📄 dionoise.c
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/**********Copyright 1990 Regents of the University of California. All rights reserved.Author: 1987 Gary W. Ng**********/#include "spice.h"#include <stdio.h>#include "diodefs.h"#include "cktdefs.h"#include "fteconst.h"#include "iferrmsg.h"#include "noisedef.h"#include "util.h"#include "suffix.h"/* * DIOnoise (mode, operation, firstModel, ckt, data, OnDens) * This routine names and evaluates all of the noise sources * associated with diodes. It starts with the model *firstModel and * traverses all of its instancess. It then proceeds to any other * models on the linked list. The total output noise density * generated by all of the diodes is summed with the variable * "OnDens". */extern void NevalSrc();extern double Nintegrate();intDIOnoise (mode, operation, genmodel, ckt, data, OnDens) int mode; int operation; GENmodel *genmodel; CKTcircuit *ckt; register Ndata *data; double *OnDens;{ DIOmodel *firstModel = (DIOmodel *) genmodel; register DIOmodel *model; register DIOinstance *inst; char name[N_MXVLNTH]; double tempOnoise; double tempInoise; double noizDens[DIONSRCS]; double lnNdens[DIONSRCS]; int error; int i; /* define the names of the noise sources */ static char *DIOnNames[DIONSRCS] = { /* Note that we have to keep the order */ "_rs", /* noise due to rs */ /* consistent with the index definitions */ "_id", /* noise due to id */ /* in DIOdefs.h */ "_1overf", /* flicker (1/f) noise */ "" /* total diode noise */ }; for (model=firstModel; model != NULL; model=model->DIOnextModel) { for (inst=model->DIOinstances; inst != NULL; inst=inst->DIOnextInstance) { if (inst->DIOowner != ARCHme) continue; switch (operation) { case N_OPEN: /* see if we have to to produce a summary report */ /* if so, name all the noise generators */ if (((NOISEAN*)ckt->CKTcurJob)->NStpsSm != 0) { switch (mode) { case N_DENS: for (i=0; i < DIONSRCS; i++) { (void)sprintf(name,"onoise_%s%s",inst->DIOname,DIOnNames[i]);data->namelist = (IFuid *)trealloc((char *)data->namelist,(data->numPlots + 1)*sizeof(IFuid));if (!data->namelist) return(E_NOMEM); (*(SPfrontEnd->IFnewUid))(ckt, &(data->namelist[data->numPlots++]), (IFuid)NULL,name,UID_OTHER,(GENERIC **)NULL); /* we've added one more plot */ } break; case INT_NOIZ: for (i=0; i < DIONSRCS; i++) { (void)sprintf(name,"onoise_total_%s%s",inst->DIOname,DIOnNames[i]);data->namelist = (IFuid *)trealloc((char *)data->namelist,(data->numPlots + 1)*sizeof(IFuid));if (!data->namelist) return(E_NOMEM); (*(SPfrontEnd->IFnewUid))(ckt, &(data->namelist[data->numPlots++]), (IFuid)NULL,name,UID_OTHER,(GENERIC **)NULL); /* we've added one more plot */ (void)sprintf(name,"inoise_total_%s%s",inst->DIOname,DIOnNames[i]);data->namelist = (IFuid *)trealloc((char *)data->namelist,(data->numPlots + 1)*sizeof(IFuid));if (!data->namelist) return(E_NOMEM); (*(SPfrontEnd->IFnewUid))(ckt, &(data->namelist[data->numPlots++]), (IFuid)NULL,name,UID_OTHER,(GENERIC **)NULL); /* we've added one more plot */ } break; } } break; case N_CALC: switch (mode) { case N_DENS: NevalSrc(&noizDens[DIORSNOIZ],&lnNdens[DIORSNOIZ], ckt,THERMNOISE,inst->DIOposPrimeNode,inst->DIOposNode, model->DIOconductance * inst->DIOarea); NevalSrc(&noizDens[DIOIDNOIZ],&lnNdens[DIOIDNOIZ], ckt,SHOTNOISE,inst->DIOposPrimeNode, inst->DIOnegNode, *(ckt->CKTstate0 + inst->DIOcurrent)); NevalSrc(&noizDens[DIOFLNOIZ],(double*)NULL,ckt, N_GAIN,inst->DIOposPrimeNode, inst->DIOnegNode, (double)0.0); noizDens[DIOFLNOIZ] *= model->DIOfNcoef * exp(model->DIOfNexp * log(MAX(FABS(*(ckt->CKTstate0 + inst->DIOcurrent)),N_MINLOG))) / data->freq; lnNdens[DIOFLNOIZ] = log(MAX(noizDens[DIOFLNOIZ],N_MINLOG)); noizDens[DIOTOTNOIZ] = noizDens[DIORSNOIZ] + noizDens[DIOIDNOIZ] + noizDens[DIOFLNOIZ]; lnNdens[DIOTOTNOIZ] = log(MAX(noizDens[DIOTOTNOIZ], N_MINLOG)); *OnDens += noizDens[DIOTOTNOIZ]; if (data->delFreq == 0.0) { /* if we haven't done any previous integration, we need to */ /* initialize our "history" variables */ for (i=0; i < DIONSRCS; i++) { inst->DIOnVar[LNLSTDENS][i] = lnNdens[i]; } /* clear out our integration variables if it's the first pass */ if (data->freq == ((NOISEAN*)ckt->CKTcurJob)->NstartFreq) { for (i=0; i < DIONSRCS; i++) { inst->DIOnVar[OUTNOIZ][i] = 0.0; inst->DIOnVar[INNOIZ][i] = 0.0; } } } else { /* data->delFreq != 0.0 (we have to integrate) *//* To insure accurracy, we have to integrate each component separately */ for (i=0; i < DIONSRCS; i++) { if (i != DIOTOTNOIZ) { tempOnoise = Nintegrate(noizDens[i], lnNdens[i], inst->DIOnVar[LNLSTDENS][i], data); tempInoise = Nintegrate(noizDens[i] * data->GainSqInv , lnNdens[i] + data->lnGainInv, inst->DIOnVar[LNLSTDENS][i] + data->lnGainInv, data); inst->DIOnVar[LNLSTDENS][i] = lnNdens[i]; data->outNoiz += tempOnoise; data->inNoise += tempInoise; if (((NOISEAN*)ckt->CKTcurJob)->NStpsSm != 0) { inst->DIOnVar[OUTNOIZ][i] += tempOnoise; inst->DIOnVar[OUTNOIZ][DIOTOTNOIZ] += tempOnoise; inst->DIOnVar[INNOIZ][i] += tempInoise; inst->DIOnVar[INNOIZ][DIOTOTNOIZ] += tempInoise; } } } } if (data->prtSummary) { for (i=0; i < DIONSRCS; i++) { /* print a summary report */ data->outpVector[data->outNumber++] = noizDens[i]; } } break; case INT_NOIZ: /* already calculated, just output */ if (((NOISEAN*)ckt->CKTcurJob)->NStpsSm != 0) { for (i=0; i < DIONSRCS; i++) { data->outpVector[data->outNumber++] = inst->DIOnVar[OUTNOIZ][i]; data->outpVector[data->outNumber++] = inst->DIOnVar[INNOIZ][i]; } } /* if */ break; } /* switch (mode) */ break; case N_CLOSE: return (OK); /* do nothing, the main calling routine will close */ break; /* the plots */ } /* switch (operation) */ } /* for inst */ } /* for model */return(OK);} ⌨️ 快捷键说明
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