Method and device for identifying arc faults in an ungrounded power supply system

The invention claimed is: 1. A method for identifying arc faults in an ungrounded power supply system, comprising the method steps: detecting a displacement voltage to ground at an active conductor or at a neutral point of the ungrounded power supply system obtaining a value of an operating frequency occurring in the ungrounded power supply system by a frequency detector and providing the value to an analyzing device, analyzing a frequency spectrum of the detected displacement voltage by calculating and assessing Fourier coefficients at a frequency the location of the operating frequency and at frequency locations of harmonics of the operating frequency, using results of an insulation resistance measurement for identifying faults and; deciding that an arc fault has occurred, should at least one normalized Fourier coefficient, in terms of magnitude, exceed an allocated threshold value which corresponds to the at least one normalized Fourier coefficient. 2. The method according to claim 1 , characterized in that the operating frequency is a power frequency of the ungrounded power supply system and/or a converter switching frequency of a frequency converter. 3. The method according to claim 1 , characterized by generating orthogonal and harmonic basic functions using the operating frequency and its harmonics by means of direct digital synthesis (DDS) for calculating the Fourier coefficients. 4. The method according to claim 1 , characterized in that the threshold values are assessed using a factor of 1/n 2 , wherein n is the order of the nth harmonic of the operating frequency. 5. The method according to claim 1 , characterized in that further system parameters are used for identifying arc faults. 6. A device for identifying arc faults in an ungrounded power supply system, comprising: a voltage sensor for detecting a displacement voltage to ground at an active conductor or at a neutral point of the ungrounded power supply system; a frequency detector for providing a value of an operating frequency occurring in the ungrounded power supply system to an analyzing device; the analyzing device, comprising an DDS generator and a DFT block, for analyzing a frequency spectrum of the detected displacement voltage by calculating Fourier coefficients at a frequency location of the operating frequency and at frequency locations of harmonics of the operating frequency; a decider, configured to determine that an arc fault has occurred, should a normalized Fourier coefficient exceed an allocated threshold value which corresponds to the at least one normalized Fourier coefficient, said decider comprising an evaluation device, said evaluation device using results of an insulation resistance measurement by evaluating an insulation resistant measurement in regard of a low impedance or high impedance insulation fault and/or further system parameters in a common evaluation in conjunction with a spectrum analysis of the displacement voltage. 7. The device according to claim 6 , characterized in that the frequency detector is realized in such a manner that the provided operating frequency is a power frequency of the ungrounded power supply system and/or a converter switching frequency of a frequency converter. 8. The device according to claim 6 , characterized by the DDS generator (direct digital synthesis) generates orthogonal and harmonic basic functions using the operating frequency and its harmonics for calculating the Fourier coefficients. 9. The device according to claim 6 , characterized by an assessing unit for assessing the threshold value having a factor of 1/n2, wherein n is the order of the nth harmonic of the operating frequency.