示例#1
0
void IntPoleZero::Apply(Signal& ASource)
{
  AdjustSignalEnviroment(ASource);
  unsigned int DelayBins = FDelay/GetSignalBinTime()+1;

  for(unsigned int i=0;i<DelayBins;++i)
  {
    SetSignalBin(i,0);
  }

  double Integral1  = 0;
  double Integral2  = 0;
  double OutVoltage = 0;

  unsigned int SignalBins=GetSignalBins();

  for(unsigned int i=DelayBins;i<SignalBins;++i)
  {
    double Input  = ASource.GetSignalBin(i);

    Integral1   +=CalcPoly(FDelta1Coefficients,Input-Integral1)
                -CalcPoly(FDecay1Coefficients,Integral1);
    Integral2   +=CalcPoly(FDelta2Coefficients,Input-Integral2)
                -CalcPoly(FDecay2Coefficients,Integral2);

    OutVoltage  = CalcPoly(FWeight2Coefficients,Integral2)-Integral1;

    SetSignalBin(i,OutVoltage);
  }
}
示例#2
0
void LowPass::Apply(Signal& ASource)
{
  AdjustSignalEnviroment(ASource);

  unsigned int DelayBins = FDelay/GetSignalBinTime()+1;
  
  for(unsigned int i=0;i<DelayBins;++i)
  {
    SetSignalBin(i,0);
  }
  
  unsigned int SignalBins = GetSignalBins();
  double OutVoltage  = 0;
  
  for(unsigned int i=DelayBins;i<SignalBins-1;++i)
  {
    double Diff   = ASource.GetSignalBin(i-DelayBins+1)-ASource.GetSignalBin(i-DelayBins);

    OutVoltage += CalcPoly(FDiffCoefficients,Diff)
                 -CalcPoly(FDecayCoefficients,OutVoltage);

    SetSignalBin(i,OutVoltage);
  }
}