Method for operating an active rectifier, circuit system, and computer program for controlling a switching between modes of operation of an active rectifier

What is claimed is: 1. A method for operating an active rectifier including a plurality of controllable semiconductor switching elements, in which a switch is carried out between a first control mode and a second control mode for controlling the semiconductor switching elements, and vice versa, the operation in the first control mode occurring during an active rectifier operation and the operation in the second control mode occurring during a phase short circuit until a condition for returning to the control mode sets in, the semiconductor switching elements being controlled with a first switching time in the first control mode and with a second switching time in the second control mode, the second switching time being greater than the first switching time, the method comprising: a) detecting an output variable value of an electrical output variable of the rectifier; b) comparing the output variable value to a threshold value; and c) switching from the first control mode into the second control mode when the output variable value is greater than the threshold value. 2. The method as recited in claim 1 , further comprising: d) detecting an operating variable value of an electrical operating variable of one of the semiconductor switching elements; e) comparing the operating variable value to a comparative value; and f) switching from the second control mode into the first control mode when the operating variable value is greater than the comparative value. 3. The method as recited in claim 2 , wherein a voltage is used as the electrical operating variable. 4. The method as recited in claim 3 , wherein MOSFETs which each have a body diode are used as the semiconductor switching elements, a source-drain voltage of one of the semiconductor switching elements being used as the voltage. 5. The method as recited in claim 4 , wherein the value of the voltage is between 0 volts and a voltage which drops across the body diode. 6. The method as recited in claim 2 , wherein: an output-side load dump at the rectifier is detected; and a switch is carried out from the first control mode into the second control mode in response to the output-side load dump. 7. The method as recited in claim 6 , wherein for the detection of the load dump: a value of an electrical output variable of the rectifier is detected; the value of the electrical output variable is compared to a threshold value; and a switch is carried out from the first control mode into the second control mode when the value is greater than the threshold value. 8. The method as recited in claim 7 , wherein the electrical output variable is filtered to determine the value. 9. The method as recited in claim 8 , wherein an electric output voltage is used as the electrical output variable. 10. A method for operating an active rectifier including a plurality of controllable semiconductor switching elements, in which a switch is carried out between a first control mode and a second control mode for controlling the semiconductor switching elements, and vice versa, the operation in the first control mode occurring during an active rectifier operation and the operation in the second control mode occurring during a phase short circuit until a condition for returning to the control mode sets in, the semiconductor switching elements being controlled with a first switching time in the first control mode and with a second switching time in the second control mode, the second switching time being greater than the first switching time, the method comprising: d) detecting an operating variable value of an electrical operating variable of one of the semiconductor switching elements; e) comparing the operating variable value to a comparative value; and f) switching from the second control mode into the first control mode when the operating variable value is greater than the comparative value. 11. A circuit system, comprising: an active rectifier having a plurality of controllable semiconductor switching elements, the semiconductor switching elements being operable in a first control mode and in a second control mode, the semiconductor switching elements being controllable with a first switching time in the first control mode and with a second switching time in the second control mode, the second switching time being greater than the first switching time; and a control unit, configured to: a) detect an output variable value of an electrical output variable of the rectifier; b) compare the output variable value to a threshold value; c) switch from the first control mode into the second control mode when the output variable value is greater than the threshold value; d) detect an operating variable value of an electrical operating variable of one of the semiconductor switching elements; e) compare the operating variable value to a comparative value; and f) switch from the second control mode into the first control mode when the operating variable value is greater than the comparative value. 12. A non-transitory machine-readable storage medium storing a computer program for operating an active rectifier including a plurality of controllable semiconductor switching elements, in which a switch is carried out between a first control mode and a second control mode for controlling the semiconductor switching elements, and vice versa, the operation in the first control mode occurring during an active rectifier operation and the operation in the second control mode occurring during a phase short circuit until a condition for returning to the control mode sets in, the semiconductor switching elements being controlled with a first switching time in the first control mode and with a second switching time in the second control mode, the second switching time being greater than the first switching time, the computer program, when executed on a processor, causing the processor to perform: a) detecting an output variable value of an electrical output variable of the rectifier; b) comparing the output variable value to a threshold value; c) switching from the first control mode into the second control mode when the output variable value is greater than the threshold value; d) detecting an operating variable value of an electrical operating variable of one of the semiconductor switching elements; e) comparing the operating variable value to a comparative value; and f) switching from the second control mode into the first control mode when the operating variable value is greater than the comparative value.