mirror of
https://gitlab.com/kicad/code/kicad.git
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119 lines
5.4 KiB
C++
119 lines
5.4 KiB
C++
/*
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* Copyright (C) 2002 Claudio Girardi <claudio.girardi@ieee.org>
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* Copyright (C) 2005, 2006 Stefan Jahn <stefan@lkcc.org>
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* Copyright The KiCad Developers, see AUTHORS.txt for contributors.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or (at
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* your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this package; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#include "c_stripline.h"
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#include "transline.h"
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#include "units.h"
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C_STRIPLINE::C_STRIPLINE()
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{
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m_Name = "Coupled_MicroStrip";
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Init();
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}
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void C_STRIPLINE::calcAnalyze()
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{
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m_calc.Analyse();
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}
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void C_STRIPLINE::calcSynthesize()
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{
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m_calc.Synthesize( SYNTHESIZE_OPTS::DEFAULT );
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}
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void C_STRIPLINE::showAnalyze()
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{
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std::unordered_map<TRANSLINE_PARAMETERS, std::pair<double, TRANSLINE_STATUS>>& results =
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m_calc.GetAnalysisResults();
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setProperty( Z0_E_PRM, results[TRANSLINE_PARAMETERS::Z0_E].first );
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setProperty( Z0_O_PRM, results[TRANSLINE_PARAMETERS::Z0_O].first );
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setProperty( ANG_L_PRM, results[TRANSLINE_PARAMETERS::ANG_L].first );
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setResult( 0, results[TRANSLINE_PARAMETERS::EPSILON_EFF_EVEN].first, "" );
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setResult( 1, results[TRANSLINE_PARAMETERS::EPSILON_EFF_ODD].first, "" );
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setResult( 2, results[TRANSLINE_PARAMETERS::UNIT_PROP_DELAY_EVEN].first, "ps/cm" );
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setResult( 3, results[TRANSLINE_PARAMETERS::UNIT_PROP_DELAY_ODD].first, "ps/cm" );
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setResult( 4, results[TRANSLINE_PARAMETERS::SKIN_DEPTH].first / UNIT_MICRON, "µm" );
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setResult( 5, results[TRANSLINE_PARAMETERS::Z_DIFF].first, "Ω" );
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setErrorLevel( Z0_E_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::Z0_E].second ) );
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setErrorLevel( Z0_O_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::Z0_O].second ) );
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setErrorLevel( ANG_L_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::ANG_L].second ) );
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setErrorLevel( PHYS_WIDTH_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_WIDTH].second ) );
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setErrorLevel( PHYS_LEN_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_LEN].second ) );
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setErrorLevel( PHYS_S_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_S].second ) );
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}
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void C_STRIPLINE::showSynthesize()
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{
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std::unordered_map<TRANSLINE_PARAMETERS, std::pair<double, TRANSLINE_STATUS>>& results =
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m_calc.GetAnalysisResults();
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setProperty( PHYS_WIDTH_PRM, results[TRANSLINE_PARAMETERS::PHYS_WIDTH].first );
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setProperty( PHYS_S_PRM, results[TRANSLINE_PARAMETERS::PHYS_S].first );
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setProperty( PHYS_LEN_PRM, results[TRANSLINE_PARAMETERS::PHYS_LEN].first );
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setResult( 0, results[TRANSLINE_PARAMETERS::EPSILON_EFF_EVEN].first, "" );
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setResult( 1, results[TRANSLINE_PARAMETERS::EPSILON_EFF_ODD].first, "" );
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setResult( 2, results[TRANSLINE_PARAMETERS::UNIT_PROP_DELAY_EVEN].first, "ps/cm" );
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setResult( 3, results[TRANSLINE_PARAMETERS::UNIT_PROP_DELAY_ODD].first, "ps/cm" );
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setResult( 4, results[TRANSLINE_PARAMETERS::SKIN_DEPTH].first / UNIT_MICRON, "µm" );
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setResult( 5, results[TRANSLINE_PARAMETERS::Z_DIFF].first, "Ω" );
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setErrorLevel( Z0_E_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::Z0_E].second ) );
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setErrorLevel( Z0_O_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::Z0_O].second ) );
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setErrorLevel( ANG_L_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::ANG_L].second ) );
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setErrorLevel( PHYS_WIDTH_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_WIDTH].second ) );
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setErrorLevel( PHYS_LEN_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_LEN].second ) );
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setErrorLevel( PHYS_S_PRM, convertParameterStatusCode( results[TRANSLINE_PARAMETERS::PHYS_S].second ) );
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}
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void C_STRIPLINE::getProperties()
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{
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TRANSLINE::getProperties();
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m_calc.SetParameter( TRANSLINE_PARAMETERS::Z0_E, m_parameters[Z0_E_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::Z0_O, m_parameters[Z0_O_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::EPSILONR, m_parameters[EPSILONR_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::PHYS_WIDTH, m_parameters[PHYS_WIDTH_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::PHYS_LEN, m_parameters[PHYS_LEN_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::PHYS_S, m_parameters[PHYS_S_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::H, m_parameters[H_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::T, m_parameters[T_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::FREQUENCY, m_parameters[FREQUENCY_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::MURC, m_parameters[MURC_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::SKIN_DEPTH, m_parameters[SKIN_DEPTH_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::SIGMA, m_parameters[SIGMA_PRM] );
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m_calc.SetParameter( TRANSLINE_PARAMETERS::ANG_L, m_parameters[ANG_L_PRM] );
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}
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void C_STRIPLINE::show_results()
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{
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}
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