Ground fault protection methods

What we claim is: 1. A ground fault protection method for a power distribution system comprising a plurality of power converter systems electrically connected to a point of common coupling, each power converter system including a power converter with a plurality of semiconductor switching devices controlled using a pulse width modulation strategy with a switching frequency, the method comprising: applying a spectrum analysis process to each power converter system that uses measured or derived zero sequence currents associated with the respective power converter system to determine the location of a ground fault within the power distribution system, and applying a switching frequency process where the switching frequency of the power converter of at least one of the power converter systems is different from the switching frequency of the power converter of at least another one of the power converter systems during at least part of the time that the spectrum analysis process is applied, wherein the power converters are operated continuously at different fixed switching frequencies during normal operation and during a ground fault condition. 2. The method according to claim 1 , wherein the spectrum analysis process further uses measured or derived zero sequence currents associated with the respective power converter system to detect a presence of a ground fault at an unspecified location within the power distribution system. 3. The method according to claim 1 , wherein the spectrum analysis process comprises: measuring or deriving zero sequence currents associated with the respective power converter system; performing spectrum analysis on the zero sequence currents and deriving an amplitude of a frequency component within the zero sequence current frequency spectrum; and comparing the derived amplitude against a threshold or at least one stored amplitude. 4. The method according to claim 3 , wherein a frequency component within the zero sequence current frequency spectrum is a fundamental component or an integer or non-integer harmonic component of the switching frequency of the power converter of the respective power converter system. 5. The method according to claim 3 , wherein the threshold is a fixed threshold or a variable threshold that can be derived using a look-up table. 6. The method according to claim 3 , wherein the spectrum analysis process generates a signal indicative of a ground fault being present at an unspecified location within the power distribution system if the amplitude exceeds a fault detection threshold. 7. The method according to claim 3 , wherein the spectrum analysis process generated a signal indicative of a ground fault being present within the respective power converter system if the amplitude exceeds a fault location threshold, the signal be used to open a protective circuit breaker/switchgear for the respective power converter system to isolate it from the point of common coupling and/or trip the power converter system. 8. The method according to claim 3 , wherein the power converters are operated continuously with a pseudo random series of different switching frequencies during normal operation and during a ground fault condition. 9. A ground fault protection method for a power distribution system comprising a plurality of power converter systems electrically connected to a point of common coupling, each power converter system including a power converter with a plurality of semiconductor switching devices controlled using a pulse width modulation strategy with a switching frequency, the method comprising: applying a spectrum analysis process to each power converter system that uses measured or derived zero sequence currents associated with the respective power converter system to determine the location of a ground fault within the power distribution system, and applying a switching frequency process where the switching frequency of the power converter of at least one of the power converter systems is different from the switching frequency of the power converter of at least another one of the power converter systems during at least part of the time that the spectrum analysis process is applied, wherein the power converters are operated at a nominal switching frequency during normal operation and a switching frequency operation is then sequentially applied to each power converter system without overlap in response to ground fault detection, wherein during each switching frequency operation the respective power converter is operated at a switching frequency that is different from the nominal switching frequency. 10. The method according to claim 9 , wherein a gap is provided between each of the switching frequency operations. 11. A power distribution system comprising: a plurality of power converter systems electrically connected to a point of common coupling, each power converter system including a power converter with a plurality of semiconductor switching devices controlled using a pulse width modulation strategy with a switching frequency, a controller for each power converter system, each controller being adapted to apply a spectrum analysis process to the respective power converter system that uses measured or derived zero sequence currents associated with the respective power converter system to determine the location of a ground fault within the power distribution system, and each controller being adapted to apply a switching frequency process where the switching frequency of the power converter of at least one of the power converter systems is different from the switching frequency of the power converter of at least another one of the power converter systems during at least part of the time that the spectrum analysis process is applied, wherein the power converters are operated continuously at different fixed switching frequencies during normal operation and during a ground fault condition. 12. The power distribution system according to claim 11 , wherein each power converter comprises a single power converter module. 13. The power distribution system according to claim 11 , wherein each power converter comprises a first power converter module and a second power converter module, electrically connected together by a dc link. 14. The power distribution system according to claim 11 , wherein each power converter system comprises an ac line filter, comprising at least one filter reactor and a filter capacitor connected to aground.