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capacitance.cpp

/***************************************************************************
 *   Copyright (C) 2003-2005 by David Saxton                               *
 *   david@bluehaze.org                                                    *
 *                                                                         *
 *   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.                                   *
 ***************************************************************************/

#include "capacitance.h"
#include "matrix.h"

Capacitance::Capacitance( const double capacitance, const double delta )
      : Reactive(delta)
{
      m_cap = capacitance;
      g_eq_old = i_eq_old = 0.;
      m_numCNodes = 2;
      setMethod( Capacitance::m_euler );
}

Capacitance::~Capacitance()
{
}

void Capacitance::setCapacitance( const double c )
{
      m_cap = c;
}

00032 void Capacitance::add_initial_dc()
{
      // We don't need to do anything here, as time_step() will do that for us,
      // apart from to make sure our old values are 0
      g_eq_old = i_eq_old = 0.;
}

00039 void Capacitance::updateCurrents()
{
      if (!b_status) return;
      const double r_i = (p_cnode[0]->v-p_cnode[1]->v)*g_eq_old;
      m_cnodeI[0] = -i_eq_old-r_i;
      m_cnodeI[1] = -m_cnodeI[0];
}


00048 void Capacitance::add_map()
{
      if (!b_status) return;
      
      if ( !p_cnode[0]->isGround )
      {
            p_A->setUse( p_cnode[0]->n(), p_cnode[0]->n(), Map::et_unstable, false );
      }
      if ( !p_cnode[1]->isGround )
      {
            p_A->setUse( p_cnode[1]->n(), p_cnode[1]->n(), Map::et_unstable, false );
      }
      
      if ( !p_cnode[0]->isGround && !p_cnode[1]->isGround )
      {
            p_A->setUse( p_cnode[0]->n(), p_cnode[1]->n(), Map::et_unstable, false );
            p_A->setUse( p_cnode[1]->n(), p_cnode[0]->n(), Map::et_unstable, false );
      }
}


00069 void Capacitance::time_step()
{
      if (!b_status) return;
      
      double v = p_cnode[0]->v-p_cnode[1]->v;
      double i_eq_new = 0.0, g_eq_new = 0.0;
      
      if ( m_method == Capacitance::m_euler )
      {
            g_eq_new = m_cap/m_delta;
            i_eq_new = -v*g_eq_new;
      }
      else if ( m_method == Capacitance::m_trap ) {
            // TODO Implement + test trapezoidal method
            g_eq_new = 2.*m_cap/m_delta;
      }
      
      if ( g_eq_old != g_eq_new )
      {
            A_g( 0, 0 ) += g_eq_new-g_eq_old;
            A_g( 1, 1 ) += g_eq_new-g_eq_old;
            A_g( 0, 1 ) -= g_eq_new-g_eq_old;
            A_g( 1, 0 ) -= g_eq_new-g_eq_old;
      }
      
      if ( i_eq_new != i_eq_old )
      {
            b_i( 0 ) -= i_eq_new-i_eq_old;
            b_i( 1 ) += i_eq_new-i_eq_old;
      }
      
      g_eq_old = g_eq_new;
      i_eq_old = i_eq_new;
}

00104 bool Capacitance::updateStatus()
{
      b_status = Reactive::updateStatus();
      if ( m_method == Capacitance::m_none ) b_status = false;
      return b_status;
}

00111 void Capacitance::setMethod( Method m )
{
      m_method = m;
      updateStatus();
}



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