Method for operating an electrified motor vehicle and means for its implementation

What is claimed is: 1. A method for operating a motor vehicle having a vehicle electrical system, the method comprising: ascertaining an actual load of at least one semiconductor switch based on an establishment of past load events at at least one point in time, wherein the vehicle electrical system includes the at least one semiconductor switch, which during the operation of the motor vehicle is loaded with load events based on at least one load-influencing factor, and for which a service life load relationship is predefined, which indicates a nominal service life for a nominal load, and with which for the at least one point in time within the nominal service life a nominal load proportion corresponding to the at least one point in time is ascertainable; ascertaining the nominal load proportion corresponding to the at least one point in time with the predefined service life load relationship; and comparing the actual load and the nominal load proportion at the at least one point in time, and reducing the at least one load-influencing factor when the actual load exceeds the nominal load proportion at the at least one point in time by more than a predefined tolerance value, the tolerance value being predefined based on a timing of the at least one point in time within the nominal service life. 2. The method of claim 1 , wherein at least one power loss and at least one temperature profile of the at least one semiconductor switch, and temperature lifts of the temperature profile, are determined for ascertaining the actual load, the actual load being derived from the determined temperature lifts. 3. The method of claim 2 , wherein at least one value of a temperature sensor in or on a cooling medium of the at least one semiconductor switch is used to determine the temperature profile of the at least one semiconductor switch. 4. The method of claim 3 , wherein the temperature profile of the at least one semiconductor switch is ascertained from the at least one value of the temperature sensor with the aid of a convolution method and/or a thermal model. 5. The method of claim 2 , wherein at least one observer model is used to determine the temperature profile of the at least one semiconductor switch. 6. The method of claim 2 , wherein an online rain flow method is used to determine the temperature lifts of the temperature profile. 7. The method of claim 1 , which is carried out at at least one first point in time and at a second point in time, in which, when the at least one load-influencing factor is reduced at the first point in time because the actual load exceeds the nominal load proportion at the first point in time by more than the predefined tolerance value at the first point in time, the at least one load-influencing factor is increased at the second point in time when the actual load does not exceed the nominal load proportion at the second point in time by more than the predefined tolerance value at the second point in time. 8. The method of claim 7 , wherein the at least one load-influencing factor includes a generator-related and/or motor-related power of an electric machine in the vehicle electrical system having the at least one semiconductor switch. 9. The method of claim 7 , wherein the service life load relationship is predefined in the form of a load characteristic curve. 10. An arithmetic unit for operating a motor vehicle having a vehicle electrical system, comprising: an ascertaining arrangement to ascertain an actual load of at least one semiconductor switch based on an establishment of past load events at at least one point in time, wherein the vehicle electrical system includes the at least one semiconductor switch, which during the operation of the motor vehicle is loaded with load events based on at least one load-influencing factor, and for which a service life load relationship is predefined, which indicates a nominal service life for a nominal load, and with which for the at least one point in time within the nominal service life a nominal load proportion corresponding to the at least one point in time is ascertainable; another ascertaining arrangement ascertain to the nominal load proportion corresponding to the at least one point in time with the predefined service life load relationship; and a comparing arrangement to compare the actual load and the nominal load proportion at the at least one point in time, and reducing the at least one load-influencing factor when the actual load exceeds the nominal load proportion at the at least one point in time by more than a predefined tolerance value, the tolerance value being predefined based on a timing of the at least one point in time within the nominal service life. 11. The arithmetic unit of claim 10 , wherein at least one power loss and at least one temperature profile of the at least one semiconductor switch, and temperature lifts of the temperature profile, are determined for ascertaining the actual load, the actual load being derived from the determined temperature lifts. 12. A machine-readable storage medium having a computer program, which is executable by a processor, comprising: a program code arrangement having program code for operating a motor vehicle having a vehicle electrical system, by performing the following: ascertaining an actual load of at least one semiconductor switch based on an establishment of past load events at at least one point in time, wherein the vehicle electrical system includes the at least one semiconductor switch, which during the operation of the motor vehicle is loaded with load events based on at least one load-influencing factor, and for which a service life load relationship is predefined, which indicates a nominal service life for a nominal load, and with which for the at least one point in time within the nominal service life a nominal load proportion corresponding to the at least one point in time is ascertainable; ascertaining the nominal load proportion corresponding to the at least one point in time with the predefined service life load relationship; and comparing the actual load and the nominal load proportion at the at least one point in time, and reducing the at least one load-influencing factor when the actual load exceeds the nominal load proportion at the at least one point in time by more than a predefined tolerance value, the tolerance value being predefined based on a timing of the at least one point in time within the nominal service life.