155 lines
4.7 KiB
Matlab
155 lines
4.7 KiB
Matlab
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close all
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clear
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clc
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%% setup the simulation %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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feed_length=10;
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wire_rad = sqrt(1.4/pi);
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mesh_size = wire_rad;
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coil_rad = 10;
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coil_length = 50;
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coil_turns = 8;
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coil_res = 10;
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port_length = mesh_size; %coil_length/2;
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port_resist = 1000;
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f_max = 100e6;
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f_excite = 300e6;
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%% define openEMS options %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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openEMS_opts = '';
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% openEMS_opts = [openEMS_opts ' --debug-material'];
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% openEMS_opts = [openEMS_opts ' --debug-boxes'];
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% openEMS_opts = [openEMS_opts ' --debug-operator'];
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openEMS_opts = [openEMS_opts ' --disable-dumps --engine=fastest'];
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% openEMS_opts = [openEMS_opts ' --engine=sse-compressed'];
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Sim_Path = 'tmp';
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Sim_CSX = 'helix.xml';
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[status, message, messageid] = rmdir(Sim_Path,'s');
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[status,message,messageid] = mkdir(Sim_Path);
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%% setup FDTD parameter & excitation function %%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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FDTD = InitFDTD(30000,1e-6);
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FDTD = SetGaussExcite(FDTD,f_excite/2,f_excite/2);
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BC = [1 1 1 1 1 1];
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FDTD = SetBoundaryCond(FDTD,BC);
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%% setup CSXCAD geometry & mesh %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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add_Lines = mesh_size * 1.5.^(1:10);
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add_Lines = add_Lines(find(add_Lines<(3e8/f_excite)/10*1e3));
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CSX = InitCSX();
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mesh.x = -coil_rad-mesh_size : mesh_size : coil_rad+mesh_size+feed_length;
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mesh.x = [mesh.x(1)-add_Lines mesh.x mesh.x(end)+add_Lines ];
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mesh.y = -coil_rad-mesh_size : mesh_size : coil_rad+mesh_size;
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mesh.y = [mesh.y(1)-add_Lines mesh.y mesh.y(end)+add_Lines ];
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mesh.z = -mesh_size : mesh_size : coil_length+mesh_size;
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mesh.z = [mesh.z(1)-add_Lines mesh.z mesh.z(end)+add_Lines ];
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CSX = DefineRectGrid(CSX, 1e-3,mesh);
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%% build/define helix %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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CSX = AddMaterial(CSX,'copper');
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CSX = SetMaterialProperty(CSX,'copper','Kappa',56e6);
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dt = 1.0/coil_res;
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height=0;
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wire.Vertex = {};
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p(1,1) = coil_rad + feed_length;
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p(2,1) = 0;
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p(3,1) = 0.5*(coil_length-port_length);
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p(1,2) = coil_rad + feed_length;
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p(2,2) = 0;
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p(3,2) = 0;
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count=2;
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for n=0:coil_turns-1
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for m=0:coil_res
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count = count + 1;
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p(1,count) = coil_rad * cos(2*pi*dt*m);
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p(2,count) = coil_rad * sin(2*pi*dt*m);
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p(3,count) = height + coil_length/coil_turns * dt*m;
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end
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height = height + coil_length/coil_turns;
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end
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p(1,count+1) = coil_rad + feed_length;
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p(2,count+1) = 0;
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p(3,count+1) = coil_length;
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p(1,count+2) = coil_rad + feed_length;
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p(2,count+2) = 0;
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p(3,count+2) = 0.5*(coil_length+port_length);
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CSX = AddWire(CSX, 'copper', 0, p, wire_rad);
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%% apply the excitation & resist as a current source%%%%%%%%%%%%%%%%%%%%%%%
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CSX = AddMaterial(CSX,'resist');
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kappa = port_length/port_resist/wire_rad^2/pi/1e-3;
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CSX = SetMaterialProperty(CSX,'resist','Kappa',kappa);
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start=[coil_rad+feed_length 0 (coil_length-port_length)/2];
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stop=[coil_rad+feed_length 0 (coil_length+port_length)/2];
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%start(3)=(coil_length-port_length)/2;stop(3)=(coil_length+port_length)/2;
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CSX = AddCylinder(CSX,'resist',5 ,start,stop,wire_rad);
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CSX = AddExcitation(CSX,'excite',0,[0 0 1]);
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CSX = AddCylinder(CSX,'excite', 0 ,start,stop,wire_rad);
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%% define voltage calc boxes %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%voltage calc
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CSX = AddProbe(CSX,'ut1',0);
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CSX = AddBox(CSX,'ut1', 0 ,stop,start);
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%current calc
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CSX = AddProbe(CSX,'it1',1);
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start(3) = coil_length/2+mesh_size;stop(3) = coil_length/2+mesh_size;
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start(1) = start(1)-2;start(2) = start(2)-2;
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stop(1) = stop(1)+2;stop(2) = stop(2)+2;
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CSX = AddBox(CSX,'it1', 0 ,start,stop);
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%% define dump boxes... %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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CSX = AddDump(CSX,'Et_');
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start = [mesh.x(1) , 0 , mesh.z(1)];
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stop = [mesh.x(end) , 0 , mesh.z(end)];
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CSX = AddBox(CSX,'Et_',0 , start,stop);
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CSX = AddDump(CSX,'Ht_','DumpType',1);
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start = [mesh.x(1) , 0 , mesh.z(1)];
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stop = [mesh.x(end) , 0 , mesh.z(end)];
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CSX = AddBox(CSX,'Ht_',0 , start,stop);
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%% Write openEMS compatoble xml-file %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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WriteOpenEMS([Sim_Path '/' Sim_CSX],FDTD,CSX);
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%% run openEMS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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RunOpenEMS(Sim_Path, Sim_CSX, openEMS_opts);
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%% postproc & do the plots %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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U = ReadUI('ut1','tmp/');
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I = ReadUI('it1','tmp/');
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Z = U.FD{1}.val./I.FD{1}.val;
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f = U.FD{1}.f;
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L = imag(Z)./(f*2*pi);
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R = real(Z);
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ind = find(f<f_max);
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subplot(2,1,1);
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plot(f(ind)*1e-6,L(ind)*1e9,'Linewidth',2);
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xlabel('frequency (MHz)');
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ylabel('coil inductance (nH)');
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grid on;
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subplot(2,1,2);
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plot(f(ind)*1e-6,R(ind),'Linewidth',2);
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hold on
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plot(f(ind)*1e-6,imag(Z(ind)),'r','Linewidth',2);
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xlabel('frequency (MHz)');
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ylabel('resistance (Ohm)');
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grid on;
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legend( {'real','imaginary'}, 'location', 'northwest' )
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figure
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plot(U.TD{1}.t/1e-6,U.TD{1}.val,'Linewidth',2);
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xlabel('time (us)');
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ylabel('amplitude (V)');
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grid on;
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