109 lines
3.8 KiB
Matlab
109 lines
3.8 KiB
Matlab
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function [CSX,port] = AddWaveGuidePort( CSX, prio, portnr, start, stop, dir, E_WG_func, H_WG_func, kc, exc_amp, varargin )
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% function [CSX,port] = AddWaveGuidePort( CSX, prio, portnr, start, stop, dir, E_WG_func, H_WG_func, kc, exc_amp, varargin )
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%
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% Create a waveguide port, including an optional excitation and probes
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%
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% Note: - The excitation will be located at the start position in the given direction
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% - The voltage and current probes at the stop position in the given direction
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%
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% input:
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% CSX: complete CSX structure (must contain a mesh)
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% prio: priority of primitives
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% start: start coordinates of waveguide port box
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% stop: stop coordinates of waveguide port box
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% dir: direction of port (0/1/2 for x/y/z-direction)
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% E_WG_func: electric field mode profile function as a string
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% H_WG_func: magnetic field mode profile function as a string
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% kc: cutoff wavenumber (defined by the waveguide dimensions)
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% exc_amp: excitation amplitude (set 0 to be passive)
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% varargin: optional additional excitations options, see also AddExcitation
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%
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% output:
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% CSX: modified CSX structure
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% port: port structure to use with calcPort
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%
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% example:
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% % create a TE11 circular waveguide mode, using cylindircal coordinates
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% p11 = 1.841;
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% kc = p11 / radius; % cutoff wavenumber with radius in meter
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% kc_draw = kc*unit; % cutoff wavenumber in drawing units
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%
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% % electric field mode profile
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% func_E{1} = [ num2str(-1/kc_draw^2,15) '/rho*cos(a)*j1(' num2str(kc_draw,15) '*rho)'];
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% func_E{2} = [ num2str(1/kc_draw,15) '*sin(a)*0.5*(j0(' num2str(kc_draw,15) '*rho)-jn(2,' num2str(kc_draw,15) '*rho))'];
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% func_E{3} = 0;
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%
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% % magnetic field mode profile
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% func_H{1} = [ '-1*' num2str(1/kc_draw,15) '*sin(a)*0.5*(j0(' num2str(kc_draw,15) '*rho)-jn(2,' num2str(kc_draw,15) '*rho))'];
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% func_H{2} = [ num2str(-1/kc_draw^2,15) '/rho*cos(a)*j1(' num2str(kc_draw,15) '*rho)'];
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% func_H{3} = 0;
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%
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% start=[mesh.r(1) mesh.a(1) 0 ];
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% stop =[mesh.r(end) mesh.a(end) 100];
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% [CSX, port{1}] = AddWaveGuidePort(CSX, 0, 1, start, stop, 2, func_E, func_H, kc, 1);
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%
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% openEMS matlab interface
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% -----------------------
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% (c) 2013 Thorsten Liebig (thorsten.liebig@gmx.de)
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%
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% See also InitCSX, AddExcitation, calcWGPort, calcPort
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%check mesh
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if ~isfield(CSX,'RectilinearGrid')
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error 'mesh needs to be defined! Use DefineRectGrid() first!';
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end
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port.type='WaveGuide';
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port.nr=portnr;
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port.kc = kc;
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port.dir = dir;
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port.drawingunit = CSX.RectilinearGrid.ATTRIBUTE.DeltaUnit;
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if ~( (dir==0) || (dir==1) || (dir==2) )
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error 'dir must be 0, 1 or 2'
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end
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% matlab adressing
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dir = dir + 1;
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dir_sign = sign(stop(dir) - start(dir));
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if (dir_sign==0)
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dir_sign = 1;
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end
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port.direction = dir_sign;
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E_WG_func{dir} = 0;
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H_WG_func{dir} = 0;
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port.excite = 0;
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if (exc_amp~=0)
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if (start(dir)==stop(dir))
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error 'if waveguide port is to be excited, the length in propagation direction must not be zero'
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end
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e_start = start;
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e_stop = stop;
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e_stop(dir) = e_start(dir);
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port.excite = 1;
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port.excitepos = e_start(dir);
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e_vec = [1 1 1]*exc_amp;
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e_vec(dir) = 0;
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exc_name = ['port_excite_' num2str(portnr)];
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CSX = AddExcitation( CSX, exc_name, 0, e_vec, varargin{:});
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CSX = SetExcitationWeight(CSX, exc_name, E_WG_func );
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CSX = AddBox( CSX, exc_name, prio, e_start, e_stop);
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end
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% voltage/current planes
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m_start = start;
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m_stop = stop;
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m_start(dir) = stop(dir);
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port.measplanepos = m_start(dir);
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port.U_filename = ['port_ut' int2str(portnr)];
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CSX = AddProbe(CSX, port.U_filename, 10, 'ModeFunction', E_WG_func);
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CSX = AddBox(CSX, port.U_filename, 0 ,m_start, m_stop);
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port.I_filename = ['port_it' int2str(portnr)];
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CSX = AddProbe(CSX, port.I_filename, 11, 'ModeFunction', H_WG_func, 'weight', dir_sign);
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CSX = AddBox(CSX, port.I_filename, 0 ,m_start, m_stop);
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