Operator control device and method for actuating functional units of a motor vehicle

The invention claimed is: 1. An operator control device for actuating functional units of a motor vehicle, the operator control device comprising: at least one operator control element moveable by an operator; an actuator configured to communicate an operation of the at least one operator control element to the operator, the actuator including: a coil element, and an armature secured to the at least one operator control element and moveable relative to the coil element; and an evaluation device configured to determine a position of the armature relative to the coil element. 2. The operator control device as claimed in claim 1 , wherein the armature is formed, at least in regions thereof, from at least one of a magnetic and a magnetizable material, and the evaluation device is configured to detect a current flow through the coil element. 3. The operator control device as claimed in claim 1 , wherein the evaluation device is configured to set a current flow through the coil element and to detect a magnetic flux density present in a region of the coil element, and the current flow set by the evaluation device is lower than a current flow necessary to move the armature. 4. The operator control device as claimed in claim 3 , wherein the current flow set by the evaluation device is pulsed. 5. The operator control device as claimed in claim 1 , wherein the evaluation device is configured to determine an operating force the operator applies to move the operator control element. 6. The operator control device as claimed in claim 1 , further comprising a control device configured to actuate the actuator based on a signal from the evaluation device. 7. The operator control device as claimed in claim 6 , wherein the evaluation device is configured to determine an operating force the operator applies to move the operator control element, and the control device is configured to actuate the actuator when the operating force determined by the evaluation device is greater than a predetermined threshold value. 8. The operator control device as claimed in claim 1 , further comprising a printed circuit board having a first side facing a second side of the operator control element to which the armature is secured, the coil element being disposed on the first side of the printed circuit board. 9. The operator control device as claimed in claim 8 , wherein the coil element is formed by conductor tracks integrated into the printed circuit board. 10. The operator control device as claimed in claim 1 , wherein the operator control device comprises a plurality of operator control elements with which a respective actuator is associated, and the plurality of operator control elements are disposed in at least one row. 11. The operator control device as claimed in claim 1 , wherein the evaluation device is configured to determine a magnetic flux density present in a region of the coil element, and to determine a penetration depth of the armature into the coil element based on the magnetic flux density and correlation parameters stored in the evaluation device. 12. The operator control device as claimed in claim 1 , wherein the evaluation device is configured to determine a current flow through the coil element, and to determine a penetration depth of the armature into the coil element based on the current flow and correlation parameters stored in the evaluation device. 13. A method for actuating functional units of a motor vehicle, the method comprising: moving, by an operator, at least one operator control element of an operator control device; moving an armature of an actuator of the operator control device secured to the at least one operator control element, by the moving of the at least one operator control element; determining, by an evaluation device of the operator control device, a position of the armature relative to a coil element of the actuator; and communicating, by movement of the armature relative to the coil element, operation of the at least one operator control element to the operator. 14. The method as claimed in claim 13 , further comprising outputting a signal, from the evaluation device to a control device of the operator control device, representing the position of the armature relative to the coil element, and the communicating comprises the control device applying a current to the coil element to cause the movement of the armature relative to the coil element. 15. The method as claimed in claim 13 , further comprising: providing a first current flow through the coil element that does not affect movement of the armature; in response to the moving of the at least one operator control element by the operator, detecting a change in a magnetic field generated by the coil element through which the current flows, the change in the magnetic field being used by the evaluation device to determine the position of the armature relative to the coil element; and determining whether an operating force applied by the operator to the at least one operator control element exceeds a predetermined threshold value based on the change in the magnetic field. 16. The method as claimed in claim 15 , further comprising: applying a second current flow to the coil element to cause the movement of the armature relative to the coil element if the operating force exceeds the predetermined threshold value; and maintaining the first current flow through the coil element if the operating force does not exceed the predetermined threshold value.