Power supply with surge voltage protection

The invention claimed is: 1. A Power supply for feeding a device with an electrical power, including a surge voltage protection arrangement with a surge protection device connected between two current conductors of the power supply, wherein the surge voltage protection arrangement further includes a device for determining a comparison voltage, a controllable switch connected in series with the surge protection device and a switch control having a comparison device for performing a comparison of the comparison voltage with a threshold where the switch control is adapted to control a switching of the switch in dependency of a result of the comparison such that the switch is switched on if the comparison voltage is higher than the threshold, wherein the device for determining the comparison voltage includes a detection unit for detecting a rate of change of a current flowing in at least one of the current conductors and where the detection unit is adapted to determine the comparison voltage based on the detected rate of change. 2. The power supply according to claim 1 , where the surge protection device is chosen such that an effective clamping voltage of the surge protection device is lower than a maximal nominal operating voltage of the device. 3. The power supply according to claim 1 , where the device for determining the comparison voltage includes a voltage detection device that is adapted to determine a voltage between the two current conductors as the comparison voltage. 4. The power supply according to claim 1 , where the switch control is adapted to switch the switch off if at least one of the following conditions is fulfilled: a) a predetermined amount of time has lapsed since switching on of the switch, b) the comparison voltage is no longer above the threshold, c) a predetermined amount of time has lapsed since the comparison voltage is no longer above the threshold. 5. The power supply according to claim 1 , where the power supply has an AC input. 6. The power supply according to claim 5 , where one of the current conductors is a phase conductor of the power supply and the other conductor is a phase conductor or a neutral conductor of the power supply. 7. The power supply according to claim 5 , including a rectifier, particularly a bridge rectifier, where the series circuit of the surge protection device and the switch is connected between two output conductors of the rectifier and where a capacitor is preferably connected across an output of the rectifier. 8. The power supply according to claim 7 , where the series circuit of the surge protection device and the switch is connected directly behind the rectifier. 9. The power supply according to claim 7 , where the surge voltage protection arrangement includes an inductivity arranged in one of the current conductors and connected in series with the surge protection device for limiting a current flow through the surge protection device, particularly a current flow at a beginning of a surge voltage. 10. The power supply according to claim 9 , where the inductivity is connected upstream of the rectifier. 11. The power supply according to claim 1 , where the switch includes an electrically controllable switch. 12. The power supply according to claim 11 , where the switch includes an IGBT and where an emitter of the IGBT is connected to a first one of the output conductors, the surge protection device is connected between a second one of the output conductors and a collector of the IGBT, and where a control output of the switch control is connected to a gate of the IGBT. 13. The power supply according to claim 1 , where the power supply is a three phase power supply, where an inductivity is arranged in each of the three phase conductors of the power supply. 14. An electrically operable device including a power supply according to claim 1 . 15. A method for protecting a power supply for feeding a device with an electrical power against a surge voltage, including the step of a) connecting a surge protection device between two current conductors of the power supply, b) connecting a controllable switch in series with the surge protection device, c) determining a comparison voltage with a voltage detection device by detecting a rate of change of a current flowing in at least one of the current conductors with a detection unit, and determining the comparison voltage based on the detected rate of change, d) comparing the comparison voltage with a threshold, and e) switching the switch on if the comparison voltage is higher than the threshold. 16. A power supply for feeding a device with an electrical power, including a surge voltage protection arrangement with a surge protection device connected between two current conductors of the power supply, wherein the surge voltage protection arrangement further includes a device for determining a comparison voltage, a controllable switch connected in series with the surge protection device and a switch control having a comparison device for performing a comparison of the comparison voltage with a threshold where the switch control is adapted to control a switching of the switch in dependency of a result of the comparison such that the switch is switched on if the comparison voltage is higher than the threshold, wherein the device for determining the comparison voltage includes a detection unit for detecting a rate of change of a current flowing in at least one of the current conductors and where the detection unit is adapted to determine the comparison voltage based on the detected rate of change and wherein the detection unit is adapted to determine the comparison voltage as being proportional to the detected rate of change. 17. A method for protecting a power supply for feeding a device with an electrical power against a surge voltage, including the step of f) connecting a surge protection device between two current conductors of the power supply, g) connecting a controllable switch in series with the surge protection device, h) determining a comparison voltage with a voltage detection device by detecting a rate of change of a current flowing in at least one of the current conductors with a detection unit and determining the comparison voltage based on the detected rate of change as being proportional to the detected rate of change, i) comparing the comparison voltage with a threshold, and j) switching the switch on if the comparison voltage is higher than the threshold.