/*
* Copyright (C) 2010 Thorsten Liebig (Thorsten.Liebig@gmx.de)
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include "FDTD_examples.h"
#include "../tools/constants.h"
void BuildDipol(const char* filename)
{
int maxIter = 1000;
double f0=0.5e9;
double fc=0.5e9;
int Excit_Type=0;
int bounds[] = {1,1,0,0,0,0};
cerr << "Create Geometry..." << endl;
ContinuousStructure CSX;
CSPropMaterial* mat = new CSPropMaterial(CSX.GetParameterSet());
mat->SetKappa(0.001);
CSX.AddProperty(mat);
CSPrimBox* matbox = new CSPrimBox(CSX.GetParameterSet(),mat);
matbox->SetCoord(0,-1000.0);matbox->SetCoord(1,1000.0);
matbox->SetCoord(2,-1000.0);matbox->SetCoord(3,1000.0);
matbox->SetCoord(4,-1000.0);matbox->SetCoord(5,1000.0);
CSX.AddPrimitive(matbox);
CSPropElectrode* elec = new CSPropElectrode(CSX.GetParameterSet());
elec->SetExcitation(1,1);
elec->SetExcitType(1);
elec->SetActiveDir(0,0);//disable x
elec->SetActiveDir(0,2);//disable z
// elec->SetDelay(2.0e-9);
CSX.AddProperty(elec);
CSPrimBox* box = new CSPrimBox(CSX.GetParameterSet(),elec);
box->SetCoord(0,-10.0);box->SetCoord(1,10.0);
box->SetCoord(2,-75.0);box->SetCoord(3,75.0);
box->SetCoord(4,-10.0);box->SetCoord(5,10.0);
CSX.AddPrimitive(box);
CSRectGrid* grid = CSX.GetGrid();
for (int n=-990;n<=990;n+=20)
grid->AddDiscLine(2,(double)n);
for (int n=-990;n<=990;n+=20)
grid->AddDiscLine(0,(double)n);
for (int n=-990;n<=990;n+=20)
grid->AddDiscLine(1,(double)n);
grid->SetDeltaUnit(1e-3);
//*************** Create XML file **********************
TiXmlDocument doc(filename);
doc.InsertEndChild(TiXmlDeclaration("1.0","ISO-8859-1","yes"));
TiXmlElement openEMS("openEMS");
TiXmlElement FDTD_Opts("FDTD");
FDTD_Opts.SetAttribute("NumberOfTimesteps",maxIter);
TiXmlElement Excite("Excitation");
Excite.SetAttribute("Type",Excit_Type);
Excite.SetAttribute("f0",f0);
Excite.SetAttribute("fc",fc);
FDTD_Opts.InsertEndChild(Excite);
TiXmlElement BC("BoundaryCond");
BC.SetAttribute("xmin",bounds[0]);
BC.SetAttribute("xmax",bounds[1]);
BC.SetAttribute("ymin",bounds[2]);
BC.SetAttribute("ymax",bounds[3]);
BC.SetAttribute("zmin",bounds[4]);
BC.SetAttribute("zmax",bounds[5]);
FDTD_Opts.InsertEndChild(BC);
openEMS.InsertEndChild(FDTD_Opts);
if (CSX.Write2XML(&openEMS,true,true)==false)
{
cerr << "writing failed" << endl;
exit(-1);
}
doc.InsertEndChild(openEMS);
doc.SaveFile();
}
void BuildPlaneWave(const char* filename)
{
int maxIter = 10000;
double f0=0.5e9;
double fc=0.5e9;
int Excit_Type=0;
int bounds[] = {1,1,0,0,0,0};
cerr << "Create Geometry..." << endl;
ContinuousStructure CSX;
double width = 1000;
double hight = 1000;
double length = 4000;
double abs_l = 200;
CSPrimBox* box = NULL;
//fake pml....
CSPropMaterial* mat = new CSPropMaterial(CSX.GetParameterSet());
// mat->SetEpsilon(3.6);
double finalKappa = 0.3/pow(abs_l,4);
mat->SetKappa(finalKappa);
std::ostringstream fct;
fct << "pow(abs(z)-" << length/2.0-abs_l << ",4)";
mat->SetKappaWeightFunction(fct.str(),0);
mat->SetKappaWeightFunction(fct.str(),1);
mat->SetKappaWeightFunction(fct.str(),2);
mat->SetSigma(finalKappa*__MUE0__/__EPS0__);
mat->SetSigmaWeightFunction(fct.str(),0);
mat->SetSigmaWeightFunction(fct.str(),1);
mat->SetSigmaWeightFunction(fct.str(),2);
CSX.AddProperty(mat);
box = new CSPrimBox(CSX.GetParameterSet(),mat);
box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
box->SetCoord(2,hight/-2.0);box->SetCoord(3,hight/2.0);
box->SetCoord(4,length/2.0-abs_l); box->SetCoord(5,length/2.0);
CSX.AddPrimitive(box);
box = new CSPrimBox(CSX.GetParameterSet(),mat);
box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
box->SetCoord(2,hight/-2.0);box->SetCoord(3,hight/2.0);
box->SetCoord(4,length/-2.0+abs_l); box->SetCoord(5,length/-2.0);
CSX.AddPrimitive(box);
CSPropMaterial* mat2 = new CSPropMaterial(CSX.GetParameterSet());
mat2->SetEpsilon(2);
CSX.AddProperty(mat2);
CSPrimCylindricalShell* cylshell = new CSPrimCylindricalShell(CSX.GetParameterSet(),mat2);
cylshell->SetRadius(length/4.0);
cylshell->SetShellWidth(200.0);
cylshell->SetCoord(0,0.0);cylshell->SetCoord(1,0.0);
cylshell->SetCoord(2,hight/-2.0);cylshell->SetCoord(3,hight/2.0);
cylshell->SetCoord(4,0.0);cylshell->SetCoord(5,0.0);
CSX.AddPrimitive(cylshell);
CSPropElectrode* elec = new CSPropElectrode(CSX.GetParameterSet());
elec->SetExcitation(1,1);
elec->SetExcitType(0);
elec->SetActiveDir(0,0);//disable x
elec->SetActiveDir(0,2);//disable z
// elec->SetDelay(2.0e-9);
CSX.AddProperty(elec);
box = new CSPrimBox(CSX.GetParameterSet(),elec);
box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
box->SetCoord(2,hight/-2.0);box->SetCoord(3,hight/2.0);
box->SetCoord(4,0.0);box->SetCoord(5,0.0);
CSX.AddPrimitive(box);
//E-field dump
CSPropDumpBox* Edump = new CSPropDumpBox(CSX.GetParameterSet());
Edump->SetDumpType(0);
Edump->SetName("Et_");
CSX.AddProperty(Edump);
box = new CSPrimBox(CSX.GetParameterSet(),Edump);
box->SetCoord(0,width/-3.0);box->SetCoord(1,width/3.0);
box->SetCoord(2,0.0);box->SetCoord(3,0.0);
box->SetCoord(4,length/-2.0+abs_l);box->SetCoord(5,length/2.0-abs_l);
CSX.AddPrimitive(box);
//H-field dump
CSPropDumpBox* Hdump = new CSPropDumpBox(CSX.GetParameterSet());
Hdump->SetDumpType(1);
Hdump->SetName("Ht_");
CSX.AddProperty(Hdump);
box = new CSPrimBox(CSX.GetParameterSet(),Hdump);
box->SetCoord(0,width/-3.0);box->SetCoord(1,width/3.0);
box->SetCoord(2,0.0);box->SetCoord(3,0.0);
box->SetCoord(4,length/-2.0+abs_l);box->SetCoord(5,length/2.0-abs_l);
CSX.AddPrimitive(box);
// CSPropMetal* metal = new CSPropMetal(CSX.GetParameterSet());
// CSX.AddProperty(metal);
// CSPrimCylinder* cyl = new CSPrimCylinder(CSX.GetParameterSet(),metal);
// cyl->SetRadius(100);
// cyl->SetCoord(0,0.0);cyl->SetCoord(1,0.0);
// cyl->SetCoord(2,-250.0);cyl->SetCoord(3,250.0);
// cyl->SetCoord(4,-0000.0);cyl->SetCoord(5,-0000.0);
// CSX.AddPrimitive(cyl);
CSRectGrid* grid = CSX.GetGrid();
for (int n=width/-2.0;n<=width/2;n+=20)
grid->AddDiscLine(0,(double)n);
for (int n=hight/-2.0;n<=hight/2.0;n+=20)
grid->AddDiscLine(1,(double)n);
for (int n=length/-2.0;n<=length/2.0;n+=20)
grid->AddDiscLine(2,(double)n);
grid->SetDeltaUnit(1e-3);
//*************** Create XML file **********************
TiXmlDocument doc(filename);
doc.InsertEndChild(TiXmlDeclaration("1.0","ISO-8859-1","yes"));
TiXmlElement openEMS("openEMS");
TiXmlElement FDTD_Opts("FDTD");
FDTD_Opts.SetAttribute("NumberOfTimesteps",maxIter);
TiXmlElement Excite("Excitation");
Excite.SetAttribute("Type",Excit_Type);
Excite.SetAttribute("f0",f0);
Excite.SetAttribute("fc",fc);
FDTD_Opts.InsertEndChild(Excite);
TiXmlElement BC("BoundaryCond");
BC.SetAttribute("xmin",bounds[0]);
BC.SetAttribute("xmax",bounds[1]);
BC.SetAttribute("ymin",bounds[2]);
BC.SetAttribute("ymax",bounds[3]);
BC.SetAttribute("zmin",bounds[4]);
BC.SetAttribute("zmax",bounds[5]);
FDTD_Opts.InsertEndChild(BC);
openEMS.InsertEndChild(FDTD_Opts);
if (CSX.Write2XML(&openEMS,true,true)==false)
{
cerr << "writing failed" << endl;
exit(-1);
}
doc.InsertEndChild(openEMS);
doc.SaveFile();
}
void BuildMSL(const char* filename)
{
int maxIter = 10000;
double f0=0.5e9;
double fc=0.5e9;
int Excit_Type=0;
int bounds[] = {1,1,0,0,0,0};
cerr << "Create Geometry..." << endl;
ContinuousStructure CSX;
double width = 1000;
double height = 500;
double length = 2000;
double abs_l = 200;
double MSL_height=50;
double MSL_width=80;
double delta[] = {20,10,20};
//substrate....
CSPropMaterial* mat = new CSPropMaterial(CSX.GetParameterSet());
// mat->SetEpsilon(3.6);
double finalKappa = 0.3/pow(abs_l,4);
mat->SetKappa(finalKappa);
std::ostringstream fct;
fct << "pow(abs(z)-" << length/2.0-abs_l << ",4)";
mat->SetKappaWeightFunction(fct.str(),0);
mat->SetKappaWeightFunction(fct.str(),1);
mat->SetKappaWeightFunction(fct.str(),2);
mat->SetSigma(finalKappa*__MUE0__/__EPS0__);
mat->SetSigmaWeightFunction(fct.str(),0);
mat->SetSigmaWeightFunction(fct.str(),1);
mat->SetSigmaWeightFunction(fct.str(),2);
CSX.AddProperty(mat);
CSPrimBox* box = new CSPrimBox(CSX.GetParameterSet(),mat);
box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
box->SetCoord(2,0.0);box->SetCoord(3,height);
box->SetCoord(4,length/2.0-abs_l); box->SetCoord(5,length/2.0);
CSX.AddPrimitive(box);
// box = new CSPrimBox(CSX.GetParameterSet(),mat);
// box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
// box->SetCoord(2,0.0);box->SetCoord(3,hight);
// box->SetCoord(4,length/-2.0+abs_l); box->SetCoord(5,length/-2.0);
// CSX.AddPrimitive(box);
//MSL
CSProperties* MSL = NULL;
CSPropMaterial* MSL_mat = new CSPropMaterial(CSX.GetParameterSet());
MSL_mat->SetKappa(56e6);
MSL = MSL_mat;
// MSL = new CSPropMetal(CSX.GetParameterSet());
CSX.AddProperty(MSL);
box = new CSPrimBox(CSX.GetParameterSet(),MSL);
box->SetCoord(0,MSL_width/-2.0);box->SetCoord(1,MSL_width/2.0);
box->SetCoord(2,MSL_height);box->SetCoord(3,MSL_height+delta[1]);
box->SetCoord(4,length/-2);box->SetCoord(5,length/2.0);
box->SetPriority(100);
CSX.AddPrimitive(box);
//MSL excite...
CSPropElectrode* elec = new CSPropElectrode(CSX.GetParameterSet());
elec->SetExcitation(-1,1);
elec->SetExcitType(0);
// elec->SetDelay(2.0e-9);
CSX.AddProperty(elec);
box = new CSPrimBox(CSX.GetParameterSet(),elec);
box->SetCoord(0,-40.0);box->SetCoord(1,40.0);
box->SetCoord(2,0.0);box->SetCoord(3,50.0);
box->SetCoord(4,length/-2.0);box->SetCoord(5,length/-2.0);
CSX.AddPrimitive(box);
CSPropDumpBox* Edump = NULL;
// //E-field dump xz
// Edump = new CSPropDumpBox(CSX.GetParameterSet());
// Edump->SetDumpType(0);
// Edump->SetName("Et_xz_");
// CSX.AddProperty(Edump);
// box = new CSPrimBox(CSX.GetParameterSet(),Edump);
// box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
// box->SetCoord(2,25.0);box->SetCoord(3,25.);
// box->SetCoord(4,length/-2.0);box->SetCoord(5,length/2.0);
// CSX.AddPrimitive(box);
//
// //E-field dump xy
// Edump = new CSPropDumpBox(CSX.GetParameterSet());
// Edump->SetDumpType(0);
// Edump->SetName("Et_xy_");
// CSX.AddProperty(Edump);
// box = new CSPrimBox(CSX.GetParameterSet(),Edump);
// box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
// box->SetCoord(2,0.0);box->SetCoord(3,height);
// box->SetCoord(4,0.0);box->SetCoord(5,0.0);
// CSX.AddPrimitive(box);
//E-field dump 3D
Edump = new CSPropDumpBox(CSX.GetParameterSet());
Edump->SetDumpType(0);
Edump->SetDumpMode(2); //cell interpolated dump
Edump->SetName("Et_");
CSX.AddProperty(Edump);
box = new CSPrimBox(CSX.GetParameterSet(),Edump);
box->SetCoord(0,MSL_width*-1.5);box->SetCoord(1,MSL_width*1.5);
box->SetCoord(2,0.0);box->SetCoord(3,MSL_height*1.5);
box->SetCoord(4,length/-2.0);box->SetCoord(5,length/2.0);
CSX.AddPrimitive(box);
//voltage calc
CSPropProbeBox* volt = new CSPropProbeBox(CSX.GetParameterSet());
volt->SetProbeType(0);
volt->SetName("u1");
CSX.AddProperty(volt);
box = new CSPrimBox(CSX.GetParameterSet(),volt);
box->SetCoord(0,0.0);box->SetCoord(1,0.0);
box->SetCoord(2,MSL_height);box->SetCoord(3,0.0);
box->SetCoord(4,0.0);box->SetCoord(5,0.0);
CSX.AddPrimitive(box);
//current calc
CSPropProbeBox* curr = new CSPropProbeBox(CSX.GetParameterSet());
curr->SetProbeType(1);
curr->SetName("i1");
CSX.AddProperty(curr);
box = new CSPrimBox(CSX.GetParameterSet(),curr);
box->SetCoord(0,MSL_width*-1.5);box->SetCoord(1,MSL_width*1.5);
box->SetCoord(2,MSL_height/2.0);box->SetCoord(3,MSL_height*1.5);
box->SetCoord(4,0.0);box->SetCoord(5,0.0);
CSX.AddPrimitive(box);
CSRectGrid* grid = CSX.GetGrid();
for (double n=width/-2.0;n<=width/2;n+=delta[0])
grid->AddDiscLine(0,n);
for (double n=0;n<=height;n+=delta[1])
grid->AddDiscLine(1,n);
for (double n=length/-2.0;n<=length/2.0;n+=delta[2])
grid->AddDiscLine(2,n);
grid->SetDeltaUnit(1e-3);
//*************** Create XML file **********************
TiXmlDocument doc(filename);
doc.InsertEndChild(TiXmlDeclaration("1.0","ISO-8859-1","yes"));
TiXmlElement openEMS("openEMS");
TiXmlElement FDTD_Opts("FDTD");
FDTD_Opts.SetAttribute("NumberOfTimesteps",maxIter);
TiXmlElement Excite("Excitation");
Excite.SetAttribute("Type",Excit_Type);
Excite.SetAttribute("f0",f0);
Excite.SetAttribute("fc",fc);
FDTD_Opts.InsertEndChild(Excite);
TiXmlElement BC("BoundaryCond");
BC.SetAttribute("xmin",bounds[0]);
BC.SetAttribute("xmax",bounds[1]);
BC.SetAttribute("ymin",bounds[2]);
BC.SetAttribute("ymax",bounds[3]);
BC.SetAttribute("zmin",bounds[4]);
BC.SetAttribute("zmax",bounds[5]);
FDTD_Opts.InsertEndChild(BC);
openEMS.InsertEndChild(FDTD_Opts);
if (CSX.Write2XML(&openEMS,true,true)==false)
{
cerr << "writing failed" << endl;
exit(-1);
}
doc.InsertEndChild(openEMS);
doc.SaveFile();
}
void BuildCoaxial_Cartesian(const char* filename)
{
int maxIter = 1000;
double f0=1e9;
double fc=1e9;
int Excit_Type=0;
int bounds[] = {0,0,0,0,0,0};
cerr << "Create Geometry..." << endl;
ContinuousStructure CSX;
double rad[] = {100, 230};
double length[] = {-500,1500};
double abs_l = 200;
double delta[] = {5,5,10};
CSPrimBox* box = NULL;
//fake pml....
CSPropMaterial* mat = new CSPropMaterial(CSX.GetParameterSet());
// mat->SetEpsilon(3.6);
double finalKappa = 0.3/pow(abs_l,4);
mat->SetKappa(finalKappa);
std::ostringstream fct;
fct << "pow(abs(z)-" << length[1]-abs_l << ",4)";
mat->SetKappaWeightFunction(fct.str(),0);
mat->SetKappaWeightFunction(fct.str(),1);
mat->SetKappaWeightFunction(fct.str(),2);
mat->SetSigma(finalKappa*__MUE0__/__EPS0__);
mat->SetSigmaWeightFunction(fct.str(),0);
mat->SetSigmaWeightFunction(fct.str(),1);
mat->SetSigmaWeightFunction(fct.str(),2);
CSX.AddProperty(mat);
box = new CSPrimBox(CSX.GetParameterSet(),mat);
box->SetCoord(0,-1.0*rad[1]);box->SetCoord(1,1.0*rad[1]);
box->SetCoord(2,-1.0*rad[1]);box->SetCoord(3,1.0*rad[1]);
box->SetCoord(4,length[1]-abs_l); box->SetCoord(5,length[1]);
box->SetPriority(10);
CSX.AddPrimitive(box);
CSPropElectrode* elec = new CSPropElectrode(CSX.GetParameterSet());
elec->SetExcitation(1.0,0);
elec->SetExcitation(1.0,1);
elec->SetWeightFunction("x/pow(rho,2)",0);
elec->SetWeightFunction("y/pow(rho,2)",1);
elec->SetExcitType(0);
// elec->SetActiveDir(0,0);//disable x
// elec->SetActiveDir(0,2);//disable z
// elec->SetDelay(2.0e-9);
CSX.AddProperty(elec);
// double coords[] = {-100,-100,0};
// cerr << elec->GetWeightedExcitation(0,coords) << endl;
// cerr << elec->GetWeightedExcitation(1,coords) << endl;
// exit(0);
box = new CSPrimBox(CSX.GetParameterSet(),elec);
box->SetCoord(0,-1.0*rad[1]);box->SetCoord(1,1.0*rad[1]);
box->SetCoord(2,-1.0*rad[1]);box->SetCoord(3,1.0*rad[1]);
box->SetCoord(4,length[0]);box->SetCoord(5,length[0]);
box->SetPriority(5);
CSX.AddPrimitive(box);
//E-field dump
CSPropDumpBox* Edump = new CSPropDumpBox(CSX.GetParameterSet());
Edump->SetDumpType(0);
Edump->SetDumpMode(0);
Edump->SetName("Et_");
CSX.AddProperty(Edump);
box = new CSPrimBox(CSX.GetParameterSet(),Edump);
box->SetCoord(0,-1*rad[1]);box->SetCoord(1,rad[1]);
box->SetCoord(2,-0*rad[1]);box->SetCoord(3,0*rad[1]);
box->SetCoord(4,length[0]);box->SetCoord(5,length[1]);
CSX.AddPrimitive(box);
//voltage calc
CSPropProbeBox* volt = new CSPropProbeBox(CSX.GetParameterSet());
volt->SetProbeType(0);
volt->SetName("u1");
CSX.AddProperty(volt);
box = new CSPrimBox(CSX.GetParameterSet(),volt);
box->SetCoord(0,rad[0]);box->SetCoord(1,rad[1]);
box->SetCoord(2,0.0);box->SetCoord(3,0.0);
box->SetCoord(4,0.0);box->SetCoord(5,0.0);
CSX.AddPrimitive(box);
//current calc
CSPropProbeBox* curr = new CSPropProbeBox(CSX.GetParameterSet());
curr->SetProbeType(1);
curr->SetName("i1");
CSX.AddProperty(curr);
box = new CSPrimBox(CSX.GetParameterSet(),curr);
box->SetCoord(0,-1.5*rad[0]);box->SetCoord(1,1.5*rad[0]);
box->SetCoord(2,-1.5*rad[0]);box->SetCoord(3,1.5*rad[0]);
box->SetCoord(4,0.0);box->SetCoord(5,0.0);
CSX.AddPrimitive(box);
CSPropMaterial* metal = new CSPropMaterial(CSX.GetParameterSet());
metal->SetKappa(56e9);
// CSPropMetal* metal = new CSPropMetal(CSX.GetParameterSet());
CSX.AddProperty(metal);
CSPrimCylinder* cyl = new CSPrimCylinder(CSX.GetParameterSet(),metal);
cyl->SetRadius(rad[0]);
cyl->SetCoord(0,0.0);cyl->SetCoord(1,0.0);
cyl->SetCoord(2,0.0);cyl->SetCoord(3,0.0);
cyl->SetCoord(4,length[0]);cyl->SetCoord(5,length[1]);
cyl->SetPriority(100);
CSX.AddPrimitive(cyl);
box = new CSPrimBox(CSX.GetParameterSet(),metal);
box->SetCoord(0,-1.0*rad[1]);box->SetCoord(1,1.0*rad[1]);
box->SetCoord(2,-1.0*rad[1]);box->SetCoord(3,1.0*rad[1]);
box->SetCoord(4,length[0]);box->SetCoord(5,length[1]);
box->SetPriority(1);
CSX.AddPrimitive(box);
CSPropMaterial* air = new CSPropMaterial(CSX.GetParameterSet());
CSX.AddProperty(air);
cyl = new CSPrimCylinder(CSX.GetParameterSet(),air);
cyl->SetRadius(rad[1]);
cyl->SetCoord(0,0.0);cyl->SetCoord(1,0.0);
cyl->SetCoord(2,0.0);cyl->SetCoord(3,0.0);
cyl->SetCoord(4,length[0]);cyl->SetCoord(5,length[1]);
cyl->SetPriority(9);
CSX.AddPrimitive(cyl);
CSRectGrid* grid = CSX.GetGrid();
for (int n=-1.0*rad[1];n<=rad[1];n+=delta[0])
grid->AddDiscLine(0,(double)n);
for (int n=-1.0*rad[1];n<=rad[1];n+=delta[1])
grid->AddDiscLine(1,(double)n);
for (int n=length[0];n<=length[1];n+=delta[2])
grid->AddDiscLine(2,(double)n);
grid->SetDeltaUnit(1e-3);
//*************** Create XML file **********************
TiXmlDocument doc(filename);
doc.InsertEndChild(TiXmlDeclaration("1.0","ISO-8859-1","yes"));
TiXmlElement openEMS("openEMS");
TiXmlElement FDTD_Opts("FDTD");
FDTD_Opts.SetAttribute("NumberOfTimesteps",maxIter);
TiXmlElement Excite("Excitation");
Excite.SetAttribute("Type",Excit_Type);
Excite.SetAttribute("f0",f0);
Excite.SetAttribute("fc",fc);
FDTD_Opts.InsertEndChild(Excite);
TiXmlElement BC("BoundaryCond");
BC.SetAttribute("xmin",bounds[0]);
BC.SetAttribute("xmax",bounds[1]);
BC.SetAttribute("ymin",bounds[2]);
BC.SetAttribute("ymax",bounds[3]);
BC.SetAttribute("zmin",bounds[4]);
BC.SetAttribute("zmax",bounds[5]);
FDTD_Opts.InsertEndChild(BC);
openEMS.InsertEndChild(FDTD_Opts);
if (CSX.Write2XML(&openEMS,true,true)==false)
{
cerr << "writing failed" << endl;
exit(-1);
}
doc.InsertEndChild(openEMS);
doc.SaveFile();
}
void BuildHelix(const char* filename)
{
int maxIter = 5e5;
double f0=0.5e9;
double fc=0.5e9;
int Excit_Type=0;
int bounds[] = {1,1,1,1,1,1};
cerr << "Create Helix Geometry..." << endl;
ContinuousStructure CSX;
double feed_length=10;
double wire_rad = sqrt(1.4/PI);
double coil_rad = 10;
double coil_length = 50;
int coil_turns = 8;
int coil_res = 10;
double delta[] = {0.5,0.5,0.5};
CSPrimBox* box = NULL;
ParameterSet* PS = CSX.GetParameterSet();
PS->AddParameter(new Parameter("rad_coil",coil_rad));
PS->AddParameter(new Parameter("rad_wire",wire_rad));
PS->AddParameter(new Parameter("turns",coil_turns));
PS->AddParameter(new Parameter("coil_length",coil_length));
CSPropMaterial* copper = new CSPropMaterial(CSX.GetParameterSet());
copper->SetKappa(56e6);
copper->SetName("copper");
CSX.AddProperty(copper);
// CSPropMetal* pec = new CSPropMetal(CSX.GetParameterSet());
// CSX.AddProperty(pec);
// CSPrimCurve* curve = new CSPrimCurve(CSX.GetParameterSet(),pec);
CSPrimWire* curve = new CSPrimWire(CSX.GetParameterSet(),copper);
curve->SetWireRadius("rad_wire");
double p[3];
double dt = 1.0/coil_res;
double height=0;
for (int n=0;n<coil_turns;++n)
{
for (int m=0;m<=coil_res;++m)
{
p[0] = coil_rad * cos(2*PI*dt*m);
p[1] = coil_rad * sin(2*PI*dt*m);
p[2] = height + coil_length/(double)coil_turns * dt*m;
// cerr << p[0] << " " << p[1] << " " << p[2] << " " << endl;
curve->AddPoint(p);
}
height += coil_length/(double)coil_turns;
}
// exit(0);
CSX.AddPrimitive(curve);
// CSPrimUserDefined* helix = new CSPrimUserDefined(CSX.GetParameterSet(),copper);
// helix->SetCoordSystem(CSPrimUserDefined::CYLINDER_SYSTEM);
// helix->SetFunction("(r>(rad_coil-rad_wire))&(r<rad_coil+rad_wire)&(sqrt(pow(x-r*cos(2*pi*z*turns/coil_length),2)+pow(y-r*sin(2*pi*z*turns/coil_length),2))<(2*rad_wire))&(z>0)&(z<coil_length)");
// CSX.AddPrimitive(helix);
box = new CSPrimBox(CSX.GetParameterSet(),copper);
box->SetCoord(0,coil_rad); box->SetCoord(1,coil_rad+feed_length);
box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
box->SetCoord(4,-0.5); box->SetCoord(5,0.5);
CSX.AddPrimitive(box);
box = new CSPrimBox(CSX.GetParameterSet(),copper);
box->SetCoord(0,coil_rad); box->SetCoord(1,coil_rad+feed_length);
box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
box->SetCoord(4,coil_length-0.5); box->SetCoord(5,coil_length+0.5);
CSX.AddPrimitive(box);
box = new CSPrimBox(CSX.GetParameterSet(),copper);
box->SetCoord(0,coil_rad+feed_length-0.5); box->SetCoord(1,coil_rad+feed_length+0.5);
box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
box->SetCoord(4,0.0); box->SetCoord(5,coil_length);///2.0-delta[2]);
CSX.AddPrimitive(box);
double kappa_resist = (coil_length/3.0)/50/1e-3;
CSPropMaterial* Src_Resist = new CSPropMaterial(CSX.GetParameterSet());
Src_Resist->SetKappa(kappa_resist,2);
Src_Resist->SetIsotropy(false);
Src_Resist->SetName("resist");
CSX.AddProperty(Src_Resist);
box = new CSPrimBox(CSX.GetParameterSet(),Src_Resist);
box->SetPriority(100);
box->SetCoord(0,coil_rad+feed_length-0.5); box->SetCoord(1,coil_rad+feed_length+0.5);
box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
box->SetCoord(4,coil_length/3.0); box->SetCoord(5,coil_length/3.0*2.0);///2.0-delta[2]);
CSX.AddPrimitive(box);
// box = new CSPrimBox(CSX.GetParameterSet(),Src_Resist);
// box->SetCoord(0,coil_rad+feed_length-0.5); box->SetCoord(1,coil_rad+feed_length+0.5);
// box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
// box->SetCoord(4,coil_length/2.0+delta[2]); box->SetCoord(5,coil_length);
// CSX.AddPrimitive(box);
CSPropElectrode* elec = new CSPropElectrode(CSX.GetParameterSet());
elec->SetExcitation(1.0,2);
elec->SetExcitType(0);
// elec->SetDelay(2.0e-9);
CSX.AddProperty(elec);
box = new CSPrimBox(CSX.GetParameterSet(),elec);
box->SetCoord(0,coil_rad+feed_length+0.5); box->SetCoord(1,coil_rad+feed_length-0.5);
box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
box->SetCoord(4,coil_length/3.0); box->SetCoord(5,coil_length/3.0*2.0);///2.0-delta[2]);
CSX.AddPrimitive(box);
// CSPropMetal* elec_mat = new CSPropMetal(CSX.GetParameterSet());
// CSX.AddProperty(elec_mat);
// box = new CSPrimBox(CSX.GetParameterSet(),elec_mat);
// box->SetCoord(0,coil_rad+feed_length+0.5); box->SetCoord(1,coil_rad+feed_length-0.5);
// box->SetCoord(2,-0.5); box->SetCoord(3,0.5);
// box->SetCoord(4,coil_length/2.0-delta[2]); box->SetCoord(5,coil_length/2.0+delta[2]);
// CSX.AddPrimitive(box);
CSPropDumpBox* Edump = NULL;
//E-field dump xz
Edump = new CSPropDumpBox(CSX.GetParameterSet());
Edump->SetDumpType(0);
Edump->SetDumpMode(0);
Edump->SetName("Et_xz_");
CSX.AddProperty(Edump);
box = new CSPrimBox(CSX.GetParameterSet(),Edump);
box->SetCoord(0,coil_rad/-1.0-25.0);box->SetCoord(1,coil_rad/1.0+25.0+feed_length);
box->SetCoord(2,0.0);box->SetCoord(3,0.0);
box->SetCoord(4,-25.0);box->SetCoord(5,coil_length+25.0);
CSX.AddPrimitive(box);
CSPropDumpBox* Hdump = NULL;
//H-field dump xz
Hdump = new CSPropDumpBox(CSX.GetParameterSet());
Hdump->SetDumpType(1);
Hdump->SetDumpMode(0);
Hdump->SetName("Ht_xz_");
CSX.AddProperty(Hdump);
box = new CSPrimBox(CSX.GetParameterSet(),Hdump);
box->SetCoord(0,coil_rad/-1.0-25.0);box->SetCoord(1,coil_rad/1.0+25.0+feed_length);
box->SetCoord(2,0.0);box->SetCoord(3,0.0);
box->SetCoord(4,-25.0);box->SetCoord(5,coil_length+25.0);
CSX.AddPrimitive(box);
//
// //E-field dump xy
// Edump = new CSPropDumpBox(CSX.GetParameterSet());
// Edump->SetDumpType(0);
// Edump->SetName("Et_xy_");
// CSX.AddProperty(Edump);
// box = new CSPrimBox(CSX.GetParameterSet(),Edump);
// box->SetCoord(0,width/-2.0);box->SetCoord(1,width/2.0);
// box->SetCoord(2,0.0);box->SetCoord(3,height);
// box->SetCoord(4,0.0);box->SetCoord(5,0.0);
// CSX.AddPrimitive(box);
// //E-field dump 3D
// Edump = new CSPropDumpBox(CSX.GetParameterSet());
// Edump->SetDumpType(0);
// Edump->SetDumpMode(2); //cell interpolated dump
// Edump->SetName("Et_");
// CSX.AddProperty(Edump);
// box = new CSPrimBox(CSX.GetParameterSet(),Edump);
// box->SetCoord(0,MSL_width*-1.5);box->SetCoord(1,MSL_width*1.5);
// box->SetCoord(2,0.0);box->SetCoord(3,MSL_height*1.5);
// box->SetCoord(4,length/-2.0);box->SetCoord(5,length/2.0);
// CSX.AddPrimitive(box);
//
//voltage calc
CSPropProbeBox* volt = new CSPropProbeBox(CSX.GetParameterSet());
volt->SetProbeType(0);
volt->SetName("u1");
CSX.AddProperty(volt);
box = new CSPrimBox(CSX.GetParameterSet(),volt);
box->SetCoord(0,coil_rad+feed_length);box->SetCoord(1,coil_rad+feed_length);
box->SetCoord(2,0.0);box->SetCoord(3,0.0);
box->SetCoord(4,coil_length);box->SetCoord(5,0.0);
CSX.AddPrimitive(box);
//current calc
double curr_dist = 2;
CSPropProbeBox* curr = new CSPropProbeBox(CSX.GetParameterSet());
curr->SetProbeType(1);
curr->SetName("i1");
CSX.AddProperty(curr);
box = new CSPrimBox(CSX.GetParameterSet(),curr);
box->SetCoord(0,coil_rad+feed_length-curr_dist);box->SetCoord(1,coil_rad+feed_length+curr_dist);
box->SetCoord(2,-curr_dist);box->SetCoord(3,curr_dist);
box->SetCoord(4,coil_length/2.0);box->SetCoord(5,coil_length/2.0);
CSX.AddPrimitive(box);
CSRectGrid* grid = CSX.GetGrid();
double offset[]={coil_rad/-1.0,coil_rad/-1.0,0.0};
//graded mesh
for (int n=0;n<3;++n)
{
grid->AddDiscLine(n,offset[n] - 25.0);
grid->AddDiscLine(n,offset[n] - 15.0);
grid->AddDiscLine(n,offset[n] - 10.0);
grid->AddDiscLine(n,offset[n] - 5.0);
grid->AddDiscLine(n,offset[n] - 2.0);
grid->AddDiscLine(n,offset[n] - 1.0);
grid->AddDiscLine(n,offset[n] - 0.5);
}
for (double n=coil_rad/-1.0;n<=coil_rad;n+=delta[0])
grid->AddDiscLine(0,n);
//feeding mesh
grid->AddDiscLine(0,coil_rad+0.5);
grid->AddDiscLine(0,coil_rad+1);
grid->AddDiscLine(0,coil_rad+2);
grid->AddDiscLine(0,coil_rad+3.5);
grid->AddDiscLine(0,coil_rad+5);
grid->AddDiscLine(0,coil_rad+7);
grid->AddDiscLine(0,coil_rad+8);
grid->AddDiscLine(0,coil_rad+9);
grid->AddDiscLine(0,coil_rad+9.5);
grid->AddDiscLine(0,coil_rad+10);
for (double n=coil_rad/-1.0;n<=coil_rad;n+=delta[1])
grid->AddDiscLine(1,n);
for (double n=0.0;n<=coil_length;n+=delta[2])
grid->AddDiscLine(2,n);
offset[0]=coil_rad+feed_length;
offset[1]=coil_rad;
offset[2]=coil_length;
for (int n=0;n<3;++n)
{
grid->AddDiscLine(n,offset[n] + 0.5);
grid->AddDiscLine(n,offset[n] + 1.0);
grid->AddDiscLine(n,offset[n] + 2.0);
grid->AddDiscLine(n,offset[n] + 3.0);
grid->AddDiscLine(n,offset[n] + 5.0);
grid->AddDiscLine(n,offset[n] + 7.5);
grid->AddDiscLine(n,offset[n] + 10.0);
grid->AddDiscLine(n,offset[n] + 15.0);
grid->AddDiscLine(n,offset[n] + 25.0);
grid->Sort(n);
}
grid->SetDeltaUnit(1e-3);
//*************** Create XML file **********************
TiXmlDocument doc(filename);
doc.InsertEndChild(TiXmlDeclaration("1.0","ISO-8859-1","yes"));
TiXmlElement openEMS("openEMS");
TiXmlElement FDTD_Opts("FDTD");
FDTD_Opts.SetAttribute("NumberOfTimesteps",maxIter);
FDTD_Opts.SetDoubleAttribute("endCriteria",1e-8);
TiXmlElement Excite("Excitation");
Excite.SetAttribute("Type",Excit_Type);
Excite.SetAttribute("f0",f0);
Excite.SetAttribute("fc",fc);
FDTD_Opts.InsertEndChild(Excite);
TiXmlElement BC("BoundaryCond");
BC.SetAttribute("xmin",bounds[0]);
BC.SetAttribute("xmax",bounds[1]);
BC.SetAttribute("ymin",bounds[2]);
BC.SetAttribute("ymax",bounds[3]);
BC.SetAttribute("zmin",bounds[4]);
BC.SetAttribute("zmax",bounds[5]);
FDTD_Opts.InsertEndChild(BC);
openEMS.InsertEndChild(FDTD_Opts);
if (CSX.Write2XML(&openEMS,true,true)==false)
{
cerr << "writing failed" << endl;
exit(-1);
}
doc.InsertEndChild(openEMS);
doc.SaveFile();
}