Determining a string configuration in a multistring-inverter

The invention claimed is: 1. A method of operating an inverter comprising a plurality of input connectors, wherein a plurality of strings of photovoltaic cells are configured to connect respectively to the plurality of input connectors, wherein each of the plurality of input connectors is connected to a common DC voltage link via a respective DC/DC converter, and wherein the input connectors are bridgeable, the method comprising: determining partial powers flowing through the individual DC/DC converters; and at least for some time either operating at least two of the DC/DC converters with the aim of balancing partial currents flowing through these at least two DC/DC converters, or connecting through the at least two of the DC/DC converters between the respective input connectors and the DC voltage link, wherein, while operating the at least two DC/DC converters with the aim of balancing the partial currents flowing through them or connecting through the at least two DC/DC converters, the partial powers flowing through the at least two DC/DC converters are compared to each other, and wherein, if a difference between the partial powers of a first and a second of the at least two DC/DC converters exceeds a threshold value, the first and the second of the at least two DC/DC converters are subsequently operated in a way that is adjusted due to a conclusion that different strings are connected to the DC voltage link via the first and the second of the at least two DC/DC converters. 2. The method of claim 1 , further comprising measuring input voltages present at the individual input connectors and measuring input currents of the individual DC/DC converters to determine the partial powers flowing through the individual DC/DC converters. 3. The method of claim 1 , further comprising measuring output currents of the individual DC/DC converters to determine the partial powers flowing through the individual DC/DC converters. 4. The method of claim 1 , wherein, when the at least two DC/DC converters are operated with the aim of balancing their partial currents flowing through them, the input voltages of the individual DC/DC converters are measured and compared for comparing the partial powers flowing through the at least two DC/DC converters. 5. The method of claim 1 , wherein, when the at least two DC/DC converters are operated with the aim of balancing the partial currents flowing through them, the actual partial currents flowing through the individual DC/DC converters are compared for an initial comparison of the partial powers flowing through the at least two DC/DC converters. 6. The method of claim 1 , wherein, when operating the first and the second DC/DC converter adjusted due to the conclusion that different strings are connected to the DC voltage link via the first and the second of the at least two DC/DC converters, the first and the second of the at least two DC/DC converters are no longer operated with the aim of balancing the partial currents flowing through them. 7. The method of claim 1 , wherein, when operating the first and the second DC/DC converter adjusted due to the conclusion that different strings are connected to the DC voltage link via the first and the second of the at least two DC/DC converters, the first and the second of the at least two DC/DC converters are operated to track separate maximum power points (MPPs) of the connected strings. 8. The method of claim 1 , wherein initially either all DC/DC converters are operated with the aim of balancing the partial currents flowing through them or all DC/DC converters are connected through. 9. The method of claim 1 , wherein, prior to either operating the at least two DC/DC converters with the aim of balancing the partial currents flowing through them or connecting through the at least two DC/DC converters, measuring the input voltages present at at least some of the input connectors in an unloaded state of the connected strings, wherein subsequently all DC/DC converters in which the measured input voltages at the associated input connectors are substantially equal are either operated with the aim of balancing the partial currents flowing through them, or connected through between the input connectors and the DC voltage link. 10. The method of claim 1 , wherein, prior to either operating the at least two DC/DC converters with the aim of balancing the partial currents flowing through them or connecting through the at least two DC/DC converters, individually operating at least one DC/DC converter in order to selectively load all strings which are connected thereto to the DC voltage link, wherein the input voltages present at all input connectors are monitored, and wherein subsequently all DC/DC converters in which the input voltages at the associated input connectors dropped as a consequence of the load are either operated with the aim of balancing the partial currents flowing through them or connected through between the input connectors and the DC voltage link. 11. The method of claim 1 , further comprising shutting off a sufficient number of DC/DC converters of a plurality of DC/DC converters via which the very same strings are connected to the DC voltage link so that the remaining DC/DC converters of this plurality of DC/DC converters forward the current from these strings at a maximum efficiency to the DC voltage link. 12. The method of claim 1 , further comprising storing information about via which DC/DC converters different strings are connected to the DC voltage link. 13. The method of claim 12 , further comprising using the information about via which DC/DC converters different strings are connected to the DC voltage link for operating the DC/DC converters of the inverter. 14. The method of claim 13 , further comprising comparing the information about via which DC/DC converters different strings are connected to the DC voltage link to previously determined information, and wherein in case that the information determined at last differs from the previously determined information an alarm signal is generated. 15. An inverter, comprising: a plurality of input connectors configured to couple to a plurality of strings of photovoltaic cells, wherein the plurality of input connectors are bridgeable; a plurality of DC/DC converters coupled between the plurality of input connectors respectively and a common DC voltage link; and a controller operably coupled to each of the plurality of DC/DC converters, wherein the controller is configured to: determine partial powers flowing through the individual DC/DC converters; and at least for some time either operate at least two of the DC/DC converters with the aim of balancing partial currents flowing through these at least two DC/DC converters, or connect through the at least two of the DC/DC converters between the respective input connectors and the DC voltage link, wherein, while operating the at least two DC/DC converters with the aim of balancing the partial currents flowing through them or connecting through the at least two DC/DC converters, the partial powers flowing through the at least two DC/DC converters are compared to each other, and wherein, if a difference between the partial powers of a first and a second of the at least two DC/DC converters exceeds a threshold value, the first and the second of the at least two DC/DC converters are subsequently operated in a way that is adjusted due to a conclusion that different strings are connected to the DC voltage link via the first and the second of the at least two DC/DC converters.