Assisted print medium receipt

The invention claimed is: 1. A method, comprising: detecting rotation of a receiving device to receive a print medium, the rotation being caused by an external force; applying an assisting force to further rotate the receiving device in response to the detected rotation; providing an electric motor to generate the assisting force; determining a current rotational speed of the electric motor; and in response to detecting the rotation of the receiving device caused by the external force, applying a driving voltage to the electric motor to generate the assisting force, wherein the driving voltage is a function of the current rotational speed of the electric motor, the function differing from a characteristic function of the electric motor and the characteristic function defining a rotational speed as a function of applied voltage, and wherein the rotation of the receiving device is detected by detecting motion of the electric motor caused by the external force. 2. The method of claim 1 , further comprising before detecting the motion of the electric motor, applying a bias voltage to the electric motor, wherein the electric motor is to set in motion when powered at least by a threshold voltage; and wherein the bias voltage is below the threshold voltage. 3. The method of claim 2 , wherein the bias voltage is a function of at least one of: ohmic resistance of the electric motor; electromagnetic inertia of the electric motor; rotational inertia of the electric motor; static friction of the electric motor; and load torque on a reel device. 4. The method of claim 1 , further comprising determining a target rotational speed of the electric motor; if the current rotational speed of the electric motor is below the target rotational speed, controlling the driving voltage to be above the voltage according to the characteristic function; and if the current rotational speed of the electric motor is above the target rotational speed, controlling the driving voltage to be below the voltage according to the characteristic function. 5. The method of claim 1 , further comprising controlling the driving voltage according to a superposition of an offset function and the characteristic function of the electric motor. 6. The method of claim 5 , wherein the offset function is constant or a linear function of the current rotational speed. 7. The method of claim 5 , wherein the characteristic function of the electric motor is a linear function. 8. A method, comprising: detecting rotation of a receiving device to receive a print medium, the rotation being caused by an external force; and applying an assisting force to further rotate the receiving device in response to the detected rotation, wherein the assisting force is generated by applying a driving voltage to an electric motor, and wherein, while the receiving device is rotating, decreasing the assisting force in response to at least one of: a predefined amount of the print medium being received by the receiving device; receiving a further external force exerted on the receiving device directed opposite to a rotation direction of the receiving device; and the receiving device rotating for a predefined time period. 9. A method, comprising providing a receiving roller to receive a print medium and an electric motor to rotate the receiving roller; applying a bias voltage to the electric motor, wherein the bias voltage is below a threshold voltage, wherein the electric motor is to set in motion when powered at least by the threshold voltage; detecting rotation of the receiving roller caused by an external force; in response to detecting the rotation of the receiving roller, applying a driving voltage to the electric motor to generate an assisting force to further rotate the receiving roller; determining a current rotational speed of the receiving roller; and controlling the driving voltage according to a predefined function of the current rotational speed of the receiving roller. 10. A device, comprising a receiving device to receive a print medium; an actuator to apply an assisting force to the receiving device when a driving voltage is applied to the actuator; and a control unit to control the actuator, detect rotation of the receiving device, and determine a current rotational speed of the actuator; wherein the control unit is to operate the actuator in response to detecting the rotation of the receiving device caused by an external force, and wherein the driving voltage is a function of the current rotational speed of the actuator, the function differing from a characteristic function of the actuator and the characteristic function defining a rotational speed as a function of applied voltage. 11. The device of claim 10 , wherein the actuator is an electric motor to be operated according to a driving voltage applied thereto, the electric motor being mechanically coupled to the receiving device, wherein the control unit is to detect an induced voltage at the electric motor caused by the rotation of the receiving device caused by the external force. 12. The device of claim 10 , wherein the control unit is further to determine a current rotational speed of the receiving device, wherein the control unit is further to control the actuator such that the receiving device operates at a target rotational speed, or wherein the control unit is further to control the actuator such that the receiving device maintains a current rotational speed. 13. The device of claim 10 , further comprising a print zone, in which a print fluid is to be deposited onto a print medium, wherein the receiving device is arranged at an output of the print zone to receive the print medium advancing from the print zone.