Device for temporarily taking over electrical current from an energy transfer or distribution device, when needed

What we claim is: 1. A device for the on-demand short-term transfer of an electrical current from an energy transmission or distribution device, the device comprising: at least one line branch connected to the energy transmission or distribution device, the at least one line branch comprising a plurality of power semiconductor switching elements arranged in series and/or parallel to one another; and a control unit for controlling the plurality of power semiconductor switching elements; wherein the control unit switches on the plurality of power semiconductor switching elements by applying an increased control voltage to the plurality of power semiconductor switching elements, the increased control voltage being above a maximum permissible control voltage specified by a manufacturer of the plurality of power semiconductor switching elements for continuous operation of the plurality of power semiconductor switching elements, thereby causing an increased current flow through the plurality of power semiconductor switching elements, the increased current flow being at least double a nominal operating current; and wherein the control unit switches off the plurality of power semiconductor switching elements by switching off the increased control voltage while the plurality of power semiconductor switching elements conducts the increased current flow; the magnitude of the increased control voltage being dependent on a predetermined total lifetime until a breakdown of an oxide layer of the plurality of power semiconductor switching elements, an estimated total duty cycle of the plurality of power semiconductor switching elements as the sum of the estimated duty times of all expected switch-on processes, and a reduction in lifetime estimated based on the expected switching-on processes to achieve the predetermined lifetime without causing damage to the plurality of power semiconductor switching elements. 2. The device according to claim 1 , wherein the increased control voltage is between 1.5 times and 4 times the maximum permissible control voltage. 3. The device according to claim 1 , wherein the increased current flow is between a short-circuit current at a recommended control voltage and 27 times the nominal operating current. 4. The device according to claim 1 , wherein the energy transmission or distribution device is a high-voltage direct current (HVDC) transmission line, and wherein each of the plurality of power semiconductor switching elements includes at least one insulated gate bipolar transistor (IGBT). 5. The device according to claim 1 , wherein the at least one line branch comprises a main current branch and a bypass branch, the main current branch being connected in series to the energy transmission or distribution device, and the bypass branch being connected in parallel to the main current branch; wherein the main current branch comprises an electronic auxiliary switch connected in series with a mechanical disconnecting switch; and wherein the bypass branch comprises an electronic main switch having a second plurality of power semiconductor switching elements. 6. The device according to claim 5 , wherein the electronic auxiliary switch comprises a third plurality of power semiconductor switching elements connected in series, the third plurality of power semiconductor switching elements being arranged for a lower nominal power and for lower conduction losses than the second plurality of power semiconductor switching elements of the electronic main switch. 7. The device of claim 5 , wherein, in normal operation, the electronic auxiliary switch is switched on conductively, the mechanical disconnecting switch is closed, and a current flows through the main current branch, and wherein, when a fault is detected in the energy transmission or distribution device, the electronic auxiliary switch is first opened and the second plurality of power semiconductor switching elements of the electronic main switch are energized with the increased control voltage to commutate the increased current flow to the bypass branch, then the mechanical switch is opened and then the electronic main switch is opened to interrupt the increased current flow in the bypass branch. 8. The device according to claim 1 incorporated in a power converter, wherein the at least one line branch comprises a plurality of parallel-connected branches, whereby each branch of the plurality of parallel-connected branches comprises at least two series-connected electronic switches, which are controlled by the control unit to convert a first power with first current and voltage characteristics into a second power with second current and voltage characteristics. 9. The device according to claim 8 , wherein the at least two series-connected electronic switches each comprise a plurality of series-connected and/or parallel-connected power semiconductor switching elements that are controlled in the normal operation of the power converter with the increased control voltage according to a determined pulse pattern. 10. The device according to claim 9 , wherein the power converter comprises a chopper resistor device for protection against a surge voltage in a DC intermediate circuit of the power converter, wherein the chopper resistor device is connected in parallel to the plurality of parallel branches of the power converter, and has a series circuit of at least one resistor and one electronic switch, whereby the electronic switch is formed from the plurality of series-connected or parallel-connected power semiconductor switching elements which, when the voltage in the DC voltage intermediate circuit exceeds a predetermined threshold, are energized for a short time, in a pulsed manner, and repeatedly with the increased control voltage. 11. The device according to claim 1 , wherein the control unit is adapted to energize the plurality of power semiconductor switching elements with a second control voltage, the second control voltage being less than the increased control voltage when the plurality of power semiconductor switching elements is switched on, and greater than the maximum permissible control voltage specified for continuous operation.