METHOD AND DEVICE FOR OPERATING AN ELECTRIC MACHINE FOR OUTPUTTING A PREDEFINED TORQUE AND A PREDEFINED ROTATIONAL SPEED

Abstract

The invention relates to a method and device for operating an electric machine (10) for outputting a predefined torque and a predefined rotational speed, comprising the following steps: providing (420) a first and a second operating mode for the operation of the electric machine (10); detecting (430) a temperature of the electric machine (10); and operating the electric machine (10) in the first operating mode (440) if the detected temperature falls below a threshold value, and operating the electric machine (10) in the second operating mode (450) if the detected temperature corresponds with the threshold value or exceeds same. During the operation of the electric machine (10) in the second operating mode (450), with the resulting output of the predefined torque and the predefined rotational speed, the magnetic stator flux of the electric machine (10) is reduced compared with the magnetic stator flux of the electric machine (10) during the operation of the electric machine (10) in the first operating mode (440), with the resulting output of the predefined torque and the predefined rotational speed.

Claims

1. A method (400) for operating an electric machine (10) for outputting a predetermined torque and a predetermined rotational speed, the method comprising: providing (420) a first and a second operating mode for the operation of the electric machine (10); detecting (430) a temperature of the electric machine (10); operating the electric machine (10) in the first operating mode (440) when the detected temperature is below a threshold value and operating the electric machine (10) in the second operating mode (450) when the detected temperature equal or exceeds the threshold value, wherein, when the electric machine (10) is operated in the second operating mode (450), the magnetic stator flux of the electric machine (10) is reduced in comparison to the magnetic stator flux of the electric machine (10) when the electric machine (10) is operated in the first operating mode (440).

2. A method (400) for controlling the electric machine (10) as claimed in claim 1, wherein, in the second operating mode (450), the reduction of the magnetic stator flux of the electric machine (10) takes place via a field weakening controller.

3. The method (400) for controlling the electric machine (10) as claimed in claim 1, wherein, in the second operating mode (450), the reduction of the magnetic stator flux of the electric machine (10) takes place by increasing the negative d-current.

4. The method (400) for controlling the electric machine (10) as claimed in claim 1, further comprising detecting a temperature of the electric machine (10) and wherein, in the second operating mode (450), the magnetic stator flux of the electric machine (10) is reduced when the detected temperature of the electric machine (10) increases.

5. The method (400) for controlling the electric machine (10) as claimed in claim 1, wherein detecting a temperature of the electric machine (10) includes determining a temperature of the rotor (20) of the electric machine (10) or determining a temperature of the magnets (30) of the electric machine (10).

6. (canceled)

7. A non-transitory computer-readable storage medium containing instructions that when executed by a computer cause the computer to determine a temperature of an electric machine (10); operate the electric machine (10) in a first operating mode (440) when the determined temperature is below a threshold value; and operate the electric machine (10) in a second operating mode (450) when the determined temperature equal or exceeds the threshold value, wherein, when the electric machine (10) is operated in the second operating mode (450), the magnetic stator flux of the electric machine (10) is reduced in comparison to the magnetic stator flux of the electric machine (10) when the electric machine (10) is operated in the first operating mode (440).

8. A logic unit (110) for operating an electric machine (10) for outputting a predetermined torque and a predetermined rotational speed, wherein the logic unit (110) is configured to provide a first and a second operating mode for operating the electric machine (10), to detect a temperature of the electric machine (10); to operate the electric machine (10) in the first operating mode when the detected temperature is below a threshold value and to operate the electric machine (10) in the second operating mode when the detected temperature corresponds to the threshold value or exceeds this, wherein, when the electric machine (10) is operated in the second operating mode, the magnetic stator flux of the electric machine (10) is reduced in comparison to the magnetic stator flux of the electric machine (10) when the electric machine (10) is operated in the first operating mode.

9. A device (140) comprising a logic unit (110) as claimed in claim 8.

10. A drive train (200) of a vehicle (300) having a logic unit (110), the logic unit (110) is configured to determine a temperature of an electric machine (10); to operate the electric machine (10) in the first operating mode when the detected temperature is below a threshold value and to operate the electric machine (10) in the second operating mode when the detected temperature corresponds to the threshold value or exceeds this, wherein, when the electric machine (10) is operated in the second operating mode, the magnetic stator flux of the electric machine (10) is reduced in comparison to the magnetic stator flux of the electric machine (10) when the electric machine (10) is operated in the first operating mode.

11. A vehicle (300) having a drive train (200) as claimed in claim 10.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] Further features and advantages of embodiments of the invention are revealed in the description below, with reference to the accompanying drawings.

[0026] The invention shall be explained in more detail below, with the aid of several figures, which show:

[0027] FIG. 1 a schematic illustration of a device having a logic unit for operating an electric machine,

[0028] FIG. 2 a schematically illustrated vehicle having a drive train,

[0029] FIG. 3 a schematically illustrated flow chart for a method for operating an electric machine.

DETAILED DESCRIPTION

[0030] FIG. 1 shows a device 140, which comprises a control unit 150 and a logic unit 110 for operating an electric machine 10. The logic unit 110 operates or controls the electric machine 10 subject to a detected temperature of the electric machine 10. The logic unit 110 can be arranged separately from the electric machine 10, for example in a control device 150 or in an inverter. The logic unit 110, the control device 150 and/or the electric machine 10 can further be arranged together within a housing or within a device 140.

[0031] FIG. 2 shows a schematically illustrated vehicle 300 having a drive train 200. By way of example, the illustration shows a vehicle having four wheels 170, wherein the invention can equally be used in any vehicle having any number of wheels on land, on water and in the air. By way of example, the drive train 200 comprises a battery 160 for supplying the electric machine 10 of the drive train 200. The drive train further preferably comprises a control device 150 or an inverter, which converts a direct current from the battery 160 into an alternating current. The electric machine 10 is coupled at least to one of the wheels 170 and is designed to drive this.

[0032] FIG. 3 shows a schematic sequence of a method 400 for operating an electric machine 10 for outputting a predetermined torque and a predetermined rotational speed. The method begins with step 410. A first and a second operating mode for operating the electric machine 10 are provided in step 420. A temperature of the electric machine 10 is detected in step 430. In step 440, the operation of the electric machine 10 takes place in the first operating mode when the detected temperature is below a threshold value. In step 450, the operation of the electric machine 10 takes place in the second operating mode when the detected temperature corresponds to the threshold value or exceeds this. When the electric machine 10 is operated in the second operating mode with the resultant output of the predetermined torque and the predetermined rotational speed, the magnetic stator flux of the electric machine 10 is reduced in comparison to the magnetic stator flux of the electric machine 10 when the electric machine 10 is operated in the first operating mode with the resultant output of the predetermined torque and the predetermined rotational speed. The method ends with step 460.