**** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** CIRCUIT DESCRIPTION ****************************************************************************** ** Creating circuit file "ACSenseSim.cir" ** WARNING: THIS AUTOMATICALLY GENERATED FILE MAY BE OVERWRITTEN BY SUBSEQUENT SIMULATIONS *Libraries: * Profile Libraries : * Local Libraries : .LIB "C:/Users/dvalente/Documents/1543/Sim/PSpice for TI/lib mods/custom_parts.lib" * From [PSPICE NETLIST] section of C:\cds_spb_home\cdssetup\OrCAD_PSpiceTIPSpice_Install\23.1.0\PSpice.ini file: .lib "nom_pspti.lib" .lib "nom.lib" *Analysis directives: .TRAN 0 10m 0 100n .OPTIONS ADVCONV .OPTIONS FILEMODELSEARCH .PROBE64 V(alias(*)) I(alias(*)) W(alias(*)) D(alias(*)) NOISE(alias(*)) .INC "..\SCHEMATIC1.net" **** INCLUDING SCHEMATIC1.net **** * source DESIGN1 X_U2 N02126 0 N02126 5VDC 0 N20331 N22293 N09773 GND_EARTH N09773 + N06214 GND_EARTH N08403 N08394 AMC3301 C_C3 N06214 GND_EARTH 100n TC=0,0 C_C6 5VDC 0 1n TC=0,0 C_C7 5VDC 0 1u TC=0,0 V_V4 N13336 GND_EARTH AC 1 +SIN 0 115 400 0 0 0 C_C8 N06214 GND_EARTH 1n TC=0,0 R_R8 N08394 N08188 10 TC=0,0 R_R9 N08403 GND_EARTH 10 TC=0,0 R_R10 N08188 GND_EARTH 0.028 TC=0,0 C_C11 N08403 N08394 10n TC=0,0 C_C9 GND_EARTH N09773 100n TC=0,0 C_C10 GND_EARTH N09773 1n TC=0,0 C_C2 N09773 GND_EARTH 100n TC=0,0 C_C5 0 N02126 100n TC=0,0 R_R13 N13336 N08188 39 TC=0,0 V_V10 5VDC 0 5Vdc R_R14 0 GND_EARTH 100k TC=0,0 X_U3 0 N21129 5VDC -5VDC N21129 N21181 N21192 INA592 V_V12 0 -5VDC 5Vdc R_R15 N22293 N21192 0.1 TC=0,0 R_R16 N21181 N20331 0.1 TC=0,0 **** RESUMING ACSenseSim.cir **** .END **** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** Diode MODEL PARAMETERS ****************************************************************************** X_U3.X_U1.DVN X_U2.XHLDO.XD_Z2.D_1_25V T_Measured 27 T_Current 27 IS 100.000000E-18 1.000000E-09 N .5 BV 1.25 IBV 2.750000E-06 KF 3.162278E-12 X_U2.XHLDO.XD_Z3.D_10V T_Measured 27 T_Current 27 IS 1.000000E-09 BV 10 IBV 1.000000E-06 X_U2.XHLDO.XD_D3.DD T_Measured 27 T_Current 27 IS 1.000000E-12 X_U2.XHLDO.XD_D1.DD T_Measured 27 T_Current 27 IS 1.000000E-09 RS 1 X_U2.XHLDO.XDZb1.D_3_0V T_Measured 27 T_Current 27 IS 1.000000E-09 N .5 BV 2.7 IBV 5.000000E-06 X_U2.XHLDO.XD1.DD T_Measured 27 T_Current 27 IS 5.000000E-06 XTI 0 X_U2.XHLDO.XD_Z1.D_Z1V2 IS 1.000000E-09 BV 6 IBV 100.000000E-09 X_U2.XHLDO.XU1.D_1 T_Measured 27 T_Current 27 IS 1.000000E-12 N .1 RS 100 X_U2.XLDO.XD_Z3.D_10V T_Measured 27 T_Current 27 IS 1.000000E-09 BV 10 IBV 1.000000E-06 X_U2.XLDO.XD_D3.DD T_Measured 27 T_Current 27 IS 1.000000E-12 X_U2.XLDO.XD_D1.DD T_Measured 27 T_Current 27 IS 1.000000E-09 RS 1 X_U2.XLDO.XD_Z2.D_1_25V T_Measured 27 T_Current 27 IS 1.000000E-09 N .5 BV 1.25 IBV 2.750000E-06 X_U2.XLDO.XDZb1.D_3_0V T_Measured 27 T_Current 27 IS 1.000000E-09 N .5 BV 2.6 IBV 5.000000E-06 X_U2.XLDO.XD1.DD T_Measured 27 T_Current 27 IS 5.000000E-06 XTI 0 X_U2.XLDO.XD_Z1.D_Z1V2 IS 1.000000E-09 BV 6 IBV 100.000000E-09 X_U2.XLDO.XU1.D_1 T_Measured 27 T_Current 27 IS 1.000000E-12 N .1 RS 100 X_U2.XAMP.XD10.D_Z5V3 T_Measured 27 T_Current 27 IS 1.000000E-12 BV 5.3 IBV 1.000000E-03 RS 10 XTI 0 X_U2.XAMP.XD9.D_Z5V3 D2 T_Measured 27 27 T_Current 27 27 IS 1.000000E-12 1.000000E-12 BV 5.3 IBV 1.000000E-03 RS 10 10 XTI 0 0 X_U2.XAMP.XInput.XBias.XD1.DD T_Measured 27 T_Current 27 IS 10.000000E-09 N .5 RS 1 EG .55 XTI 0 X_U2.XAMP.XInput.XBias.XDZb1.D_4_9V T_Measured 27 T_Current 27 IS 1.000000E-09 BV 2.9 IBV 1.000000E-03 XTI 0 X_U2.XAMP.XInput.XInput1.XD6.D_Limcm T_Measured 27 T_Current 27 IS 1.000000E-12 RS 100 XTI 0 AF .1 X_U2.XAMP.XInput.XInput1.XD5.D_Limcm T_Measured 27 T_Current 27 IS 1.000000E-12 RS 100 XTI 0 AF .1 X_U2.XAMP.XInput.XInput1.XD3.D_Limcm T_Measured 27 T_Current 27 IS 1.000000E-12 RS 100 XTI 0 AF .1 X_U2.XAMP.XInput.XInput1.XD2.D_Limcm D_Lim100_05 T_Measured 27 27 T_Current 27 27 IS 1.000000E-12 10.000000E-15 N .5 RS 100 100 EG .555 XTI 0 0 AF .1 .1 D_Lim1 D_Lim1T T_Measured 27 27 T_Current 27 27 IS 10.000000E-15 10.000000E-15 RS 1.000000E+03 10 XTI 0 0 AF .1 .1 **** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** MOSFET MODEL PARAMETERS ****************************************************************************** X_U2.XHLDO.XQ1.SWMOS PMOS T_Measured 27 T_Current 27 LEVEL 1 L 100.000000E-06 W 100.000000E-06 VTO -1 KP .01 GAMMA 0 PHI .6 LAMBDA 500.000000E-06 IS 0 JS 0 PB .8 PBSW .8 CJ 0 CJSW 0 CGSO 0 CGDO 0 CGBO 0 TOX 0 XJ 0 UCRIT 10.000000E+03 DIOMOD 1 VFB 0 LETA 0 WETA 0 U0 0 TEMP 0 VDD 5 XPART 0 X_U2.XLDO.XQ1.SWMOS Q_PMOS_Out_L1 Q_NMOS_Out_L1 PMOS PMOS NMOS T_Measured 27 T_Current 27 LEVEL 1 1 1 L 100.000000E-06 10.000000E-06 10.000000E-06 W 100.000000E-06 100.000000E-06 100.000000E-06 LD 90.000000E-09 90.000000E-09 VTO -1 -.75 .75 KP .01 194.239300E-06 194.239300E-06 GAMMA 0 0 0 PHI .6 .6 .6 LAMBDA 500.000000E-06 .01 .01 RDS 10.000000E+06 10.000000E+06 RSH 4 4 IS 0 10.000000E-15 10.000000E-15 JS 0 0 0 PB .8 .7 .7 PBSW .8 .7 .7 CJ 0 400.000000E-06 200.000000E-06 CJSW 0 2.400000E-09 1.200000E-09 CGSO 0 466.174400E-12 388.478700E-12 CGDO 0 466.174400E-12 388.478700E-12 CGBO 0 0 0 TOX 0 0 0 XJ 0 0 0 UCRIT 10.000000E+03 10.000000E+03 10.000000E+03 DIOMOD 1 1 1 VFB 0 0 0 LETA 0 0 0 WETA 0 0 0 U0 0 0 0 TEMP 0 0 0 VDD 5 5 5 XPART 0 0 0 **** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** Resistor MODEL PARAMETERS ****************************************************************************** X_U3.R_NOISELESS T_Measured 27 T_Current -273.15 R 1 X_U2.XAMP.XGain.RMOD2 R 1 TC1 -20.000000E-06 X_U2.XAMP.XInput.XU5.RMOD2 R 1 TC1 -.029412 **** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** Voltage Controlled Switch MODEL PARAMETERS ****************************************************************************** X_U3.X_S1._S1 X_U3.X_S2._S2 RON .01 .01 ROFF 1.000000E+09 1.000000E+09 VON .01 .01 VOFF 0 0 X_U3.X_U5.ESD_SW RON 50 ROFF 1.000000E+12 VON .7 VOFF .1 X_U3.X_U21.ESD_SW RON 50 ROFF 1.000000E+12 VON .7 VOFF .1 X_U3.X_U25.OL_SW RON 1.000000E-03 ROFF 1.000000E+09 VON .9 VOFF .8 Starting pseudo-transient algorithm. INFO(ORPSIM-16594): To improve Pseudotransient Convergence and Performance, set following options to relax stabilization criteria for capacitor currents and inductor voltages: PTRANABSTOL=1e-5, PTRANVNTOL=1e-4 **** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** INITIAL TRANSIENT SOLUTION TEMPERATURE = 27.000 DEG C ****************************************************************************** NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE ( 5VDC) 5.0000 (-5VDC) -5.0000 (N02126) 2.9003 (N06214) 9.2291 (N08188) 6.0790 (N08394) 6.0793 (N08403) 6.0793 (N09773) 10.3460 (N13336) 6.0790 (N20331) 1.4368 (N21129) -.0012 (N21181) 1.4368 (N21192) 1.4374 (N22293) 1.4374 (X_U3.MID) 143.2E-18 (X_U3.V11)-8.004E-09 (X_U3.V12)-8.004E-09 (GND_EARTH) 6.0790 (X_U3.ESDN) .9579 (X_U3.ESDP) .9579 (X_U3.VCLP) -.2872 (X_U3.CLAMP) -.2872 (X_U3.SW_OL) 143.2E-18 (X_U3.VCC_B) 5.0000 (X_U3.VEE_B) -5.0000 (X_U3.VIMON) -.0799 (X_U3.N24207) .9579 (X_U3.N25921) -.3420 (X_U3.N25929)-1.094E-06 (X_U3.N27785) .3420 (X_U3.N27793) 1.094E-06 (X_U3.N28438) .9579 (X_U3.N28678) .9579 (X_U3.N31303) .9579 (X_U3.N31389) 5.1000 (X_U3.N31737) -5.1000 (X_U3.N32236) .9579 (X_U3.N32347) .9579 (X_U3.N32510)-3.855E-06 (X_U3.N36262) -.2872 (X_U3.N37029) -25.9900 (X_U3.N37037) -2.6388 (X_U3.N39124) -25.9900 (X_U3.N39892)-389.8E-06 (X_U3.N45999) -.0012 (X_U3.N46041) -25.9900 (X_U3.N55560) 143.2E-18 (X_U3.N56849) 143.2E-18 (X_U3.N57321) 143.2E-18 (X_U3.N57325) 143.2E-18 (X_U3.N59739) 65.0000 (X_U3.N59743) 143.2E-18 (X_U3.N59747) 143.2E-18 (X_U3.N59865) 143.2E-18 (X_U3.N59881) 143.2E-18 (X_U3.N59905) -65.0000 (X_U3.N65567) 251.0000 (X_U3.N65575) 143.2E-18 (X_U3.N65579) 143.2E-18 (X_U3.N65697) 143.2E-18 (X_U3.N65713) 143.2E-18 (X_U3.N65737) -251.0000 (X_U3.N68774) -.2872 (X_U3.N72064) 4.9917 (X_U3.N72073) -4.9883 (X_U3.N72391) -4.9883 (X_U3.N72398) 4.9917 (X_U3.N81574)-8.004E-09 (X_U3.N81664)-8.004E-09 (X_U3.N81756) 143.2E-18 (X_U3.VOUT_S) -.0012 (X_U3.VSENSE) -.2872 (X_U3.X_U1.3) 0.0000 (X_U3.X_U1.4) 0.0000 (X_U3.X_U1.5) 0.0000 (X_U3.X_U1.6) 0.0000 (X_U3.X_U1.7) .8338 (X_U3.X_U1.8) .8338 (X_U2.XAMP.47) 6.0791 (X_U2.XAMP.48) 6.0791 (X_U2.XLDO.23) 1.2501 (X_U2.XLDO.24) 1.2502 (X_U2.XLDO.25) 3.8386 (X_U2.XLDO.27) 3.0305 (X_U2.XLDO.29) 2.5987 (X_U2.XLDO.30) 2.5987 (X_U3.IN+_AMP) .9579 (X_U3.IN-_AMP) .9579 (X_U3.N158495) -.2872 (X_U3.N161737) -.0799 (X_U3.N161937) -.0012 (X_U3.N175051) -.0012 (X_U3.VCC_CLP) 4.9917 (X_U3.VEE_CLP) -4.9883 (X_U3.X_U36.3) 0.0000 (X_U3.X_U36.5) 0.0000 (X_U3.X_U37.3) 0.0000 (X_U3.X_U37.5) 0.0000 (X_U2.XAMP.FSO) 6.0790 (X_U2.XDCDC.34) 0.0000 (X_U2.XDCDC.G1) 6.0202 (X_U2.XHLDO.15) 7.3291 (X_U2.XHLDO.16) 7.3292 (X_U2.XHLDO.17) 9.2461 (X_U2.XHLDO.19) 9.2786 (X_U2.XHLDO.21) 8.7776 (X_U2.XHLDO.22) 8.7776 (X_U3.CL_CLAMP) -.2872 (X_U3.N2419074) -.2872 (X_U3.N2425287) 143.2E-18 (X_U3.N2425309) 5.0000 (X_U3.N2425325) -5.0000 (X_U3.N2525790) -.2872 (X_U3.N2526890) -.2872 (X_U3.N2817533) 1.4374 (X_U3.N2830160) .9579 (X_U3.N2831296) -4.2872 (X_U3.N2831352) 3.7128 (X_U3.N2831576) -4.2872 (X_U3.N2831588) -4.2872 (X_U3.N2831656) 3.7128 (X_U3.N2831678) 3.7128 (X_U2.XAMP.VOCM) 1.4371 (X_U2.XDCDC.VOR1) 9.2926 (X_U3.CLAW_CLAMP) -.2872 (X_U2.XAMP.INP_43)-214.6E-06 (X_U2.XDCDC.Toutp) 6.1301 (X_U2.XLDO.VF1_26) -5.2424 (X_U2.XLDO.XQ1.Si) 4.9999 (X_U2.XLDO.XU1.P1) 3.8386 (X_U2.XDCDC.DVout1) 7.1320 (X_U2.XDCDC.Out_31) 10.3460 (X_U2.XDCDC.Out_32) 2.9003 (X_U2.XDCDC.XDAB.b) 0.0000 (X_U2.XDCDC.XDAB.c) 1.0000 (X_U2.XHLDO.VF1_18) .1398 (X_U2.XHLDO.XQ1.Si) 10.3460 (X_U2.XHLDO.XU1.P1) 9.2461 (X_U2.XLDO.XU1.VMI) 2.6376 (X_U2.XLDO.XU1.VPI) 4.9424 (X_U2.XAMP.NOut1_42) 1.4372 (X_U2.XAMP.NOut1_46) 7.9790 (X_U2.XAMP.POut1_41) 1.4370 (X_U2.XAMP.POut1_44) 7.9789 (X_U2.XAMP.XGain.G1) .2498 (X_U2.XAMP.XGain.G2)-13.51E-06 (X_U2.XHLDO.XU1.VMI) 7.9832 (X_U2.XHLDO.XU1.VPI) 10.2880 (X_U2.XLDO.VACin_28) 1.2502 (X_U2.XAMP.XGain.G12) .9995 (X_U2.XDCDC.XGamma.a) 1.0000 (X_U2.XDCDC.XGamma.b) 1.0000 (X_U2.XHLDO.VACin_20) 7.3291 (X_U2.XAMP.XFilter.61) 1.271E-21 (X_U2.XAMP.XFilter.62)-107.5E-06 (X_U2.XAMP.XFilter.63)-6.776E-21 (X_U2.XAMP.XFilter.64)-107.5E-06 (X_U2.XAMP.XFilter.65) 3.3000 (X_U2.XAMP.XFilter.66) 827.2E-27 (X_U2.XAMP.XFilter.69) 1.4372 (X_U2.XAMP.XFilter.70) 1.4372 (X_U2.XAMP.XFilter.71) 1.4370 (X_U2.XAMP.XFilter.72) 1.4372 (X_U2.XAMP.XFilter.73) 1.4370 (X_U2.XAMP.XFilter.74) 1.4370 (X_U2.XAMP.XFilter.75) 1.4372 (X_U2.XAMP.XFilter.76) 1.4370 (X_U2.XAMP.XInput.113) 7.9790 (X_U2.XAMP.XInput.117) 6.4592 (X_U2.XAMP.XInput.119) 6.4592 (X_U2.XAMP.XInput.121) 6.0790 (X_U2.XAMP.XInput.122) 6.4592 (X_U2.XAMP.XInput.123) 0.0000 (X_U2.XAMP.XInput.124) 0.0000 (X_U2.XAMP.XInput.125) 2.013E-15 (X_U2.XAMP.XInput.126) 36.91E-06 (X_U2.XAMP.XInput.127) 7.9789 (X_U2.XAMP.XInput.128)-3.861E-15 (X_U2.XAMP.XInput.129) 565.3E-21 (X_U2.XAMP.XInput.131) 11.0790 (X_U2.XAMP.XInput.VOS) 51.00E-06 (X_U2.XDCDC.XDAB.Iinp) .0130 (X_U2.XDCDC.XDAB.Iout) .0050 (X_U2.XDCDC.XDAB.Xb.1) 0.0000 (X_U2.XDCDC.XDAB.Xb.2) 0.0000 (X_U2.XDCDC.XDAB.Xc.1) 1.0000 (X_U2.XDCDC.XDAB.Xc.2) 1.0000 (X_U2.XAMP.XDFilter.49)-214.6E-06 (X_U2.XAMP.XDFilter.50)-214.6E-06 (X_U2.XAMP.XDFilter.51)-214.6E-06 (X_U2.XAMP.XFilter.Vt0) .9462 (X_U2.XAMP.XInput.POut) 7.9789 (X_U2.XAMP.XInput.Vecm)-6.541E-09 (X_U2.XAMP.XInput.VICM) 6.0793 (X_U2.XAMP.XInput.VLCM) 6.4592 (X_U2.XDCDC.XDAB.deriv) 0.0000 (X_U2.XDCDC.XDAB.Iinp0) .0130 (X_U2.XDCDC.XDAB.Iout0) .0050 (X_U2.XAMP.XFilter.Bias) .9755 (X_U2.XAMP.XFilter.Vt0p) 4.0538 (X_U2.XAMP.XInput.CMref) 6.4590 (X_U2.XDCDC.XDAB.bdummy) 0.0000 (X_U2.XDCDC.XDAB.cdummy) 1.0000 (X_U2.XDCDC.XDAB.Voutpi) 10.3460 (X_U2.XAMP.XFilter.VM_53) 2.4388 (X_U2.XAMP.XInput.VM_106) 7.9790 (X_U2.XAMP.XInput.VM_114) 7.9790 (X_U2.XAMP.XInput.XU5.40)-51.00E-06 (X_U2.XAMP.XFilter.Neg_59) 1.4372 (X_U2.XAMP.XFilter.Neg_67) 1.4370 (X_U2.XAMP.XInput.Neg_118) 6.4592 (X_U2.XAMP.XInput.Venoise) 0.0000 (X_U2.XAMP.XInput.XU2.thr) 7.1730 (X_U2.XDCDC.XDAB.Xslewi.1) .0130 (X_U2.XDCDC.XDAB.Xslewi.2) .0130 (X_U2.XDCDC.XDAB.Xslewo.1) .0050 (X_U2.XDCDC.XDAB.Xslewo.2) .0050 (X_U2.XDCDC.XGamma.XC1.tm) 767.3E-06 (X_U2.XDCDC.XGamma.XC2.tm) .0017 (X_U2.XAMP.XFilter.IGND_57) 0.0000 (X_U2.XAMP.XFilter.Plus_60) 1.4372 (X_U2.XAMP.XFilter.Plus_68) 1.4370 (X_U2.XAMP.XFilter.Veps_52)-107.5E-06 (X_U2.XAMP.XInput.IGND_105) 6.0790 (X_U2.XAMP.XInput.Plus_120) 6.4592 (X_U2.XAMP.XInput.Veps_109)-36.91E-06 (X_U2.XDCDC.XDAB.f_caliber) 1.0000 (X_U2.XDCDC.XDelta_Gamma.a) 1.0000 (X_U2.XDCDC.XGamma.XC1.thr) 1.5980 (X_U2.XDCDC.XGamma.XC2.thr) 2.3000 (X_U2.XAMP.XFilter.IAVDD_58) 4.8776 (X_U2.XAMP.XFilter.XBias.90) 2.1462 (X_U2.XAMP.XFilter.XBias.91) .9462 (X_U2.XAMP.XFilter.XBias.92) 4.0538 (X_U2.XAMP.XFilter.XBias.93) .9462 (X_U2.XAMP.XInput.IAVDD_112) 11.0790 (X_U2.XAMP.XInput.XBias.132) 6.2879 (X_U2.XDCDC.XDAB.Xc.XDEL1.3) 1.0000 (X_U2.XDCDC.XDAB.Xc.XDEL1.4) 1.0000 (X_U2.XDCDC.XDAB.Xc.XDEL1.5) 1.0000 (X_U2.XAMP.XFilter.XBias.VT1) 2.5296 (X_U2.XAMP.XInput.XInput1.VB) 7.9790 (X_U2.XDCDC.XDAB.ddtVoutFilt) 0.0000 (X_U2.XAMP.XInput.XInput1.134) 6.9944 (X_U2.XAMP.XInput.XInput1.135) 10.1640 (X_U2.XAMP.XInput.XInput1.136) 5.4803 (X_U2.XAMP.XInput.XInput1.137) 6.4592 (X_U2.XAMP.XInput.XInput1.138) 8.4244 (X_U2.XAMP.XInput.XInput1.139) 6.4592 (X_U2.XAMP.XInput.XInput1.140) 8.4244 (X_U2.XAMP.XInput.XInput1.141) 5.4803 (X_U2.XAMP.XInput.XInput1.MCM) 1.0000 (X_U2.XDCDC.XDAB.Xf_caliber.1) 1.0000 (X_U2.XDCDC.XDAB.Xf_caliber.2) 1.0000 (X_U2.XAMP.XFilter.XOutputn.80) 4.0065 (X_U2.XAMP.XFilter.XOutputn.81) .9453 (X_U2.XAMP.XFilter.XOutputn.82) .6952 (X_U2.XAMP.XFilter.XOutputn.83) .9935 (X_U2.XAMP.XFilter.XOutputn.84) 1.4374 (X_U2.XAMP.XFilter.XOutputn.85) 4.9757 (X_U2.XAMP.XFilter.XOutputn.86) .0235 (X_U2.XAMP.XFilter.XOutputn.87) 4.1823 (X_U2.XAMP.XFilter.XOutputp.97) 4.0065 (X_U2.XAMP.XFilter.XOutputp.98) .9453 (X_U2.XAMP.XFilter.XOutputp.99) .6952 (X_U2.XAMP.XFilter.XOutputp.100) .9935 (X_U2.XAMP.XFilter.XOutputp.101) 1.4368 (X_U2.XAMP.XFilter.XOutputp.102) 4.9757 (X_U2.XAMP.XFilter.XOutputp.103) .0235 (X_U2.XAMP.XFilter.XOutputp.104) 4.1823 (X_U2.XDCDC.XDelta_Gamma.XC1.tm) .0014 (X_U2.XDCDC.XDelta_Gamma.XC1.thr) 2.2000 (X_U2.XAMP.XFilter.XBias.Vocmtemp) 1.0001 (X_U2.XAMP.XFilter.XOutputn.VV_77) 2.4388 (X_U2.XAMP.XFilter.XOutputp.VV_94) 2.4388 (X_U2.XDCDC.XDAB.nf_caliber_dummy) 1.0000 (X_U2.XAMP.XFilter.XOutputn.VGN_79) .9453 (X_U2.XAMP.XFilter.XOutputn.VGP_78) 4.0530 (X_U2.XAMP.XFilter.XOutputp.VGN_96) .9453 (X_U2.XAMP.XFilter.XOutputp.VGP_95) 4.0530 (X_U2.XDCDC.XDAB.Xf_caliber.XDEL1.3) 1.0000 (X_U2.XDCDC.XDAB.Xf_caliber.XDEL1.4) 1.0000 (X_U2.XDCDC.XDAB.Xf_caliber.XDEL1.5) 1.0000 VOLTAGE SOURCE CURRENTS NAME CURRENT V_V4 2.181E-08 V_V10 -2.007E-02 V_V12 -1.080E-03 X_U3.V_V_GRN 2.510E-10 X_U3.V_V_GRP -2.510E-10 X_U3.V_V_ISCN 6.500E-11 X_U3.V_V_ISCP -6.500E-11 X_U3.V_V_ORN 0.000E+00 X_U3.V_V_ORP 0.000E+00 X_U3.V_V3 -7.993E-05 X_U3.V_VCM_MAX -5.100E-12 X_U3.V_VCM_MIN 5.100E-12 X_U2.XHLDO.VIZ1 5.008E-06 X_U2.XLDO.VIZ1 5.012E-06 X_U3.X_H1.VH_H1 -7.993E-05 X_U3.X_H2.VH_H2 -8.004E-09 X_U3.X_H3.VH_H3 8.004E-09 X_U2.XDCDC.XDAB.Viout 4.953E-03 X_U2.XDCDC.XDAB.Vf_caliber_dummy 0.000E+00 X_U2.XAMP.XFilter.VPSref 0.000E+00 X_U2.XAMP.XInput.VCMref 0.000E+00 X_U2.XAMP.XInput.VPSref 0.000E+00 X_U2.XAMP.XFilter.XOutputn.VAM2 5.579E-13 X_U2.XAMP.XFilter.XOutputn.VAM1 2.429E-03 X_U2.XAMP.XFilter.XOutputn.Vo21 1.754E-12 X_U2.XAMP.XFilter.XOutputn.Vo22 1.754E-12 X_U2.XAMP.XFilter.XBias.VS2 1.918E-12 X_U2.XAMP.XFilter.XOutputp.VAM2 1.424E-13 X_U2.XAMP.XFilter.XOutputp.VAM1 2.429E-03 X_U2.XAMP.XFilter.XOutputp.Vo21 1.754E-12 X_U2.XAMP.XFilter.XOutputp.Vo22 1.754E-12 X_U2.XAMP.XInput.XInput1.VIvcvs3 5.930E-12 X_U2.XAMP.XInput.XInput1.VIvs1 3.958E-12 X_U2.XAMP.XInput.XInput1.VS1 3.958E-12 X_U2.XAMP.XInput.XInput1.VdrophO1 2.195E-12 X_U2.XAMP.XInput.XInput1.VdroplO1 9.945E-13 TOTAL POWER DISSIPATION 1.06E-01 WATTS Reducing minimum delta to make the circuit converge. Reducing minimum delta to make the circuit converge. ERROR(ORPSIM-16550): Floating point computation failed during matrix solution. Possible solutions: 1)Ensure that all device parameters are in valid range. 2)Try using .options LIMIT INTERNAL ERROR -- Overflow, Multiply(-3.22642e+307, 999999) ABORTING SIMULATION **** 03/01/26 16:58:13 **** PSpice 23.1.0 (30 January 2024) *** ID# 0 ******** ** Profile: "SCHEMATIC1-ACSenseSim" [ C:\Users\dvalente\Documents\1543\Sim\PSpice for TI\Input AC Sense\design1-pspicefiles\schemat **** JOB STATISTICS SUMMARY ****************************************************************************** Node counts: Top level (NUNODS) = 15 External (NCNODS) = 284 Total (NUMNOD) = 326 Total device count (NUMEL) = 660 Capacitors (C) = 117 Diodes (D) = 51 VCVS (E) = 60 VCCS (G) = 100 CCVS (H) = 3 Current Sources (I) = 7 Inductors (L) = 8 MosFETs (M) = 9 Resistors (R) = 252 VSwitches (S) = 9 Voltage Sources (V) = 36 Number of subcircuits (X) = 116 Matrix statistics: Matrix size (NSTOP) = 433 Initial no. elements (NTTAR) = 1611 No. elements w/ fillin (NTTBR) = 2409 No. fillins (IFILL) = 798 No. overflows (NTTOV) = 1757 No. LU operations (IOPS) = 3609 Percent sparsity (PERSPA) = 98.715 Analysis statistics: No. total time points (NUMTTP) = 7 No. rejected time points (NUMRTP) = 7 No. iterations (NUMNIT) = 901 Load Threads = 8 Runtime statistics: Seconds Iterations Stopped At Matrix load = 2.46 Matrix solution = .40 12 Readin = .59 General setup = .13 CMI setup = 0.00 Setup = 0.00 DC sweep = 0.00 0 Bias point = 3.16 2363 Default algorithm = .03 1313 GMIN stepping = .17 1050 100.00m Supply stepping = .23 0 83.42% Quasi-tran = 2.72 0 0.00% AC and noise = 0.00 0 Total transient analysis = 0.00 Output = 0.00 Overhead = .09 Total job time (using Solver 1) = 4.06