public string GetInducductanceInfo(double frequency, bool logFrequencyAxis) { string sFrequency = "Frequency: " + frequency.ToString(FRAResult.GetFrequencyFormat(frequency, logFrequencyAxis)); double inductance = GetDUTInductanceNanoHenry(frequency); string sInductance = " Inductance: " + inductance.ToString(FRAResult.GetInductanceFormat(inductance)); double esr = GetDUT_ESR_MilliOhms(frequency); string sESR = " ESR: " + esr.ToString(FRAResult.GetImpedanceFormat(esr)); double qFactor = GetDUT_Q_Inductor(frequency); string sQ = " Q: " + qFactor.ToString(FRAResult.GetQFactorFormat(qFactor)); return(sFrequency + sInductance + sESR + sQ); }
public string GetCapacitanceInfo(double frequency, bool logFrequencyAxis) { string sFrequency = "Frequency: " + frequency.ToString(FRAResult.GetFrequencyFormat(frequency, logFrequencyAxis)); double capacitance = GetDUTCapacitancePicoFarad(frequency); string sCapacitance = " Capacitance: " + capacitance.ToString(FRAResult.GetCapacitanceFormat(capacitance)); double esr = GetDUT_ESR_MilliOhms(frequency); string sESR = " ESR: " + esr.ToString(FRAResult.GetImpedanceFormat(esr)); double qFactor = GetDUT_Q_Capacitor(frequency); string sQ = " Q: " + qFactor.ToString(FRAResult.GetQFactorFormat(qFactor)); return(sFrequency + sCapacitance + sESR + sQ); }