diff options
Diffstat (limited to 'js/Electrical/PNP.js')
| -rw-r--r-- | js/Electrical/PNP.js | 38 |
1 files changed, 19 insertions, 19 deletions
diff --git a/js/Electrical/PNP.js b/js/Electrical/PNP.js index cf26f0e7..5d75504e 100644 --- a/js/Electrical/PNP.js +++ b/js/Electrical/PNP.js @@ -1,24 +1,5 @@ /* autogenerated from "macros/Electrical/PNP.sci" */ function PNP() { -PNP.prototype.get = function PNP() { -} -PNP.prototype.set = function PNP() { -x=arg1; -graphics=arg1.graphics; -exprs=graphics.exprs; -model=arg1.model; -x=arg1; -exprs=x.graphics.exprs; -while (true) { -[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) { -break -} -x.model.equations.parameters[2-1]=list(Bf,Br,Is,Vak,Tauf,Taur,Ccs,Cje,Cjc,Phie,Me,Phic,Mc,Gbc,Gbe,Vt,EMinMax); -x.graphics.exprs=exprs; -break -} -} PNP.prototype.define = function PNP() { ModelName="PNP"; PrametersValue=[50,0.1,0,0.02,1.200e-10,5.000e-09,1.000e-12,4.000e-13,5.000e-13,0.8,0.4,0.8,0.333,1.000e-15,1.000e-15,0.02585,40]; @@ -69,4 +50,23 @@ x.graphics.out_implicit=Typeout; } PNP.prototype.details = function PNP() { } +PNP.prototype.get = function PNP() { +} +PNP.prototype.set = function PNP() { +x=arg1; +graphics=arg1.graphics; +exprs=graphics.exprs; +model=arg1.model; +x=arg1; +exprs=x.graphics.exprs; +while (true) { +[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) { +break +} +x.model.equations.parameters[2-1]=list(Bf,Br,Is,Vak,Tauf,Taur,Ccs,Cje,Cjc,Phie,Me,Phic,Mc,Gbc,Gbe,Vt,EMinMax); +x.graphics.exprs=exprs; +break +} +} } |