AllSpiceMirrors
/
kicad
mirror of https://gitlab.com/kicad/code/kicad.git
9
Fork 0
Files Issues Releases Activity
kicad/pcb_calculator/transline_ident.cpp

473 lines
22 KiB
C++
Raw Permalink Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2011-2014 Jean-Pierre Charras
* Copyright (C) 2004-2021 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 3
* 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 program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file transline_ident.cpp
*/
#include <wx/intl.h>
#include <wx/arrstr.h>
#include <kiface_base.h>
#include <bitmaps.h>
// transline specific functions:
#include "transline/transline.h"
#include "transline/microstrip.h"
#include "transline/coplanar.h"
#include "transline/rectwaveguide.h"
#include "transline/coax.h"
#include "transline/c_microstrip.h"
#include "transline/stripline.h"
#include "transline/twistedpair.h"
#include "pcb_calculator_settings.h"
#include "widgets/unit_selector.h"
#include "transline_ident.h"
TRANSLINE_PRM::TRANSLINE_PRM( PRM_TYPE aType, PRMS_ID aId, const char* aKeywordCfg,
const wxString& aDlgLabel, const wxString& aToolTip,
double aValue, bool aConvUnit )
{
m_Type = aType;
m_Id = aId;
m_DlgLabel = aDlgLabel;
m_KeyWord = aKeywordCfg;
m_ToolTip = aToolTip;
m_Value = aValue;
m_DefaultValue = aValue;
m_ConvUnit = aConvUnit;
m_ValueCtrl = nullptr;
m_UnitCtrl = nullptr;
m_UnitSelection = 0;
m_NormalizedValue = 0;
}
double TRANSLINE_PRM::ToUserUnit()
{
if( m_UnitCtrl && m_ConvUnit )
return 1.0 / ( (UNIT_SELECTOR*) m_UnitCtrl )->GetUnitScale();
else
return 1.0;
}
double TRANSLINE_PRM::FromUserUnit()
{
if( m_UnitCtrl )
return ( (UNIT_SELECTOR*) m_UnitCtrl )->GetUnitScale();
else
return 1.0;
}
TRANSLINE_IDENT::TRANSLINE_IDENT( enum TRANSLINE_TYPE_ID aType )
{
m_Type = aType; // The type of transline handled
m_BitmapName = BITMAPS::INVALID_BITMAP; // The icon to display
m_TLine = nullptr; // The TRANSLINE itself
m_HasPrmSelection = false; // true if selection of parameters must be enabled in dialog menu
// Add common prms:
// Default values are for FR4
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, EPSILONR_PRM,
"Er", wxT( "εr" ),
_( "Substrate relative permittivity (dielectric constant)" ),
4.5, false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, TAND_PRM,
"TanD", wxT( "tan δ" ),
_( "Dielectric loss (dissipation factor)" ),
2e-2, false ) );
// Default value is for copper
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, RHO_PRM,
"Rho", wxT( "ρ" ),
_( "Electrical resistivity or specific electrical resistance of "
"conductor (ohm*meter)" ),
1.72e-8, false ) );
// Default value is in GHz
AddPrm( new TRANSLINE_PRM( PRM_TYPE_FREQUENCY, FREQUENCY_PRM,
"Frequency", _( "Frequency" ),
_( "Frequency of the input signal" ), 1.0, true ) );
switch( m_Type )
{
case MICROSTRIP_TYPE: // microstrip
m_TLine = new MICROSTRIP();
m_BitmapName = BITMAPS::microstrip;
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "Skin depth:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_PRM,
"H", "H", _( "Height of substrate" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_T_PRM,
"H_t", "H(top)", _( "Height of box top" ), 1e20, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, T_PRM,
"T", "T",
_( "Strip thickness" ), 0.035, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, ROUGH_PRM,
"Rough", _( "Roughness" ),
_( "Conductor roughness" ), 0.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MUR_PRM,
"mu Rel S", wxString::Format( wxT( "μ(%s)" ),
_( "substrate" ) ),
_( "Relative permeability (mu) of substrate" ), 1, false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_WIDTH_PRM,
"W", "W", _( "Line width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Line length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0.0, true ) );
break;
case CPW_TYPE: // coplanar waveguide
m_TLine = new COPLANAR();
m_BitmapName = BITMAPS::cpw;
m_HasPrmSelection = true;
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "Skin depth:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_PRM,
"H", "H", _( "Height of substrate" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, T_PRM,
"T", "T", _( "Strip thickness" ), 0.035, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_WIDTH_PRM,
"W", "W", _( "Line width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_S_PRM,
"S", "S", _( "Gap width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Line length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0.0, true ) );
break;
case GROUNDED_CPW_TYPE: // grounded coplanar waveguide
m_TLine = new GROUNDEDCOPLANAR();
m_BitmapName = BITMAPS::cpw_back;
m_HasPrmSelection = true;
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "Skin depth:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_PRM,
"H", "H", _( "Height of substrate" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, T_PRM,
"T", "T", _( "Strip thickness" ), 0.035, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_WIDTH_PRM,
"W", "W", _( "Line width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_S_PRM,
"S", "S", _( "Gap width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Line length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0, true ) );
break;
case RECTWAVEGUIDE_TYPE: // rectangular waveguide
m_TLine = new RECTWAVEGUIDE();
m_BitmapName = BITMAPS::rectwaveguide;
m_HasPrmSelection = true;
m_Messages.Add( _( "ZF(H10) = Ey / Hx:" ) );
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "TE-modes:" ) );
m_Messages.Add( _( "TM-modes:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MUR_PRM,
"mu Rel I", wxString::Format( wxT( "μ(%s)" ),
_( "insulator" ) ),
_( "Relative permeability (mu) of insulator" ), 1, false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_WIDTH_PRM,
"a", "a", _( "Width of waveguide" ), 10.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_S_PRM,
"b", "b", _( "Height of waveguide" ), 5.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Waveguide length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0, true ) );
break;
case COAX_TYPE: // coaxial cable
m_TLine = new COAX();
m_BitmapName = BITMAPS::coax;
m_HasPrmSelection = true;
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "TE-modes:" ) );
m_Messages.Add( _( "TM-modes:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MUR_PRM,
"mu Rel I", wxString::Format( wxT( "μ(%s)" ),
_( "insulator" ) ),
_( "Relative permeability (mu) of insulator" ), 1, false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_DIAM_IN_PRM,
"Din", _( "Din" ),
_( "Inner diameter (conductor)" ), 1.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_DIAM_OUT_PRM,
"Dout", _( "Dout" ),
_( "Outer diameter (insulator)" ), 8.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Line length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0.0, true ) );
break;
case C_MICROSTRIP_TYPE: // coupled microstrip
m_TLine = new C_MICROSTRIP();
m_BitmapName = BITMAPS::c_microstrip;
m_HasPrmSelection = true;
m_Messages.Add( wxString::Format( _( "Effective %s (even):" ), wxT( "εr" ) ) );
m_Messages.Add( wxString::Format( _( "Effective %s (odd):" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses (even):" ) );
m_Messages.Add( _( "Conductor losses (odd):" ) );
m_Messages.Add( _( "Dielectric losses (even):" ) );
m_Messages.Add( _( "Dielectric losses (odd):" ) );
m_Messages.Add( _( "Skin depth:" ) );
m_Messages.Add( _( "Differential Impedance (Zd):" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_PRM,
"H", "H", _( "Height of substrate" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_T_PRM,
"H_t", "H_t", _( "Height of box top" ), 1e20, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, T_PRM,
"T", "T", _( "Strip thickness" ), 0.035, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, ROUGH_PRM,
"Rough", _( "Roughness" ),
_( "Conductor roughness" ), 0.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_WIDTH_PRM,
"W", "W", _( "Line width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_S_PRM,
"S", "S", _( "Gap width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Line length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_E_PRM,
"Zeven", _( "Zeven" ),
_( "Even mode impedance (lines driven by common voltages)" ),
50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_O_PRM,
"Zodd", _( "Zodd" ),
_( "Odd mode impedance (lines driven by opposite "
"(differential) voltages)" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l",
_( "Electrical length" ), 0.0, true ) );
break;
case STRIPLINE_TYPE: // stripline
m_TLine = new STRIPLINE();
m_BitmapName = BITMAPS::stripline;
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "Skin depth:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, H_PRM,
"H", "H", _( "Height of substrate" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, STRIPLINE_A_PRM,
"a", "a", _( "Distance between strip and top metal" ), 0.2,
true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, T_PRM,
"T", "T", _( "Strip thickness" ), 0.035, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1, false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_WIDTH_PRM,
"W", "W", _( "Line width" ), 0.2, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Line length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0, true ) );
break;
case TWISTEDPAIR_TYPE: // twisted pair
m_TLine = new TWISTEDPAIR();
m_BitmapName = BITMAPS::twistedpair;
m_HasPrmSelection = true;
m_Messages.Add( wxString::Format( _( "Effective %s:" ), wxT( "εr" ) ) );
m_Messages.Add( _( "Conductor losses:" ) );
m_Messages.Add( _( "Dielectric losses:" ) );
m_Messages.Add( _( "Skin depth:" ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, TWISTEDPAIR_TWIST_PRM,
"Twists", _( "Twists" ),
_( "Number of twists per length" ), 0.0, false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, MURC_PRM,
"mu Rel C", wxString::Format( wxT( "μ(%s)" ),
_( "conductor" ) ),
_( "Relative permeability (mu) of conductor" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_SUBS, TWISTEDPAIR_EPSILONR_ENV_PRM,
"ErEnv", wxString::Format( wxT( "εr(%s)" ),
_( "environment" ) ),
_( "Relative permittivity of environment" ), 1,
false ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_DIAM_IN_PRM,
"Din", _( "Din" ),
_( "Inner diameter (conductor)" ), 1.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_DIAM_OUT_PRM,
"Dout", _( "Dout" ),
_( "Outer diameter (insulator)" ), 8.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_PHYS, PHYS_LEN_PRM,
"L", "L", _( "Cable length" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, Z0_PRM,
"Z0", "Z0", _( "Characteristic impedance" ), 50.0, true ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, DUMMY_PRM ) );
AddPrm( new TRANSLINE_PRM( PRM_TYPE_ELEC, ANG_L_PRM,
"Ang_l", "Ang_l", _( "Electrical length" ), 0.0, true ) );
break;
case END_OF_LIST_TYPE: // Not really used
break;
}
}
TRANSLINE_IDENT::~TRANSLINE_IDENT()
{
delete m_TLine;
for( auto& ii : m_prms_List )
delete ii;
m_prms_List.clear();
}
void TRANSLINE_IDENT::ReadConfig()
{
auto cfg = static_cast<PCB_CALCULATOR_SETTINGS*>( Kiface().KifaceSettings() );
std::string name( m_TLine->m_Name );
if( cfg->m_TransLine.param_values.count( name ) )
{
wxASSERT( cfg->m_TransLine.param_units.count( name ) );
for( auto& p : m_prms_List )
{
try
{
p->m_Value = cfg->m_TransLine.param_values.at( name ).at( p->m_KeyWord );
p->m_UnitSelection = cfg->m_TransLine.param_units.at( name ).at( p->m_KeyWord );
}
catch( ... )
{}
}
}
}
void TRANSLINE_IDENT::WriteConfig()
{
auto cfg = static_cast<PCB_CALCULATOR_SETTINGS*>( Kiface().KifaceSettings() );
std::string name( m_TLine->m_Name );
for( auto& param : m_prms_List )
{
if( !std::isfinite( param->m_Value ) )
param->m_Value = 0;
cfg->m_TransLine.param_values[ name ][ param->m_KeyWord ] = param->m_Value;
cfg->m_TransLine.param_units[ name ][ param->m_KeyWord ] = param->m_UnitSelection;
}
}
Reference in New Issue View Git Blame Copy Permalink