Control device for a DC-to-DC converter of an electrical drive system, and a method for operating a DC-to-DC converter

The invention claimed is: 1. A control device ( 7 ) for actuating a DC-to-DC converter ( 6 ), comprising: a voltage regulator ( 20 ), configured to regulate the output voltage (UA) of the DC-to-DC converter ( 6 ) as the control variable, and a current regulator ( 30 ), configured to regulate the output current (IA) of the DC-to-DC converter ( 6 ) as the control variable, wherein the control device ( 7 ) is designed to receive an operating mode selection signal ( 4 a ) and adjust the voltage regulator ( 20 ) as a function of the operating mode selection signal ( 4 a ) such that said voltage regulator ( 20 ) limits the output voltage (UA) of the DC-to-DC converter ( 6 ) to a predetermined constant maximum voltage (UM), and to adjust the current regulator ( 30 ) such that said current regulator ( 30 ) uses the difference between a predetermined nominal output voltage (US) and the output voltage (UA) of the DC-to-DC converter ( 6 ) as the control deviation. 2. The control device ( 7 ) according to claim 1 , wherein the maximum voltage (UM) is greater than the nominal output voltage (US). 3. The control device ( 7 ) according to claim 1 , wherein the operating mode selection signal ( 4 a ) indicates whether the input voltage (UE) of the DC-to-DC converter ( 6 ) is provided by an electrical machine ( 5 ) and wherein the control device ( 7 ) is designed to operate the DC-to-DC converter ( 6 ) in a current-controlled manner if the input voltage (UE) of said DC-to-DC converter ( 6 ) is provided by an electrical machine ( 5 ). 4. An electrical drive system ( 10 ) comprising: a high-voltage intermediate circuit ( 2 ) which is fed by a high voltage source ( 1 ); a pulse-controlled inverter ( 3 ) which is coupled to the high-voltage intermediate circuit ( 2 ); an electrical machine ( 5 ) which is coupled to the pulse-controlled inverter ( 3 ); a DC-to-DC converter ( 6 ) which is coupled to the pulse-controlled inverter ( 3 ) and the high-voltage intermediate circuit ( 2 ) and is designed to convert a high voltage (UE) from the high-voltage intermediate circuit ( 2 ) into a low voltage (UA) for a vehicle electrical system; a low-voltage battery ( 8 ) which is coupled to the DC-to-DC converter ( 6 ); a plurality of selectively-connectable electrical consumers ( 9 a , 9 b ) of a vehicle electrical system, which are coupled to the low-voltage battery ( 8 ) and the DC-to-DC converter ( 6 ); and a control device ( 7 ) according to claim 1 which is designed to actuate the DC-to-DC converter ( 6 ) in order to supply the low-voltage battery ( 8 ) and the plurality of vehicle electrical system consumers ( 9 a , 9 b ) with a low voltage (UA) from the high voltage intermediate circuit ( 2 ). 5. The electrical drive system ( 10 ) according to claim 4 , wherein the control device ( 7 ) is designed to adjust the current control equipment ( 3 ) such that the difference between a predetermined nominal output voltage (US) and the output voltage (UA) of the DC-to-DC converter ( 6 ) is used as the control deviation if the electrical machine ( 5 ) is operated in the generator mode and the high-voltage intermediate circuit ( 2 ) is fed by the pulse-controlled inverter ( 3 ) and the electrical machine ( 5 ). 6. The electrical drive system ( 10 ) according to claim 4 further comprising: a power inverter control device ( 4 ) which is designed to actuate the pulse-controlled inverter ( 3 ) in a voltage control mode in order to supply the high-voltage intermediate circuit ( 5 ) by the electrical machine ( 5 ) in the event of a failure of the high voltage source ( 1 ). 7. The electrical drive system ( 10 ) according to claim 6 , wherein the power inverter control device ( 4 ) is designed to output an operating mode selection signal ( 4 a ) to the control device ( 7 ), said signal indicating that said power inverter control device ( 4 ) is actuating the pulse-controlled inverter ( 3 ) in a voltage control mode. 8. A method ( 60 ) for operating a DC-to-DC converter ( 6 ), the method comprising: determining ( 61 ) whether the input voltage (UE) of the DC-to-DC converter ( 6 ) is provided by an electrical machine ( 5 ) in a generator mode and outputting a corresponding operating mode selection signal ( 4 a ); operating ( 62 ) the DC-to-DC converter ( 6 ) in a current-controlled manner as a function of the operating mode selection signal ( 4 a ), wherein the operation of the DC-to-DC converter ( 6 ) comprises: limiting ( 62 a ) the output voltage (UA) of the DC-to-DC converter ( 6 ) to a predetermined constant maximum voltage (UM); and regulating ( 62 b ) the output current of the DC-to-DC converter ( 6 ) to a control deviation which is formed by the difference between a predetermined nominal output voltage (US) of the DC-to-DC converter ( 6 ) and the output voltage (UA) of said DC-to-DC converter ( 6 ). 9. The method ( 60 ) according to claim 8 , wherein the maximum voltage (UM) is greater than the nominal output voltage (US).