Arc detection device, corresponding method, and electronic component

The invention claimed is: 1. A detection device for detecting an arc occurring between a first current-carrying element and a second current-carrying element or between the first current-carrying element and/or the second current-carrying element and a housing of an electronic component, the detection device comprising: a first measuring device which is designed to measure a current flowing through the first current-carrying element; a second measuring device which is designed to measure a current flowing through the first current-carrying element; and an analysis device which is designed, through comparing the frequency spectrum of the current measured by the first measuring device with the frequency spectrum of the current measured by the second measuring device, to detect whether the arc is occurring between the first current-carrying element and the second current-carrying element or between the first current-carrying element and/or the second current-carrying element and the housing of the electronic component, wherein a common-mode filter is connected between the first current-carrying element and the second current-carrying element between the first measuring device and the second measuring device. 2. The detection device as claimed in claim 1 , wherein the first measuring device comprises a Hall sensor and/or a coupling line parallel to the first current-carrying element. 3. An electronic component, having a first current-carrying element; a second current-carrying element; and a detection device that includes a first measuring device which is designed to measure a current flowing through the first current-carrying element; a second measuring device which is designed to measure a current flowing through the first current-carrying element; and an analysis device which is designed to determine a frequency spectrum of the measured current from the first measuring device and from the second measuring device, and compare the frequency spectrum of the current measured by the first measuring device with the frequency spectrum of the current measured by the second measuring device, to detect whether an arc has occurred between the first current-carrying element and the second current-carrying element or between the first current-carrying element and/or the second current-carrying element and a housing of the electronic component. 4. The electronic component as claimed in claim 3 , wherein a current path with a switch is inserted between the first current-carrying element and the second current-carrying element; and wherein the analysis device is designed to close the switch as soon as the analysis device has detected an arc. 5. The electronic component as claimed in claim 4 , wherein the switch comprises a power contactor and/or a solenoid switch. 6. The electronic component as claimed in claim 4 , wherein, when the switch closes, a current source which generates the current is short-circuited through a fuse and the current path. 7. The electronic component as claimed in claim 4 , wherein the housing at least partially encloses the first current-carrying element, the second current-carrying element, and the switch; and wherein the housing comprises an electrically insulating coating at least in some sections in a surrounding area of the switch. 8. The electronic component as claimed in claim 3 , wherein a common-mode filter is connected between the first current-carrying element and the second current-carrying element between the first measuring device and the second measuring device. 9. A method for detecting an arc occurring between a first current-carrying element and a conductive element, the method comprising: measuring a current flowing through the first current-carrying element; determining a frequency spectrum of the measured current; detecting an arc occurring between the first current-carrying element and the conductive element on the basis of a high-frequency range of the frequency spectrum that has been determined; and closing a switch inserted in a current path between the first current-carrying element and the conductive element as soon as the arc is detected, wherein, when the switch closes, a current source which generates the current is short-circuited through a fuse and the current path. 10. The method as claimed in claim 9 , wherein the at least one conductive element comprises a second current-carrying element, and the switch is in the current path between the first current-carrying element and the second current-carrying element. 11. The method as claimed in claim 10 , wherein the fuse is disposed in series with the first current-carrying element and the current source.