/* * stripline.cpp - stripline class definition * * Copyright (C) 2011 Michael Margraf * Modifications 2018 for Kicad: Jean-Pierre Charras * Copyright The KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this package; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, * Boston, MA 02110-1301, USA. * */ #include "stripline.h" #include STRIPLINE_UI::STRIPLINE_UI() { m_Name = "StripLine"; Init(); } void STRIPLINE_UI::calcAnalyze() { m_calc.Analyse(); } void STRIPLINE_UI::calcSynthesize() { m_calc.Synthesize( SYNTHESIZE_OPTS::DEFAULT ); } void STRIPLINE_UI::showAnalyze() { std::unordered_map>& results = m_calc.GetAnalysisResults(); setResult( 0, results[TRANSLINE_PARAMETERS::EPSILON_EFF].first, "" ); setResult( 1, results[TRANSLINE_PARAMETERS::UNIT_PROP_DELAY].first, "ps/cm" ); setResult( 2, results[TRANSLINE_PARAMETERS::LOSS_CONDUCTOR].first, "dB" ); setResult( 3, results[TRANSLINE_PARAMETERS::LOSS_DIELECTRIC].first, "dB" ); setResult( 4, results[TRANSLINE_PARAMETERS::SKIN_DEPTH].first / UNIT_MICRON, "µm" ); setProperty( Z0_PRM, results[TRANSLINE_PARAMETERS::Z0].first ); setProperty( ANG_L_PRM, results[TRANSLINE_PARAMETERS::ANG_L].first ); setErrorLevel( Z0_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::Z0].second ) ); setErrorLevel( ANG_L_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::ANG_L].second ) ); setErrorLevel( PHYS_LEN_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_LEN].second ) ); setErrorLevel( PHYS_WIDTH_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_WIDTH].second ) ); setErrorLevel( STRIPLINE_A_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::STRIPLINE_A].second ) ); setErrorLevel( T_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::T].second ) ); setErrorLevel( H_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::T].second ) ); } void STRIPLINE_UI::showSynthesize() { std::unordered_map>& results = m_calc.GetSynthesisResults(); setResult( 0, results[TRANSLINE_PARAMETERS::EPSILON_EFF].first, "" ); setResult( 1, results[TRANSLINE_PARAMETERS::UNIT_PROP_DELAY].first, "ps/cm" ); setResult( 2, results[TRANSLINE_PARAMETERS::LOSS_CONDUCTOR].first, "dB" ); setResult( 3, results[TRANSLINE_PARAMETERS::LOSS_DIELECTRIC].first, "dB" ); setResult( 4, results[TRANSLINE_PARAMETERS::SKIN_DEPTH].first / UNIT_MICRON, "µm" ); setProperty( PHYS_LEN_PRM, results[TRANSLINE_PARAMETERS::PHYS_LEN].first ); setProperty( PHYS_WIDTH_PRM, results[TRANSLINE_PARAMETERS::PHYS_WIDTH].first ); setErrorLevel( Z0_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::Z0].second ) ); setErrorLevel( ANG_L_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::ANG_L].second ) ); setErrorLevel( PHYS_LEN_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_LEN].second ) ); setErrorLevel( PHYS_WIDTH_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_WIDTH].second ) ); setErrorLevel( STRIPLINE_A_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::STRIPLINE_A].second ) ); setErrorLevel( T_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::T].second ) ); setErrorLevel( H_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::T].second ) ); } void STRIPLINE_UI::show_results() { } void STRIPLINE_UI::getProperties() { TRANSLINE::getProperties(); m_calc.SetParameter( TRANSLINE_PARAMETERS::SKIN_DEPTH, m_parameters[SKIN_DEPTH_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::EPSILONR, m_parameters[EPSILONR_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::T, m_parameters[T_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::STRIPLINE_A, m_parameters[STRIPLINE_A_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::H, m_parameters[H_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::Z0, m_parameters[Z0_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::PHYS_LEN, m_parameters[PHYS_LEN_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::FREQUENCY, m_parameters[FREQUENCY_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::TAND, m_parameters[TAND_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::PHYS_WIDTH, m_parameters[PHYS_WIDTH_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::ANG_L, m_parameters[ANG_L_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::SIGMA, m_parameters[SIGMA_PRM] ); m_calc.SetParameter( TRANSLINE_PARAMETERS::MURC, m_parameters[MURC_PRM] ); }