Merge remote-tracking branch 'origin/hicum2-thermal' into markus_dev
This commit is contained in:
commit
97a0aa856b
|
|
@ -74,3 +74,5 @@ Makefile.in
|
|||
**/*.vcxproj.user
|
||||
.vscode/
|
||||
|
||||
# Visual Studio Code user options files
|
||||
.vscode/
|
||||
|
|
|
|||
|
|
@ -440,7 +440,6 @@ extern int NIconvTest(CKTcircuit *);
|
|||
extern void NIdestroy(CKTcircuit *);
|
||||
extern int NIinit(CKTcircuit *);
|
||||
extern int NIintegrate(CKTcircuit *, double *, double *, double , int);
|
||||
extern void dummdumm(int dumm);
|
||||
extern int NIiter(CKTcircuit * , int);
|
||||
extern int NIpzMuller(PZtrial **, PZtrial *);
|
||||
extern int NIpzComplex(PZtrial **, PZtrial *);
|
||||
|
|
|
|||
|
|
@ -14,12 +14,6 @@ Author: 1985 Thomas L. Quarles
|
|||
|
||||
#define ccap qcap+1
|
||||
|
||||
void dummdumm(int dumm)
|
||||
{
|
||||
double dummy;
|
||||
dummy=1;
|
||||
}
|
||||
|
||||
int
|
||||
NIintegrate(CKTcircuit *ckt, double *geq, double *ceq, double cap, int qcap)
|
||||
{
|
||||
|
|
@ -31,12 +25,12 @@ NIintegrate(CKTcircuit *ckt, double *geq, double *ceq, double cap, int qcap)
|
|||
case TRAPEZOIDAL:
|
||||
switch(ckt->CKTorder) {
|
||||
case 1:
|
||||
ckt->CKTstate0[ccap] = ckt->CKTag[0] * ckt->CKTstate0[qcap]
|
||||
ckt->CKTstate0[ccap] = ckt->CKTag[0] * ckt->CKTstate0[qcap]
|
||||
+ ckt->CKTag[1] * ckt->CKTstate1[qcap];
|
||||
break;
|
||||
case 2:
|
||||
ckt->CKTstate0[ccap] = - ckt->CKTstate1[ccap] * ckt->CKTag[1] +
|
||||
ckt->CKTag[0] *
|
||||
ckt->CKTstate0[ccap] = - ckt->CKTstate1[ccap] * ckt->CKTag[1] +
|
||||
ckt->CKTag[0] *
|
||||
( ckt->CKTstate0[qcap] - ckt->CKTstate1[qcap] );
|
||||
break;
|
||||
default:
|
||||
|
|
|
|||
|
|
@ -27,7 +27,7 @@ libhicum2_la_SOURCES = \
|
|||
|
||||
|
||||
AM_CPPFLAGS = @AM_CPPFLAGS@ -I$(top_srcdir)/src/include -lstdc++ -std=c++11
|
||||
AM_CFLAGS = -I/home/markus/Documents/Gitprojects/cppduals -lstdc++ -I$(top_srcdir)/src/include
|
||||
AM_CXXFLAGS = -I/home/markus/Documents/Gitprojects/cppduals -I$(top_srcdir)/src/include -lstdc++ -std=c++11
|
||||
AM_CFLAGS = -lstdc++ -I$(top_srcdir)/src/include
|
||||
AM_CXXFLAGS = -I$(top_srcdir)/src/include -lstdc++ -std=c++11
|
||||
|
||||
MAINTAINERCLEANFILES = Makefile.in
|
||||
|
|
|
|||
|
|
@ -379,8 +379,22 @@ typedef struct sHICUMinstance {
|
|||
#define HICUMixf_Vbici HICUMstate+74
|
||||
|
||||
#define HICUMvxf1 HICUMstate+75
|
||||
#define HICUMvxf2 HICUMstate+76
|
||||
#define HICUMnumStates 77
|
||||
#define HICUMqxf1 HICUMstate+76
|
||||
#define HICUMcqxf1 HICUMstate+77
|
||||
#define HICUMgqxf1 HICUMstate+78
|
||||
#define HICUMixf1_Vbiei HICUMstate+79
|
||||
#define HICUMixf1_Vbici HICUMstate+80
|
||||
#define HICUMixf1_Vfx2 HICUMstate+81
|
||||
|
||||
#define HICUMvxf2 HICUMstate+82
|
||||
#define HICUMqxf2 HICUMstate+83
|
||||
#define HICUMcqxf2 HICUMstate+84
|
||||
#define HICUMgqxf2 HICUMstate+85
|
||||
#define HICUMixf2_Vbiei HICUMstate+86
|
||||
#define HICUMixf2_Vbici HICUMstate+87
|
||||
#define HICUMixf2_Vfx1 HICUMstate+88
|
||||
|
||||
#define HICUMnumStates 89
|
||||
|
||||
/* per model data */
|
||||
typedef struct sHICUMmodel { /* model structure for a hicum */
|
||||
|
|
|
|||
File diff suppressed because it is too large
Load Diff
|
|
@ -6,13 +6,12 @@ Spice3 Implementation: 2019 Dietmar Warning, Markus Müller, Mario Krattenmacher
|
|||
**********/
|
||||
|
||||
/*
|
||||
* This file defines the HICUM L2.4.3 model load function
|
||||
* This file defines the HICUM L2.4.0 model load function
|
||||
* Comments on the Code:
|
||||
* - We use dual numbers to calculate derivatives, this is readble and error proof.
|
||||
* - The code is targeted to be readbale and maintainable, speed is sacrificied for this purpose.
|
||||
* - The verilog a code is available at the website of TU Dresden, Michael Schroeter's chair.
|
||||
* - Nobody likes Verilog.
|
||||
*
|
||||
* - The verilog a code is available at the website of TU Dresden, Michael Schroeter#s chair.
|
||||
*
|
||||
* Checklist of what needs to be done: (@Mario: also look at this, did I get everything?)
|
||||
* - ijBEp
|
||||
* - ijBCx
|
||||
|
|
@ -32,12 +31,13 @@ Spice3 Implementation: 2019 Dietmar Warning, Markus Müller, Mario Krattenmacher
|
|||
* - Qf
|
||||
* - Qr
|
||||
* - iavl
|
||||
* - iBEti (?)
|
||||
* - iBEti
|
||||
* - itf, itr
|
||||
* - NQS derivatives, sources and elements
|
||||
*/
|
||||
|
||||
#include "cmath"
|
||||
#include "duals/dual"
|
||||
#include <duals/dual>
|
||||
#include "hicumL2.hpp"
|
||||
#include <functional>
|
||||
|
||||
|
|
@ -80,8 +80,8 @@ extern "C"
|
|||
|
||||
|
||||
//HICUM DEFINITIONS
|
||||
#define CHARGE 1.6021766208e-19
|
||||
#define CONSTboltz 1.38064852e-23
|
||||
#define CHARGE 1.6021766208e-19
|
||||
#define CONSTboltz 1.38064852e-23
|
||||
#define VPT_thresh 1.0e2
|
||||
#define Dexp_lim 80.0
|
||||
#define Cexp_lim 80.0
|
||||
|
|
@ -111,7 +111,7 @@ duals::duald HICDIO(duals::duald T, double IST, double UM1, duals::duald U)
|
|||
{
|
||||
duals::duald DIOY, le, vt;
|
||||
|
||||
printf("2");
|
||||
// printf("2");
|
||||
vt = UM1 * CONSTboltz * T / CHARGE;
|
||||
DIOY = U/vt;
|
||||
if (IST > 0.0) {
|
||||
|
|
@ -185,7 +185,7 @@ void QJMODF(duals::duald T, double c_0, double u_d, double z, double a_j, duals:
|
|||
// C : depletion capacitance
|
||||
void QJMOD(duals::duald T, duals::duald c_0, double u_d, double z, double a_j, double v_pt, duals::duald U_cap, duals::duald * C, duals::duald * Qz)
|
||||
{
|
||||
duals::duald dummy, DQ_j1, DQ_j2, DQ_j3, DC_j1, DC_j2, DC_j3, De_1, De_2, Dzr1, DCln1, DCln2, Dz1, Dv_j1, Dv_j2, Dv_j3, De, Da, Dv_r, Dv_j4, Dv_e, DC_c, DC_max, DV_f, Dv_p, Dz_r, vt;
|
||||
duals::duald dummy, DQ_j1, DQ_j2, DQ_j3, DC_j1, DC_j2, DC_j3, De_1, De_2, Dzr1, DCln1, DCln2, Dz1, Dv_j1, Dv_j2, Dv_j3, De, Da, Dv_r, Dv_j4, Dv_e, DC_c, DC_max, DV_f, Dv_p, Dz_r, vt;
|
||||
vt = CONSTboltz * T / CHARGE;
|
||||
if (c_0 > 0.0){
|
||||
Dz_r = z/4.0;
|
||||
|
|
@ -238,7 +238,7 @@ void QJMOD(duals::duald T, duals::duald c_0, double u_d, double z, double a_j, d
|
|||
// OUTPUT:
|
||||
// hicfcio : function of equation (2.1.17-10)
|
||||
void HICFCI(double zb, double zl, double w, double * hicfcio, double * dhicfcio_dw)
|
||||
{
|
||||
{
|
||||
double a, a2, a3, r, lnzb, x, z;
|
||||
z = zb*w;
|
||||
lnzb = log(1+zb*w);
|
||||
|
|
@ -537,7 +537,7 @@ void hicum_diode(double T, double IS, double UM1, double U, double *Iz, double *
|
|||
//wrapper for hicum diode equation that also generates derivatives
|
||||
duals::duald result = 0;
|
||||
|
||||
printf("executed diode");
|
||||
// printf("executed diode");
|
||||
|
||||
result = HICDIO(T, IS, UM1, U+1_e);
|
||||
*Iz = result.rpart();
|
||||
|
|
@ -610,7 +610,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
double Cjcx_ii, Cjcx_ii_Vbpci, Cjcx_ii_dT;
|
||||
double Qjcx_i , Qjcx_i_Vbci , Qjcx_i_dT ;
|
||||
double Qjcx_ii, Qjcx_ii_Vbpci, Qjcx_ii_dT;
|
||||
|
||||
|
||||
double itf,itr,Tf,Tr,VT_f,i_0f,i_0r,a_bpt,Q_0,Q_p,Q_bpt;
|
||||
double Orci0_t,b_q,I_Tf1,T_f0,Q_fT,T_fT,Q_bf;
|
||||
double a_h,Q_pT,d_Q;
|
||||
|
|
@ -622,6 +622,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
double Ixf1,Ixf2,Qxf1,Qxf2;
|
||||
double Itxf, Qdeix;
|
||||
double Vxf, Ixf, Qxf;
|
||||
double Vxf1, Vxf2;
|
||||
|
||||
double hjei_vbe;
|
||||
|
||||
|
|
@ -712,8 +713,8 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
|
||||
//NQS
|
||||
double Vbxf, Vbxf1, Vbxf2;
|
||||
double Qxf_Vxf;
|
||||
double Iqxf, Iqxf_Vxf, Iqxf1, Iqxf2;
|
||||
double Qxf_Vxf, Qxf1_Vxf1, Qxf2_Vxf2;
|
||||
double Iqxf, Iqxf_Vxf, Iqxf1, Iqxf1_Vxf1, Iqxf2, Iqxf2_Vxf2;
|
||||
|
||||
double Ith, Vrth, Icth, Icth_Vrth, delvrth;
|
||||
|
||||
|
|
@ -1005,9 +1006,9 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
Vsis = model->HICUMtype*(
|
||||
*(ckt->CKTrhsOld+here->HICUMsubsSINode)-
|
||||
*(ckt->CKTrhsOld+here->HICUMsubsNode));
|
||||
Vbxf = *(ckt->CKTstate0 + here->HICUMvxf);
|
||||
Vbxf1 = *(ckt->CKTstate0 + here->HICUMvxf1);
|
||||
Vbxf2 = *(ckt->CKTstate0 + here->HICUMvxf2);
|
||||
Vbxf = *(ckt->CKTrhsOld + here->HICUMxfNode);
|
||||
Vbxf1 = *(ckt->CKTrhsOld + here->HICUMxf1Node);
|
||||
Vbxf2 = *(ckt->CKTrhsOld + here->HICUMxf2Node);
|
||||
if (model->HICUMflsh)
|
||||
Vrth = *(ckt->CKTstate0 + here->HICUMvrth);
|
||||
} else if(ckt->CKTmode & MODEINITTRAN) {
|
||||
|
|
@ -1043,9 +1044,9 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
Vsis = model->HICUMtype*(
|
||||
*(ckt->CKTrhsOld+here->HICUMsubsSINode)-
|
||||
*(ckt->CKTrhsOld+here->HICUMsubsNode));
|
||||
Vbxf = *(ckt->CKTstate1 + here->HICUMvxf);
|
||||
Vbxf1 = *(ckt->CKTstate1 + here->HICUMvxf1);
|
||||
Vbxf2 = *(ckt->CKTstate1 + here->HICUMvxf2);
|
||||
Vbxf = *(ckt->CKTrhsOld + here->HICUMxfNode);
|
||||
Vbxf1 = *(ckt->CKTrhsOld + here->HICUMxf1Node);
|
||||
Vbxf2 = *(ckt->CKTrhsOld + here->HICUMxf2Node);
|
||||
if (model->HICUMflsh)
|
||||
Vrth = *(ckt->CKTstate1 + here->HICUMvrth);
|
||||
} else if((ckt->CKTmode & MODEINITJCT) &&
|
||||
|
|
@ -1445,7 +1446,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
//TODO: derivatives after cjci0_t, vdci_t, vptci_t
|
||||
hicum_HICJQ(here->HICUMtemp, here->HICUMcjci0_t,here->HICUMvdci_t,model->HICUMzci,here->HICUMvptci_t, Vbici, &Cjci, &Cjci_Vbici, &Cjci_dT, &Qjci, &Qjci_Vbici, &Qjci_dT);
|
||||
|
||||
//Hole charge at low bias
|
||||
//Hole charge at low bias
|
||||
result = calc_Q_0(Qjei+1_e, Qjci, hjei_vbe);
|
||||
Q_0 = result.rpart();
|
||||
Q_0_Qjei = result.dpart();
|
||||
|
|
@ -1458,7 +1459,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
|
||||
Q_0_Vbiei = Q_0_Qjei*Qjei_Vbiei + Q_0_hjei_vbe*hjei_vbe_Vbiei;
|
||||
Q_0_Vbici = Q_0_Qjci*Qjci_Vbici ;
|
||||
//TODO: derivative qp0_t
|
||||
//TODO: derivative qp0_t
|
||||
Q_0_dT = Q_0_Qjei*Qjei_dT + Q_0_Qjci*Qjci_dT * Q_0_hjei_vbe*hjei_vbe_dT;
|
||||
|
||||
//Transit time calculation at low current density
|
||||
|
|
@ -1655,7 +1656,6 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
|
||||
//Tunneling current
|
||||
//TODO: missing temperature derivatives abet_t vdei_t ibets_t cjei0_t vdep_t ibets_t cjep0_t
|
||||
//@Mario: is there really no direct T dependence here?
|
||||
result = calc_ibet(Vbiei, Vbpei+1_e);
|
||||
ibet = result.rpart();
|
||||
ibet_Vbpei = result.dpart();
|
||||
|
|
@ -1752,20 +1752,22 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
// Excess Phase calculation
|
||||
|
||||
if ((model->HICUMflnqs != 0 || model->HICUMflcomp == 0.0 || model->HICUMflcomp == 2.1) && Tf != 0 && (model->HICUMalit > 0 || model->HICUMalqf > 0)) {
|
||||
double Vxf1, Vxf2, fact;
|
||||
Vxf1 = Vbxf1;
|
||||
Vxf2 = Vbxf2;
|
||||
|
||||
Ixf1 = (Vxf2-itf)/Tf*model->HICUMt0;
|
||||
Ixf2 = (Vxf2-Vxf1)/Tf*model->HICUMt0;
|
||||
Qxf1 = model->HICUMalit*Vxf1*model->HICUMt0;
|
||||
Qxf2 = model->HICUMalit*Vxf2/3*model->HICUMt0;
|
||||
Qxf1 = model->HICUMalit*model->HICUMt0*Vxf1;
|
||||
Qxf1_Vxf1 = model->HICUMalit*model->HICUMt0;
|
||||
Qxf2 = model->HICUMalit*model->HICUMt0*Vxf2/3;
|
||||
Qxf2_Vxf2 = model->HICUMalit*model->HICUMt0/3;
|
||||
Itxf = Vxf2;
|
||||
|
||||
// TODO derivatives of Ixf1 and Ixf2
|
||||
|
||||
Vxf = Vbxf; //for RC nw
|
||||
fact = model->HICUMt0/Tf; //for RC nw
|
||||
Ixf = (Vxf - Qdei)*fact; //for RC nw
|
||||
Qxf = model->HICUMalqf*Vxf*model->HICUMt0; //for RC nw
|
||||
Ixf = (Vxf - Qdei)*model->HICUMt0/Tf; //for RC nw
|
||||
Qxf = model->HICUMalqf*model->HICUMt0*Vxf; //for RC nw
|
||||
Qxf_Vxf = model->HICUMalqf*model->HICUMt0; //for RC nw
|
||||
Qdeix = Vxf; //for RC nw
|
||||
} else {
|
||||
|
|
@ -1773,6 +1775,8 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
Ixf2 = Vbxf2;
|
||||
Qxf1 = 0;
|
||||
Qxf2 = 0;
|
||||
Qxf1_Vxf1 = 0;
|
||||
Qxf2_Vxf2 = 0;
|
||||
|
||||
Ixf = Vbxf;
|
||||
Qxf = 0;
|
||||
|
|
@ -1875,9 +1879,9 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
// ********************************************
|
||||
|
||||
// NQS effect
|
||||
// Ibxf1 = Ixf1;
|
||||
// Ibxf1 = Ixf1;
|
||||
// Icxf1 += ddt(Qxf1);
|
||||
// Ibxf2 = Ixf2;
|
||||
// Ibxf2 = Ixf2;
|
||||
// Icxf2 += ddt(Qxf2);
|
||||
|
||||
// end of Load_sources
|
||||
|
|
@ -1971,6 +1975,8 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
*(ckt->CKTstate0 + here->HICUMqbcpar2) = Qbcpar2;
|
||||
*(ckt->CKTstate0 + here->HICUMqsu) = Qsu;
|
||||
//NQS
|
||||
*(ckt->CKTstate0 + here->HICUMqxf1) = Qxf1;
|
||||
*(ckt->CKTstate0 + here->HICUMqxf2) = Qxf2;
|
||||
*(ckt->CKTstate0 + here->HICUMqxf) = Qxf;
|
||||
if (model->HICUMflsh)
|
||||
*(ckt->CKTstate0 + here->HICUMqcth) = Qcth;
|
||||
|
|
@ -2013,6 +2019,8 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
*(ckt->CKTstate0 + here->HICUMcqbcpar2) = Qbcpar2_Vbpci;
|
||||
*(ckt->CKTstate0 + here->HICUMcqsu) = Qsu_Vsis;
|
||||
//NQS
|
||||
*(ckt->CKTstate0 + here->HICUMcqxf1) = Qxf1_Vxf1;
|
||||
*(ckt->CKTstate0 + here->HICUMcqxf2) = Qxf2_Vxf2;
|
||||
*(ckt->CKTstate0 + here->HICUMcqxf) = Qxf_Vxf;
|
||||
if (model->HICUMflsh)
|
||||
*(ckt->CKTstate0 + here->HICUMcqcth) = model->HICUMcth;
|
||||
|
|
@ -2063,7 +2071,6 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
}
|
||||
|
||||
// Ibpbi += ddt(Qrbi);
|
||||
dummdumm(int(0));
|
||||
error = NIintegrate(ckt,&geq,&ceq,Qrbi_Vbpbi,here->HICUMqrbi);
|
||||
if(error) return(error);
|
||||
Ibpbi_Vbpbi += geq;
|
||||
|
|
@ -2126,7 +2133,17 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
|
|||
Isc_Vsc = geq;
|
||||
Isc = *(ckt->CKTstate0 + here->HICUMcqscp);
|
||||
//NQS
|
||||
// Icxf += ddt(Qxf); //for RC nw
|
||||
// Iqxf1 <+ ddt(Qxf1);
|
||||
error = NIintegrate(ckt,&geq,&ceq,Qxf1_Vxf1,here->HICUMqxf);
|
||||
if(error) return(error);
|
||||
Iqxf1_Vxf1 = geq;
|
||||
Iqxf1 = *(ckt->CKTstate0 + here->HICUMcqxf1);
|
||||
// Iqxf2 <+ ddt(Qxf2);
|
||||
error = NIintegrate(ckt,&geq,&ceq,Qxf2_Vxf2,here->HICUMqxf);
|
||||
if(error) return(error);
|
||||
Iqxf2_Vxf2 = geq;
|
||||
Iqxf2 = *(ckt->CKTstate0 + here->HICUMcqxf2);
|
||||
// Iqxf += ddt(Qxf); //for RC nw
|
||||
error = NIintegrate(ckt,&geq,&ceq,Qxf_Vxf,here->HICUMqxf);
|
||||
if(error) return(error);
|
||||
Iqxf_Vxf = geq;
|
||||
|
|
@ -2469,6 +2486,49 @@ c Branch: sis, Stamp element: Rsu
|
|||
*(here->HICUMsubsSubsSIPtr) += -Isis_Vsis;
|
||||
//NQS
|
||||
/*
|
||||
c Branch: xf1-ground, Stamp element: Ixf1
|
||||
*/
|
||||
// rhs_current = (Ixf1 - Ixf1_Vxf1*Vxf1 - Ixf1_Vrth*Vrth - Ixf1_Vbiei*Vbiei - Ixf1_Vbici*Vbici - Ixf1_Vxf2*Vxf2); // TODO
|
||||
rhs_current = Ixf1;
|
||||
*(ckt->CKTrhs + here->HICUMxf1Node) += 0; // rhs_current; // into xf1 node
|
||||
// *(here->HICUMxf1TempPtr) += -Ixf1_Vrth;
|
||||
// *(here->HICUMxf1BaseBIPtr) += -Ixf1_Vbiei;
|
||||
// *(here->HICUMxf1EmitEIPtr) += +Ixf1_Vbiei;
|
||||
// *(here->HICUMxf1BaseBIPtr) += -Ixf1_Vbici;
|
||||
// *(here->HICUMxf1CollCIPtr) += +Ixf1_Vbici;
|
||||
// *(here->HICUMxf1Xf2Ptr) += +Ixf1_Vxf2;
|
||||
/*
|
||||
c Branch: xf1-ground, Stamp element: Qxf1 // TODO Test in AC simulation!
|
||||
*/
|
||||
// rhs_current = Iqxf1 - Iqxf1_Vxf1*Vxf1;
|
||||
// *(ckt->CKTrhs + here->HICUMxf1Node) += rhs_current; // into ground
|
||||
// *(here->HICUMxf1Xf1Ptr) += Iqxf1_Vxf1;
|
||||
/*
|
||||
c Branch: xf1-ground, Stamp element: Rxf1 TODO: This is wrong, but needed at the moment for convergence
|
||||
*/
|
||||
*(here->HICUMxf1Xf1Ptr) += 1; // current Ixf1 is normalized to Tf
|
||||
/*
|
||||
c Branch: xf2-ground, Stamp element: Ixf2
|
||||
*/
|
||||
// rhs_current = (Ixf2 - Ixf2_Vxf1*Vxf1 - Ixf2_Vrth*Vrth - Ixf2_Vbiei*Vbiei - Ixf2_Vbici*Vbici - Ixf2_Vxf2*Vxf2); // TODO
|
||||
rhs_current = Ixf2;
|
||||
*(ckt->CKTrhs + here->HICUMxf2Node) += rhs_current; // into xf2 node
|
||||
// *(here->HICUMxf2TempPtr) += -Ixf2_Vrth;
|
||||
// *(here->HICUMxf2BaseBIPtr) += -Ixf2_Vbiei;
|
||||
// *(here->HICUMxf2EmitEIPtr) += +Ixf2_Vbiei;
|
||||
// *(here->HICUMxf2BaseBIPtr) += -Ixf2_Vbici;
|
||||
// *(here->HICUMxf2CollCIPtr) += +Ixf2_Vbici;
|
||||
/*
|
||||
c Branch: xf2-ground, Stamp element: Qxf2 // TODO Test in AC simulation!
|
||||
*/
|
||||
// rhs_current = Iqxf2 - Iqxf2_Vxf2*Vxf2;
|
||||
// *(ckt->CKTrhs + here->HICUMxf2Node) += rhs_current; // into ground
|
||||
// *(here->HICUMxf2Xf2Ptr) += Iqxf2_Vxf2;
|
||||
/*
|
||||
c Branch: xf2-ground, Stamp element: Rxf2
|
||||
*/
|
||||
*(here->HICUMxf2Xf2Ptr) += 1; // current Ixf2 is normalized to Tf
|
||||
/*
|
||||
c Branch: xf-ground, Stamp element: Ixf
|
||||
*/
|
||||
// rhs_current = model->HICUMtype * (Ixf - Ixf_Vrth*Vrth - Ixf_Vbiei*Vbiei - Ixf_Vbici*Vbici);
|
||||
|
|
@ -2480,15 +2540,15 @@ c Branch: xf-ground, Stamp element: Ixf
|
|||
// *(here->HICUMxfBaseBIPtr) += -Ixf_Vbici;
|
||||
// *(here->HICUMxfCollCIPtr) += +Ixf_Vbici;
|
||||
/*
|
||||
c Branch: xf-ground, Stamp element: Qxf
|
||||
c Branch: xf-ground, Stamp element: Qxf // TODO Test in AC simulation!
|
||||
*/
|
||||
rhs_current = model->HICUMtype * (Iqxf - Iqxf_Vxf*Vxf);
|
||||
*(ckt->CKTrhs + here->HICUMxfNode) += rhs_current; // into ground
|
||||
*(here->HICUMxfXfPtr) += Iqxf_Vxf;
|
||||
// rhs_current = model->HICUMtype * (Iqxf - Iqxf_Vxf*Vxf);
|
||||
// *(ckt->CKTrhs + here->HICUMxfNode) += rhs_current; // into ground
|
||||
// *(here->HICUMxfXfPtr) += Iqxf_Vxf;
|
||||
/*
|
||||
c Branch: xf-ground, Stamp element: Rxf
|
||||
*/
|
||||
*(here->HICUMxfXfPtr) += Tf; // current Ixf is normalized to Tf
|
||||
*(here->HICUMxfXfPtr) += 1; // current Ixf is normalized to Tf
|
||||
|
||||
if (model->HICUMflsh) {
|
||||
/*
|
||||
|
|
|
|||
|
|
@ -23,4 +23,8 @@ This file gives an overview of the files needed for the ngspice HiCUM version, e
|
|||
# hicum2setup.c
|
||||
# hicum2soachk.c
|
||||
# hicum2temp.c
|
||||
* Temperature scaling of all parameters
|
||||
* Models are implemented, missing are the derivatives
|
||||
* As most models are easy and just temperature dependent -> no dual numbers
|
||||
* Assignee: Mario
|
||||
# hicum2trunc.c
|
||||
|
|
|
|||
|
|
@ -1,10 +1,9 @@
|
|||
HICUML2 v2.4.0 Gummel Test
|
||||
VE Q1_E 0 1.0
|
||||
VS Q1_S 0 0.0
|
||||
VC Q1_C 0 0.0
|
||||
VB Q1_B 0 0.0
|
||||
RT Q1_T 0 1M
|
||||
Q1 Q1_C Q1_B Q1_E Q1_S Q1_T P1
|
||||
Q1 Q1_C Q1_B Q1_E Q1_E Q1_T P1
|
||||
.DC VE -0.2 -1.2 -10m
|
||||
.OPTIONS GMIN=1e-13 NOACCT
|
||||
|
||||
|
|
@ -23,12 +22,12 @@ Q1 Q1_C Q1_B Q1_E Q1_S Q1_T P1
|
|||
+ fbcpar=0.3 fbepar=1 cjs0=2.6e-014 vds=0.9997 zs=0.4295 vpts=100
|
||||
+ t0=2.089e-013 dt0h=8e-014 tbvl=8.25e-014 tef0=3.271e-013 gtfe=3.548 thcs=5.001e-012
|
||||
+ ahc=0.05 fthc=0.7 rci0=9.523 vlim=0.6999 vces=0.01 vpt=2 tr=0
|
||||
+ cbepar=2.609e-014 cbcpar=1.64512e-014 alqf=0.166667 alit=0.333333 flnqs=1 kf=0
|
||||
+ cbepar=2.609e-014 cbcpar=1.64512e-014 alqf=0.166667 alit=0.333333 flnqs=0 kf=0
|
||||
+ af=2 cfbe=-1 latb=0 latl=0 vgb=0.91 alt0=0.004 kt0=6.588e-005
|
||||
+ zetaci=0.58 alvs=0.001 alces=-0.2286 zetarbi=0.3002 zetarbx=0.06011 zetarcx=-0.02768
|
||||
+ zetare=-0.9605 zetacx=0 vge=1.17 vgc=1.17 vgs=1.17 f1vg=-0.000102377 f2vg=0.00043215
|
||||
+ zetact=5 zetabet=4.892 flsh=1 rth=1113.4 cth=6.841e-012 zetarth=0
|
||||
+ alrth=0.002 flcomp=0.0 tnom=26.85 acbar=1.5 flcono=0 icbar=0.01
|
||||
+ zetact=5 zetabet=4.892 flsh=0 rth=1113.4 cth=6.841e-012 zetarth=0
|
||||
+ alrth=0.002 flcomp=2.4 tnom=26.85 acbar=1.5 flcono=0 icbar=0.01
|
||||
+ vcbar=0.04 zetavgbe=0.7 hf0=40 ahjei=3 rhjei=2 delck=2 zetahjei=-0.5
|
||||
|
||||
|
||||
|
|
|
|||
|
|
@ -1,5 +1,4 @@
|
|||
|
||||
|
||||
No. of Data Rows : 101
|
||||
|
||||
Circuit: HICUML2 v2.4.0 Gummel Test
|
||||
|
|
@ -9,105 +8,105 @@ Doing analysis at TEMP = 300.150000 and TNOM = 300.150000
|
|||
--------------------------------------------------------------------------------
|
||||
Index v-sweep abs(i(vc)) abs(i(vb))
|
||||
--------------------------------------------------------------------------------
|
||||
0 2.000000e-01 4.049351e-13 2.225580e-12
|
||||
1 2.100000e-01 5.113450e-13 2.709949e-12
|
||||
2 2.200000e-01 6.630802e-13 3.303959e-12
|
||||
3 2.300000e-01 8.814445e-13 4.033035e-12
|
||||
4 2.400000e-01 1.197752e-12 4.928519e-12
|
||||
5 2.500000e-01 1.658029e-12 6.029049e-12
|
||||
6 2.600000e-01 2.329925e-12 7.382271e-12
|
||||
7 2.700000e-01 3.312868e-12 9.046943e-12
|
||||
8 2.800000e-01 4.752984e-12 1.109555e-11
|
||||
9 2.900000e-01 6.865025e-12 1.361750e-11
|
||||
10 3.000000e-01 9.964585e-12 1.672315e-11
|
||||
11 3.100000e-01 1.451543e-11 2.054869e-11
|
||||
12 3.200000e-01 2.119904e-11 2.526227e-11
|
||||
13 3.300000e-01 3.101675e-11 3.107153e-11
|
||||
14 3.400000e-01 4.543985e-11 3.823301e-11
|
||||
15 3.500000e-01 6.662994e-11 4.706370e-11
|
||||
16 3.600000e-01 9.776277e-11 5.795551e-11
|
||||
17 3.700000e-01 1.435036e-10 7.139318e-11
|
||||
18 3.800000e-01 2.107056e-10 8.797657e-11
|
||||
19 3.900000e-01 3.094351e-10 1.084485e-10
|
||||
20 4.000000e-01 4.544769e-10 1.337292e-10
|
||||
21 4.100000e-01 6.675448e-10 1.649602e-10
|
||||
22 4.200000e-01 9.805260e-10 2.035581e-10
|
||||
23 4.300000e-01 1.440243e-09 2.512831e-10
|
||||
24 4.400000e-01 2.115444e-09 3.103247e-10
|
||||
25 4.500000e-01 3.107058e-09 3.834107e-10
|
||||
26 4.600000e-01 4.563242e-09 4.739441e-10
|
||||
27 4.700000e-01 6.701457e-09 5.861787e-10
|
||||
28 4.800000e-01 9.840846e-09 7.254419e-10
|
||||
29 4.900000e-01 1.444971e-08 8.984222e-10
|
||||
30 5.000000e-01 2.121510e-08 1.113538e-09
|
||||
31 5.100000e-01 3.114486e-08 1.381420e-09
|
||||
32 5.200000e-01 4.571712e-08 1.715539e-09
|
||||
33 5.300000e-01 6.709928e-08 2.133002e-09
|
||||
34 5.400000e-01 9.846869e-08 2.655677e-09
|
||||
35 5.500000e-01 1.444821e-07 3.311602e-09
|
||||
36 5.600000e-01 2.119626e-07 4.136919e-09
|
||||
37 5.700000e-01 3.109041e-07 5.178468e-09
|
||||
38 5.800000e-01 4.559399e-07 6.497298e-09
|
||||
39 5.900000e-01 6.684879e-07 8.173459e-09
|
||||
40 6.000000e-01 9.798838e-07 1.031258e-08
|
||||
41 6.100000e-01 1.435954e-06 1.305493e-08
|
||||
42 6.200000e-01 2.103689e-06 1.658806e-08
|
||||
43 6.300000e-01 3.080976e-06 2.116430e-08
|
||||
44 6.400000e-01 4.510769e-06 2.712546e-08
|
||||
45 6.500000e-01 6.598624e-06 3.493740e-08
|
||||
46 6.600000e-01 9.651558e-06 4.523897e-08
|
||||
47 6.700000e-01 1.410969e-05 5.891122e-08
|
||||
48 6.800000e-01 2.061503e-05 7.717565e-08
|
||||
49 6.900000e-01 3.009990e-05 1.017337e-07
|
||||
50 7.000000e-01 4.391594e-05 1.349652e-07
|
||||
51 7.100000e-01 6.401850e-05 1.802097e-07
|
||||
52 7.200000e-01 9.322680e-05 2.421649e-07
|
||||
53 7.300000e-01 1.355843e-04 3.274474e-07
|
||||
54 7.400000e-01 1.968435e-04 4.453752e-07
|
||||
55 7.500000e-01 2.850922e-04 6.090441e-07
|
||||
56 7.600000e-01 4.115088e-04 8.367799e-07
|
||||
57 7.700000e-01 5.911811e-04 1.154039e-06
|
||||
58 7.800000e-01 8.438251e-04 1.595796e-06
|
||||
59 7.900000e-01 1.194123e-03 2.209384e-06
|
||||
60 8.000000e-01 1.671327e-03 3.057614e-06
|
||||
61 8.100000e-01 2.307843e-03 4.221915e-06
|
||||
62 8.200000e-01 3.136856e-03 5.805096e-06
|
||||
63 8.300000e-01 4.189465e-03 7.933416e-06
|
||||
64 8.400000e-01 5.492130e-03 1.075774e-05
|
||||
65 8.500000e-01 7.065050e-03 1.445376e-05
|
||||
66 8.600000e-01 8.921662e-03 1.922145e-05
|
||||
67 8.700000e-01 1.106902e-02 2.528408e-05
|
||||
68 8.800000e-01 1.350859e-02 3.288743e-05
|
||||
69 8.900000e-01 1.623721e-02 4.229989e-05
|
||||
70 9.000000e-01 1.924788e-02 5.381443e-05
|
||||
71 9.100000e-01 2.253041e-02 6.775416e-05
|
||||
72 9.200000e-01 2.607182e-02 8.448562e-05
|
||||
73 9.300000e-01 2.985650e-02 1.044530e-04
|
||||
74 9.400000e-01 3.386575e-02 1.282787e-04
|
||||
75 9.500000e-01 3.807605e-02 1.570841e-04
|
||||
76 9.600000e-01 4.245317e-02 1.935144e-04
|
||||
77 9.700000e-01 4.693613e-02 2.446155e-04
|
||||
78 9.800000e-01 5.140989e-02 3.270976e-04
|
||||
79 9.900000e-01 5.571579e-02 4.668657e-04
|
||||
80 1.000000e+00 5.977060e-02 6.784053e-04
|
||||
81 1.010000e+00 6.363845e-02 9.483720e-04
|
||||
82 1.020000e+00 6.743270e-02 1.251993e-03
|
||||
83 1.030000e+00 7.123467e-02 1.571674e-03
|
||||
84 1.040000e+00 7.508885e-02 1.899848e-03
|
||||
85 1.050000e+00 7.901772e-02 2.235275e-03
|
||||
86 1.060000e+00 8.303174e-02 2.579678e-03
|
||||
87 1.070000e+00 8.713429e-02 2.935896e-03
|
||||
88 1.080000e+00 9.132395e-02 3.307053e-03
|
||||
89 1.090000e+00 9.559576e-02 3.696236e-03
|
||||
90 1.100000e+00 9.994202e-02 4.106396e-03
|
||||
91 1.110000e+00 1.043530e-01 4.540339e-03
|
||||
92 1.120000e+00 1.088174e-01 5.000748e-03
|
||||
93 1.130000e+00 1.133230e-01 5.490201e-03
|
||||
94 1.140000e+00 1.178571e-01 6.011191e-03
|
||||
95 1.150000e+00 1.224071e-01 6.566120e-03
|
||||
96 1.160000e+00 1.269605e-01 7.157300e-03
|
||||
97 1.170000e+00 1.315057e-01 7.786926e-03
|
||||
98 1.180000e+00 1.360319e-01 8.457060e-03
|
||||
99 1.190000e+00 1.405293e-01 9.169599e-03
|
||||
100 1.200000e+00 1.449897e-01 9.926253e-03
|
||||
0 2.000000e-01 4.049275e-13 2.228959e-12
|
||||
1 2.100000e-01 5.113338e-13 2.714122e-12
|
||||
2 2.200000e-01 6.630638e-13 3.309110e-12
|
||||
3 2.300000e-01 8.814204e-13 4.039392e-12
|
||||
4 2.400000e-01 1.197716e-12 4.936361e-12
|
||||
5 2.500000e-01 1.657977e-12 6.038721e-12
|
||||
6 2.600000e-01 2.329849e-12 7.394200e-12
|
||||
7 2.700000e-01 3.312756e-12 9.061656e-12
|
||||
8 2.800000e-01 4.752819e-12 1.111369e-11
|
||||
9 2.900000e-01 6.864784e-12 1.363988e-11
|
||||
10 3.000000e-01 9.964231e-12 1.675076e-11
|
||||
11 3.100000e-01 1.451491e-11 2.058275e-11
|
||||
12 3.200000e-01 2.119828e-11 2.530429e-11
|
||||
13 3.300000e-01 3.101563e-11 3.112340e-11
|
||||
14 3.400000e-01 4.543821e-11 3.829703e-11
|
||||
15 3.500000e-01 6.662754e-11 4.714276e-11
|
||||
16 3.600000e-01 9.775923e-11 5.805316e-11
|
||||
17 3.700000e-01 1.434984e-10 7.151385e-11
|
||||
18 3.800000e-01 2.106980e-10 8.812576e-11
|
||||
19 3.900000e-01 3.094239e-10 1.086330e-10
|
||||
20 4.000000e-01 4.544605e-10 1.339576e-10
|
||||
21 4.100000e-01 6.675208e-10 1.652431e-10
|
||||
22 4.200000e-01 9.804908e-10 2.039088e-10
|
||||
23 4.300000e-01 1.440191e-09 2.517182e-10
|
||||
24 4.400000e-01 2.115368e-09 3.108651e-10
|
||||
25 4.500000e-01 3.106946e-09 3.840828e-10
|
||||
26 4.600000e-01 4.563079e-09 4.747811e-10
|
||||
27 4.700000e-01 6.701218e-09 5.872227e-10
|
||||
28 4.800000e-01 9.840494e-09 7.267467e-10
|
||||
29 4.900000e-01 1.444919e-08 9.000562e-10
|
||||
30 5.000000e-01 2.121433e-08 1.115590e-09
|
||||
31 5.100000e-01 3.114373e-08 1.384002e-09
|
||||
32 5.200000e-01 4.571544e-08 1.718799e-09
|
||||
33 5.300000e-01 6.709676e-08 2.137132e-09
|
||||
34 5.400000e-01 9.846489e-08 2.660929e-09
|
||||
35 5.500000e-01 1.444763e-07 3.318308e-09
|
||||
36 5.600000e-01 2.119536e-07 4.145522e-09
|
||||
37 5.700000e-01 3.108897e-07 5.189556e-09
|
||||
38 5.800000e-01 4.559164e-07 6.511663e-09
|
||||
39 5.900000e-01 6.684482e-07 8.192167e-09
|
||||
40 6.000000e-01 9.798144e-07 1.033707e-08
|
||||
41 6.100000e-01 1.435828e-06 1.308719e-08
|
||||
42 6.200000e-01 2.103455e-06 1.663074e-08
|
||||
43 6.300000e-01 3.080525e-06 2.122105e-08
|
||||
44 6.400000e-01 4.509880e-06 2.720120e-08
|
||||
45 6.500000e-01 6.596844e-06 3.503877e-08
|
||||
46 6.600000e-01 9.647940e-06 4.537475e-08
|
||||
47 6.700000e-01 1.410226e-05 5.909275e-08
|
||||
48 6.800000e-01 2.059972e-05 7.741690e-08
|
||||
49 6.900000e-01 3.006819e-05 1.020505e-07
|
||||
50 7.000000e-01 4.385020e-05 1.353718e-07
|
||||
51 7.100000e-01 6.388229e-05 1.807107e-07
|
||||
52 7.200000e-01 9.294511e-05 2.427359e-07
|
||||
53 7.300000e-01 1.350039e-04 3.279924e-07
|
||||
54 7.400000e-01 1.956548e-04 4.456394e-07
|
||||
55 7.500000e-01 2.826782e-04 6.084386e-07
|
||||
56 7.600000e-01 4.066653e-04 8.340431e-07
|
||||
57 7.700000e-01 5.816221e-04 1.146610e-06
|
||||
58 7.800000e-01 8.253658e-04 1.578709e-06
|
||||
59 7.900000e-01 1.159449e-03 2.173417e-06
|
||||
60 8.000000e-01 1.608349e-03 2.986417e-06
|
||||
61 8.100000e-01 2.197834e-03 4.087850e-06
|
||||
62 8.200000e-01 2.952755e-03 5.563725e-06
|
||||
63 8.300000e-01 3.894822e-03 7.516722e-06
|
||||
64 8.400000e-01 5.040995e-03 1.006634e-05
|
||||
65 8.500000e-01 6.402781e-03 1.334838e-05
|
||||
66 8.600000e-01 7.986391e-03 1.751363e-05
|
||||
67 8.700000e-01 9.793400e-03 2.272603e-05
|
||||
68 8.800000e-01 1.182159e-02 2.916016e-05
|
||||
69 8.900000e-01 1.406575e-02 3.699861e-05
|
||||
70 9.000000e-01 1.651838e-02 4.642947e-05
|
||||
71 9.100000e-01 1.917019e-02 5.764474e-05
|
||||
72 9.200000e-01 2.201052e-02 7.084062e-05
|
||||
73 9.300000e-01 2.502762e-02 8.622214e-05
|
||||
74 9.400000e-01 2.820878e-02 1.040182e-04
|
||||
75 9.500000e-01 3.154025e-02 1.245245e-04
|
||||
76 9.600000e-01 3.500674e-02 1.482245e-04
|
||||
77 9.700000e-01 3.858976e-02 1.761297e-04
|
||||
78 9.800000e-01 4.226323e-02 2.106934e-04
|
||||
79 9.900000e-01 4.598348e-02 2.579408e-04
|
||||
80 1.000000e+00 4.967483e-02 3.308659e-04
|
||||
81 1.010000e+00 5.323301e-02 4.499557e-04
|
||||
82 1.020000e+00 5.657993e-02 6.330012e-04
|
||||
83 1.030000e+00 5.972028e-02 8.813991e-04
|
||||
84 1.040000e+00 6.271680e-02 1.181850e-03
|
||||
85 1.050000e+00 6.563508e-02 1.518125e-03
|
||||
86 1.060000e+00 6.852092e-02 1.878222e-03
|
||||
87 1.070000e+00 7.140176e-02 2.255370e-03
|
||||
88 1.080000e+00 7.429288e-02 2.646645e-03
|
||||
89 1.090000e+00 7.720226e-02 3.051443e-03
|
||||
90 1.100000e+00 8.013339e-02 3.470405e-03
|
||||
91 1.110000e+00 8.308694e-02 3.904762e-03
|
||||
92 1.120000e+00 8.606171e-02 4.355986e-03
|
||||
93 1.130000e+00 8.905522e-02 4.825594e-03
|
||||
94 1.140000e+00 9.206412e-02 5.315066e-03
|
||||
95 1.150000e+00 9.508446e-02 5.825795e-03
|
||||
96 1.160000e+00 9.811193e-02 6.359080e-03
|
||||
97 1.170000e+00 1.011420e-01 6.916117e-03
|
||||
98 1.180000e+00 1.041701e-01 7.498008e-03
|
||||
99 1.190000e+00 1.071917e-01 8.105763e-03
|
||||
100 1.200000e+00 1.102022e-01 8.740302e-03
|
||||
|
||||
|
|
|
|||
|
|
@ -0,0 +1,34 @@
|
|||
HICUML2 v2.4.0 Gummel Test
|
||||
VE Q1_E 0 1.0
|
||||
VC Q1_C 0 0.0
|
||||
VB Q1_B 0 0.0
|
||||
RT Q1_T 0 1M
|
||||
Q1 Q1_C Q1_B Q1_E Q1_E Q1_T P1
|
||||
.DC VE -0.2 -1.2 -10m
|
||||
.OPTIONS GMIN=1e-13 NOACCT
|
||||
|
||||
.print dc abs(i(vc)) abs(i(vb))
|
||||
|
||||
.MODEL P1 NPN LEVEL=8
|
||||
+ c10=9.074e-030 qp0=1.008e-013 hfe=10.01 hfc=20.04 hjei=3.382 hjci=0.2
|
||||
+ ibeis=1.328e-019 mbei=1.027 ireis=1.5e-014 mrei=2 ibeps=1.26e-019 mbep=1.042
|
||||
+ ireps=1.8e-014 mrep=1.8 mcf=1 tbhrec=1e-010 ibcis=4.603e-017 mbci=1.15
|
||||
+ ibcxs=0 mbcx=1 ibets=0.02035 abet=24 tunode=1 favl=18.96 qavl=5.092e-014
|
||||
+ alfav=-0.0024 alqav=-0.0006284 rbi0=4.444 rbx=2.568 fgeo=0.7409 fdqr0=0
|
||||
+ fcrbi=0 fqi=1 re=1.511 rcx=2.483 itss=0 msf=1 iscs=0 msc=1
|
||||
+ tsf=0 rsu=0 csu=0 cjei0=8.869e-015 vdei=0.714 zei=0.2489 ajei=1.65
|
||||
+ cjep0=2.178e-015 vdep=0.8501 zep=0.2632 ajep=1.6 cjci0=3.58e-015 vdci=0.8201
|
||||
+ zci=0.2857 vptci=1.79 cjcx0=6.299e-015 vdcx=0.8201 zcx=0.2863 vptcx=1.977
|
||||
+ fbcpar=0.3 fbepar=1 cjs0=2.6e-014 vds=0.9997 zs=0.4295 vpts=100
|
||||
+ t0=2.089e-013 dt0h=8e-014 tbvl=8.25e-014 tef0=3.271e-013 gtfe=3.548 thcs=5.001e-012
|
||||
+ ahc=0.05 fthc=0.7 rci0=9.523 vlim=0.6999 vces=0.01 vpt=2 tr=0
|
||||
+ cbepar=2.609e-014 cbcpar=1.64512e-014 alqf=0.166667 alit=0.333333 flnqs=1 kf=0
|
||||
+ af=2 cfbe=-1 latb=0 latl=0 vgb=0.91 alt0=0.004 kt0=6.588e-005
|
||||
+ zetaci=0.58 alvs=0.001 alces=-0.2286 zetarbi=0.3002 zetarbx=0.06011 zetarcx=-0.02768
|
||||
+ zetare=-0.9605 zetacx=0 vge=1.17 vgc=1.17 vgs=1.17 f1vg=-0.000102377 f2vg=0.00043215
|
||||
+ zetact=5 zetabet=4.892 flsh=1 rth=1113.4 cth=6.841e-012 zetarth=0
|
||||
+ alrth=0.002 flcomp=2.4 tnom=26.85 acbar=1.5 flcono=0 icbar=0.01
|
||||
+ vcbar=0.04 zetavgbe=0.7 hf0=40 ahjei=3 rhjei=2 delck=2 zetahjei=-0.5
|
||||
|
||||
|
||||
.END
|
||||
|
|
@ -2,7 +2,8 @@
|
|||
|
||||
|
||||
|
||||
TESTS = FG.cir
|
||||
TESTS = FG.cir \
|
||||
FG_sh.cir
|
||||
|
||||
TESTS_ENVIRONMENT = $(SHELL) $(top_srcdir)/tests/bin/check.sh $(top_builddir)/src/ngspice
|
||||
|
||||
|
|
|
|||
Loading…
Reference in New Issue