6==6==6==6>>6>>6>>6??6??6??6??6@@6@@6@@6@@6AA6AA6AA6AA6BB6BB6BB6BB6CC6CC6CC6CC6DD6DD6DD6DD6EE6EE6EE6FF6FF6FF6FF6GG6GG6GG6GG6HH6HH6HH6HH6II6II6II6II6JJ6JJ6JJ6JJ6KK6KK6KK6KK6LL6LL6LL6MM6MM6MM6MM6NN6NN6NN6 N N6 O O6 O O6OO6OO6PP6PP6PP6PP6QQ6QQ6QQ6QQ6 R R6"R% ^^& %  6``6bb6cc6ee6gg6ii6kk6ll6nn6pp6rr6tt6vv6ww6yy6{{6}}666666666666666666666666666666666666666666666666666666666666666666666666666666  6  6  66666666666!!6##6%%6''6((6**6,,6..6006226336556776996;;6<<6>>6@@6BB6DD6EE6GG6II6KK6MM6NN6PP6RR6TT6VV6XX6YY6[[6]]6__6aa6bb6dd6ff6hh6jj6kk6mm6oo6qq6ss6tt6vv6xx6zz6||6}}66666666666666666666666666666666666666666666666666666666666666666666666666666  6  6  66666666666  6"% ^^& %  6``6bb6cc6ee6gg6ii6kk6ll6nn6pp6rr6tt6vv6ww6yy6{{6}}666666666666666666666666666666666666666666666666666666666666666666666666666666  6  6  66666666666!!6##6%%6''6((6**6,,6..6006226336556776996;;6<<6>>6@@6BB6DD6EE6GG6II6KK6MM6NN6PP6RR6TT6VV6XX6YY6[[6]]6__6aa6bb6dd6ff6hh6jj6kk6mm6oo6qq6ss6tt6vv6xx6zz6||6}}66666666666666666666666666666666666666666666666666666666666666666666666666666  6  6  66666666666  6"% % & %  %   +h 2% % ( & %  %   +h 2% Rp Arial |(|"|||DArial,$I$,|H/\A|x]|p/==6 |@==0=x= |=]|8=B~0=x=8=FHTx=JAtAdv%  %    Tn AAn LxAMC1200 voltage-offset       Tn /AAnL|vs. barrier high-voltage      % % % v6v??ƚL6"@Cl)PL6" EMFu@RpMS Sans Serif(/%ws2_32.dllMS Sans Serif|Dr`GDrDr||ppp& X[|0uAHr@IA }odv%  '%   TT AA LPT % &%  +f<% % ( &%  %   +f<% % RpArial |(|"|||DArial,$I$,|H/\A|x]|p/==6 |@==0=x= |=]|8=B~0=x=8=FHTx=JAtAdv%  %  %     Tl%AAlLpAMC1200 AC signal     Tl(9AAl(Ltfin = 5kHz, RL = 10k      (% % % %  %   +*[% %   +*[% HH&%  61H1H61HH6% MHMH&%  6MHH6% M,M,%  6,% MHMH%  6HMM6% %  6X1161X6X% MM%  6MX6X% MtMt%  6t% MM%  6MXMX6X% %  611616% MM%  6M6% MM%  6% MM%  6MM6% ""%  61"1"61""6% M"M"%  6M""6% MM%  6% M"M"%  6"MM6% M"M"&%  6"% RpArial`H@@ CuArialG*A~F@@x01000000000000000~0A~*A~B~@@;F?HB~@@;F0uA@IAgdv%  & %    T|$ARPAA$AL\Time (s) SA% Rp Arial295656192w|(Arialww @w8w|8w|PVTn *IAHJAJAtAJA0uA@IAgdv%    TTF.L=AAF.LP0rM.% ( M"M"%  6M,X"X"6X$d"d"6d$o"o"6o${"{"6{$""6'""6$""6$""6$""6$% & %    Td.=AA.LT125u.% ( ""%  6,""6$""6$""6$""6$""6'""6$""6$""6$&"&"6&$% & %    Td*.E=AA*.LT250uF.% ( 1"1"%  61,<"<"6<$H"H"6H$S"S"6S$_"_"6_$j"j"6j'u"u"6u$""6$""6$""6$% & %    Td.=AA.LT375u.% ( ""%  6,""6$""6$""6$""6$""6'""6$""6$""6$ " "6 $% & %    Td.)=AA.LT500u*.% ( ""%  6,% MHMH6M% %  & %    T`-AALTVG1 % %    Tl@AOAA@LX-200m B@% ( DHDH%  6MHIAIA6MAI:I:6M:I3I36M3% & %    TT;$A3AA;$LP0B$% ( D,D,%  6M,I%I%6M%II6MII6M% & %    Td"AAA"LT200m B% ( DD%  6M% MM6MX% %  & %    Tlg!vAAgLXVodif !g% % ( %  & %    Tl%AAA%LX-1.60B% ( DD%  6MII6MII6MI|I|6M|% & %    Td)lA{AA)lLT0.00Bl% ( DtDt%  6MtImIm6MmIfIf6MfI_I_6M_% & %    Td)PA_AA)PLT1.60BP% ( DXDX%  6MX% MM6M% %  & %    Tl%AALXVoutn &% % ( %  & %    Td)AAA)LT1.75B% ( DD%  6MII6MII6MII6M% & %    Td)AAA)LT2.55B% ( DD%  6MII6MII6MII6M% & %    Td)AAA)LT3.35B% ( DD%  6M% M"M"6M% %  & %    Tl%AALXVoutp &% % ( %  & %    Td)A)AA)LT1.75B% ( D"D"%  6M"II6MII6MI I 6M % & %    Td)A AA)LT2.55B% ( DD%  6MII6MII6MII6M% & %    Td)AAA)LT3.35B% ( DD%  6M% % M,M,& %  6P)P)6S&S&6V#V#6Y!Y!6\\6__6bb6ee6hh6kk6nn6qq6uu6xx6{{6~~6666666666!!6##6&&6))6,,6//6226556776::6<<6??6AA6CC6DD6FF6GG6GG6HH6HH6HH6GG6GG6FF6DD6CC6AA6??6<<6::6776556226//6,,6))6 & &6 # #6!!666666""6%%6((6++6..6116446776::6==6@@6CC6FF6II6LL6OO6R!R!6U#U#6Y&Y&6\)\)6_,_,6b/b/6e2e26h5h56k7k76n:n:6q<q<6t?t?6wAwA6zCzC6}D}D6FF6GG6GG6HH6HH6HH6GG6GG6FF6DD6CC6AA6??6<<6::6776556226//6,,6))6&&6##6!!6666666666666666666666 ! !6 # #6&&6))6,% MuMu& %  6RrRr6TqTq6WnWn6[j[j6`f`f6dbdb6i_i_6m]m]6rZrZ6vYvY6{X{X6XX6YY6ZZ6\\6__6bb6ee6ii6mm6rr6vv6{{66666666666666666||6ww6ss6 n n6jj6ff6bb6__6$]$]6(Z(Z6-Y-Y61X1X66X6X6;Y;Y6?Z?Z6D\D\6H_H_6MbMb6QeQe6ViVi6ZmZm6_r_r6dvdv6h{h{6mm6qq6vv6zz6666666666666||6ww6ss6nn6jj6ff6bb6__6]]6ZZ6YY6XX6XX6YY6ZZ6\\6__6bb6ee6 i i6mm6q% MM& %  6RR6TT6WW6[[6``6dd6ii6mm6rr6vv6{{66666666666666666666666666666666  66666$$6((6--6116666;;6??6DD6HH6MM6QQ6VV6ZZ6__6dd6hh6mm6qq6vv6zz66666666666666666666666666666666  66% MM& %  6RR6TT6WW6[[6``6dd6ii6mm6rr6vv6{{666666666666  666666  6!!6""6""6!!6  666666  6  66  66666$$6((6--6116666;;6??6DD6HH6MM6QQ6VV6ZZ6__6dd6h h 6mm6qq6vv6zz66  6!!6""6""6!!6  666666  6  666666666666666666  66% % &%  %   +f<% % ( %  %   +f<% %  %    Tl%AAlLpAMC1200 AC signal     Tl(9AAl(Ltfin = 5kHz, RL = 10k      (% % % ?(8(8T_0E43049020160506145519? `88 ` 888T_0E430FD020160506145519;`H`HT_0E43139020160506145519;T_0E43175020160506145519;HHHHT_0E431B1020160506145519;H8H8T_0E431ED020160506145519;T_0E43265020160506145519;T_0E432A1020160506145519C   T_0E432DD020160506145519?T_0E43319020160506145519C0X00XXT_0E43355020160506145519;@X@XT_0E43391020160506145519;T_0E433CD020160506145519;T_0E4E643020160506145519;@X@XT_0E4E67F020160506145519;XXXXT_0E4E6BB020160506145519;`P`PT_0E4E6F7020160506145519;xXxXT_0E4E733020160506145519;T_0E4E76F020160506145519BH 0VS1T_04619C4C20110407150343 JP100 (VS)@B VS2T_04626C6C20110407150433 JP100 (VS)@ BRLT_04A94BDC20110407150634R_AX300_W100 (R)@@?Y@"BvVodifT_04C22D1420110407150738 NOPCB (VM)Bvx VoutnT_0488E97020110407151840 NOPCB (VM)Bv VoutpT_04879AC820110407151929 NOPCB (VM)DB`#VhvT_04DC43C020110407154128 JP100 (V)@@B( 3VG1T_04DFEA7020110407160109 JP100 (VG)?@V:BSp(U1!T_0000000006676A4020200507081631 AMC1301AMC1301QC:\Documents and Settings\Istvan.DESIGNSO-CORE2Q.000\Local Settings\Temp\AMC1200UAMC1301Label;;11}#}#@@d*VOUTPEY# 8 @d*VOUTNVOS_DTND V 8 @d*VDD1  @d*VINP VM IGND V @d*VINN0/I0 IGND V  @d*GND2N VM IGND V 8 @d*GND1N VM IGND V 8 @d*VDD2P  @f00h$(0h   eddeddeddedde0ddgVDD1Arial۶m۶m?gVDD2Arial۶m۶m?gGND1Arial#۶m۶m?gGND2Arial#۶m۶m?f e0ddQ`1\@Q`1\@(N*****************************************************************************O* (C) Copyright 2019 Texas Instruments Incorporated. All rights reserved. N*****************************************************************************N** This model is designed as an aid for customers of Texas Instruments. N** TI and its licensors and suppliers make no warranties, either expressed N** or implied, with respect to this model, including the warranties of M** merchantability or fitness for a particular purpose. The model is M** provided solely on an "as is" basis. The entire risk as to its quality L** and performance is with the customer O***************************************************************************** A* Released by: Analog eLab Design Center, Texas Instruments Inc.* Part: AMC1301 * Precision isolation amplifier* Date: 05/15/2019* Model Type: TINA* Simulator: TINA-TI&* Simulator Version: 7.0.30.267 SF-TI4* Datasheet: SBAS667E APRIL 2016 REVISED MARCH 2018*N****************************************************************************** version 1.31:*O***************************************************************************** * AMC1301 SUBCIRCUIT!* Precision isolation amplifier ** source AMC1301:.SUBCKT AMC1301 VOUTP VOUTN VDD1 VINP VINN GND2 GND1 VDD24XU1 POut1_11 VOCM NOut1_12 INP GND2 DFilterXD10 13 GND1 D_ZR_5V3XD9 14 GND1 D_ZR_5V3FXFilter POut1_11 NOut1_12 GND2 VDD2 VOUTN VOCM VOUTP Filter_BlockXD8 13 VINN D_D2XD7 VINN VDD1 D_D2XD6 14 VINP D_D2XD5 VINP VDD1 D_D2XD4 GND2 VOUTN D_D2XD3 VOUTN VDD2 D_D2XD2 GND2 VOUTP D_D2XD1 VOUTP VDD2 D_D2EXGain POut1_17 NOut1_19 VDD1 GND1 VDD2 GND2 INP GND2 FSO VGAINR3 GND2 GND1 100G C1 GND2 GND1 1.2P RIO VDD2 VDD1 100G CIO VDD2 VDD1 1.2P IXInput VINP VINN GND2 POut1_17 FSO VDD1 GND1 NOut1_19 Input_circuit.ENDS*.SUBCKT DFilter POut1 VOCM NOut1 INP GND2R29 20 GND2 1 GVCCS7 20 GND2 21 GND2 -1R28 22 GND2 1 GVCCS6 22 GND2 23 GND2 -1R27 24 GND2 1 GVCCS5 24 GND2 25 GND2 -1R26 26 GND2 1 GVCCS4 26 GND2 27 GND2 -1R25 28 GND2 1 GVCCS3 28 GND2 29 GND2 -1HGVCCS2 NOut1 VOCM VALUE = {IF(TIME<1N,V(30,GND2),0.5*V(INP,GND2))}R24 30 20 100K R23 22 30 100K HGVCCS1 VOCM POut1 VALUE = {IF(TIME<1N,V(30,GND2),0.5*V(INP,GND2))}R22 VOCM NOut1 1 R21 POut1 VOCM 1 C15 23 31 342.857143F R20 31 22 100K R19 GND2 23 200K !C16 31 INP 342.857143F R18 32 24 200K C14 21 GND2 600F C13 20 32 16.3P R17 21 32 200K R12 33 26 200K C12 25 GND2 1.8P C11 24 33 5.7P R9 25 33 200K R8 34 28 200K C10 27 GND2 2.6P C9 26 34 3.8P R7 27 34 200K R6 35 INP 200K C6 29 GND2 3.1P C4 28 35 3.2P R5 29 35 200K .ENDS8.SUBCKT Filter_Block INP INN GND2 VDD2 VOUTN VOCM VOUTPVPSref 57 GND2 5R21ops 43 0 999 L2ops 43 0 7.949789U NXOutputp VM_37 Neg_44 IGND_41 Bias IAVDD_42 VOUTP VDD2 Plus_45 GND2 Vt0p Vt0 + Output C7 46 47 3.64P EVCVS2 46 GND2 49 GND2 1EVCVS1 48 GND2 50 GND2 1R16 51 INP 200K C8 50 49 1.493333P R15 47 INN 200K R14 49 47 200K C5 48 51 3.64P R11 50 51 200K NXOutputn VM_37 Neg_52 IGND_41 Bias IAVDD_42 VOUTN VDD2 Plus_53 GND2 Vt0p Vt0 + Output R8 54 48 200K 'Epsp VOCM Plus_45 Veps_36 0 -1'Epsn Plus_53 VOCM Veps_36 0 -1R2ops Veps_36 43 1 R11ops 55 0 1 L1ops 55 0 795.774715U R1ops 56 55 1 G2ops 0 Veps_36 56 0 1%G1ops 0 56 57 VDD2 19.952511UC3 54 58 4.76P R7 58 46 200K %C4 VOUTP Neg_44 1.026667P R6 Neg_44 58 100K R5 VOUTP 58 200K %C2 VOUTN Neg_52 1.026667P R3 Neg_52 54 100K R2 VOUTN 54 200K EXBias IAVDD_42 VDD2 IGND_41 GND2 Bias VM_37 Vt0p Vt0 VOCM Bias.ENDSB.SUBCKT Output VM Neg IGND Bias IAVDD OUT VDD2 Plus GND2 Vt0p Vt0&VAM2 63 VGN_61 ; Current Arrow#VAM1 66 OUT ; Current Arrow!Vo21 IAVDD 69 695.218247M Vo22 64 IGND 695.218247M$XD5 VGP_60 VDD2 D_LIM100_05$XD3 GND2 VGN_61 D_LIM100_05"XD6 62 VGP_60 D_LIM100_05XD1 64 VV_59 D_LIM1"XD4 VGN_61 65 D_LIM100_05RO2 VDD2 67 10 RO1 68 GND2 10 XD2 VV_59 69 D_LIM1"C33 VV_59 VM 15.915494F ,XT7 66 VGP_60 67 VDD2 Q_PMOS_OUT_L1+ PARAMS: M=25 W=20U L=0.8U-XT2 OUT VGN_61 68 GND2 Q_NMOS_OUT_L1+ PARAMS: M=25 W=20U L=0.8UFEVMP2 VDD2 62 VALUE = {LIMIT(1.02*V(VDD2,Vt0p),0,V(VDD2,GND2))}EEVMN2 65 GND2 VALUE = {LIMIT(1.02*V(Vt0,GND2),0,V(VDD2,GND2))}Ro23 VM Neg 100G Ro22 Plus VM 100G Ro21 Neg Plus 1G Co21 Neg Plus 10F %Rdn2 VGP_60 Vt0p 2.041402MEG *Gdn2 Vt0p VGP_60 VM VV_59 146.95U Rdn1 63 Vt0 2.041402MEG %Gdn1 Vt0 63 VM VV_59 146.95UCf5 OUT 63 1P Cf4 VGP_60 OUT 1P Co23 VM Neg 10F RCo23_RPAR VM Neg 1TCo22 Plus VM 10F RCo22_RPAR Plus VM 1TR83 VV_59 VM 100K #G23 VM VV_59 Plus Neg 10U.ENDS8.SUBCKT Bias IAVDD VDD2 IGND GND2 Bias VM Vt0p Vt0 VOCMVS2 83 84 1.2 XU5 0 Vocmtemp VOCMTEMPcEVSOCM VOCM GND2 VALUE = {LIMIT(V(Vt0,GND2)*2,0,(1.4445-1.3636M*V(VDD2,GND2))*V(Vocmtemp,0))}=GIb2 IGND Bias VALUE = {48.98M*V(VDD2,GND2)+730.612M}(Rb3 Bias IGND 1 TC=1.87M,-3.77UR3 84 GND2 10MEG R2 VDD2 85 10MEG 0EVCVS1 VM IGND VALUE = {0.5*V(IAVDD,IGND)}0EAVDD IAVDD IGND VALUE = {5*V(Bias,IGND)}EGND IGND 0 GND2 0 1EBMG 86 GND2 Vt0 GND2 1,XT4 85 85 VDD2 VDD2 Q_PMOS_OUT_L1_1+ PARAMS: M=1 W=10U L=4U -XT1 VT1 86 GND2 GND2 Q_NMOS_OUT_L1_1+ PARAMS: M=32 W=21U L=0.8U,XT3 84 84 GND2 GND2 Q_NMOS_OUT_L1_2+ PARAMS: M=1 W=10U L=4U XD2 83 85 D_LIM1_1"Rsp1 VDD2 VT1 704.989154G !GIb1 85 84 Bias IGND 10URpsrr1 85 84 10MEG !EVMP1 Vt0p VDD2 85 VDD2 1 EVMN1 Vt0 GND2 84 GND2 1.ENDS?.SUBCKT Input_circuit VINP VINN GND2 POut1 FSO VDD1 GND1 NOut1VCMref CMref GND1 667MVPSref 112 GND1 5Rint21 95 Neg_96 8.8K Rint11 97 Plus_98 8.8K Cin1 97 95 12.8P QGVCCS1 IGND_88 FSO VALUE = {IF(V(VM_90,IGND_88)<1.6|V(99,IGND_88)<0.5,1,0)}R11 FSO IGND_88 1 ,XU2 VDD1 VICM 99 IGND_88 HYSTCOMPGD@+ PARAMS: VTHRES=2 VHYST=10M VOUTH=1 VOUTL=0 ROUT=100 DELAY=1N `Eios 100 97 VALUE = {V(Vecm,0)+V(Venoise,0)+50.1187N*V(GND1,GND2)+V(VOS,0)+V(Veps_91,0)}L3 101 0 3.248354U R10 101 0 999 R9 Venoise 101 1 )Gnoise 0 Venoise 0 102 233.333333ML2 103 0 6.366198U R8 103 0 4 R7 Veps_91 103 1 G88ps 0 Veps_91 0 104 1%Rfb1 97 NOut1 44K TC=21.6667U#Rfb2 95 105 44K TC=21.6667U%Rint1 VINP 100 11K TC=21.6667U$Rint2 VINN 95 11K TC=21.6667U.Eps 105 POut1 POLY(1) Veps_91 0 0 1N R6 107 0 600M L1 107 0 596.831037U R5 104 107 1 C2 108 0 294.7314U R4 108 0 9 R3 109 108 1 R210 110 0 400M L4 110 0 454.728409N R20 Vecm 110 1 G88 0 109 0 Vecm 1'G8ps 0 104 112 VDD1 19.952623U*G8 0 Vecm CMref VLCM 27.925402UXU5 0 VOS VOSTR2 VICM VINN 1G R1 VINP VICM 1G -Enoise POut 105 POLY(1) Venoise 0 0 10 Rnoise2 102 0 4.8263MEG Rnoise1 102 0 4.8263MEG 4XBias GND1 IGND_88 IAVDD_94 VM_90 VDD1 Bias_1C37 VINN GND1 1P C38 VINP GND1 1P Cfb2 Neg_96 POut 2.6P !Cfb1 Plus_98 NOut1 2.6P NXInput1 VM_90 Neg_96 IGND_88 VLCM IAVDD_94 NOut1 VDD1 POut Plus_98 GND1 VICM + Input1 .ENDS'.SUBCKT Bias_1 GND1 IGND IAVDD VM VDD1IS1 114 GND1 4.8144M%EVSVM VM IGND IAVDD IGND 330M?EAVDD IAVDD IGND VALUE = {LIMIT(5*(V(VDD1,GND1)-2),5,0)}*Rs4 114 GND1 1.785714K TC=-6M,20UXD1 GND1 114 D_D4XDZb1 114 VDD1 D_ZB1EGND IGND 0 GND1 0 1.ENDSD.SUBCKT Input1 VM Neg IGND VLCM IAVDD NOut VDD1 POut Plus GND1 VICM$VIvcvs3 120 118 ; Current Arrow$VIvs1 116 121 ; Current Arrow"VS1 121 IGND -598.634215M"VdrophO1 IAVDD 124 915.387691M!VdroplO1 123 IGND 915.387691MXD6 116 117 D_LIMCMXD5 117 118 D_LIMCMXD3 116 119 D_LIMCM=GVCCS1 IGND 119 VALUE = {5U*(V(Plus,IGND)-V(119,IGND))}.SUBCKT Q_PMOS_OUT_L1 D G S B PARAMS: M = 1 W = 100U L = 10U*_L12M1 D G S B Q_PMOS_Out_L1 W = {W} L = {L} M = {M} 2*AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} `*M1 D G S B Q_PMOS_Out W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} *+ NRD={LS/W} NRS={LS/W}.ENDS*$>.SUBCKT Q_NMOS_OUT_L1 D G S B PARAMS: M = 1 W = 100U L = 10U3M1 D G S B Q_NMOS_Out_L1 W = {W} L = {L} M = {M} 2*AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} a*M1 D G S B Q_NMOS_Out W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} *+ NRD={LS/W} NRS={LS/W}.ENDS*$.SUBCKT VOCMTEMP 1 2.PARAM R0 = {1/1.44}GVocmtemp 1 2 table {TEMP} = (-40.2880,1.43593, -10.0524,1.43840, 5.20942,1.43938, 35.1571,1.44012, 64.8168,1.44062, 79.7906,1.44086, 95.0524,1.44062, 110.026,1.44012, 125,1.43963)Rout 1 2 {R0}.ENDS@.SUBCKT Q_PMOS_OUT_L1_1 D G S B PARAMS: M = 1 W = 100U L = 10UbM1 D G S B Q_PMOS_Out_L1 W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} + NRD={LS/W} NRS={LS/W}.ENDS*$@.SUBCKT Q_NMOS_OUT_L1_1 D G S B PARAMS: M = 1 W = 100U L = 10UcM1 D G S B Q_NMOS_Out_L1 W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} + NRD={LS/W} NRS={LS/W}.ENDS*$@.SUBCKT Q_NMOS_OUT_L1_2 D G S B PARAMS: M = 1 W = 100U L = 10Ud*M1 D G S B Q_NMOS_Out_L1 W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} cM1 D G S B Q_NMOS_Out_L1 W = {W} L = {L} M = {M} AD={W*LS} AS={W*LS} PD={W + 2*LS} PS={W + 2*LS} + NRD={LS/W} NRS={LS/W}.ENDS*$.SUBCKT D_LIM1_1 1 2D1 1 2 D_Lim1.ENDS*$$.SUBCKT HYSTCOMPGD inp inm out gnd ;+ Params: Vthres=0 Vhyst=1 VoutH=5 VoutL=0 Rout=1 Delay=1N*.PARAM MinADel = {1n}#.PARAM Tdel = {MAX(Delay,MinADel)}=.Param Rdel = {IF ( (Tdel > 1E-15) & (Rout < 1), 1, Rout ) }.Param VoutM={(VoutH+VoutL)/2}.Param VthH={Vthres+Vhyst}.Param VthL={Vthres-Vhyst}%.Param Cout={Tdel/(0.693*(Rdel+1u))}.Param Gdlh={1/Rdel}.Param Gdhl={1*Gdlh}*CGthr gnd thr Value= { IF ( V(out,gnd) < {VoutM}, {VthH}, {VthL}) }Rthr gnd thr 1oGout gnd out Value= { IF ( (V(inp,inm) > V(thr,gnd)), (VoutH - V(out,gnd))*Gdlh, (VoutL - V(out,gnd))*Gdhl ) }Cout out gnd {Cout}Rout out gnd {1e5*Rdel}.ENDS.SUBCKT VOST 1 2**OFFSET VOLTAGE, VOS = 50 250 UV AMC13012*VS TEMPERATURE DVOS/DT = 1.0 3.0 UV/C AMC1301.PARAM I0 = 1M.PARAM DVOS_DT= {-1.0U}%*.PARAM VOFFS = {165.0U + 2*DVOS_DT}#.PARAM VOFFS = {44.0U + 2*DVOS_DT}.PARAM R0 = {VOFFS/I0}.PARAM TC1= {DVOS_DT/R0/I0}R2 40 0 RMOD2 {R0} I2 40 0 {I0}E3 1 2 40 0 1).MODEL RMOD2 RES (TC1={TC1} TC2=0 TCE=0).ENDS.SUBCKT D_D4 1 2 D1 1 2 DD/.MODEL DD D( IS=10n N=0.50 RS=1 XTI=0 Eg=0.55) .ENDS D_D.SUBCKT D_ZB1 1 2D1 1 2 D_4_9V CD 1 2 10P9.MODEL D_4_9V D( IS=1n N=1.0 BV=2.9 IBV=1.0m RS=0 XTI=0).ENDS .SUBCKT D_LIMCM 1 2D1 1 2 D_Limcm=.MODEL D_LIMcm D( IS=1p N=1.0 RS=100 XTI=0 AF=0 KF=0 EG=1.1).ENDS.SUBCKT D_LIM1T 1 2D1 1 2 D_Lim1T.ENDS?.MODEL D_LIM1T D( IS=10F N=1.0 RS=10 XTI=0 AF=0 KF=0 EG=0.555)*$*Parameters: 0.4um CMOS.PARAM LS = 1.0U.PARAM VTOHP = 0.75.PARAM VTOHN = 0.75.PARAM LAMBDA = 10M.PARAM GAMMA = 0.00.PARAM KAPPA = 1.0.PARAM THETA = 0.23.PARAM ETA = 3.PARAM KPN = {UON*COX * 1e-4}.PARAM KPP = {UOP*COX * 1e-4}.PARAM LDN = 0.09U.PARAM LDP = 0.09U.PARAM RSW = 1810.PARAM RSN = 1.41.PARAM RDS = 10MEG.PARAM VBMUL = 1E6.PARAM RPAR = 1T.PARAM CBDJ = 1.0 .PARAM CBDS = 1.0.PARAM CGBF = 1.0.PARAM PBP = 0.7.PARAM PBN = 0.7.PARAM UON = 450.PARAM UOP = 450*.PARAM UOP = 150*.PARAM CJN = {200U}.PARAM CJP = {400U} .PARAM CJSWN = {1.2N}.PARAM CJSWP = {2.4N}.PARAM XJN = 0.15U.PARAM CGSON = {0.6*XJN*COX} .PARAM CGDON = {CGSON}.PARAM CGBON = {CGBF*CGDON}.PARAM XJP = 0.18U.PARAM CGSOP = {0.6*XJP*COX} .PARAM CGDOP = {CGSOP}.PARAM CGBOP = {CGBF*CGDOP}'.PARAM EPSSIO2 = {3.9*8.854214871E-12}.PARAM TOX = 80E-10.PARAM COX = {EPSSIO2/TOX}*$F.MODEL Q_NMOS NMOS Level=1 L=2U W=10U KP={KPN} VTO={VTOHN} AF=0 KF=0*$G.MODEL Q_PMOS PMOS Level=1 L=2U W=10U KP={KPP} VTO={-VTOHP} AF=0 KF=0*$T.MODEL Q_NMOS_Out_L1 NMOS LEVEL=1 L=10U W=100U KP={KPN} VTO={VTOHN} LAMBDA={LAMBDA}W+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} RSH= 4 PB={PBN} LD= {LDN} RDS={RDS} *$O.MODEL Q_NMOS_Out NMOS LEVEL=3 L=10U W=100U KP={KPN} VTO={VTOHN} THETA={THETA}i+ CJ={CJN} CJSW={CJSWN} CGSO={CGSON} CGDO={CGDON} RSH= 4 PB={PBN} LD= {LDN} RDS={RDS} TOX={TOX} XJ={XJN}(+ GAMMA={GAMMA} KAPPA={KAPPA} ETA={ETA}*$U.MODEL Q_PMOS_Out_L1 PMOS LEVEL=1 L=10U W=100U KP={KPP} VTO={-VTOHP} LAMBDA={LAMBDA}V+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} RSH=4 PB={PBP} LD= {LDP} RDS={RDS} *$P.MODEL Q_PMOS_Out PMOS LEVEL=3 L=10U W=100U KP={KPP} VTO={-VTOHP} THETA={THETA}h+ CJ={CJP} CJSW={CJSWP} CGSO={CGSOP} CGDO={CGDOP} RSH=4 PB={PBP} LD= {LDP} RDS={RDS} TOX={TOX} XJ={XJP}(+ GAMMA={GAMMA} KAPPA={KAPPA} ETA={ETA}*$?.MODEL D_Lim1 D( IS=10F N=1.0 RS=1000 XTI=0 AF=0 KF=0 EG=1.11)*$@.MODEL D_Lim100 D( IS=10F N=1.0 RS=100 XTI=0 AF=0 KF=0 EG=1.11)*$B.MODEL D_Lim1005 D( IS=10F N=0.5 RS=100 XTI=0 AF=0 KF=0 EG=0.555)D.MODEL D_Lim100_05 D( IS=10F N=0.5 RS=100 XTI=0 AF=0 KF=0 EG=0.555)*$>.MODEL D_Lim10 D( IS=10F N=1.0 RS=10 XTI=0 AF=0 KF=0 EG=1.11)*$>.MODEL D_Lim2 D( IS=10f N=0.5 RS=1 XTI=0 AF=0 KF=0 EG=0.555 )*$6.MODEL D_Lim3 D( IS=1E-18 N=1.0 RS=1 XTI=0 AF=0 KF=0)*$5.MODEL D_Lim4 D( IS=10F N=1.0 RS=1m XTI=0 AF=0 KF=0)*$0.MODEL D1 D( IS=1p N=1.0 RS=0 XTI=3 AF=0 KF=0 )*$;.MODEL DZ_14V D( IS=1p N=1.0 BV=14.0 IBV=5.0M XTI=0 RS=10);.MODEL DZ_80V D( IS=1p N=1.0 BV=80.0 IBV=5.0M XTI=0 RS=10)*$&.MODEL D2 D( IS=1p N=1.0 XTI=0 RS=10)VINNVINPVOUTNVOUTPGND1VDD1VDD2GND2BoVDD2T_03A13A1820110407150018 NOPCB (J)Bo` VDD1T_04B3A9F020110407150018 NOPCB (J)Bo`GND2T_02A604B420110407150018 NOPCB (J)Bo``GND1T_04B3199020110407150018 NOPCB (J)Bo`GND1T_04B31C6420110407150018 NOPCB (J)BoGND2T_0458233420110407150113 NOPCB (J)Bo8GND1T_0458825420110407150125 NOPCB (J)Bo ` GND1T_045997DC20110407150228 NOPCB (J)BoH VDD1T_04614A5420110407150329 NOPCB (J)BoVDD2T_04C423A420110407150815 NOPCB (J)Bo GND2T_04D408EC20110407151859 NOPCB (J)BoGND2T_04DF85F820110407151951 NOPCB (J)8?V ư>?ư>*d@@Y@Vhv[dddd$@?.A.A.AeAMbP?@@?Mb@?ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#;@& .>-q=ư>MbP?-q=MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F,@?+= _BKH9$@Y@#B ;ư>?.AMbP??????I@MbP??Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname