Method and device for determining the absolute position of a component of an actuator rotating about a rotational axis, in particular a clutch actuator

The invention claimed is: 1. A method for determining an absolute position of a component of an actuator rotating about a rotational axis, wherein the component comprises a rotating magnetic element, the method comprising: providing a multi-turn sensor opposite to the rotating magnetic element configured to determine the absolute position of the magnetic element; supplying a voltage to the multi-turn sensor; monitoring a position of the magnetic element, by a Wiegand wire unit, which detects a movement of the component when the actuator is switched off; supplying the multi-turn sensor with voltage by a battery when the actuator is switched off and the multi-turn sensor is in a standby state; in the event of detected motion, transferring a voltage pulse from the Wiegand wire unit directly to the multi-turn sensor for measuring a current position of the component; and changing the multi-turn sensor from the standby state to an operating state after receiving the voltage pulse transmitted from the Wiegand wire unit. 2. The method as claimed in claim 1 , further comprising the multi-turn sensor measuring and storing the current position of the component and then returning to the standby state. 3. The method as claimed in claim 1 , further comprising triggering the voltage pulse by the Wiegand wire unit when the position of the magnetic element has changed by at least 180°. 4. The method as claimed in claim 1 , further comprising that when the actuator is switched on, supplying the multi-turn sensor with voltage by a supply voltage of a control unit and determining at least one of an angle of the component or rotations of the component by the multi-turn sensor. 5. A device for determining an absolute position of a component rotating about a rotational axis of an actuator, the device comprising: a multi-turn sensor configured to determine the absolute position of the component which comprises a magnetic element that follows a rotational movement of the component; a Wiegand wire unit configured to monitor the position of the magnetic element, the Wiegand wire unit is connected to a wake-up connection of sensor electronics of the multi-turn sensor in a standby state and is adapted to change the multi-turn sensor to an operating state by transferring a voltage pulse directly to the multi-turn sensor; and a battery configured to supply the multi-turn sensor with voltage when the actuator is switched off and the multi-turn sensor is in the standby state. 6. The device as claimed in claim 5 , wherein when in the operating state the multi-turn sensor is connected to a supply voltage of a control unit. 7. The method of claim 1 , wherein the actuator is a clutch actuator. 8. The device of claim 5 , wherein the actuator is a clutch actuator. 9. A method for determining an absolute position of a rotating component of an actuator that rotates about a rotational axis, the method comprising: providing a magnetic element on the rotating component; providing a multi-turn sensor opposite to the magnetic element, the multi-turn sensor being configured to determine the absolute position of the magnetic element supplying a voltage to the multi-turn sensor via a battery when the actuator is switched off and the multi-turn sensor is in a standby state; monitoring a position of the magnetic element, using a Wiegand wire unit, which detects a movement of the component when the actuator is switched off; upon detecting a motion, the Wiegand wire unit transferring a voltage pulse to a wake-up connection of the multi-turn sensor for measuring a current position of the component; and changing the multi-turn sensor from the standby state to an operating state after receiving the voltage pulse transmitted from the Wiegand wire unit. 10. The method of claim 9 , further comprising the multi-turn sensor measuring and storing the current position of the component and then returning to the standby state. 11. The method of claim 9 , further comprising triggering the voltage pulse by the Wiegand wire unit when the position of the magnetic element has changed by at least 180°. 12. The method of claim 9 , further comprising the Wiegand wire unit switching on the actuator, supplying the multi-turn sensor with voltage by a supply voltage of a control unit, and determining at least one of an angle of the component or rotations of the component using the multi-turn sensor.