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.; $Circuit$??  T_0B74002020250819111220?P8P88T_0B83890020250819111236? 0  0T_0B83D7C020250819111248?T_0F18B2A020250819111317?H@H@@T_0F18F26020250819111324;P0P0T_0F19412020250819111333C   T_0B72382020250819111336;0000T_0B72D96020250819111353?00000T_0B72DD2020250819111353DB  V1T_0E51006020250819111209Battery_9V_V (V)8@ BPR1T_0E510C2020250819111226R_AX600_W200 (R)p@@?Y@B0VG1T_0E5117E020250819111240 Sgen (VG)@@@@& .>DB V2T_0E5123A020250819111311Battery_9V_V (V)@ BPR2T_0E513B2020250819111326R_AX600_W200 (R)@o@@?Y@Br0VoutT_0E5146E020250819111351 NOPCB (VF):B8 U1T_0E514CC020250819112329 XTR200XTR200RC:\Users\a0227588\AppData\Local\Temp\DesignSoft\{Tina9-TI-01192021-121414}\XTR200SCK#XTR200LabelK+@(P0d*INPUTP8 (Out In- @d*MODEIP8 (Out In- @d*VSPUT H @d*SETE  @d*VGT H @d*ISP H @d*GNDE H @d*OUTUTYg  H @f@(g!XTR200Arial333333?h@h@* XTR200 - Rev. E2.* Created by Robert Clifton; October 23, 20257******************************************************$* MACRO-MODEL SIMULATED PARAMETERS:7******************************************************* SMALL SIGNAL BANDWIDTH * SLEW RATE* OUTPUT VOLTAGE HEADROOM* MINIMUM OUTPUT VOLTAGE* OUTPUT OFFSET CURRENT* INPUT BIAS CURRENT * INPUT IMPEDANCE* SHORT CIRCUIT CURRENT LIMIT* QUIESCENT CURRENT7******************************************************* source XTR200_CURRENT1.subckt XTR200 MODE INPUT SET VSP IS VG OUT GND +X_SV1 MODE GND INN INNV SCHEMATIC1_SV1 &E_E6 N05508 GND INN INP -1MEG'E_E5 OUT2 GND FB1 N05328 -1MEG&R_R15 N05328 VSP 500 TC=0,0 !R_R16 IS VSP 50 TC=0,0 &G_G6 N05328 SET N05508 GND 1m R_R17 VG IS 1k TC=0,0 *X_SC1 MODE GND INN SET SCHEMATIC1_SC1 ,X_SV2 MODE GND OUT1 OUT3 SCHEMATIC1_SV2 ,X_SC2 MODE GND OUT2 OUT3 SCHEMATIC1_SC2 $R_R20 GND INNV 40k TC=0,0 %R_R21 INNV FBV 110k TC=0,0 +X_SV3 MODE GND OUT4 FBV SCHEMATIC1_SV3 +X_SV4 MODE GND OUT2 FB1 SCHEMATIC1_SV4 )X_SC3 MODE GND IS FB1 SCHEMATIC1_SC3 !I_I1 ESD_IN GND DC 25p !V_VOUTOFFSET OUT OUT4 1mI_I2 GND OUT DC 2u +X_U1 OUT3 GND VG OUT4 VCCS_LIM_GR (E_E7 OUT1 GND N917958 GND -1MEG'R_R22 OUT1 N917958 1M TC=0,0 )R_R23 N917958 N05508 1M TC=0,0 %C_C1 GND ESD_IN 1p TC=0,0 %R_R26 GND ESD_IN 1T TC=0,0 9X_OUT_CL VSP N1010477 VSP N1010477 SCHEMATIC1_OUT_CL V_V7 N1010477 OUT 2.5V1X_ESDN ESD_IN GND ESD_IN GND SCHEMATIC1_ESDN I_Iq VSP GND DC 327u )R_R29 ESD_IN INPUT 100m TC=0,0 1X_ESDP ESD_IN GND ESD_IN GND SCHEMATIC1_ESDP %C_C6 OUT4 VG 13.7n TC=0,0 .X_SV5 MODE GND VG N1162744 SCHEMATIC1_SV5 )C_C7 OUT4 N1162744 19n TC=0,0 *C_C9 GND N1177115 7.44u TC=0,0 /X_SV6 MODE GND INP N1177115 SCHEMATIC1_SV6 )X_U5 N1208666 GND INP GND AOL_2 )R_R41 GND N1208666 1MEG TC=0,0 $R_R42 GND INP 1MEG TC=0,0 %C_C14 GND INP 676n TC=0,0 ,X_U4 ESD_IN INP N1208666 GND AOL_1 .ends XTR200!.subckt SCHEMATIC1_SV1 1 2 3 4 S_SV1 3 4 1 2 _SV1RS_SV1 1 2 1G@.MODEL _SV1 VSWITCH Roff=1G Ron=.000001 Voff=.8 Von=.75.ends SCHEMATIC1_SV1!.subckt SCHEMATIC1_SC1 1 2 3 4 S_SC1 3 4 1 2 _SC1RS_SC1 1 2 1G@.MODEL _SC1 VSWITCH Roff=1G Ron=.000001 Voff=.75 Von=.8.ends SCHEMATIC1_SC1!.subckt SCHEMATIC1_SV2 1 2 3 4 S_SV2 3 4 1 2 _SV2RS_SV2 1 2 1G@.MODEL _SV2 VSWITCH Roff=1G Ron=.000001 Voff=.8 Von=.75.ends SCHEMATIC1_SV2!.subckt SCHEMATIC1_SC2 1 2 3 4 S_SC2 3 4 1 2 _SC2RS_SC2 1 2 1G@.MODEL _SC2 VSWITCH Roff=1G Ron=.000001 Voff=.75 Von=.8.ends SCHEMATIC1_SC2!.subckt SCHEMATIC1_SV3 1 2 3 4 S_SV3 3 4 1 2 _SV3RS_SV3 1 2 1G@.MODEL _SV3 VSWITCH Roff=1G Ron=.000001 Voff=.8 Von=.75.ends SCHEMATIC1_SV3!.subckt SCHEMATIC1_SV4 1 2 3 4 S_SV4 3 4 1 2 _SV4RS_SV4 1 2 1G@.MODEL _SV4 VSWITCH Roff=1G Ron=.000001 Voff=.8 Von=.75.ends SCHEMATIC1_SV4!.subckt SCHEMATIC1_SC3 1 2 3 4 S_SC3 3 4 1 2 _SC3RS_SC3 1 2 1G@.MODEL _SC3 VSWITCH Roff=1G Ron=.000001 Voff=.75 Von=.8.ends SCHEMATIC1_SC3$.subckt SCHEMATIC1_OUT_CL 1 2 3 4 !S_OUT_CL 3 4 1 2 _OUT_CLRS_OUT_CL 1 2 1G>.MODEL _OUT_CL VSWITCH Roff=1G Ron=.1 Voff=.1 Von=-.1.ends SCHEMATIC1_OUT_CL".subckt SCHEMATIC1_ESDN 1 2 3 4 S_ESDN 3 4 1 2 _ESDNRS_ESDN 1 2 1G?.MODEL _ESDN VSWITCH Roff=1G Ron=.001 Voff=.1 Von=-0.1.ends SCHEMATIC1_ESDN".subckt SCHEMATIC1_ESDP 1 2 3 4 S_ESDP 3 4 1 2 _ESDPRS_ESDP 1 2 1G?.MODEL _ESDP VSWITCH Roff=1G Ron=.001 Voff=5.9 Von=6.1.ends SCHEMATIC1_ESDP!.subckt SCHEMATIC1_SV5 1 2 3 4 S_SV5 3 4 1 2 _SV5RS_SV5 1 2 1G@.MODEL _SV5 VSWITCH Roff=1G Ron=.000001 Voff=.8 Von=.75.ends SCHEMATIC1_SV5!.subckt SCHEMATIC1_SV6 1 2 3 4 S_SV6 3 4 1 2 _SV6RS_SV6 1 2 1G@.MODEL _SV6 VSWITCH Roff=1G Ron=.000001 Voff=.8 Von=.75.ends SCHEMATIC1_SV6>* Voltage-controlled current source with limits - gross clamp(.subckt VCCS_LIM_GR VC+ VC- IOUT+ IOUT-.param Gain = -1e-3.param Ipos = 40e-3.param Ineg = -40e-38G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)}.ends".subckt AOL_1 VC+ VC- IOUT+ IOUT-.param Gain = 1e-4.param Ipos = 1.param Ineg = -18G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)}.ends".subckt AOL_2 VC+ VC- IOUT+ IOUT-.param Gain = 1.33e-1.param Ipos = 4.param Ineg = -48G1 IOUT+ IOUT- VALUE={LIMIT(Gain*V(VC+,VC-),Ineg,Ipos)}.endsINPUTMODEVSPSETVGISGNDOUTBfHT_0E51064020250819111215 NOPCB (GND)BfxT_0E51120020250819111237 NOPCB (GND)BfXT_0E511DC020250819111244 NOPCB (GND)Bf@T_0E512F6020250819111313 NOPCB (GND)BfHT_0E51354020250819111322 NOPCB (GND)BfxT_0E51410020250819111338 NOPCB (GND)8?U ]@x"MbP??ư>'dd?Y@[dddd??.AcA.AeAMbP?@@?{Gz?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