cleaned up, small fixes, include Tf

This commit is contained in:
Markus Mueller 2020-05-12 12:15:52 +02:00
parent 1d7da49e27
commit 304dd91f58
2 changed files with 85 additions and 64 deletions

View File

@ -26,8 +26,8 @@ libhicum2_la_SOURCES = \
hicum2trunc.c
AM_CPPFLAGS = @AM_CPPFLAGS@ -I$(top_srcdir)/src/include -lstdc++ -std=c++11 -Og -Wall
AM_CFLAGS = -lstdc++ -I$(top_srcdir)/src/include -Og -Wall
AM_CXXFLAGS = -I$(top_srcdir)/src/include -lstdc++ -std=c++11 -Og -Wall
AM_CPPFLAGS = @AM_CPPFLAGS@ -I$(top_srcdir)/src/include -lstdc++ -std=c++11 -Og -Wall -Wextra
AM_CFLAGS = -lstdc++ -I$(top_srcdir)/src/include -Og -Wall -Wextra
AM_CXXFLAGS = -I$(top_srcdir)/src/include -lstdc++ -std=c++11 -Og -Wall -Wextra
MAINTAINERCLEANFILES = Makefile.in

View File

@ -403,11 +403,12 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
double volatile itf,itr,Tf,Tr,a_bpt,Q_0;
double volatile itf_Vbiei, itf_Vbici, itf_Vciei, itf_dT, itf_dQ_pT, itf_dick, itf_dT_f0;
double volatile itr_Vbiei, itr_Vbici, itr_Vciei, itr_dT, itr_dQ_pT, itr_dick, itr_dT_f0;
double volatile Tf_Vbiei, Tf_Vbici, Tf_Vciei, Tf_dT, Tf_dQ_pT, Tf_dick, Tf_dT_f0;
double it_Vbiei, it_Vbici, it_dT;
double Qf_Vbiei, Qf_Vbici, Qf_Vciei, Qf_dT, Qf_dQ_pT, Qf_dick, Qf_dT_f0;
double Qr_Vbiei, Qr_Vbici, Qr_Vciei, Qr_dT, Qr_dQ_pT, Qr_dick, Qr_dT_f0;
double it_ditf, it_ditr;
duals::duald result_itf, result_itr, result_Qp, result_Qf, result_Qr, result_Q_bf, result_a_h, result_Q_p; //intermediate variables when calling void dual functions
duals::duald result_itf, result_itr, result_Qp, result_Qf, result_Qr, result_Q_bf, result_a_h, result_Q_p, result_Tf; //intermediate variables when calling void dual functions
double Orci0_t,T_f0, Q_p, a_h;
double volatile Q_bf, Q_bf_Vbiei, Q_bf_Vbici, Q_bf_Vciei, Q_bf_dT, Q_bf_dick, Q_bf_dT_f0, Q_bf_dQ_pT;
double volatile Q_pT, Q_pT_dVbiei, Q_pT_dVbici, Q_pT_dT, Q_pT_dick, Q_pT_dT_f0, Q_pT_dQ_0, Q_pT_dVciei;
@ -466,19 +467,19 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
double Ibpbi, Ibpbi_Vbpbi, Ibpbi_Vbici, Ibpbi_Vbiei;
double Ibpsi, Ibpsi_Vbpci, Ibpsi_Vsici;
double Icic_Vcic;
double Ibci, Ibci_Vbci, Ibci_dT;
// double Ibci, Ibci_Vbci, Ibci_dT;
double volatile hjei_vbe_Vbiei, hjei_vbe_dT, ibet_Vbpei=0.0, ibet_dT=0, ibet_Vbiei=0.0, ibh_rec_Vbiei, ibh_rec_dT, ibh_rec_Vbici;
double irei_Vbiei, irei_dT;
double ibep_Vbpei, ibep_dT;
double irep_Vbpei, irep_dT, iavl_Vbici, rbi_dT, rbi_dQjei, rbi_dCjci, rbi_dQf, rbi_Vbiei, rbi_Vbici;
double irep_Vbpei, irep_dT, iavl_Vbici, rbi_dT, rbi_dQjei, rbi_dQf, rbi_Vbiei, rbi_Vbici;
double ibei_Vbiei, ibei_dT;
double ibci_Vbici, ibci_dT;
double Q_0_Vbiei, Q_0_Vbici, Q_0_hjei_vbe, Q_0_Qjci, Q_0_Qjei, Q_0_dT;
double Cjei_Vbiei,Cjci_Vbici,Cjep_Vbpei,Cjep_dT,Cjs_Vsici,Cjcit_Vbici,i_0f_Vbiei,i_0r_Vbici;
double Cjei_Vbiei,Cjci_Vbici,Cjep_Vbpei,Cjep_dT,Cjs_Vsici;
double Cjei_dT, Cjci_dT;
double Qjei_Vbiei, Qjei_dT, Qjci_Vbici, Qjci_dT;
double cc_Vbici,T_f0_Vbici,T_f0_Qjci, T_f0_dT;
double T_f0_Vbici,T_f0_dT;
double Qbepar1;
double Qbepar2;
double Qbcpar1;
@ -720,7 +721,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
return Q_0;
};
std::function<duals::duald (duals::duald, duals::duald, duals::duald)> calc_T_f0 = [&](duals::duald T, duals::duald Vbici, duals::duald Qjci){
std::function<duals::duald (duals::duald, duals::duald)> calc_T_f0 = [&](duals::duald T, duals::duald Vbici){
//Transit time calculation at low current density
duals::duald vt;
duals::duald cV_f,cv_e,cs_q,cs_q2,cv_j,cdvj_dv,Cjcit,cc;
@ -839,7 +840,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
return iavl;
};
std::function<duals::duald (duals::duald, duals::duald, duals::duald, duals::duald)> calc_rbi = [&](duals::duald T, duals::duald Qjei, duals::duald Cjci, duals::duald Qf){
std::function<duals::duald (duals::duald, duals::duald, duals::duald)> calc_rbi = [&](duals::duald T, duals::duald Qjei, duals::duald Qf){
//Internal base resistance
duals::duald vt,rbi;
vt = CONSTboltz * T / CHARGE;
@ -875,9 +876,9 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
return rbi;
};
std::function<void (duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*)> calc_it_final = [&](duals::duald T, duals::duald Vbiei, duals::duald Vbici, duals::duald Q_pT, duals::duald T_f0, duals::duald ick, duals::duald *itf, duals::duald *itr, duals::duald *Qf, duals::duald *Qr, duals::duald *Q_bf){
std::function<void (duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*)> calc_it_final = [&](duals::duald T, duals::duald Vbiei, duals::duald Vbici, duals::duald Q_pT, duals::duald T_f0, duals::duald ick, duals::duald *itf, duals::duald *itr, duals::duald *Qf, duals::duald *Qr, duals::duald *Q_bf, duals::duald * Tf){
// given T,Q_pT, ick, T_f0, Tr, Vbiei, Vbici -> calculate itf, itr, Qf, Qr
duals::duald VT, VT_f, i_0f, i_0r, I_Tf1, a_h, Tf,Q_fT,T_fT;
duals::duald VT, VT_f, i_0f, i_0r, I_Tf1, a_h, Q_fT,T_fT;
VT = CONSTboltz * T / CHARGE;
VT_f = model->HICUMmcf*VT;
@ -891,15 +892,15 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
*itr = i_0r/Q_pT;
//Final transit times, charges and transport current components
Tf = T_f0;
*Tf = T_f0;
*Qf = T_f0*(*itf);
HICQFF(T,*itf,ick,&Tf,Qf,&T_fT,&Q_fT,Q_bf);
HICQFF(T,*itf,ick,Tf,Qf,&T_fT,&Q_fT,Q_bf);
*Qr = Tr*(*itr);
};
std::function<void (duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*)> calc_it_initial = [&](duals::duald T, duals::duald Vbiei, duals::duald Vbici, duals::duald Q_0, duals::duald T_f0, duals::duald ick, duals::duald *itf, duals::duald *itr, duals::duald *Qf, duals::duald *Qr, duals::duald *Q_bf, duals::duald *a_h, duals::duald *Q_p){
std::function<void (duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*, duals::duald*)> calc_it_initial = [&](duals::duald T, duals::duald Vbiei, duals::duald Vbici, duals::duald Q_0, duals::duald T_f0, duals::duald ick, duals::duald *itf, duals::duald *itr, duals::duald *Qf, duals::duald *Qr, duals::duald *Q_bf, duals::duald *a_h, duals::duald *Q_p, duals::duald *Tf){
// given T,Q_pT, ick, T_f0, Tr, Vbiei, Vbici -> calculate itf, itr, Qf, Qr
duals::duald VT, VT_f, i_0f, i_0r, I_Tf1, Tf, Q_fT, T_fT, A;
duals::duald VT, VT_f, i_0f, i_0r, I_Tf1, Q_fT, T_fT, A;
VT = CONSTboltz * T / CHARGE;
VT_f = model->HICUMmcf*VT;
@ -918,9 +919,9 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
//Initial formulation of forward transit time, diffusion, GICCR and excess b-c charge
*Q_bf = 0.0;
Tf = T_f0;
*Tf = T_f0;
*Qf = T_f0*(*itf);
HICQFF(T,*itf,ick,&Tf,Qf,&T_fT,&Q_fT,Q_bf);
HICQFF(T,*itf,ick,Tf,Qf,&T_fT,&Q_fT,Q_bf);
//Initial formulation of reverse diffusion charge
*Qr = Tr*(*itr);
@ -1604,18 +1605,12 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
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
result = calc_T_f0(here->HICUMtemp, Vbici+1_e, Qjci);
result = calc_T_f0(here->HICUMtemp, Vbici+1_e);
T_f0 = result.rpart();
T_f0_Vbici = result.dpart();
result = calc_T_f0(here->HICUMtemp, Vbici, Qjci+1_e);
T_f0_Qjci = result.dpart();
T_f0_Vbici += T_f0_Qjci*Qjci_Vbici;
result = calc_T_f0(here->HICUMtemp+1_e, Vbici, Qjci);
result = calc_T_f0(here->HICUMtemp+1_e, Vbici);
T_f0_dT = result.dpart() ;
T_f0_dT += T_f0_Qjci*Qjci_dT;
//Critical current
result = calc_ick(here->HICUMtemp, Vciei+1_e);
@ -1636,7 +1631,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Tr = model->HICUMtr;
//begin initial transfer current calculations -> itf, itr, Qf, Qr------------
calc_it_initial(here->HICUMtemp+1_e, Vbiei , Vbici , Q_0 , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p);
calc_it_initial(here->HICUMtemp+1_e, Vbiei , Vbici , Q_0 , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p, &result_Tf);
itf = result_itf.rpart();
itr = result_itr.rpart();
Qf = result_Qf.rpart();
@ -1644,47 +1639,54 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Q_bf = result_Q_bf.rpart();
a_h = result_a_h.rpart(); //needed to check if newton iteration needed
Q_p = result_Q_p.rpart(); //needed to check if newton iteration needed
Tf = result_Tf.rpart(); //needed to check if newton iteration needed
itf_dT = result_itf.dpart();
itr_dT = result_itr.dpart();
Qf_dT = result_Qf.dpart();
Qr_dT = result_Qr.dpart();
Q_bf_dT= result_Q_bf.dpart();
Tf_dT = result_Tf.dpart();
if (!(Qf > RTOLC*Q_p || a_h > RTOLC)) { // in this case the newon is not run and the derivatives of the initial solution are needed
calc_it_initial(here->HICUMtemp , Vbiei+1_e, Vbici , Q_0 , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p);
calc_it_initial(here->HICUMtemp , Vbiei+1_e, Vbici , Q_0 , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p, &result_Tf);
itf_Vbiei = result_itf.dpart();
itr_Vbiei = result_itr.dpart();
Qf_Vbiei = result_Qf.dpart();
Qr_Vbiei = result_Qr.dpart();
Q_bf_Vbiei = result_Q_bf.dpart();
Tf_Vbiei = result_Tf.dpart();
calc_it_initial(here->HICUMtemp , Vbiei , Vbici+1_e, Q_0 , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p);
calc_it_initial(here->HICUMtemp , Vbiei , Vbici+1_e, Q_0 , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p, &result_Tf);
itf_Vbici = result_itf.dpart();
itr_Vbici = result_itr.dpart();
Qf_Vbici = result_Qf.dpart();
Qr_Vbici = result_Qr.dpart();
Q_bf_Vbici= result_Q_bf.dpart();
Tf_Vbici = result_Tf.dpart();
calc_it_initial(here->HICUMtemp , Vbiei , Vbici , Q_0+1_e, T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p);
calc_it_initial(here->HICUMtemp , Vbiei , Vbici , Q_0+1_e, T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p, &result_Tf);
itf_dQ_pT = result_itf.dpart(); //actual Q_0, but we can spare us this new variables
itr_dQ_pT = result_itr.dpart();
Qf_dQ_pT = result_Qf.dpart();
Qr_dQ_pT = result_Qr.dpart();
Q_bf_dQ_pT= result_Q_bf.dpart();
Tf_dQ_pT = result_Tf.dpart();
calc_it_initial(here->HICUMtemp , Vbiei , Vbici , Q_0 , T_f0+1_e, ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p);
calc_it_initial(here->HICUMtemp , Vbiei , Vbici , Q_0 , T_f0+1_e, ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p, &result_Tf);
itf_dT_f0 = result_itf.dpart();
itr_dT_f0 = result_itr.dpart();
Qf_dT_f0 = result_Qf.dpart();
Qr_dT_f0 = result_Qr.dpart();
Q_bf_dT_f0= result_Q_bf.dpart();
Tf_dT_f0 = result_Tf.dpart();
calc_it_initial(here->HICUMtemp , Vbiei , Vbici , Q_0 , T_f0 , ick+1_e, &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p);
calc_it_initial(here->HICUMtemp , Vbiei , Vbici , Q_0 , T_f0 , ick+1_e, &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_a_h, &result_Q_p, &result_Tf);
itf_dick = result_itf.dpart();
itr_dick = result_itr.dpart();
Qf_dick = result_Qf.dpart();
Qr_dick = result_Qr.dpart();
Q_bf_dick= result_Q_bf.dpart();
Tf_dick = result_Tf.dpart();
// add derivatives of Q_0 = f(Vbici,Vbiei,T)
itf_dT += itf_dQ_pT*Q_0_dT;
@ -1692,37 +1694,43 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Qf_dT += Qf_dQ_pT*Q_0_dT;
Qr_dT += Qr_dQ_pT*Q_0_dT;
Q_bf_dT += Q_bf_dQ_pT*Q_0_dT;
Tf_dT += Tf_dQ_pT*Q_0_dT;
itf_Vbiei += itf_dQ_pT*Q_0_Vbiei;
itr_Vbiei += itr_dQ_pT*Q_0_Vbiei;
Qf_Vbiei += Qf_dQ_pT*Q_0_Vbiei;
Qr_Vbiei += Qr_dQ_pT*Q_0_Vbiei;
Q_bf_Vbiei+= Q_bf_dQ_pT*Q_0_Vbiei;
Tf_Vbiei += Tf_dQ_pT*Q_0_Vbiei;
itf_Vbici += itf_dQ_pT*Q_0_Vbici;
itr_Vbici += itr_dQ_pT*Q_0_Vbici;
Qf_Vbici += Qf_dQ_pT*Q_0_Vbici;
Qr_Vbici += Qr_dQ_pT*Q_0_Vbici;
Q_bf_Vbici+= Q_bf_dQ_pT*Q_0_Vbici;
Tf_Vbici += Tf_dQ_pT*Q_0_Vbici;
itf_Vciei = 0; //Q_0 is not a function of Vciei
itr_Vciei = 0;
Qf_Vciei = 0;
Qr_Vciei = 0;
Q_bf_Vciei = 0;
Tf_Vciei = 0;
// add derivatives of T_f0 = f(Vbici, T)
itf_Vbici += itf_dick*T_f0_Vbici;
itr_Vbici += itr_dick*T_f0_Vbici;
Qf_Vbici += Qf_dick*T_f0_Vbici;
Qr_Vbici += Qr_dick*T_f0_Vbici;
Q_bf_Vbici+= Q_bf_dick*T_f0_Vbici;
itf_Vbici += itf_dT_f0*T_f0_Vbici;
itr_Vbici += itr_dT_f0*T_f0_Vbici;
Qf_Vbici += Qf_dT_f0*T_f0_Vbici;
Qr_Vbici += Qr_dT_f0*T_f0_Vbici;
Q_bf_Vbici+= Q_bf_dT_f0*T_f0_Vbici;
Tf_Vbici += Tf_dT_f0*T_f0_Vbici;
itf_dT += itf_dT_f0*T_f0_dT;
itr_dT += itr_dT_f0*T_f0_dT;
Qf_dT += Qf_dT_f0*T_f0_dT;
Qr_dT += Qr_dT_f0*T_f0_dT;
Q_bf_dT += Q_bf_dT_f0*T_f0_dT;
Tf_dT += Tf_dT_f0*T_f0_dT;
// add derivatives of ick=f(Vciei, T)
itf_Vciei += itf_dick*ick_Vciei;
@ -1730,12 +1738,14 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Qf_Vciei += Qf_dick*ick_Vciei;
Qr_Vciei += Qr_dick*ick_Vciei;
Q_bf_Vciei+= Q_bf_dick*ick_Vciei;
Tf_Vciei += Tf_dick*ick_Vciei;
itf_dT += itf_dick*ick_dT;
itr_dT += itr_dick*ick_dT;
Qf_dT += Qf_dick*ick_dT;
Qr_dT += Qr_dick*ick_dT;
Q_bf_dT += Q_bf_dick*ick_dT;
Tf_dT += Tf_dick*ick_dT;
} else { //Newton needed
//todo: derivatives of temperature dependent hicum parameters
@ -1784,91 +1794,104 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
//end Q_pT -------------------------------------------------------------------------------
//begin final transfer current calculations -> itf, itr, Qf, Qr------------
calc_it_final(here->HICUMtemp+1_e, Vbiei , Vbici , Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf);
calc_it_final(here->HICUMtemp+1_e, Vbiei , Vbici , Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_Tf);
// calc_it_final(here->HICUMtemp+1_e, Vbiei , Vbici , Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr);
itf = result_itf.rpart();
itr = result_itr.rpart();
Qf = result_Qf.rpart();
Qr = result_Qr.rpart();
Q_bf = result_Q_bf.rpart();
Tf = result_Tf.rpart();
itf_dT = result_itf.dpart();
itr_dT = result_itr.dpart();
Qf_dT = result_Qf.dpart();
Qr_dT = result_Qr.dpart();
Q_bf_dT= result_Q_bf.dpart();
Tf_dT = result_Tf.dpart();
calc_it_final(here->HICUMtemp , Vbiei+1_e, Vbici , Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf);
calc_it_final(here->HICUMtemp , Vbiei+1_e, Vbici , Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_Tf);
itf_Vbiei = result_itf.dpart();
itr_Vbiei = result_itr.dpart();
Qf_Vbiei = result_Qf.dpart();
Qr_Vbiei = result_Qr.dpart();
Q_bf_Vbiei = result_Q_bf.dpart();
Tf_Vbiei = result_Tf.dpart();
calc_it_final(here->HICUMtemp , Vbiei , Vbici+1_e, Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf);
calc_it_final(here->HICUMtemp , Vbiei , Vbici+1_e, Q_pT , T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_Tf);
itf_Vbici = result_itf.dpart();
itr_Vbici = result_itr.dpart();
Qf_Vbici = result_Qf.dpart();
Qr_Vbici = result_Qr.dpart();
Q_bf_Vbici= result_Q_bf.dpart();
Tf_Vbici = result_Tf.dpart();
calc_it_final(here->HICUMtemp , Vbiei , Vbici , Q_pT+1_e, T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf);
calc_it_final(here->HICUMtemp , Vbiei , Vbici , Q_pT+1_e, T_f0 , ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_Tf);
itf_dQ_pT = result_itf.dpart();
itr_dQ_pT = result_itr.dpart();
Qf_dQ_pT = result_Qf.dpart();
Qr_dQ_pT = result_Qr.dpart();
Q_bf_dQ_pT= result_Q_bf.dpart();
Tf_dQ_pT = result_Tf.dpart();
calc_it_final(here->HICUMtemp , Vbiei , Vbici , Q_pT , T_f0+1_e, ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf);
calc_it_final(here->HICUMtemp , Vbiei , Vbici , Q_pT , T_f0+1_e, ick , &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_Tf);
itf_dT_f0 = result_itf.dpart();
itr_dT_f0 = result_itr.dpart();
Qf_dT_f0 = result_Qf.dpart();
Qr_dT_f0 = result_Qr.dpart();
Q_bf_dT_f0= result_Q_bf.dpart();
Tf_dT_f0 = result_Tf.dpart();
calc_it_final(here->HICUMtemp , Vbiei , Vbici , Q_pT , T_f0 , ick+1_e, &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf);
calc_it_final(here->HICUMtemp , Vbiei , Vbici , Q_pT , T_f0 , ick+1_e, &result_itf, &result_itr, &result_Qf, &result_Qr, &result_Q_bf, &result_Tf);
itf_dick = result_itf.dpart();
itr_dick = result_itr.dpart();
Qf_dick = result_Qf.dpart();
Qr_dick = result_Qr.dpart();
Q_bf_dick= result_Q_bf.dpart();
Tf_dick = result_Tf.dpart();
// add derivatives of Q_pT = f(Vbici,Vbiei,Vciei,T)
itf_dT += itf_dQ_pT*Q_pT_dT;
itr_dT += itr_dQ_pT*Q_pT_dT;
Qf_dT += Qf_dQ_pT*Q_pT_dT;
Qr_dT += Qr_dQ_pT*Q_pT_dT;
Q_bf_dT += Q_bf_dQ_pT*Q_bf_dT;
Q_bf_dT += Q_bf_dQ_pT*Q_pT_dT;
Tf_dT += Tf_dQ_pT*Q_pT_dT;
itf_Vbiei += itf_dQ_pT*Q_pT_dVbiei;
itr_Vbiei += itr_dQ_pT*Q_pT_dVbiei;
Qf_Vbiei += Qf_dQ_pT*Q_pT_dVbiei;
Qr_Vbiei += Qr_dQ_pT*Q_pT_dVbiei;
Q_bf_Vbiei+= Q_bf_dQ_pT*Q_pT_dVbiei;
Tf_Vbiei += Tf_dQ_pT*Q_pT_dVbiei;
itf_Vbici += itf_dQ_pT*Q_pT_dVbici;
itr_Vbici += itr_dQ_pT*Q_pT_dVbici;
Qf_Vbici += Qf_dQ_pT*Q_pT_dVbici;
Qr_Vbici += Qr_dQ_pT*Q_pT_dVbici;
Q_bf_Vbici+= Q_bf_dQ_pT*Q_pT_dVbici;
Tf_Vbici += Tf_dQ_pT*Q_pT_dVbici;
itf_Vciei = itf_dQ_pT*Q_pT_dVciei;
itr_Vciei = itr_dQ_pT*Q_pT_dVciei;
Qf_Vciei = Qf_dQ_pT*Q_pT_dVciei;
Qr_Vciei = Qr_dQ_pT*Q_pT_dVciei;
Q_bf_Vciei = Q_bf_dQ_pT*Q_pT_dVciei;
Tf_Vciei = Tf_dQ_pT*Q_pT_dVciei;
// add derivatives of T_f0 = f(Vbici, T)
itf_Vbici += itf_dick*T_f0_Vbici;
itr_Vbici += itr_dick*T_f0_Vbici;
Qf_Vbici += Qf_dick*T_f0_Vbici;
Qr_Vbici += Qr_dick*T_f0_Vbici;
Q_bf_Vbici+= Q_bf_dick*T_f0_Vbici;
itf_Vbici += itf_dT_f0*T_f0_Vbici;
itr_Vbici += itr_dT_f0*T_f0_Vbici;
Qf_Vbici += Qf_dT_f0*T_f0_Vbici;
Qr_Vbici += Qr_dT_f0*T_f0_Vbici;
Q_bf_Vbici+= Q_bf_dT_f0*T_f0_Vbici;
Tf_Vbici += Tf_dT_f0*T_f0_Vbici;
itf_Vbici += itf_dT_f0*T_f0_Vbici;
itr_Vbici += itr_dT_f0*T_f0_Vbici;
Qf_Vbici += Qf_dT_f0*T_f0_Vbici;
Qr_Vbici += Qr_dT_f0*T_f0_Vbici;
Q_bf_Vbici+= Q_bf_dT_f0*T_f0_Vbici;
Tf_Vbici += Tf_dT_f0*T_f0_Vbici;
// add derivatives of ick=f(Vciei, T)
itf_Vciei += itf_dick*ick_Vciei;
@ -1876,12 +1899,14 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Qf_Vciei += Qf_dick*ick_Vciei;
Qr_Vciei += Qr_dick*ick_Vciei;
Q_bf_Vciei+= Q_bf_dick*ick_Vciei;
Tf_Vciei += Tf_dick*ick_Vciei;
itf_dT += itf_dick*ick_dT;
itr_dT += itr_dick*ick_dT;
Qf_dT += Qf_dick*ick_dT;
Qr_dT += Qr_dick*ick_dT;
Q_bf_dT += Q_bf_dick*ick_dT;
Tf_dT += Tf_dick*ick_dT;
}
// finally the transfer current
@ -1901,7 +1926,7 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
//end final calculations --------------------------------------------------
here->HICUMtf = 0;//tf ...not calculated currently, since it is not needed
here->HICUMtf = Tf;
//NQS effect implemented with LCR networks
//Once the delay in ITF is considered, IT_NQS is calculated afterwards
@ -1911,7 +1936,6 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Qdei = Qf;
Qdci = Qr;
//High-frequency emitter current crowding (lateral NQS)
Cdei = T_f0*itf/here->HICUMvt;
Cdci = model->HICUMtr*itr/here->HICUMvt;
@ -1956,20 +1980,18 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
ibh_rec_Vbici += -Q_bf_Vciei;
//internal base resistance
result = calc_rbi(here->HICUMtemp+1_e, Qjei , Cjci , Qf );
result = calc_rbi(here->HICUMtemp+1_e, Qjei , Qf );
rbi = result.rpart();
rbi_dT = result.dpart();
result = calc_rbi(here->HICUMtemp , Qjei+1_e, Cjci , Qf );
result = calc_rbi(here->HICUMtemp , Qjei+1_e, Qf );
rbi_dQjei = result.dpart();
result = calc_rbi(here->HICUMtemp , Qjei , Cjci+1_e, Qf );
rbi_dCjci = result.dpart();
result = calc_rbi(here->HICUMtemp , Qjei , Cjci , Qf+1_e);
result = calc_rbi(here->HICUMtemp , Qjei , Qf+1_e);
rbi_dQf = result.dpart();
here->HICUMrbi = rbi;
rbi_Vbiei = rbi_dQjei* Qjei_Vbiei + rbi_dQf *Qf_Vbiei ;
rbi_Vbici = rbi_dQf * Qf_Vbici + rbi_dCjci*Cjci_Vbici ;
rbi_dT += rbi_dQjei*Qjei_dT + rbi_dCjci*Cjci_dT + rbi_dQf*Qf_dT;
rbi_Vbici = rbi_dQf * Qf_Vbici;
rbi_dT += rbi_dQjei*Qjei_dT + rbi_dQf*Qf_dT;
//Base currents across peripheral b-e junction
//TODO: temperature derivative with ibeps_t ireps_t
@ -2269,7 +2291,6 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
//@Dietmar: why is charge equal to capacitance, where is the j*omega or derivative operator?
Qjcx_i_Vbci = Cjcx_i;
Qjcx_ii_Vbpci = Cjcx_ii;
Qjep_Vbpei = Cjep;
@ -2480,10 +2501,10 @@ HICUMload(GENmodel *inModel, CKTcircuit *ckt)
Isici += *(ckt->CKTstate0 + here->HICUMcqjs);
// Ibci += ddt(model->HICUMtype*qjcx0_t_i);
error = NIintegrate(ckt,&geq,&ceq,Cjcx_i,here->HICUMqjcx0_i);
if(error) return(error);
Ibci_Vbci = geq;
Ibci = *(ckt->CKTstate0 + here->HICUMcqcx0_t_i);
// error = NIintegrate(ckt,&geq,&ceq,Cjcx_i,here->HICUMqjcx0_i);
// if(error) return(error);
// Ibci_Vbci = geq;
// Ibci = *(ckt->CKTstate0 + here->HICUMcqcx0_t_i);
// Ibpci += ddt(model->HICUMtype*(qjcx0_t_ii+Qdsu));
error = NIintegrate(ckt,&geq,&ceq,Cjcx_ii,here->HICUMqjcx0_ii);