function [port] = calcLumpedPort( port, SimDir, f, varargin) % [port] = calcLumpedPort( port, SimDir, f, varargin) % % Calculate voltages and currents of given lumped port. % % The port has to be created by e.g. AddLumpedPort(). % % input: % port: return value of e.g. AddMSLPort() % SimDir: directory, where the simulation files are % f: frequency vector for DFT % % variable input: % 'RefImpedance': - use a given reference impedance to calculate inc and % ref voltages and currents % - default is given port or calculated line impedance % 'SwitchDirection': 0/1, switch assumed direction of propagation % % output: % port.f the given frequency fector % port.uf.tot/inc/ref total, incoming and reflected voltage % port.if.tot/inc/ref total, incoming and reflected current % % example: % port{1} = calcLumpedPort( port{1}, Sim_Path, f, 'RefImpedance', 50); % % openEMS matlab interface % ----------------------- % (C) 2012 Thorsten Liebig % % See also AddLumpedPort, calcPort if (iscell(port)) for n=1:numel(port) port{n}=calcLumpedPort(port{n}, SimDir, f, varargin{:}); end return; end if (strcmpi(port.type,'Lumped')~=1 && strcmpi(port.type,'Curve')~=1) error('openEMS:calcLumpedPort','error, type is not a lumped port'); end %% read optional arguments %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %set defaults ref_ZL = port.Feed_R; switch_dir = 1; UI_args = {}; for n=1:2:numel(varargin) if (strcmp(varargin{n},'RefImpedance')==1); ref_ZL = varargin{n+1}; elseif (strcmpi(varargin{n},'SwitchDirection')==1); if (varargin{n+1}) switch_dir = -1; end else UI_args(end+1) = varargin(n); UI_args(end+1) = varargin(n+1); end end port.ZL_ref = ref_ZL; % read time domain data U = ReadUI( port.U_filename, SimDir, f, UI_args{:} ); I = ReadUI( port.I_filename, SimDir, f, UI_args{:} ); % store the original frequency domain waveforms u_f = U.FD{1}.val; i_f = switch_dir*I.FD{1}.val; port.Zin = u_f./i_f; port.f = f; uf_inc = 0.5 * ( u_f + i_f .* ref_ZL ); if_inc = 0.5 * ( i_f + u_f ./ ref_ZL ); uf_ref = u_f - uf_inc; if_ref = if_inc - i_f; port.uf.tot = u_f; port.uf.inc = uf_inc; port.uf.ref = uf_ref; port.if.tot = i_f; port.if.inc = if_inc; port.if.ref = if_ref; port.raw.U = U; port.raw.I = I;