📄 mos2ask.c
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/* * Copyright (c) 1987 Mathew Lew and Thomas L. Quarles */#include "prefix.h"#include <stdio.h>#include <math.h>#include "CONST.h"#include "IFsim.h"#include "CKTdefs.h"#include "DEVdefs.h"#include "MOS2defs.h"#include "SPerror.h"#include "util.h"#include "suffix.h"RCSID("MOS2ask.c $Revision: 1.1 $ on $Date: 90/10/11 12:44:50 $")/*ARGSUSED*/intMOS2ask(ckt,inst,which,value,select) CKTcircuit *ckt; GENinstance *inst; int which; IFvalue *value; IFvalue *select;{ MOS2instance *here = (MOS2instance *)inst; double vr; double vi; double sr; double si; double vm; static char *msg = "Current and power not available for ac analysis"; switch(which) { case MOS2_TEMP: value->rValue = here->MOS2temp-CONSTCtoK; return(OK); case MOS2_CGS: value->rValue = *(ckt->CKTstate0 + here->MOS2capgs); return(OK); case MOS2_CGD: value->rValue = *(ckt->CKTstate0 + here->MOS2capgd); return(OK); case MOS2_L: value->rValue = here->MOS2l; return(OK); case MOS2_W: value->rValue = here->MOS2w; return(OK); case MOS2_AS: value->rValue = here->MOS2sourceArea; return(OK); case MOS2_AD: value->rValue = here->MOS2drainArea; return(OK); case MOS2_PS: value->rValue = here->MOS2sourcePerimiter; return(OK); case MOS2_PD: value->rValue = here->MOS2drainPerimiter; return(OK); case MOS2_NRS: value->rValue = here->MOS2sourceSquares; return(OK); case MOS2_NRD: value->rValue = here->MOS2drainSquares; return(OK); case MOS2_OFF: value->rValue = here->MOS2off; return(OK); case MOS2_IC_VBS: value->rValue = here->MOS2icVBS; return(OK); case MOS2_IC_VDS: value->rValue = here->MOS2icVDS; return(OK); case MOS2_IC_VGS: value->rValue = here->MOS2icVGS; return(OK); case MOS2_DNODE: value->iValue = here->MOS2dNode; return(OK); case MOS2_GNODE: value->iValue = here->MOS2gNode; return(OK); case MOS2_SNODE: value->iValue = here->MOS2sNode; return(OK); case MOS2_BNODE: value->iValue = here->MOS2bNode; return(OK); case MOS2_DNODEPRIME: value->iValue = here->MOS2dNodePrime; return(OK); case MOS2_SNODEPRIME: value->iValue = here->MOS2sNodePrime; return(OK); case MOS2_SOURCECONDUCT: value->rValue = here->MOS2sourceConductance; return(OK); case MOS2_DRAINCONDUCT: value->rValue = here->MOS2drainConductance; return(OK); case MOS2_VON: value->rValue = here->MOS2von; return(OK); case MOS2_VDSAT: value->rValue = here->MOS2vdsat; return(OK); case MOS2_SOURCEVCRIT: value->rValue = here->MOS2sourceVcrit; return(OK); case MOS2_DRAINVCRIT: value->rValue = here->MOS2drainVcrit; return(OK); case MOS2_CD: value->rValue = here->MOS2cd; return(OK); case MOS2_CBS: value->rValue = here->MOS2cbs; return(OK); case MOS2_CBD: value->rValue = here->MOS2cbd; return(OK); case MOS2_GMBS: value->rValue = here->MOS2gmbs; return(OK); case MOS2_GM: value->rValue = here->MOS2gm; return(OK); case MOS2_GDS: value->rValue = here->MOS2gds; return(OK); case MOS2_GBD: value->rValue = here->MOS2gbd; return(OK); case MOS2_GBS: value->rValue = here->MOS2gbs; return(OK); case MOS2_CAPBD: value->rValue = here->MOS2capbd; return(OK); case MOS2_CAPBS: value->rValue = here->MOS2capbs; return(OK); case MOS2_CAPZEROBIASBD: value->rValue = here->MOS2Cbd; return(OK); case MOS2_CAPZEROBIASBDSW: value->rValue = here->MOS2Cbdsw; return(OK); case MOS2_CAPZEROBIASBS: value->rValue = here->MOS2Cbs; return(OK); case MOS2_CAPZEROBIASBSSW: value->rValue = here->MOS2Cbssw; return(OK); case MOS2_VBD: value->rValue = *(ckt->CKTstate0 + here->MOS2vbd); return(OK); case MOS2_VBS: value->rValue = *(ckt->CKTstate0 + here->MOS2vbs); return(OK); case MOS2_VGS: value->rValue = *(ckt->CKTstate0 + here->MOS2vgs); return(OK); case MOS2_VDS: value->rValue = *(ckt->CKTstate0 + here->MOS2vds); return(OK); case MOS2_CAPGS: value->rValue = *(ckt->CKTstate0 + here->MOS2capgs); return(OK); case MOS2_QGS: value->rValue = *(ckt->CKTstate0 + here->MOS2qgs); return(OK); case MOS2_CQGS: value->rValue = *(ckt->CKTstate0 + here->MOS2cqgs); return(OK); case MOS2_CAPGD: value->rValue = *(ckt->CKTstate0 + here->MOS2capgd); return(OK); case MOS2_QGD: value->rValue = *(ckt->CKTstate0 + here->MOS2qgd); return(OK); case MOS2_CQGD: value->rValue = *(ckt->CKTstate0 + here->MOS2cqgd); return(OK); case MOS2_CAPGB: value->rValue = *(ckt->CKTstate0 + here->MOS2capgb); return(OK); case MOS2_QGB: value->rValue = *(ckt->CKTstate0 + here->MOS2qgb); return(OK); case MOS2_CQGB: value->rValue = *(ckt->CKTstate0 + here->MOS2cqgb); return(OK); case MOS2_QBD: value->rValue = *(ckt->CKTstate0 + here->MOS2qbd); return(OK); case MOS2_CQBD: value->rValue = *(ckt->CKTstate0 + here->MOS2cqbd); return(OK); case MOS2_QBS: value->rValue = *(ckt->CKTstate0 + here->MOS2qbs); return(OK); case MOS2_CQBS: value->rValue = *(ckt->CKTstate0 + here->MOS2cqbs); return(OK); case MOS2_L_SENS_DC: if(ckt->CKTsenInfo){ value->rValue = *(ckt->CKTsenInfo->SEN_Sap[select->iValue + 1]+ here->MOS2senParmNo); } return(OK); case MOS2_L_SENS_REAL: if(ckt->CKTsenInfo){ value->rValue = *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo); } return(OK); case MOS2_L_SENS_IMAG: if(ckt->CKTsenInfo){ value->rValue = *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo); } return(OK); case MOS2_L_SENS_MAG: if(ckt->CKTsenInfo){ vr = *(ckt->CKTrhsOld + select->iValue + 1); vi = *(ckt->CKTirhsOld + select->iValue + 1); vm = sqrt(vr*vr + vi*vi); if(vm == 0){ value->rValue = 0; return(OK); } sr = *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo); si = *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo); value->rValue = (vr * sr + vi * si)/vm; } return(OK); case MOS2_L_SENS_PH: if(ckt->CKTsenInfo){ vr = *(ckt->CKTrhsOld + select->iValue + 1); vi = *(ckt->CKTirhsOld + select->iValue + 1); vm = vr*vr + vi*vi; if(vm == 0){ value->rValue = 0; return(OK); } sr = *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo); si = *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo); value->rValue = (vr * si - vi * sr)/vm; } return(OK); case MOS2_L_SENS_CPLX: if(ckt->CKTsenInfo){ value->cValue.real= *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo); value->cValue.imag= *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo); } return(OK); case MOS2_W_SENS_DC: if(ckt->CKTsenInfo){ value->rValue = *(ckt->CKTsenInfo->SEN_Sap[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); } return(OK); case MOS2_W_SENS_REAL: if(ckt->CKTsenInfo){ value->rValue = *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); } return(OK); case MOS2_W_SENS_IMAG: if(ckt->CKTsenInfo){ value->rValue = *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); } return(OK); case MOS2_W_SENS_MAG: if(ckt->CKTsenInfo){ vr = *(ckt->CKTrhsOld + select->iValue + 1); vi = *(ckt->CKTirhsOld + select->iValue + 1); vm = sqrt(vr*vr + vi*vi); if(vm == 0){ value->rValue = 0; return(OK); } sr = *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); si = *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); value->rValue = (vr * sr + vi * si)/vm; } return(OK); case MOS2_W_SENS_PH: if(ckt->CKTsenInfo){ vr = *(ckt->CKTrhsOld + select->iValue + 1); vi = *(ckt->CKTirhsOld + select->iValue + 1); vm = vr*vr + vi*vi; if(vm == 0){ value->rValue = 0; return(OK); } sr = *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); si = *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); value->rValue = (vr * si - vi * sr)/vm; } return(OK); case MOS2_W_SENS_CPLX: if(ckt->CKTsenInfo){ value->cValue.real= *(ckt->CKTsenInfo->SEN_RHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); value->cValue.imag= *(ckt->CKTsenInfo->SEN_iRHS[select->iValue + 1]+ here->MOS2senParmNo + here->MOS2sens_l); } return(OK); case MOS2_CB : if (ckt->CKTcurrentAnalysis & DOING_AC) { errMsg = MALLOC(strlen(msg)+1); errRtn = "MOS2ask.c"; strcpy(errMsg,msg); return(E_ASKCURRENT); } else { value->rValue = here->MOS2cbd + here->MOS2cbs - *(ckt->CKTstate0 + here->MOS2cqgb); } return(OK); case MOS2_CG : if (ckt->CKTcurrentAnalysis & DOING_AC) { errMsg = MALLOC(strlen(msg)+1); errRtn = "MOS2ask.c"; strcpy(errMsg,msg); return(E_ASKCURRENT); } else if (ckt->CKTcurrentAnalysis & (DOING_DCOP | DOING_TRCV)) { value->rValue = 0; } else if ((ckt->CKTcurrentAnalysis & DOING_TRAN) && (ckt->CKTmode & MODETRANOP)) { value->rValue = 0; } else { value->rValue = *(ckt->CKTstate0 + here->MOS2cqgb) + *(ckt->CKTstate0 + here->MOS2cqgd) + *(ckt->CKTstate0 + here->MOS2cqgs); } return(OK); case MOS2_CS : if (ckt->CKTcurrentAnalysis & DOING_AC) { errMsg = MALLOC(strlen(msg)+1); errRtn = "MOS2ask.c"; strcpy(errMsg,msg); return(E_ASKCURRENT); } else { value->rValue = -here->MOS2cd; value->rValue -= here->MOS2cbd + here->MOS2cbs - *(ckt->CKTstate0 + here->MOS2cqgb); if ((ckt->CKTcurrentAnalysis & DOING_TRAN) && !(ckt->CKTmode & MODETRANOP)) { value->rValue -= *(ckt->CKTstate0 + here->MOS2cqgb) + *(ckt->CKTstate0 + here->MOS2cqgd) + *(ckt->CKTstate0 + here->MOS2cqgs); } } return(OK); case MOS2_POWER : if (ckt->CKTcurrentAnalysis & DOING_AC) { errMsg = MALLOC(strlen(msg)+1); errRtn = "MOS2ask.c"; strcpy(errMsg,msg); return(E_ASKPOWER); } else { double temp; value->rValue = here->MOS2cd * *(ckt->CKTrhsOld + here->MOS2dNode); value->rValue += (here->MOS2cbd + here->MOS2cbs - *(ckt->CKTstate0 + here->MOS2cqgb)) * *(ckt->CKTrhsOld + here->MOS2bNode); if ((ckt->CKTcurrentAnalysis & DOING_TRAN) && !(ckt->CKTmode & MODETRANOP)) { value->rValue += (*(ckt->CKTstate0 + here->MOS2cqgb) + *(ckt->CKTstate0 + here->MOS2cqgd) + *(ckt->CKTstate0 + here->MOS2cqgs)) * *(ckt->CKTrhsOld + here->MOS2gNode); } temp = -here->MOS2cd; temp -= here->MOS2cbd + here->MOS2cbs ; if ((ckt->CKTcurrentAnalysis & DOING_TRAN) && !(ckt->CKTmode & MODETRANOP)) { temp -= *(ckt->CKTstate0 + here->MOS2cqgb) + *(ckt->CKTstate0 + here->MOS2cqgd) + *(ckt->CKTstate0 + here->MOS2cqgs); } value->rValue += temp * *(ckt->CKTrhsOld + here->MOS2sNode); } return(OK); default: return(E_BADPARM); } /* NOTREACHED */}⌨️ 快捷键说明
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