Fail-safe operating method for a decentralized power generation plant

The invention claimed is: 1. A method of operating a decentralized power generation plant (DG), comprising: prior to connecting the DG to a grid, applying at least two voltage values to connecting lines of a generator of the DG, determining a leakage capacitance of the generator of the DG based on currents or current transients caused by the application of the at least two voltage values, and selectively connecting the DG to the grid based on the determined leakage capacitance. 2. The method according to claim 1 , wherein the at least two voltage values are applied by an inverter bridge of the DG. 3. The method according to claim 1 , wherein selectively connecting the DG to the grid comprises connecting the DG to the grid only when the determined leakage capacitance is smaller than a predetermined first limit value. 4. The method according to claim 1 , wherein determining the leakage capacitance is carried out together with determining an insulation resistance of the generator. 5. The method according to claim 3 , wherein after connecting the DG to the grid, the method further comprises: determining a capacitive leakage current component of a residual current of the DG continuously or repeatedly, and disconnecting the DG from the grid when the determined capacitive leakage current component exceeds a second limit value. 6. The method according to claim 5 , wherein the second limit value is selected to be less than or equal to half of a nominal tripping threshold of a residual current circuit breaker of the DG. 7. The method according to claim 5 , wherein after connecting the DG to the grid, the method further comprises: determining a capacitive leakage current component of a residual current of the DG continuously or repeatedly, and reducing a generator voltage of the generator when the capacitive leakage current component exceeds the second limit value. 8. The method according to claim 7 , wherein the second limit value is determined by: determining a capacitive leakage current component at which a residual current circuit breaker of the DG trips, and determining the second limit value to be a value reduced by a predetermined amount or by a predetermined percentage compared to the capacitive leakage current component at which the residual current circuit breaker of the DG trips. 9. The method according to claim 7 , wherein the second limit value is selected to be less than or equal to half of a nominal tripping threshold of a residual current circuit breaker of the DG. 10. The method according to claim 3 , further comprising: lowering the predetermined first limit value in response to a trip event of a residual current circuit breaker of the DG as a function of a difference between leakage capacitance determined prior to the trip event and an initial first limit value. 11. The method according to claim 3 , wherein the first limit value is selected based on current weather data and/or weather forecast data. 12. The method according to claim 3 , wherein in a case of connection to the grid and when the determined leakage capacitance is below the first limit value by less than a predetermined amount, selecting a time at which the DG is disconnected from the grid again based on current weather data and/or weather forecast data. 13. A decentralized power generation plant (DG), comprising: an insulation monitoring circuit configured to perform an act of determining a value of a leakage capacitance of a generator of the DG, wherein the determining is based on currents or current transients caused by an application of at least two voltage values to connecting lines of a generator of the DG, and a residual current circuit breaker coupled to the insulation monitoring circuit and configured to perform an act of selectively connecting the DG to a grid via a grid relay based on the determined leakage capacitance value to ensure that the DG remains disconnected from the grid when the determined leakage capacitance satisfies a predetermined criteria. 14. The DG according to claim 13 , wherein the residual current circuit breaker is configured to perform the act of selectively connecting the DG to the grid via the grid relay by ensuring that the grid relay is open when the determined leakage capacitance satisfies the predetermined criteria. 15. The DG according to claim 14 , wherein the predetermined criteria being satisfied comprises the determined leakage capacitance exceeding a predetermined threshold. 16. The DG according to claim 13 , further comprising a residual current sensor configured to perform an act of determining a residual current on connection lines that couple the DG to the gird. 17. The DG according to claim 16 , wherein the residual current sensor is uncompensated with respect to a leakage capacitance sensor of the insulation monitoring circuit. 18. The DG according to claim 16 , wherein the residual current circuit breaker is configured to open the grid relay if the residual current determined by the residual current sensor exceeds a maximum residual current value. 19. The DG according to claim 13 , wherein the insulation monitoring circuit is further configured to perform the act of jointly determining an insulation resistance and the leakage capacitance of the generator.