Method and device for determining a rotor temperature, computer program, and computer program product

The invention claimed is: 1. A computer-implemented method for determining a rotor temperature of an electric machine, the method comprising: exciting the electric machine with an alternating current; determining, with an electronic processor and a current sensor, a first rotor temperature as a function of reactive powers, a first reactive power calculated based on stator phase voltage and stator current measured by a current sensor and a second reactive power calculated based on a flux model, having motor parameters, stator frequency, and current as input variables, determining, with the electronic processor, a second rotor temperature as a function of losses of the electrical machine, the losses being losses in power, depending on an operating range of the electric machine, checking, with the electronic processor, a plausibility of the first rotor temperature by ascertaining a temperature change as a function of the losses and using the temperature change as a limit value in the determination of the first rotor temperature, and controlling, via the electronic processor, torque of the electric machine based on at least one selected from the consisting group of the first temperature and the second temperature. 2. The method as claimed in claim 1 , wherein when the operating range of the electric machine is a part-load operating range the first rotor temperature is replaced by the second rotor temperature. 3. The method as claimed in claim 1 , wherein system-dependent errors are ascertained and stored in a characteristic map as a function of at least one reactive power for the determination of the first rotor temperature. 4. The method as claimed in claim 1 , wherein the second rotor temperature is plausibility-checked by the first rotor temperature. 5. The method as claimed in claim 3 , wherein the system-dependent errors are measured before the start-up of the electric machine. 6. The method as claimed in claim 1 , wherein the first rotor temperature is replaced by the second rotor temperature when the electric machine is stopped, wherein the electric machine is excited with the alternating current in order to determine an electric resistance of the electric machine, and the second rotor temperature is determined as a function of the electric resistance. 7. A device for operating an electric machine, the device configured to: excite the electric machine with an alternating current, determine, with an electronic processor, a first rotor temperature as a function of reactive powers, a first reactive power calculated based on a stator phase voltage and a stator current measured by a current sensor and a second reactive power calculated based on a flux model, having motor parameters, stator frequency, and current as input variables, determine, with the electronic processor, a second rotor temperature as a function of losses of the electrical machine, the losses being losses in power, depending on an operating range of the electric machine, check, with the electronic processor, a plausibility of the first rotor temperature by ascertaining a temperature change as a function of the losses and using the temperature change as a limit value in the determination of the first rotor temperature, and control, via the electronic processor, torque of the electric machine based on at least one selected from the consisting group of the first temperature and the second temperature. 8. A non-transitory, computer readable medium connected to an electronic processor and comprising instructions that when run with the electronic processor cause the electronic processor to excite an electric machine with an alternating current, determine a first rotor temperature as a function of reactive powers, a first reactive power calculated based on a stator phase voltage and a stator current measured by a current sensor and a second reactive power calculated based on a flux model, having motor parameters, stator frequency, and current as input variables, determine a second rotor temperature as a function of losses of the electrical machine, the losses being losses in power, depending on an operating range of the electric machine, check a plausibility of the first rotor temperature by ascertaining a temperature change as a function of the losses and using the temperature change as a limit value in the determination of the first rotor temperature, and control, via the electronic processor, torque of the electric machine based on at least one selected from the consisting group of the first temperature and the second temperature.