Fuel cell device and method for operating a fuel cell device

The invention claimed is: 1. A fuel cell device, comprising a media system for supplying fluid media to electrochemical units of the fuel cell device and/or for discharging fluid media from the electrochemical units of the fuel cell device, wherein the media system comprises at least one valve to which, in a standard operating state of the fuel cell device, an electrical standard input power is suppliable in order to maintain the valve in a desired valve state, wherein the fuel cell device is switchable into a heating operating state in which an electrical heating input power that is greater than the electrical standard input power is suppliable to the at least one valve, and wherein the valve in the heating operating state is controllable with pulse width modulation. 2. The fuel cell device in accordance with claim 1 , wherein the valve is electromagnetically or electromotively actuatable. 3. The fuel cell device in accordance with claim 1 , wherein the electrical heating input power is limitable such that overheating of the valve is avoided. 4. The fuel cell device in accordance with claim 1 , wherein the valve in the heating operating state is permanently closed or permanently open. 5. The fuel cell device in accordance with claim 1 , wherein the valve in the heating operating state is maintainable in a predetermined valve state between the completely closed state and the completely open state. 6. The fuel cell device in accordance with claim 1 , wherein the electrical heating input power suppliable to the valve in the heating operating state is below a switching threshold input power which is required for switching the valve into a different valve state. 7. The fuel cell device in accordance with claim 1 , wherein the valve in the heating operating state is able to be applied with an electrical heating voltage, the polarity of which is opposite to the polarity of an electrical switching voltage required for switching the valve into a different valve state. 8. The fuel cell device in accordance with claim 1 , wherein the electrical heating input power supplied to the valve in the heating operating state is variable in dependence on a measured variable correlating with formation of ice in the media system of the fuel cell device. 9. The fuel cell device in accordance with claim 1 , wherein the valve in the heating operating state remains in a predetermined valve state. 10. The fuel cell device in accordance with claim 1 , wherein the valve in the heating operating state changes between a plurality of different valve states. 11. The fuel cell device in accordance with claim 1 , wherein the fuel cell device comprises a measuring device for determining an electrical internal resistance of an actuating device of the valve. 12. The fuel cell device in accordance with claim 1 , wherein the at least one valve is configured as a medium shut-off valve, as a pressure-regulating valve, as a drainage valve, as a purge valve, or as a combined purge/drainage valve. 13. The fuel cell device in accordance with claim 1 , wherein the fuel cell device comprises a pressure sensor and/or a concentration sensor, from the signal of which it is determinable whether a blockage due to ice formation is present in the media system, wherein the fuel cell device is switchable into the heating operating state or into the standard operating state in dependence on the result of the determination. 14. A method for operating a fuel cell device which comprises a media system for supplying fluid media to electrochemical units of the fuel cell device and/or for discharging fluid media from the electrochemical units of the fuel cell device, wherein the media system comprises at least one valve, wherein the method comprises the following: determining whether there is a risk of ice formation in the media system of the fuel cell device; switching the fuel cell device into a standard operating state or into a heating operating state in dependence on the result of the determination; supplying an electrical standard input power to the valve in order to maintain the valve in a desired valve state when the fuel cell device is in the standard operating state; and supplying an electrical heating input power to the valve when the fuel cell device is in the heating operating state; wherein the heating input power is greater than the standard input power, and wherein the valve is controlled by pulse width modulation in the heating operating state. 15. A fuel cell device, comprising a media system for supplying fluid media to electrochemical units of the fuel cell device and/or for discharging fluid media from the electrochemical units of the fuel cell device, wherein the media system comprises at least one valve to which, in a standard operating state of the fuel cell device, an electrical standard input power is suppliable in order to maintain the valve in a desired valve state, wherein the fuel cell device is switchable into a heating operating state in which an electrical heating input power that is greater than the electrical standard input power is suppliable to the at least one valve, and wherein the electrical heating input power suppliable to the valve in the heating operating state is below a switching threshold input power which is required for switching the valve into a different valve state. 16. A fuel cell device, comprising a media system for supplying fluid media to electrochemical units of the fuel cell device and/or for discharging fluid media from the electrochemical units of the fuel cell device, wherein the media system comprises at least one valve to which, in a standard operating state of the fuel cell device, an electrical standard input power is suppliable in order to maintain the valve in a desired valve state, wherein the fuel cell device is switchable into a heating operating state in which an electrical heating input power that is greater than the electrical standard input power is suppliable to the at least one valve, and wherein the valve in the heating operating state is able to be applied with an electrical heating voltage, the polarity of which is opposite to the polarity of an electrical switching voltage required for switching the valve into a different valve state. 17. A fuel cell device, comprising a media system for supplying fluid media to electrochemical units of the fuel cell device and/or for discharging fluid media from the electrochemical units of the fuel cell device, wherein the media system comprises at least one valve to which, in a standard operating state of the fuel cell device, an electrical standard input power is suppliable in order to maintain the valve in a desired valve state, wherein the fuel cell device is switchable into a heating operating state in which an electrical heating input power that is greater than the electrical standard input power is suppliable to the at least one valve, and wherein the fuel cell device comprises a pressure sensor and/or a concentration sensor, from the signal of which it is determinable whether a blockage due to ice formation is present in the media system, wherein the fuel cell device is switchable into the heating operating state or into the standard operating state in dependence on the result of the determination.