diff --git a/matlab/examples/Helix.m b/matlab/examples/Helix.m index eda6c40..242a042 100644 --- a/matlab/examples/Helix.m +++ b/matlab/examples/Helix.m @@ -1,19 +1,19 @@ close all; -clear all; +clear; clc feed_length=10; wire_rad = sqrt(1.4/pi); +mesh_size = wire_rad; coil_rad = 10; coil_length = 50; coil_turns = 8; coil_res = 10; -port_length = coil_length/2; -port_resist = 50; +port_length = mesh_size; %coil_length/2; +port_resist = 1000; -f_max = 50e6; +f_max = 100e6; f_excite = 1e9; -mesh_size = wire_rad; openEMS_Path = [pwd() '/../../'] openEMS_opts = ''; @@ -24,6 +24,7 @@ openEMS_opts = ''; Sim_Path = 'tmp'; Sim_CSX = 'helix.xml'; +rmdir(Sim_Path,'s'); mkdir(Sim_Path); %setup FDTD parameter @@ -96,7 +97,7 @@ CSX = AddBox(CSX,'ut1', 0 ,stop,start); %current calc CSX = AddProbe(CSX,'it1',1); -start(3) = coil_length/2;stop(3) = coil_length/2; +start(3) = coil_length/2+mesh_size;stop(3) = coil_length/2+mesh_size; start(1) = start(1)-2;start(2) = start(2)-2; stop(1) = stop(1)+2;stop(2) = stop(2)+2; CSX = AddBox(CSX,'it1', 0 ,start,stop); @@ -127,6 +128,9 @@ cd(savePath); U = ReadUI('ut1','tmp/'); I = ReadUI('it1','tmp/'); +delta_t_2 = I.TD{1}.t(1) - U.TD{1}.t(1); % half time-step (s) +I.FD{1}.val = I.FD{1}.val .* exp(-1i*2*pi*I.FD{1}.f*delta_t_2); % compensate half time-step advance of H-field + Z = U.FD{1}.val./I.FD{1}.val; f = U.FD{1}.f; L = imag(Z)./(f*2*pi); @@ -140,9 +144,8 @@ ylabel('coil inductance (nH)'); grid on; subplot(2,1,2); plot(f(ind)*1e-6,R(ind),'Linewidth',2); +hold on +plot(f(ind)*1e-6,imag(Z(ind)),'r','Linewidth',2); xlabel('frequency (MHz)'); ylabel('resistance (\Omega)'); grid on; - - -