OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.200.277 SF-TIB(c) Copyright 1993,94,95,96 DesignSoft Inc. All rights reserved.; $Circuit$g??0h H0h h HT_03CFAEC020251223120317;ppT_03CFAB0020251223120317;T_03CFA74020251223120317?xxxT_03CFA38020251223120317;xhxhT_03CF9FC020251223120317;xxxxT_03CF9C0020251223120317?x(hx(x(hT_03CF984020251223120317;T_03CF948020251223120317;88T_03CF90C020251223120317?`p`ppT_03CF8D0020251223120317? H 8 H H 8T_03CF894020251223120317?XhhxXhhhhxT_03CF858020251223120317?   T_03CF81C020251223120317?0 0  T_03CF7E0020251223120317?XhXhhT_03CF7A4020251223120317;HHHHT_03CF768020251223120317?xHxxHT_03CF72C020251223120317;T_03CF62A020251223120317?T_03CF5EE020251223120317?xHxxHT_03CF5B2020251223120317;xxxxT_03CF576020251223120317?T_03CF53A020251223120317;T_03CF4FE020251223120317;@p@@p@T_03CF4C2020251223120317;ppT_03CF486020251223120317;((p((pT_03CF44A020251223120317?Xp(XpX(T_03CF40E020251223120317?0h808h8T_03CF3D2020251223120317;T_03CF396020251223120317?xHxHHT_03CF35A020251223120317?xxT_03CF31E020251223120317?T_03CF2E2020251223120317;T_03CF2A6020251223120317?H8H88T_03CF26A020251223120317;xxxxT_03CF22E020251223120317?T_03CF1F2020251223120317;T_03CF1B6020251223120317;HHHHT_03CF17A020251223120317;8H8HT_03CF13E020251223120317?T_03CF102020251223120317;T_03CF0C6020251223120317;xxxxT_03A3EA7020251223120317?T_03A3E6B020251223120317?p0p00T_03A3E2F020251223120317?xpxpxpT_03A3DF3020251223120317;ppT_03A3DB7020251223120317;0@0p0@0pT_03A3D7B020251223120317;T_03A3D3F020251223120317;T_03A3D03020251223120317;T_03A3CC7020251223120317;T_03A3C8B020251223120317?P( P(P  T_03A3C4F020251223120317;T_03A3C13020251223120317;h88h88T_03A3BD7020251223120317;h0h8h0h8T_03A3B9B020251223120317;hhhhT_03A3B5F020251223120317;ppT_03A3B23020251223120317;xxT_03A3AE7020251223120317;T_03A3AAB020251223120317;00T_03A3A6F020251223120317?H8HH8T_03A3A33020251223120317;H HH HT_03A39F7020251223120317?T_03A39BB020251223120317;    T_03A397F020251223120317;`X`XT_03A3943020251223120317;HHHHT_03A3907020251223120317;T_03AACB2020251223120317;`HH`HHT_03AACEE020251223120317;``T_03AAD2A020251223120317;xxT_03AAE92020251223120317;8080T_03AAE56020251223120317;P8P8T_03AADDE020251223120317;T_03AAD66020251223120317;h@h8h@h8T_03AADA2020251223120317;((((T_03AAE1A020251223120317CXxXXxxT_03AAECE020251223120317CT_03AAF0A020251223120317DB V1T_03D103F020251223120317Battery_9V_V (V)$@DBP V2T_03D0FE1020251223120317Battery_9V_V (V)$@ B`R1T_03D0F83020251223120317R_AX600_W200 (R)33333G@@?Y@ B`HR2T_03D0F25020251223120317R_AX600_W200 (R)33333G@@?Y@DB0 VOCMT_03D0EC7020251223120317Battery_9V_V (V)Mb@"Bx   OUT_diff:T_03D0E69020251223120317 Vmet (VM)BpVCVS1T_03D0E0B020251223120317?BpxVCVS2T_039CB20020251223120317B0 VINT_039CAC2020251223120317 Sgen (VG){Gz??.AV"Bv In_diffT_039CA64020251223120317 Vmet (VM)BsVout+T_039CA06020251223120317 NOPCB (VF)BsxVout-T_039C9A8020251223120317 NOPCB (VF)BrVINPT_039C94A020251223120317 NOPCB (VF)BrVINNT_039C8EC020251223120317 NOPCB (VF)DBh V4T_039C88E020251223120317Battery_9V_V (V)@DB0 V3T_039C830020251223120317Battery_9V_V (V)@BrOut+T_039C7D2020251223120317 NOPCB (VF)BrxOut-T_039C774020251223120317 NOPCB (VF) B8C6T_039C716020251223120317CP_CYL300_D700_L1400 (C) Iz>@eAY@? BxC7T_039C6B8020251223120317CP_CYL300_D700_L1400 (C) Iz>@eAY@? BC8T_039C65A020251223120317CP_CYL300_D700_L1400 (C) Iz>@eAY@? BC1T_039C5FC020251223120317CP_CYL300_D700_L1400 (C) |=@eAY@? BxC2T_039CCF6020251223120317CP_CYL300_D700_L1400 (C) |=@eAY@? BC3T_039CC98020251223120317CP_CYL300_D700_L1400 (C) 8J=>@eAY@? B0C4T_039CC3A020251223120317CP_CYL300_D700_L1400 (C) |=@eAY@? B0hC5T_039CBDC020251223120317CP_CYL300_D700_L1400 (C) |=@eAY@?:B(U1T_039CB7E020251223120317 PGA854PGA849RC:\Users\a0232807\AppData\Local\Temp\DesignSoft\{Tina9-TI-07092020-090452}\PGA854SCK#PGA849Label PP(d.VOCMN+ H @d.INNreate a p @d.VS-PN- P @d.VS+_IN-fyp P @d.LVDDN+fyp  @d.DGNDN+ h @d.A0A_IN+fy  @d.A1FT]]@*  @d.FDA_IN+wnListp  @d.A2ND/p/P/0  @d.LVSSN+  @d.FDA_IN-  @d.OUTNfy0 ` @d.INPIN-@* @d.OUTP  0 @ffgw@gw@!* source PGA854_VALIDATION%* PSpice Text Block on 4export PAGE1D.SUBCKT PGA854 A0 A1 A2 DGND FDA_IN+ FDA_IN- INN INP LVDD LVSS OUTN+ OUTP VOCM VS+ VS- D_D2 INN VS+ DIO_ESD *C_C1 N3268860 OUTN 0.2p TC=0,0 0R_R4 FE_OUTN FDA_IN- 3.333333k TC=0,0 D_D23 VS- A0 DIO_ESD D_D17 A0 VS+ DIO_ESD D_D20 LVSS VS+ DIO_ESD DX_U1 N3268860 FDA_IN+ VNSE1 PARAMS: FLW=100m NLF=25 NVR=10D_D8 VS- INP DIO_ESD D_D24 VS- DGND DIO_ESD D_D15 A2 VS+ DIO_ESD D_D26 VS- LVSS DIO_ESD D_D9 VS- INN DIO_ESD 1R_R3 FE_OUTP N3268860 3.333333k TC=0,0 D_D1 INP VS+ DIO_ESD .R_R6 FDA_IN- OUTP 6.6666666k TC=0,0 D_D19 LVDD VS+ DIO_ESD D_D16 A1 VS+ DIO_ESD GX_v6p2_FDA FDA_IN+ FDA_IN- OUTP OUTN LVDD LVSS VOCM VS+ VS- dsn_v6p2 -R_R1 N3268860 OUTN 6.66591k TC=0,0 D_D25 VS- LVDD DIO_ESD D_D22 VS- A1 DIO_ESD CX_PGA85x_FE1 A0 A1 A2 DGND INP INN FE_OUTP FE_OUTN VS+ VS- FE_v1 D_D18 DGND VS+ DIO_ESD D_D21 VS- A2 DIO_ESD .ENDS D.SUBCKT FE_v1 ALT0GT ALT1GT ALT2GT DGND IN+ IN- OUT+ OUT- VS+ VS- MX_VGA_sch1 ALT0GT ALT1GT ALT2GT N3267786 OUTN_G0P125 OUTP_G0P125 OUTN_G0P250K+ OUTP_G0P250 OUTN_G0P500 OUTP_G0P500 OUTN_G01 OUTP_G01 OUTN_G02 OUTP_G02L+ OUTN_G04 OUTP_G04 OUTN_G08 OUTP_G08 OUTN_G16 OUTP_G16 OUT+ OUT- N3264246*+ N3264286 VariableGainAmplifier_Ideal JX_PGA85x_GS_v1 ALT0GT ALT1GT ALT2GT DGND N3267786 OUTN_G0P125 OUTP_G0P125N+ OUTN_G0P250 OUTP_G0P250 OUTN_G0P500 OUTP_G0P500 OUTN_G01 OUTP_G01 OUTN_G02R+ OUTP_G02 OUTN_G04 OUTP_G04 OUTN_G08 OUTP_G08 OUTN_G16 OUTP_G16 IN+ IN- VS+ VS-$+ N3264286 N3264246 GainStage_v1 .ENDS .MODEL RIDEAL RES(T_ABS=-273)*** .MODEL R_IDEAL RES (T_ABS=-273)***A.MODEL DIO_ESD D (RS=2 IS=1E-17 TT=1P BV=40 CJO=5E-13 AF=0 KF=0)N.SUBCKT GainStage_v1 ALT0GT ALT1GT ALT2GT DGND DGND_B G0p500N G0p500P G1N G1PR+ G2N G2P G5N G5P G10N G10P G20N G20P G50N G50P G100N G100P IN+ IN- V+ V- Vn Vp + #I_I5 MID ESDP DC 500pAdc V_V5 N3917703 0 1Vdc)G_G3 N3916543 MID VP MID -960.8m(R_R74 G2P N3913621 10k TC=0,0 CE_U9 G5N 0 VALUE {LIMIT(V(INGN,N3913971)*10E6,-200V,200V)}5G_G2 N3917109 N3917101 N3916571 N3916553 -1m$V_VCM_MIN2 N3914823 VN 3Vdc4R_R84 N3913979 N3914965 833.333333 TC=0,0 )R_R77 G10N N3915655 10k TC=0,0 %R_R42 MID N3916543 R_IDEAL 1'I_IQ_DGND1 DGND MID DC 4uAdc (I_IQ_A2 ALT1GT MID DC 1.5uAdc $C_C7 ESDN ESDP 1p TC=0,0 'R_RCM11 N3918215 MID R_IDEAL 1'R_RCM3 N3913237 INN R_IDEAL 1m1X_U4 ESDP N3917329 VNSE2 PARAMS: NVR=7.5(R_R_MID1 VP N3914487 R_IDEAL 1m%G_G_VSN_BUFFER1 VN 0 V- 0 -1E_E3 G1P 0 INGP 0 0.5!R_R26 MID ESDP RIDEAL 1GOX_U2 IN_P MID N3914121 MID N3913949 N3914823 VCM_CLAMP PARAMS: GAIN=1+R_RCM10 N3918215 DGND_B R_IDEAL 1m(R_RCM12 N3918559 MID R_IDEAL 1TE_E4 G1N 0 INGN 0 0.5OX_U1 IN_N MID N3913237 MID N3913049 N3913453 VCM_CLAMP PARAMS: GAIN=1"R_R27 ESDN ESDP RIDEAL 1G$C_Ccm2 MID INP 1f TC=0,0 V_V4 N3917695 0 1VdcFE_U14 G100N 0 VALUE {LIMIT(V(INGN,N3915663)*10E6,-200V,200V)}'R_RCM1 MID N3913049 R_IDEAL 1T#R_R30 ESDN IN_N RIDEAL 10m%I_IQ_INPUT1 V+ V- DC 3mAdc #I_I6 ESDN MID DC 500pAdc =X_H3 N3917699 N3917703 N3917355 N3917101 GainStage_v1_H3 (R_R73 G5N N3913971 10k TC=0,0 $V_VCM_MIN3 N3918559 VN 0Vdc*R_R80 G100N N3915663 10k TC=0,0 EE_U19 G20P 0 VALUE {LIMIT(V(INGP,N3913481)*10E6,-200V,200V)}=X_H1 N3917683 N3917687 N3917329 N3917343 GainStage_v1_H1 %V_VCM_MAX3 N3917917 VP -4VdcV_V3 N3917687 0 1Vdc R_R_MID5 VP 0 R_IDEAL 1EE_U18 G20N 0 VALUE {LIMIT(V(INGN,N3913041)*10E6,-200V,200V)}=X_H2 N3917691 N3917695 N3917343 N3917355 GainStage_v1_H2 1X_S13 LINE0 DGND N3917699 0 GainStage_v1_S13 ,C_C26 N3916215 G10P 3.18p TC=0,0 )R_R79 G10P N3916215 10k TC=0,0 )R_R88 G20P N3913481 10k TC=0,0 NX_U5 IN_P N3917109 VOS_DRIFT PARAMS: DC=50.75E-6 POL=1 DRIFT=0.3E-06EE_U16 G50N 0 VALUE {LIMIT(V(INGN,N3913979)*10E6,-200V,200V)}%R_R45 MID N3916589 R_IDEAL 1'R_RCM4 N3914121 INP R_IDEAL 1m&R_RCM6 N3914121 MID R_IDEAL 11X_S11 LINE2 DGND N3917683 0 GainStage_v1_S11 (R_R72 G5P N3914961 10k TC=0,0 1R_R78 N3915655 N3916215 4.9993k TC=0,0 &R_RCM5 N3913237 MID R_IDEAL 1(I_IQ_A3 ALT0GT MID DC 1.5uAdc (R_R_MID4 N3914527 VN R_IDEAL 1m'C_Ccm3 MID DGND_B 1f TC=0,0 )R_R83 G50N N3913979 10k TC=0,0 /R_R43 N3916543 N3916553 R_IDEAL 100MEG$V_VCM_MIN1 N3913453 VN 3Vdc#C_C6 MID ESDP 7p TC=0,0 !R_R28 ESDN MID RIDEAL 1G-C_C27 N3915663 G100N 5.75p TC=0,0 )G_G4 N3916589 MID VN MID -960.8mEE_U13 G10P 0 VALUE {LIMIT(V(INGP,N3916215)*10E6,-200V,200V)}%V_VCM_MAX1 N3913049 VP -3Vdc1C_C22 N3916589 N3916571 17.38p TC=0,0 (R_R76 G2N N3913033 10k TC=0,0 &R_R46 MID N3916553 R_IDEAL 40CX_U3 ESDP MID FEMT2 PARAMS: FLWF=0.1 NLFF=1.5e3 NVRF=202.5,C_C24 N3913481 G20P 3.18p TC=0,0 (I_IQ_A1 ALT2GT MID DC 1.5uAdc ,C_C25 N3915655 G10N 3.18p TC=0,0 -C_C28 N3916235 G100P 5.75p TC=0,0 *R_R82 G100P N3916235 10k TC=0,0 %G_G_VSP_BUFFER1 VP 0 V+ 0 -1#E_E5 G0P500P 0 INGP 0 0.251C_C21 N3916543 N3916553 795.8p TC=0,0 0R_R_MID2 N3914487 N3914201 R_IDEAL 1MEG#E_E6 G0P500N 0 INGN 0 0.25%C_C3 0 N3914487 1f TC=0,0 'R_RCM8 N3914823 MID R_IDEAL 1T)R_R85 G50P N3914965 10k TC=0,0 0R_R81 N3915663 N3916235 408.08 TC=0,0 ,C_C23 N3913041 G20N 3.18p TC=0,0 CE_U8 G5P 0 VALUE {LIMIT(V(INGP,N3914961)*10E6,-200V,200V)}'R_RCM2 MID N3913949 R_IDEAL 1T'R_R_MID6 N3914201 0 R_IDEAL 1T#C_C8 ESDN MID 7p TC=0,0 +R_R70 N3917109 N3917101 R_IDEAL 1kD_D1 V- V+ DIO_ESD $C_Ccm1 MID INN 1f TC=0,0 E_E1 INGN 0 INN 0 1$E_E_MID1 MID 0 N3914201 0 12R_R87 N3913041 N3913481 2.22195k TC=0,0 "R_R25 IN+ ESDP RIDEAL 10m'R_RCM7 N3913453 MID R_IDEAL 1T"R_R29 IN- ESDN RIDEAL 10m,C_C30 N3914965 G50P 5.75p TC=0,0 ,C_C29 N3913979 G50N 5.75p TC=0,0 FE_U15 G100P 0 VALUE {LIMIT(V(INGP,N3916235)*10E6,-200V,200V)})R_R86 G20N N3913041 10k TC=0,0 CX_U7 ESDN MID FEMT2 PARAMS: FLWF=0.1 NLFF=1.5e3 NVRF=202.5%C_C5 0 N3914527 1f TC=0,0 /R_R44 N3916589 N3916571 R_IDEAL 100MEG1X_S12 LINE1 DGND N3917691 0 GainStage_v1_S12 %V_VCM_MAX2 N3913949 VP -3Vdc'C_C4 0 N3914201 100u TC=0,0 R_R_MID7 VN 0 R_IDEAL 1&R_R47 MID N3916571 R_IDEAL 40E_E2 INGP 0 INP 0 12R_R71 N3913971 N3914961 13.3307k TC=0,0 EE_U17 G50P 0 VALUE {LIMIT(V(INGP,N3914965)*10E6,-200V,200V)}EE_U12 G10N 0 VALUE {LIMIT(V(INGN,N3915655)*10E6,-200V,200V)}DE_U10 G2P 0 VALUE {LIMIT(V(INGP,N3913621)*10E6,-200V,200V)}'R_RCM9 MID N3917917 R_IDEAL 1TDE_U11 G2N 0 VALUE {LIMIT(V(INGN,N3913033)*10E6,-200V,200V)}0R_R_MID3 N3914201 N3914527 R_IDEAL 1MEGOX_U6 DGND MID N3918215 MID N3917917 N3918559 VCM_CLAMP PARAMS: GAIN=1.ENDS N.SUBCKT VariableGainAmplifier_Ideal ALT0GT ALT1GT ALT2GT DGND G0p125N G0p125PP+ G0p250N G0p250P G0p500N G0p500P G01N G01P G02N G02P G04N G04P G08N G08P G16N+ G16P OUT+ OUT- VS+ VS- 7X_BUF_SWITCH10 DGND LINE4 G02N VOUTN Buffered_Switch 7X_BUF_SWITCH12 DGND LINE5 G04N VOUTN Buffered_Switch 6X_BUF_SWITCH7 DGND LINE3 G01P VOUTP Buffered_Switch 6X_BUF_SWITCH4 DGND LINE5 G04P VOUTP Buffered_Switch E_E2 OUT- 0 VOUTN 0 19X_BUF_SWITCH1 DGND LINE0 G0P125P VOUTP Buffered_Switch 9X_BUF_SWITCH5 DGND LINE2 G0P500P VOUTP Buffered_Switch 9X_BUF_SWITCH3 DGND LINE1 G0P250P VOUTP Buffered_Switch 9X_BUF_SWITCH9 DGND LINE0 G0P125N VOUTN Buffered_Switch E_E1 OUT+ 0 VOUTP 0 16X_BUF_SWITCH2 DGND LINE4 G02P VOUTP Buffered_Switch 7X_BUF_SWITCH15 DGND LINE3 G01N VOUTN Buffered_Switch 7X_BUF_SWITCH16 DGND LINE7 G16N VOUTN Buffered_Switch 6X_BUF_SWITCH6 DGND LINE6 G08P VOUTP Buffered_Switch :X_BUF_SWITCH11 DGND LINE1 G0P250N VOUTN Buffered_Switch :X_BUF_SWITCH13 DGND LINE2 G0P500N VOUTN Buffered_Switch 7X_BUF_SWITCH14 DGND LINE6 G08N VOUTN Buffered_Switch NX_3bitsDecoder1 ALT0GT ALT1GT ALT2GT DGND LINE0 LINE1 LINE2 LINE3 LINE4 LINE5'+ LINE6 LINE7 VS+ VS- Decoder_3bits 6X_BUF_SWITCH8 DGND LINE7 G16P VOUTP Buffered_Switch .ENDS N.SUBCKT Decoder_3bits A0 A1 A2 DGND Line0 Line1 Line2 Line3 Line4 Line5 Line6+ Line7 VS+ VS- @X_NAND2_idealMOS2 N09123 N09123 BBAR DVDD DGND NAND2_idealMOS "R_R3 A0 N09181 RIDEAL 10m7X_NOR3_ideal1 A2 A1 A0 LINE0 DVDD DGND NOR3_idealMOS 9X_NOR3_ideal2 ABAR A1 A0 LINE4 DVDD DGND NOR3_idealMOS &V_VSUBREG_VSN1 DVDD DGND 5Vdc;X_NOR3_ideal6 ABAR BBAR A0 LINE6 DVDD DGND NOR3_idealMOS @X_NAND2_idealMOS1 N09065 N09065 ABAR DVDD DGND NAND2_idealMOS 9X_NOR3_ideal5 A2 BBAR A0 LINE2 DVDD DGND NOR3_idealMOS @X_NAND2_idealMOS3 N09181 N09181 CBAR DVDD DGND NAND2_idealMOS "R_R2 A1 N09123 RIDEAL 10m"R_R1 A2 N09065 RIDEAL 10m;X_NOR3_ideal7 A2 BBAR CBAR LINE3 DVDD DGND NOR3_idealMOS ;X_NOR3_ideal4 ABAR A1 CBAR LINE5 DVDD DGND NOR3_idealMOS 9X_NOR3_ideal3 A2 A1 CBAR LINE1 DVDD DGND NOR3_idealMOS =X_NOR3_ideal8 ABAR BBAR CBAR LINE7 DVDD DGND NOR3_idealMOS .ENDS *.SUBCKT NOR3_idealMOS A B C OUT VDD VSS #R_R3 OUT N02064 RIDEAL 10m0M_M6 OUT C N02181 N02181 MND 0M_M4 OUT A N02181 N02181 MND 3M_M2 N01993 B N00287 N00287 MPD 0M_M5 OUT B N02181 N02181 MND 3M_M3 N02064 C N02072 N02072 MPD #R_R4 VSS N02181 RIDEAL 10m&R_R2 N02072 N01993 RIDEAL 10m-M_M1 N01964 A VDD VDD MPD &R_R1 N00287 N01964 RIDEAL 10m.ENDS ).SUBCKT NAND2_idealMOS A B OUT VDD VSS &R_R3 N01594 N00317 RIDEAL 10m-M_M2 N00299 B VDD VDD MPD #R_R4 VSS N00327 RIDEAL 10m-M_M1 N00293 A VDD VDD MPD #R_R2 OUT N00299 RIDEAL 10m0M_M3 OUT A N00317 N00317 MND 3M_M4 N01594 B N00327 N00327 MND #R_R1 N00293 OUT RIDEAL 10m.ENDS /.SUBCKT Buffered_Switch DGND VEN VSW_I VSW_O 1X_S1 VEN DGND VSW_O VSW_I Buffered_Switch_S1 "C_C1 0 VSW_O 1p TC=0,0 .ENDS K.SUBCKT dsn_v6p2 FDA_IN+ FDA_IN- FDA_OUT+ FDA_OUT- LVDD LVSS VOCM VS+ VS- #.model R_NOISELESS RES(T_ABS=-273))R_R16 LVDD VOCM R_NOISELESS 250kHX_U5 N3740301 VOCM_I FDA_MID VO1N1 AOL_GM1_V1 PARAMS: GAIN=-3m+ IPOS=370u INEG=-370uKX_U30 FDA_IN+ FDA_MID N3739136 FDA_MID N3739056 N3739216 VCM_CLAMP+ PARAMS: GAIN=13R_R19 VOCM_O_BUF FDA_VOUTN R_NOISELESS 70k.R_R5 N01744 N3638701 R_NOISELESS 100m2X_S1 VIMON+ FDA_MID VO1P3 FDA_MID dsn_v6p2_S1 $E_E9 N3715438 0 VIMONP 0 1k(R_R31 0 N3735226 R_NOISELESS 1GGX_U19 LVSS VO1N3 0 VO1N1 AOL_GM1_V1 PARAMS: GAIN=-5.5m IPOS=0+ INEG=-530u&E_E7 FDA_VOUTN 0 FDA_OUT- 0 1+C_C21 FDA_MID FDA_IN+ 1p TC=0,0 *C_C6 FDA_MID VO1N3 500f TC=0,0 OX_U29 N3732606 FDA_MID N3732755 0 N3735226 N3735202 VCM_CLAMP PARAMS: + GAIN=1.R_R24 FDA_IN- FDA_MID R_NOISELESS 10GLX_U17 LVSS VOCM_INI 0 VOCM_AOL AOL_GM1_V1 PARAMS: GAIN=5m IPOS=10m + INEG=0,C_C25 FDA_MID N3739150 1p TC=0,0 .X_H4 N01744 FDA_OUT- VIMONN 0 dsn_v6p2_H4 LX_U24 N3736376 FDA_MID FDA_MID VOCM_AOL AOL_GM1_V1 PARAMS: GAIN=1u+ IPOS=5m INEG=-5mG_G36 VSP 0 VS+ 0 -16R_R21 VOCM_G_NEG1 VOCM_NEGFDBK R_NOISELESS 1k0R_R2 FDA_MID VO1P2 R_NOISELESS 10.95MEG+C_C22 FDA_IN- FDA_MID 1p TC=0,0 0X_U2 FDA_OUT- FDA_OUT+ LVDD LVSS ESD_IN4R_R22 VOCM_NEGFDBK N3650730 R_NOISELESS 10m0R_R15 FDA_MID VOCM_AOL R_NOISELESS 1MEG-R_R113 N4151640 VSN R_NOISELESS 1e-3-R_R40 N3740287 FDA_MID R_NOISELESS 1JX_U32 VOCM_I LVDD 0 VOCM_INI AOL_GM1_V1 PARAMS: GAIN=5m IPOS=10m + INEG=0+C_C14 N01744 VOCM_O 500f TC=0,0 "V_V1 N3735202 LVSS 1.5Vdc-X_H2 VO1N3 N3638701 VIMON- 0 dsn_v6p2_H2 HX_U4 N3739150 VOCM_I FDA_MID VO1P1 AOL_GM1_V1 PARAMS: GAIN=-3m+ IPOS=370u INEG=-370u)C_C35 N4151640 0 1e-15 TC=0,0 *C_C11 VO1N1 VO1N2 {CM3} TC=0,0 .R_R9 VO1P3 N02244 R_NOISELESS {RNULL}MX_U13 VS- VO1N1 0 VO1N1 AOL_GM1_V1 PARAMS: GAIN=5m IPOS=530u INEG=0)C_C8 VO1P1 VO1P2 {CM3} TC=0,0 2C_C19 FDA_VOUTN VOCM_O_BUF 500f TC=0,0 &C_C34 N4151430 0 1n TC=0,0 #R_R109 VSN 0 R_NOISELESS 1MX_U25 LVDD LVSS VIMON+ FDA_VOUTP FDA_MID VO1P2 FDA_MID FDA_MID VO1P3D+ AOL_GM2_V2P1 PARAMS: GM2_NO_IOUT=-45m K=100m IPOS=46m INEG=-46m,R_R11 N01159 VOCM_O R_NOISELESS 70k*R_R41 N3740367 0 R_NOISELESS 100G1C_C20 VOCM_NEGFDBK N04718 200f TC=0,0 (C_C5 FDA_MID VO1N2 1p TC=0,0 2X_S3 VIMON- FDA_MID VO1N3 FDA_MID dsn_v6p2_S3 1R_R111 N4151602 N4151430 R_NOISELESS 1e6/R_R55 N3977991 VO1N1 R_NOISELESS {RZ2}(R_R30 N3735202 0 R_NOISELESS 1G*R_R38 0 N3740205 R_NOISELESS 100G'R_R32 N3732755 0 R_NOISELESS 1+C_C23 FDA_IN- FDA_IN+ 1p TC=0,0 ,X_U1 FDA_IN- FDA_IN+ VS+ VS- ESD_IN.R_R4 N01159 N3638014 R_NOISELESS 100mKX_U31 FDA_IN- FDA_MID N3740287 FDA_MID N3740205 N3740367 VCM_CLAMP+ PARAMS: GAIN=1*C_C9 VO1P2 N02244 {CM2} TC=0,0 2X_S2 VIMON+ FDA_MID VO1P3 FDA_MID dsn_v6p2_S2 NX_U9 VO1P1 VS+ 0 VO1P1 AOL_GM1_V1 PARAMS: GAIN=-5m IPOS=0 INEG=-530u/G_G2 VO1P2 FDA_MID VO1P1 FDA_MID -1.2m+C_C12 VO1N2 N02523 {CM2} TC=0,0 0R_R33 N3732755 N3736376 R_NOISELESS 100"V_V2 LVDD N3735226 1.5Vdc/R_R54 N3977925 VO1P1 R_NOISELESS {RZ2}&C_C24 0 N3736376 1p TC=0,0 PX_U11 VO1N3 LVDD 0 VO1N1 AOL_GM1_V1 PARAMS: GAIN=5.5m IPOS=530u INEG=0&E_E6 FDA_VOUTP 0 FDA_OUT+ 0 1-R_R13 N04718 VOCM_INI R_NOISELESS 1k!V_V3 VS+ N3739056 1.5Vdc/G_G5 VO1N2 FDA_MID VO1N1 FDA_MID -1.2m*C_C3 FDA_MID VO1P3 500f TC=0,0 :X_U27 N3715438 0 LVDD 0 IQ_SRC PARAMS: GAIN=1E-3-R_R36 N3739136 FDA_MID R_NOISELESS 1GX_U18 LVSS VO1P3 0 VO1P1 AOL_GM1_V1 PARAMS: GAIN=-5.5m IPOS=0+ INEG=-530u.R_R3 FDA_MID FDA_MID R_NOISELESS 126k-C_C10 N3977991 VO1N3 {CM1} TC=0,0 ,C_C7 N3977925 VO1P3 {CM1} TC=0,0 8E_E1 VOCM_G_NEG1 FDA_MID N04718 VOCM_O_BUF -10kKX_U16 VOCM_INI LVDD 0 VOCM_AOL AOL_GM1_V1 PARAMS: GAIN=-5m IPOS=0 + INEG=-10m-R_R1 FDA_MID VO1P1 R_NOISELESS 4.63k(C_C2 FDA_MID VO1P2 1p TC=0,0 *R_R34 0 N3739056 R_NOISELESS 100G)R_R17 VOCM LVSS R_NOISELESS 250kMX_U26 LVDD LVSS VIMON- FDA_VOUTN FDA_MID VO1N2 FDA_MID FDA_MID VO1N3D+ AOL_GM2_V2P1 PARAMS: GM2_NO_IOUT=-45m K=100m IPOS=46m INEG=-46m#R_R107 VSP 0 R_NOISELESS 1+C_C13 VOCM_O N01159 500f TC=0,0 0R_R35 N3739136 N3739150 R_NOISELESS 100IX_U33 LVSS VOCM_I 0 VOCM_INI AOL_GM1_V1 PARAMS: GAIN=-5m IPOS=0 + INEG=-10m-R_R6 FDA_MID VO1N1 R_NOISELESS 4.63k2X_S4 VIMON- FDA_MID VO1N3 FDA_MID dsn_v6p2_S4 3R_R18 FDA_VOUTP VOCM_O_BUF R_NOISELESS 70k/E_E4 VOCM_I FDA_MID N3650730 FDA_MID 1.R_R25 FDA_IN- FDA_IN+ R_NOISELESS 10G%C_C17 LVSS VOCM 1p TC=0,0 ,R_R12 VOCM_O N01744 R_NOISELESS 70k.R_R8 FDA_MID FDA_MID R_NOISELESS 126k,C_C26 FDA_MID N3740301 1p TC=0,0 *R_R29 VOCM N3732606 R_NOISELESS 1!V_V5 VS+ N3740205 1.5Vdc)C_C1 FDA_MID VO1P1 50f TC=0,0 -C_C15 FDA_MID VOCM_AOL 16p TC=0,0 :X_U28 N3719119 0 LVSS 0 IQ_SRC PARAMS: GAIN=1E-31R_R112 N4151430 N4151640 R_NOISELESS 1e6G_G37 VSN 0 VS- 0 -1!V_V6 N3740367 VS- 1.5Vdc$X_U3 VOCM LVDD LVSS ESD_OUT0R_R39 N3740287 N3740301 R_NOISELESS 1001E_E3 VOCM_INI FDA_MID VOCM_AOL FDA_MID 1.R_R23 FDA_MID FDA_IN+ R_NOISELESS 10GMX_U12 VS- VO1P1 0 VO1P1 AOL_GM1_V1 PARAMS: GAIN=5m IPOS=530u INEG=0-C_C28 N04718 VOCM_INI 8.8p TC=0,0 OX_U10 VO1N1 VS+ 0 VO1N1 AOL_GM1_V1 PARAMS: GAIN=-5m IPOS=0 INEG=-530u%E_E10 N3719119 0 VIMONN 0 1k-X_H1 VO1P3 N3638014 VIMON+ 0 dsn_v6p2_H1 %C_C16 VOCM LVDD 1p TC=0,0 .X_H3 N01159 FDA_OUT+ VIMONP 0 dsn_v6p2_H3 !V_V4 N3739216 VS- 1.5Vdc-R_R110 VSP N4151602 R_NOISELESS 1e-3)C_C33 N4151602 0 1e-15 TC=0,0 2C_C18 VOCM_O_BUF FDA_VOUTP 500f TC=0,0 3R_R14 VOCM_NEGFDBK N04718 R_NOISELESS 5MEGOX_U8 VO1P3 LVDD 0 VO1P1 AOL_GM1_V1 PARAMS: GAIN=5.5m IPOS=530u INEG=0)C_C4 FDA_MID VO1N1 50f TC=0,0 *R_R37 N3739216 0 R_NOISELESS 100G/R_R10 VO1N3 N02523 R_NOISELESS {RNULL}0R_R7 FDA_MID VO1N2 R_NOISELESS 10.95MEG%E_E13 FDA_MID 0 N4151430 0 1+R_R108 N4151430 0 R_NOISELESS 1e122.PARAM cm1=18p rnull=500 cm3=3.5p rz2=100 cm2=5p.ENDS".subckt GainStage_v1_H3 1 2 3 4 H_H3 3 4 VH_H3 1VH_H3 1 2 0V.ends GainStage_v1_H3".subckt GainStage_v1_H1 1 2 3 4 H_H1 3 4 VH_H1 1VH_H1 1 2 0V.ends GainStage_v1_H1".subckt GainStage_v1_H2 1 2 3 4 H_H2 3 4 VH_H2 1VH_H2 1 2 0V.ends GainStage_v1_H2#.subckt GainStage_v1_S13 1 2 3 4 S_S13 3 4 1 2 _S13RS_S13 1 2 1GE.MODEL _S13 VSWITCH Roff=1e12 Ron=2857.14 Voff=0.0V Von=2.0V.ends GainStage_v1_S13#.subckt GainStage_v1_S11 1 2 3 4 S_S11 3 4 1 2 _S11RS_S11 1 2 1GB.MODEL _S11 VSWITCH Roff=1e12 Ron=20e3 Voff=0.0V Von=2.0V.ends GainStage_v1_S11#.subckt GainStage_v1_S12 1 2 3 4 S_S12 3 4 1 2 _S12RS_S12 1 2 1GE.MODEL _S12 VSWITCH Roff=1e12 Ron=6.667e3 Voff=0.0V Von=2.0V.ends GainStage_v1_S12%.subckt Buffered_Switch_S1 1 2 3 4 S_S1 3 4 1 2 _S1RS_S1 1 2 1G8.MODEL _S1 VSWITCH Roff=1G Ron=1 Voff=0V Von=2V.ends Buffered_Switch_S1.subckt dsn_v6p2_S1 1 2 3 4 S_S1 3 4 1 2 _S1RS_S1 1 2 1G<.MODEL _S1 VSWITCH Roff=252k Ron=50k Voff=0 Von=45m.ends dsn_v6p2_S1.subckt dsn_v6p2_H4 1 2 3 4 H_H4 3 4 VH_H4 1VH_H4 1 2 0V.ends dsn_v6p2_H4.subckt dsn_v6p2_H2 1 2 3 4 H_H2 3 4 VH_H2 1VH_H2 1 2 0V.ends dsn_v6p2_H2.subckt dsn_v6p2_S3 1 2 3 4 S_S3 3 4 1 2 _S3RS_S3 1 2 1G<.MODEL _S3 VSWITCH Roff=252k Ron=50k Voff=0 Von=45m.ends dsn_v6p2_S3.subckt dsn_v6p2_S2 1 2 3 4 S_S2 3 4 1 2 _S2RS_S2 1 2 1G=.MODEL _S2 VSWITCH Roff=252k Ron=50k Voff=0 Von=-45m.ends dsn_v6p2_S2.subckt dsn_v6p2_S4 1 2 3 4 S_S4 3 4 1 2 _S4RS_S4 1 2 1G=.MODEL _S4 VSWITCH Roff=252k Ron=50k Voff=0 Von=-45m.ends dsn_v6p2_S4.subckt dsn_v6p2_H1 1 2 3 4 H_H1 3 4 VH_H1 1VH_H1 1 2 0V.ends dsn_v6p2_H1.subckt dsn_v6p2_H3 1 2 3 4 H_H3 3 4 VH_H3 1VH_H3 1 2 0V.ends dsn_v6p2_H3E.subckt AOL_1 VC+ VC- IOUT+ IOUT- PARAMS: GAIN=1e-4 IPOS=.5 INEG=-.58G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ends*$*O.subckt AOL_2 VC+ VC- IOUT+ IOUT- PARAMS: GAIN=20.36e-3 IPOS=0.163 INEG=-0.1638G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ends*$:.subckt CLAMP_AMP_HI VC+ VC- VIN COM VO+ VO- PARAMS: G=10)* Output G(COM,0) when condition not metOGVo+ 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).SUBCKT FEMT2 1 2 PARAMS: NLFF = 0.1 FLWF = 0.001 NVRF = 0.1'.PARAM GLFF={PWR(FLWF,0.25)*NLFF/1164} .PARAM RNVF={1.184*PWR(NVRF,2)}1.MODEL DVNF D KF={PWR(FLWF,0.5)/1E11} IS=1.0E-16 I1 0 7 10E-3 I2 0 8 10E-3 D1 7 0 DVNF D2 8 0 DVNFE1 3 6 7 8 {GLFF} R1 3 0 1E9 R2 3 0 1E9 R3 3 6 1E9E2 6 4 5 0 10R4 5 0 {RNVF}R5 5 0 {RNVF} R6 3 4 1E9 R7 4 0 1E9G1 1 2 3 4 1E-6 C1 1 0 1E-15 C2 2 0 1E-15 C3 1 2 1E-15.ENDS*$*M.subckt GR_SRC VC+ VC- IOUT+ IOUT- PARAMS: GAIN=1 IPOS=0.326e1 INEG=-0.326e18G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ends*$*5.subckt IQ_SRC VC+ VC- IOUT+ IOUT- PARAMS: GAIN=1e-3?G1 IOUT+ IOUT- VALUE={IF( (V(VC+,VC-)<=0),0,GAIN*V(VC+,VC-) )}.ends*$*!.subckt OL_SENSE COM SW+ OLN OLP * pins COM SW+ OLN OLPEGSW+ COM SW+ Value = {IF((V(OLN,COM)>10e-3 | V(OLP,COM)>10e-3),1,0)}.ends*$*$.subckt SW_OL SW_OL MID CAP_L CAP_R@.model OL_SW VSWITCH(Ron=1e-3 Roff=1e12 Von=900e-3 Voff=800e-3)S1 CAP_L CAP_R SW_OL MID OL_SW.ends*$*.subckt SW_OR CLAMP OLN OLP;.model OR_SW VSWITCH(Ron=10e-3 Roff=1e12 Vt=10e-3 Vh=1e-3)S1 OLP CLAMP CLAMP OLP OR_SWS2 CLAMP OLN OLN CLAMP OR_SW.ends*$*?.subckt VCM_CLAMP VIN+ VIN- IOUT- IOUT+ VP+ VP- PARAMS: GAIN=1IG1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VIN+,VIN-),V(VP-,VIN-), V(VP+,VIN-))}.ends*$*/.subckt VNSE1 1 2 PARAMS: FLW=1 NLF=120 NVR=18** VNSE1 - input voltage noise in nV/rt-Hz* Input variables* Set up 1/f noise* FLW = 1/f frequency in Hz* .param FLW=1<* NLF = voltage noise density at 1/f frequency in nV/rt(Hz)* .param NLF=18.131* Set up broadband noise5* NVR = broadband voltage noise density in nV/rt(Hz)* .param NVR=5.73* Calculated values$.param GLF={PWR(FLW,0.25)*NLF/1164}.param RNV={1.184*PWR(NVR,2)}/.model DVN D KF={PWR(FLW,0.5)/1E11} IS=1.0E-16* Circuit connections I1 0 7 10E-3 I2 0 8 10E-3 D1 7 0 DVN D2 8 0 DVNE1 3 6 7 8 {GLF} R1 3 0 1E9 R2 3 0 1E9 R3 3 6 1E9E2 6 4 5 0 10 R4 5 0 {RNV} R5 5 0 {RNV} R6 3 4 1E9 R7 4 0 1E9 E3 1 2 3 4 1.ends*$*!.subckt VNSE2 1 2 PARAMS: NVR=18*.param NVR=18.param RNV={1.184*PWR(NVR,2)}* Circuit connectionsE2 1 2 5 0 10 R4 5 0 {RNV} R5 5 0 {RNV}.ends*$*B.subckt VOS_DRIFT VOS+ VOS- PARAMS: DC=496.4e-6 POL=1 DRIFT=2E-06,E1 VOS+ VOS- VALUE={DC+POL*DRIFT*(TEMP-27)}.ends*$*M.subckt ZO_SRC VC+ VC- IOUT+ IOUT- PARAMS: GAIN=200 IPOS=14.5e5 INEG=-14.5e58G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ends*$#.subckt V_Compare COM SW+ OLN OLP9ESW+ SW+ COM Value = {IF(V(OLN,COM)>V(OLP,COM),10E-3,0)}.ends**$J.subckt AOL_GM1_v1 VC+ VC- IOUT+ IOUT- PARAMS: GAIN=1e-4 IPOS=.5 INEG=-.58G1 IOUT+ IOUT- VALUE={LIMIT(GAIN*V(VC+,VC-),INEG,IPOS)}.ends*$^.SUBCKT AOL_GM2_V1 IMON MID IN+ IN- OUT+ OUT- PARAMS: GM2_NO_IOUT=-17m K=1 IPOS=10m INEG=-10m** Get output from AOL_GM1_V1#.model R_NOISELESS RES(T_ABS=-273)G1 N1 IN- IN+ IN- -1R1 N1 IN- R_NOISELESS 1*&* Get Output current as voltage inputG2 N2 MID IMON MID -1R2 N2 MID R_NOISELESS 1*)* Make GM2 as a function of IOUT (VIMON)OG3 OUT+ OUT- VALUE={LIMIT(((-GM2_NO_IOUT + K*ABS(V(N2))) * -V(N1)),INEG,IPOS)}=*G3 OUT+ OUT- VALUE={LIMIT((GM2_NO_IOUT * V(N1)),INEG,IPOS)}.ENDS AOL_GM2_V1**$c.SUBCKT AOL_GM2_V2 IMON VOUT MID IN+ IN- OUT+ OUT- PARAMS: GM2_NO_IOUT=-17m K=1 IPOS=10m INEG=-10m**$#.model R_NOISELESS RES(T_ABS=-273)** Get output from AOL_GM1_V1G1 N1 IN- IN+ IN- -1R1 N1 IN- R_NOISELESS 1*&* Get Output current as voltage inputG2 N2 MID IMON MID -1R2 N2 MID R_NOISELESS 1*5* Get Output voltage as voltage input through bufferG2B N3 MID VOUT MID -1R2B N3 MID R_NOISELESS 1*;* Make GM2 as a function of IOUT (VIMON) and VOUT (VOUT_S)*/* Set Claw resistance based on ISC and VSUPPLY.PARAM RCLAW_NEG = 20.44.PARAM RCLAW_POS = 20.31* =* Set MAX and MIN for INEG and IPOS based on the calculation .PARAM IPOS_ISCLIMIT = { IPOS } .PARAM INEG_ISCLIMIT = { INEG }*DG3 OUT+ OUT- VALUE={LIMIT(((-GM2_NO_IOUT + K*ABS(V(N2))) * -V(N1)),S+ MAX( (MAX(INEG, (INEG - ((V(N3) + ABS(V(MID))) / RCLAW_NEG)))), INEG_ISCLIMIT ),R+ MIN( (MIN(IPOS, (IPOS - ((V(N3) - ABS(V(MID))) / RCLAW_POS)))), IPOS_ISCLIMIT )+)}.ENDS AOL_GM2_V2**$D.MODEL MND NMOS( VTO=0.714 XJ=1.7E-07 KP=200M GAMMA=0.035 PHI=0.65 @+ LAMBDA=0.02 TOX=100N RS=1 RD=1 RSH=3 CGDO=4P CGSO=4P CGBO=2P)* * PMOSD.MODEL MPD PMOS( VTO=0.714 XJ=1.7E-07 KP=200M GAMMA=0.035 PHI=0.65 @+ LAMBDA=0.02 TOX=100N RS=1 RD=1 RSH=3 CGDO=4P CGSO=4P CGBO=2P)**$*k.SUBCKT AOL_GM2_V2P1 V+ V- IMON VOUT MID IN+ IN- OUT+ OUT- PARAMS: GM2_NO_IOUT=-17m K=1 IPOS=10m INEG=-10m**$#.model R_NOISELESS RES(T_ABS=-273)** Get output from AOL_GM1_V1G1 N1 IN- IN+ IN- -1mR1 N1 IN- R_NOISELESS 1k*&* Get Output current as voltage inputG2 N2 MID IMON MID -1mR2 N2 MID R_NOISELESS 1k*5* Get Output voltage as voltage input through bufferG2B N3 MID VOUT MID -1mR2B N3 MID R_NOISELESS 1k*>* Get Positive Supply voltage as voltage input through bufferG3P NP MID V+ MID -1mR3P NP MID R_NOISELESS 1k*>* Get Negative Supply voltage as voltage input through bufferG3N NN MID V- MID -1mR3N NN MID R_NOISELESS 1k*;* Make GM2 as a function of IOUT (VIMON) and VOUT (VOUT_S)*/* Set Claw resistance based on ISC and VSUPPLY.PARAM RCLAW_NEG = 40.PARAM RCLAW_POS = 40* =* Set MAX and MIN for INEG and IPOS based on the calculation .PARAM IPOS_ISCLIMIT = { IPOS } .PARAM INEG_ISCLIMIT = { INEG }*DG3 OUT+ OUT- VALUE={LIMIT(((-GM2_NO_IOUT + K*ABS(V(N2))) * -V(N1)),U+ MAX( (MAX(INEG, (INEG - ((V(N3) + ABS(V(NP)-10)) / RCLAW_NEG)))), INEG_ISCLIMIT ),T+ MIN( (MIN(IPOS, (IPOS - ((V(N3) - ABS(V(NN)+10)) / RCLAW_POS)))), IPOS_ISCLIMIT )+)}.ENDS AOL_GM2_V2P1**$A0A1A2DGNDFDA_IN+FDA_IN-INNINPLVDDLVSSOUTNOUTPVOCMVS+VS-Bo+10VT_03D13EB020251223120317 NOPCB (J)Bo-10VT_03D138D020251223120317 NOPCB (J)Bo VOCMT_03D132F020251223120317 NOPCB (J)Bo-10VT_03D12D1020251223120317 NOPCB (J)Boh+10VT_03D1273020251223120317 NOPCB (J)Bn+5VT_03D1215020251223120317 NOPCB (J)BoP( VOCMT_03D11B7020251223120317 NOPCB (J)Bn(+5VT_03D1159020251223120317 NOPCB (J)Bnh+5VT_03D10FB020251223120317 NOPCB (J)Bn-5VT_03D109D020251223120317 NOPCB (J)Bf`T_03D196D020251223120317 NOPCB (GND)BfT_03D190F020251223120317 NOPCB (GND)Bf@T_03D18B1020251223120317 NOPCB (GND)BfT_03D1853020251223120317 NOPCB (GND)BfT_03D17F5020251223120317 NOPCB (GND)BfT_03D1797020251223120317 NOPCB (GND)BfT_03D1739020251223120317 NOPCB (GND)Bf0pT_03D16DB020251223120317 NOPCB (GND)Bfh@T_03D167D020251223120317 NOPCB (GND)BfT_03D161F020251223120317 NOPCB (GND)BfhT_03D15C1020251223120317 NOPCB (GND)BfhxT_03D1563020251223120317 NOPCB (GND)BfpT_03D1505020251223120317 NOPCB (GND)Bf(hT_03D14A7020251223120317 NOPCB (GND)BfxT_03D1449020251223120317 NOPCB (GND)8? ]@"MbP??ư>'dd?Y@[dddd$@?.A.A.AeAMbP?@@?ư>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