// Scicos // // Copyright (C) INRIA - METALAU Project // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // See the file ../license.txt // function [x,y,typ]=PNP(job,arg1,arg2) // the automatically generated interface block for Modelica PNP.mo model // - avec un dialogue de saisie de parametre x=[]; y=[]; typ=[]; select job case "set" then x=arg1; graphics=arg1.graphics; exprs=graphics.exprs model=arg1.model; x=arg1 exprs=x.graphics.exprs while %t do [ok,Bf,Br,Is,Vak,Tauf,Taur,Ccs,Cje,Cjc,Phie,Me,Phic,Mc,Gbc,Gbe,Vt,EMinMax,exprs]=scicos_getvalue(["Set PNP block parameters:";"";],["Bf : Forward beta";"Br : Reverse beta";"Is : Transport saturation current";"Vak : Early voltage (inverse), 1/Volt";"Tauf: Ideal forward transit time";"Taur: Ideal reverse transit time";"Ccs : Collector-substrat(ground) cap.";"Cje : Base-emitter zero bias depletion cap.";"Cjc : Base-coll. zero bias depletion cap.";"Phie: Base-emitter diffusion voltage";"Me : Base-emitter gradation exponent";"Phic: Base-collector diffusion voltage";"Mc : Base-collector gradation exponent";"Gbc : Base-collector conductance";"Gbe : Base-emitter conductance";"Vt : Voltage equivalent of temperature";"EMinMax: if x > EMinMax, the exp(x) function is linearized"],list("vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1,"vec",1),exprs) if ~ok then break, end x.model.equations.parameters(2)=list(Bf,Br,Is,Vak,Tauf,Taur,Ccs,Cje,Cjc,Phie,Me,Phic,Mc,Gbc,Gbe,Vt,EMinMax) x.graphics.exprs=exprs break end case "define" then ModelName="PNP" PrametersValue=[50;0.1;0;0.02;1.200D-10;5.000D-09;1.000D-12;4.000D-13;5.000D-13;0.8;0.4;0.8;0.333;1.000D-15;1.000D-15;0.02585;40] ParametersName=["Bf";"Br";"Is";"Vak";"Tauf";"Taur";"Ccs";"Cje";"Cjc";"Phie";"Me";"Phic";"Mc";"Gbc";"Gbe";"Vt";"EMinMax"] model=scicos_model() Typein=[]; Typeout=[]; MI=[]; MO=[] P=[100,90,-2,0;0,50,2,0;100,10,-2,0] PortName=["C";"B";"E"] for i=1:size(P,"r") if P(i,3)==1 then Typein= [Typein; "E"]; MI=[MI;PortName(i)]; end if P(i,3)==2 then Typein= [Typein; "I"]; MI=[MI;PortName(i)]; end if P(i,3)==-1 then Typeout=[Typeout;"E"]; MO=[MO;PortName(i)]; end if P(i,3)==-2 then Typeout=[Typeout;"I"]; MO=[MO;PortName(i)]; end end model=scicos_model() mo=modelica() model.sim=ModelName; mo.inputs=MI; mo.outputs=MO; model.rpar=PrametersValue; mo.parameters=list(ParametersName,PrametersValue,zeros(ParametersName)); exprs=["50";"0.1";"1.e-16";"0.02";"0.12e-9";"5e-9";"1e-12";"0.4e-12";"0.5e-12";"0.8";"0.4";"0.8";"0.333";"1e-15";"1e-15";"0.02585";"40"] gr_i=[] model.blocktype="c" model.dep_ut=[%f %t] mo.model=ModelName model.equations=mo model.in=ones(size(MI,"*"),1) model.out=ones(size(MO,"*"),1) x=standard_define([2,2],model,exprs,list(gr_i,0)) x.graphics.in_implicit=Typein; x.graphics.out_implicit=Typeout; end endfunction