function [CSX, port] = AddLumpedPort( CSX, prio, portnr, R, start, stop, dir, excite, varargin ) % [CSX, port] = AddLumpedPort( CSX, prio, portnr, R, start, stop, dir, excite, varargin ) % % Add a lumped port as an excitation. % % A lumped port consists of an excitation, a lumped resistor, a voltage and % current probe. % % CSX: CSX-object created by InitCSX() % prio: priority for substrate and probe boxes % portnr: (integer) number of the port % R: internal resistance of the port (lumped element) % start: 3D start rowvector for port definition % stop: 3D end rowvector for port definition % dir: direction/amplitude of port (e.g.: [1 0 0], [0 1 0] or [0 0 1]) % excite (optional): if true, the port will be switched on (see AddExcitation()) % Note: for legacy support a string will be accepted % V_Probe_Weight: additional weight for the voltage probes % I_Probe_Weight: additional weight for the current probes % optional (key/values): % 'PortNamePrefix': an prefix to the port name % varargin (optional): additional excitations options, see also AddExcitation % % example: % start = [0 -width/2 0]; % stop = [0 width/2 height]; % [CSX] = AddLumpedPort(CSX, 5 ,1 , 50, start, stop, [0 0 1], true); % %this defines an active lumped port in z-direction with a 50 Ohm port impedance % % openEMS matlab interface % ----------------------- % Sebastian Held % Jun 1 2010 % Thorsten Liebig % Jul 13 2011 % % See also InitCSX AddExcitation % check dir port.type='Lumped'; port.nr=portnr; V_Probe_Weight = 1; I_Probe_Weight = 1; if (dir(1)~=0) && (dir(2) == 0) && (dir(3)==0) n_dir = 1; elseif (dir(1)==0) && (dir(2) ~= 0) && (dir(3)==0) n_dir = 2; elseif (dir(1)==0) && (dir(2) == 0) && (dir(3)~=0) n_dir = 3; else error 'dir must have exactly one component ~= 0' end PortNamePrefix = ''; varargin_tmp = varargin; for n=1:2:numel(varargin_tmp) if strcmpi('PortNamePrefix',varargin_tmp{n}) PortNamePrefix = varargin_tmp{n+1}; varargin([n n+1]) = []; elseif strcmpi('V_Probe_Weight',varargin_tmp{n}) V_Probe_Weight = varargin_tmp{n+1}; elseif strcmpi('I_Probe_Weight',varargin_tmp{n}) I_Probe_Weight = varargin_tmp{n+1}; end end if (stop(n_dir)==start(n_dir)) error 'start/stop in excitation direction in must not be equal' end if (stop(n_dir)-start(n_dir)) > 0 direction = +1; else direction = -1; end port.direction = direction; port.Feed_R = R; if (R>0 && (~isinf(R))) CSX = AddLumpedElement(CSX,[PortNamePrefix 'port_resist_' int2str(portnr)], n_dir-1, 'Caps', 1, 'R', R); CSX = AddBox(CSX,[PortNamePrefix 'port_resist_' int2str(portnr)], prio, start, stop); elseif (R<=0) CSX = AddMetal(CSX,[PortNamePrefix 'port_resist_' int2str(portnr)]); CSX = AddBox(CSX,[PortNamePrefix 'port_resist_' int2str(portnr)], prio, start, stop); end if (nargin < 8) excite = false; end % legacy support, will be removed at some point if ischar(excite) warning('CSXCAD:AddLumpedPort','deprecated: a string as excite option is no longer supported and will be removed in the future, please use true or false'); if ~isempty(excite) excite = true; else excite = false; end end port.excite = excite; % create excitation if (excite) CSX = AddExcitation( CSX, [PortNamePrefix 'port_excite_' num2str(portnr)], 0, -dir*direction, varargin{:}); CSX = AddBox( CSX, [PortNamePrefix 'port_excite_' num2str(portnr)], prio, start, stop ); end u_start = 0.5*(start + stop); u_stop = 0.5*(start + stop); u_start(n_dir) = start(n_dir); u_stop(n_dir) = stop(n_dir); port.U_filename = [PortNamePrefix 'port_ut' int2str(portnr)]; CSX = AddProbe(CSX, port.U_filename, 0, 'weight', -direction*V_Probe_Weight); CSX = AddBox(CSX, port.U_filename, prio, u_start, u_stop); i_start = start; i_stop = stop; i_start(n_dir) = 0.5*(start(n_dir)+stop(n_dir)); i_stop(n_dir) = 0.5*(start(n_dir)+stop(n_dir)); port.I_filename = [PortNamePrefix 'port_it' int2str(portnr)]; CSX = AddProbe(CSX, port.I_filename, 1, 'weight', direction*I_Probe_Weight, 'NormDir', n_dir-1); CSX = AddBox(CSX, port.I_filename, prio, i_start, i_stop);