190 lines
4.4 KiB
C++
190 lines
4.4 KiB
C++
/****************************************************************************
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** From Qucs Attenuator Synthesis
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** attenuator_classes.cpp
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**
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** since 2006/6/14
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**
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*****************************************************************************/
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#include <cmath>
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#include <attenuator_classes.h>
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// Bitmaps:
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#include <att_pi.xpm>
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#include <att_tee.xpm>
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#include <att_bridge.xpm>
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#include <att_splitter.xpm>
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#include <pi_formula.xpm>
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#include <tee_formula.xpm>
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#include <bridged_tee_formula.xpm>
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#include <splitter_formula.xpm>
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#ifndef NULL
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#define NULL 0
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#endif
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ATTENUATOR::ATTENUATOR( ATTENUATORS_TYPE aTopology )
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{
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m_Name = wxT("att_base");
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m_Error = false;
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m_Topology = aTopology;
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m_ResultCount = 3; // If 3 values must be calculated
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m_Zin = 50; // Ohms
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m_Zin_Enable = true;
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m_Zout = 50; // Ohms
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m_Attenuation = 6.0; // dB
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m_Attenuation_Enable = true;
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m_MinimumATT = 0.0; // dB
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m_SchBitMap = NULL;
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m_FormulaBitMap = NULL;
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}
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ATTENUATOR::~ATTENUATOR()
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{
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delete m_SchBitMap;
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delete m_FormulaBitMap;
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}
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#define KEYWORD_ATTENUATOR_ATT wxT( "Attenuation" )
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#define KEYWORD_ATTENUATOR_ZIN wxT( "Zin" )
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#define KEYWORD_ATTENUATOR_ZOUT wxT( "Zout" )
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#define KEYWORD_ATTENUATORS wxT( "Attenuators/" )
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void ATTENUATOR::ReadConfig( wxConfigBase* aConfig )
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{
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aConfig->SetPath( KEYWORD_ATTENUATORS + m_Name );
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if( m_Attenuation_Enable )
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aConfig->Read( KEYWORD_ATTENUATOR_ATT, &m_Attenuation, 6.0 );
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aConfig->Read( KEYWORD_ATTENUATOR_ZIN, &m_Zin, 50.0 );
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aConfig->Read( KEYWORD_ATTENUATOR_ZOUT, &m_Zout, 50.0 );
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aConfig->SetPath( wxT( "../.." ) );
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}
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void ATTENUATOR::WriteConfig( wxConfigBase* aConfig )
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{
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aConfig->SetPath( KEYWORD_ATTENUATORS + m_Name );
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aConfig->Write( KEYWORD_ATTENUATOR_ATT, m_Attenuation );
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aConfig->Write( KEYWORD_ATTENUATOR_ZIN, m_Zin );
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aConfig->Write( KEYWORD_ATTENUATOR_ZOUT, m_Zout );
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aConfig->SetPath( wxT( "../.." ) );
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}
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ATTENUATOR_PI::ATTENUATOR_PI() : ATTENUATOR( PI_TYPE )
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{
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m_Name = wxT("att_pi");
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m_SchBitMap = new wxBitmap( att_pi_xpm );
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m_FormulaBitMap = new wxBitmap( pi_formula_xpm );
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}
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bool ATTENUATOR_PI::Calculate()
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{
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if( !ATTENUATOR::Calculate() )
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return false;
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m_R2 = ( (L - 1) / 2 ) * sqrt( m_Zin * m_Zout / L );
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m_R1 = 1 / ( ( (A / m_Zin) ) - (1 / m_R2) );
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m_R3 = 1 / ( ( (A / m_Zout) ) - (1 / m_R2) );
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return true;
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}
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ATTENUATOR_TEE::ATTENUATOR_TEE() : ATTENUATOR( TEE_TYPE )
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{
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m_Name = wxT("att_tee");
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m_SchBitMap = new wxBitmap( att_tee_xpm );
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m_FormulaBitMap = new wxBitmap( tee_formula_xpm );
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}
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bool ATTENUATOR_TEE::Calculate()
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{
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if( !ATTENUATOR::Calculate() )
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return false;
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m_R2 = ( 2 * sqrt( L * m_Zin * m_Zout ) ) / (L - 1);
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m_R1 = m_Zin * A - m_R2;
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m_R3 = m_Zout * A - m_R2;
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return true;
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}
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ATTENUATOR_BRIDGE::ATTENUATOR_BRIDGE() : ATTENUATOR( BRIDGE_TYPE )
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{
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m_Name = wxT("att_bridge");
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m_Zin_Enable = false;
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m_ResultCount = 2;
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m_SchBitMap = new wxBitmap( att_bridge_xpm );
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m_FormulaBitMap = new wxBitmap( bridged_tee_formula_xpm );
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}
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bool ATTENUATOR_BRIDGE::Calculate()
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{
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m_Zin = m_Zout;
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if( !ATTENUATOR::Calculate() )
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return false;
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L = pow( 10, m_Attenuation / 20 );
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m_R1 = m_Zin * (L - 1);
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m_R2 = m_Zin / (L - 1);
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return true;
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}
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ATTENUATOR_SPLITTER::ATTENUATOR_SPLITTER() : ATTENUATOR( SPLITTER_TYPE )
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{
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m_Name = wxT("att_splitter");
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m_Attenuation_Enable = false;
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m_Attenuation = 6.0;
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m_MinimumATT = 6.0;
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m_Zin_Enable = false;
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m_SchBitMap = new wxBitmap( att_splitter_xpm );
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m_FormulaBitMap = new wxBitmap( splitter_formula_xpm );
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}
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bool ATTENUATOR_SPLITTER::Calculate()
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{
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m_Attenuation = 6.0;
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m_Zin = m_Zout;
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m_R1 = m_R2 = m_R3 = m_Zout / 3.0;
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return true;
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}
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bool ATTENUATOR::Calculate()
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{
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L = pow( 10, m_Attenuation / 10 );
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A = (L + 1) / (L - 1);
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if( m_Zin > m_Zout )
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{
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Lmin = (2 * m_Zin / m_Zout) - 1 + 2 *
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sqrt( m_Zin / m_Zout * (m_Zin / m_Zout - 1) );
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}
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else
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{
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Lmin = (2 * m_Zout / m_Zin) - 1 + 2 *
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sqrt( m_Zout / m_Zin * (m_Zout / m_Zin - 1) );
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}
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m_MinimumATT = 10 * log10( Lmin );
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if( m_MinimumATT > m_Attenuation )
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{
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m_Error = true;
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return false;
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}
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m_Error = false;
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return true;
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}
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