OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.80.273 SFB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved. $Circuit$?[VF1]miny2=0 maxy2=100000 divsy2=4 scaley2=0miny4=0 maxy4=100000 divsy4=4 scaley4=0[VM1] miny2=0.001 maxy2=100 divsy2=5 scaley2=2 miny4=0.001 maxy4=100 divsy4=5 scaley4=2 minx2=100000maxx2=999999999.999999 divsx2=4 scalex2=2 minx4=100000maxx4=999999999.999999 divsx4=4 scalex4=2_f}˷|˷??ƚ=%Ol$=% EMF(f @RpArial <xDB`(eCeC &Arial IL I< Bbvi\ _ H\ _ _ 0v \mvQmvqX}+$0\iZHIxE H$IE dv%  % RpArial 0800Arial000 w WL/ w%wA> wUA>I'WH00JA[@w6? ?dv%  % %  % %  % %  % %  % %  % %  % %  % %  % %  % %  % ;;&%  '%   6;[[6[mm6mzz6z66666666666666  6 66--6-@@6@MM6MWW6W__6_ff6fmm6mrr6rww6www6w66666666% ;;&%  6;6% ;;%  6;;6;;6;;6;h;h6h;J;J6J;-;-6-% ;;%  6;;6% ;;&%  6% % %  &%  %     TC$AALhFrequency (Hz) D% % %  %     Tx4aAA4L\100.00ka% ( ;;%  6;[[6[mm6mzz6z66666% % &%  %     TlAALX1.00M % ( %  66666666  6 % % &%  %     Tp.AALX10.00M .% ( %  6--6-@@6@MM6MWW6W__6_ff6fmm6mrr6r% % &%  %     TxpAApL\100.00M % ( ww%  6w66666666% % &%  %     TlAALX1.00G % ( %  6% ;;6;% % %  &%  %     % RpArial*vb!w%w%w%wU %w WL%w0s 6 wWL %wU w%w!K  w!K}$a w!Ky Lq'C!Ky LBy 'C#/@2]@4ɱѱBDk dv%  ThAA L`Gain (dB) 7% ( %  % % %  %     Tl0AALX-8.001% ( 33%  6;886;886;886;% % &%  %     Tl0AALX-6.001% ( 33%  6;886;886;886;% % &%  %     Tl0AALX-4.001% ( 33%  6;886;886;886;% % &%  %     Tl0AALX-2.001% ( 33%  6;886;886;886;% % &%  %     Td}0AA}LT0.001}% ( 33%  6;8~8~6;~8v8v6;v8o8o6;o% % &%  %     Td_0mAA_LT2.001_% ( 3h3h%  6;h8`8`6;`8Y8Y6;Y8R8R6;R% % &%  %     TdB0PAABLT4.001B% ( 3J3J%  6;J8C8C6;C8<8<6;<85856;5% % &%  %     Td%03AA%LT6.001%% ( 3-3-%  6;-8&8&6;&886;886;% % &%  %     Td0AALT8.001% ( 33%  6;% % ;-;-&%  6<-<-6=-=-6>->-6?-?-6@-@-6A-A-6B-B-6C-C-6D-D-6F-F-6G-G-6H-H-6I-I-6J-J-6K-K-6L-L-6M-M-6N-N-6O-O-6P-P-6Q-Q-6R-R-6S-S-6T-T-6U-U-6V-V-6W-W-6X-X-6Z-Z-6[-[-6\-\-6]-]-6^-^-6_-_-6`-`-6a-a-6b-b-6c-c-6d-d-6e-e-6f-f-6g-g-6h-h-6i-i-6j-j-6k-k-6l-l-6n-n-6o-o-6p-p-6q-q-6r-r-6s-s-6t-t-6u-u-6v-v-6w-w-6x-x-6y-y-6z-z-6{-{-6|-|-6}-}-6~-~-6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6--6 - -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/-/-60-0-61-1-62-2-63-3-64-4-65-5-67-7-68-8-69-9-6:-:-6;-;-6<-<-6=-=-6>->-6?-?-6@-@-6A-A-6B-B-6C-C-6D-D-6E-E-6F-F-6G-G-6H-H-6I-I-6K-K-6L-L-6M-M-6N-N-6O-O-6P-P-6Q-Q-6R-R-6S-S-6T-T-6U-U-6V-V-6W-W-6X-X-6Y-Y-6Z-Z-6[-[-6\-\-6]-]-6_-_-6`-`-6a-a-6b-b-6c,c,6d,d,6e,e,6f,f,6g,g,6h,h,6i,i,6j,j,6k,k,6l,l,6m,m,6n,n,6o,o,6p,p,6q,q,6s,s,6t,t,6u,u,6v,v,6w,w,6x,x,6y,y,6z,z,6{,{,6|,|,6},},6~,~,6,,6,,6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6++6,,6,,6,,6,,6--6--6--6..6//6//6006116116226336556666776996::6<<6>>6@@6BB6DD6GG6JJ6LL6OO6SS6VV6YY6]]6aa6dd6hh6mm6qq6uu6zz6~~6666666666666666666666RpMS Sans SerifwtI    MS Sans Serif    @TGT@H4 w4lw4h4D)v@TG|dv%  % % % 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,77,18,3F0=Texas Instruments F1=THS4541F5=07/06/2018F6=1F7=1u*@u* Arial=Please see inside the model netlist for parameters that are being modeled. Symbol????333333??;8888T_0C03E18020140723163237?(8(88T_0C03E54020140723163237?T_0C03ECC020140723163237?T_0C03F08020140723163237;ppT_0C03F44020140723163237;T_0C03F80020140723163237;T_0C03FBC020140723163237?p0pp0T_0C03FF8020140723163237;(8(8T_0C04034020140723163237?8p8ppT_0C04070020140723163237?T_0C040AC020140723163237CxxT_0C040E8020140723163237C(x0((0x0T_0C04124020140723163237;((((T_0C04160020140723163237;T_0C0419C020140723163237?8 p88 p p8T_0C041D8020140723163237?(h(hhT_0C04214020140723163237;T_0C042C8020140723163237;((((T_0C04304020140723163237;P@P0P@P0T_0C04340020140723163237?P P  T_0C0437C020140723163237;8p88p8T_0C043F4020140723163237;8(8(T_0C04430020140723163237?p80hp8ph0hT_0C0446C020140723163237 BR2T_07FF8BB020120218055814R_AX300_W100 (R)@@@?Y@ BC1T_07FF919020120218055823C_RAD200_L300_W100_Red (C)-q=@eAY@?B VG1T_07FFA33020120218055916 JP100 (VG)?cAdy=0BPTRCT1T_0B4B810020140625170130EE20_1P_2S (TRCT)? BR1T_0B4B8CC020140625170255R_AX300_W100 (R) y@@?Y@ BhR3T_0B4B92A020140625170347R_AX300_W100 (R) y@@?Y@ BR4T_0B4B988020140625170559R_AX300_W100 (R) i@@?Y@ B(R5T_0B4B9E6020140625170608R_AX300_W100 (R) i@@?Y@DBP V1T_0B4BCD6020140625171419 JP100 (V)@DB V2T_0B4BEAC020140625171450 JP100 (V)DB8 V3T_0B4BFC6020140625171504 JP100 (V)@DB V4T_0B4C13E020140625171659 JP100 (V)"Br($VM1T_0B4DD34020140723160609 Vmet (VM):BI4U1T_0B4BD34020140723162132 THS4541THS4541*\\tsclient\Z\temp\THS4541\THS4541_HT1.cirSCK#THS4541Label K;I94d*VINP 1997 Design 0 @d*VINM  @d*PD 88 @d*VCC ( @d*VOUTM@H( @d*VOUTP@H @d*VOCM(7D  @d*VEEffXL (8 @ h H800g"- Courier New2?g"+ Courier New)?g"+ Courier New%?g"+ Courier New2?g"- Courier New ?gVocmArial$I$I?g"- Courier New%#?e802,dd~-stn@~-stn@` * THS4541N*****************************************************************************J* (C) Copyright 2018 Texas Instruments Incorporated. All rights reserved.N*****************************************************************************H** This model is designed as an aid for customers of Texas Instruments.K** TI and its licensors and suppliers make no warranties, either expressedH** or implied, with respect to this model, including the warranties of F** merchantability or fitness for a particular purpose. The model isK** provided solely on an "as is" basis. The entire risk as to its quality)** and performance is with the customer.N******************************************************************************'** Released by: Texas Instruments Inc.* Part: THS4541* Date: 07/06/2018* Model Type: All In One* Simulator: Pspice* Simulator Version: 17.2* EVM Order Number: N/A * EVM Users Guide: N/A * Datasheet: August 2014** Model Version: 2.0*N****************************************************************************** * Updates:** Version 1.0 : Release to Web&* 2.0 : Improving Convergence*N***************************************************************************** * Notes:,* 1. The following parameters are modeled: J* Input Offset Voltage, Input Bias Current, Input Bias Current Offset M* Current Consumption, Frequency Response, Voltage Noise, Current Noise, J* Slew Rate, Large Signal Bandwidth, CMRR, PSRR, Input Resistance and G* Cap, Input range, Output Impendance, Output swing, Output currentM* CMFB frequency response, CMFB Slew Rate, CMFB offset, CMFB ib current, =* CMFB input resistance and capacitance, CMFB input range*0* 2. The following parameters are not modeled: * Harmonic Distortion N*****************************************************************************6.subckt THS4541 VOUTM VOUTP VOCM VINM VINP VEE VCC PD6XI0 VOUTM VOUTP VOCM VINM VINP VEE VCC PD THS4541_HT1.ends.subckt BALUN V VCM VN VPR9 V NET023 1e-6R4 NET035 VCM 1e-6R5 NET023 NET016 1e-6R3 NET027 VN 1e-6R6 0 NET021 1e-6R7 NET023 NET019 1e-6R8 0 NET017 1e-6R1 NET022 VP 1e-6;XTRANSFORMEREK0 NET016 NET021 NET022 NET035 TRANSFORMEREK0;XTRANSFORMEREK1 NET019 NET017 NET035 NET027 TRANSFORMEREK1 .ends BALUN/.subckt THS4541_SWITCHES_HT1 PD VCC VEE IN OUT)XAHDLINV3 PD PDINV VCC VEE HPA_INV_IDEAL*XAHDLI0 PDINV OUT 0 sw_l4 PARAMS: VON=1.1)XAHDLI34 PD OUT IN sw_l4 PARAMS: VON=1.1.ends THS4541_SWITCHES_HT12.subckt THS4541_IQ_HT1 PD VCC VCCMAIN VEE VEEMAIN,X1 PD PDINV VCC VEE LOGIC1 0 DIGLEVSHIFTINVVLOGIC1 LOGIC1 0 1G1 VCCMAIN VEEMAIN VALUE = J+ { ( 9.1e-3 + 200e-6*V(VCC,VEE) ) * ( 1-V(PDINV) ) + 5e-6 * V(PDINV) } .*G0 NET4 NET7 POLY(1) VCC VEE 9.1e-3 200e-6*I2 NET037 NET051 5e-64*XAHDLI3 PDINV NET051 VEEMAIN sw_l4 PARAMS: VON=1.1+*XAHDLI5 PD 0 NET037 sw_l4 PARAMS: VON=1.1+*XAHDLI6 PD NET051 0 sw_l4 PARAMS: VON=1.14*XAHDLI7 PDINV VCCMAIN NET037 sw_l4 PARAMS: VON=1.10*XAHDLI23 PD NET7 VEEMAIN sw_l4 PARAMS: VON=1.1-*XAHDLI38 PDINV 0 NET4 sw_l4 PARAMS: VON=1.1-*XAHDLI39 PDINV NET7 0 sw_l4 PARAMS: VON=1.10*XAHDLI22 PD VCCMAIN NET4 sw_l4 PARAMS: VON=1.1**XAHDLINV3 PD PDINV VCC VEE HPA_INV_IDEAL.ends THS4541_IQ_HT1*.subckt THS4541_ZIN_HT1 IN1 IN2 OUT1 OUT2C6 OUT1 OUT2 850e-15C8 OUT2 0 1e-15C7 0 OUT1 1e-15R10 IN2 OUT2 100e-3R9 IN1 OUT1 100e-3R5 OUT1 OUT2 110e3.ends THS4541_ZIN_HT1;.subckt THS4541_CMFB_VINRANGE_HT1 VCC VEE VIH VIL VIN VOUTR0 VIN NET011 1e-3XD6 VIL NET011 DIDEAL1XD7 NET011 VIH DIDEAL1V0 NET011 VOUT 0V14 VIL VEE 870e-3V12 VCC VIH 1.09 .ends THS4541_CMFB_VINRANGE_HT1H.subckt THS4541_CMFB_HT1 VCC VEE VOCM VOUT VOUTM VOUTP CMFBVIHVILSIGNAL8XAHDLI43 NET041 NET036 CMFBVIHVILSIGNAL VCC VEE HPA_OR25XAHDLI41 NET026 NET045 NET041 VCC VEE HPA_COMP_IDEAL5XAHDLI42 NET042 NET026 NET036 VCC VEE HPA_COMP_IDEALV0 NET029 VOCM 2e-3V22 VIH NET045 10e-3V23 NET042 VIL 10e-3I3 0 VOCM 1e-15 (V(VDD)+V(VSS))/2, V(VSS), V(VDD) ) }.ENDS+.SUBCKT HPA_COMP_IDEAL INP INN OUT VDD VSS=E1 OUT 0 VALUE = { IF( (V(INP) > V(INN)), V(VDD), V(VSS) ) }.ENDS$.SUBCKT sw_l4 S A B PARAMS: VON=1.1S1 A B S 0 VSWITCH2?.MODEL VSWITCH2 VSWITCH Roff=1e9 Ron=1e-3 Voff=-0.01 Von={VON}.ENDS.SUBCKT TRANSFORMEREK0 1 2 3 4 K1 L1 L2 0.5 L1 1 2 10uH L2 3 4 10uH.ends.SUBCKT TRANSFORMEREK1 1 2 3 4 K1 L1 L2 0.5 L1 1 2 10uH L2 3 4 10uH.ends*.MODEL DIDEAL1 D N=10m*.MODEL DIDEAL2 D N=0.1m;.SUBCKT DIGLEVSHIFTINV 1 2 VDD_OLD VSS_OLD VDD_NEW VSS_NEWRE1 3 0 VALUE = { IF( V(1) > (V(VDD_OLD)+V(VSS_OLD))/2, V(VSS_NEW), V(VDD_NEW) ) } R1 3 2 1 C1 2 0 1p.ENDS>.SUBCKT THS4541_GmItail_HT1 VINP VINM IOUTP IOUTM VCC VEE PD,X1 PD PDINV VCC VEE LOGIC1 0 DIGLEVSHIFTINVVLOGIC1 LOGIC1 0 1.PARAM ITAILMAX_X1 = { 3.0 }.PARAM ITAILMAX_Y1 = { 590m }.PARAM ITAILMAX_X2 = { 5.0 }.PARAM ITAILMAX_Y2 = { 680m }.PARAM ITAILMAX_SLOPE = D+ { ( ITAILMAX_Y2 - ITAILMAX_Y1 ) / ( ITAILMAX_X2 - ITAILMAX_X1 ) }.PARAM ITAILMAX_INTCP = 1+ { ITAILMAX_Y1 - ITAILMAX_SLOPE * ITAILMAX_X1 }EITAILMAX ITAILMAX 0 VALUE = 4+ { ITAILMAX_SLOPE * V(VCC,VEE) + ITAILMAX_INTCP }.PARAM ITAILMIN_X1 = { 3.0 }.PARAM ITAILMIN_Y1 = { 590m }.PARAM ITAILMIN_X2 = { 5.0 }.PARAM ITAILMIN_Y2 = { 680m }.PARAM ITAILMIN_SLOPE = D+ { ( ITAILMIN_Y2 - ITAILMIN_Y1 ) / ( ITAILMIN_X2 - ITAILMIN_X1 ) }.PARAM ITAILMIN_INTCP = 1+ { ITAILMIN_Y1 - ITAILMIN_SLOPE * ITAILMIN_X1 }EITAILMIN ITAILMIN 0 VALUE = 4+ { ITAILMIN_SLOPE * V(VCC,VEE) + ITAILMIN_INTCP }gG1 IOUTP IOUTM VALUE = { LIMIT ( 2.543 * V(VINP,VINM) * ( 1-V(PDINV) ) , -V(ITAILMIN), V(ITAILMAX) ) }.ENDS-.SUBCKT THS4541_OutputCir_Rout_HT1 A B VIMON.PARAM Ro_Iout_0A = 160.PARAM Multiplier = 0JG1 A B VALUE = { V(A,B) * 1/(Ro_Iout_0A - Multiplier * ABS(V(VIMON)) ) }.ENDS6.SUBCKT THS4541_OUTPUTCIR_ILOAD_HT1 VDD VSS VIMON PD,X1 PD PDINV VDD VSS LOGIC1 0 DIGLEVSHIFTINVVLOGIC1 LOGIC1 0 1AG1 VDD 0 VALUE = {IF(V(VIMON) >= 0, V(VIMON)*( 1-V(PDINV) ), 0)}AG2 VSS 0 VALUE = {IF(V(VIMON) < 0, V(VIMON)*( 1-V(PDINV) ), 0)}.ENDS.SUBCKT THS4541_Vnoise_HT1 A B.PARAM X = { 1k }.PARAM Y = { 6.1 }.PARAM Z = { 2.2 }9X1 A B VNSE PARAMS: NLF = { Y } FLW = { X } NVR = { Z }.ENDS.SUBCKT THS4541_Inoise_HT1 A B.PARAM X = { 10k }.PARAM Y = { 5e3 }.PARAM Z = { 1.9e3 }?ư>'dd?Y@[dddj@?.AeA.AeAMbP?@@?Ơ>ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#;@:0yE>-q=,C6?Mb`?& .>MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F@?+= _BKH9$@Y@#B ;ư>?.AMbP??????I@?Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname