Device and method for detecting a position of a position indicator

The invention claimed is: 1. A device for detecting a position of a position indicator, comprising: an electrical magnetic field source configured to generate a magnetic field when an electrical current flows through the electrical magnetic field source; a sensor configured to detect the magnetic field and provide sensor signals based on the magnetic field detected, the sensor comprising at least two 3D sensors each of which is configured to detect three spatial direction components of the magnetic field and output a signal corresponding to the respective spatial direction component; an evaluator configured to receive the sensor signals and determine the position of the position indicator based on the sensor signals when the magnetic field in the surroundings of the electrical magnetic field source is influenced by the position indicator; wherein the evaluator is configured to differentially measure, for determining the position of the position indicator, the magnetic field using the sensor signals of the at least two 3D sensors; wherein the device comprises an electrical energy source configured to provide the electrical magnetic field source with an electrical alternating current, and wherein the evaluator is configured to sample the sensor signals using a sample clock, wherein the sample clock and a frequency of the electrical alternating voltage are synchronized; or wherein the electrical magnetic field source is a coil and comprises a ferromagnetic coil core configured to amplify the magnetic field generated by the electrical magnetic field source. 2. The device in accordance with claim 1 , comprising the electrical energy source and further comprising an electrical capacitor connected to the electrical magnetic field source such that the electrical magnetic field source and the electrical capacitor form an electrical oscillating circuit comprising a resonant frequency, wherein the electrical energy source is configured to excite the oscillating circuit at its resonant frequency. 3. The device in accordance with claim 1 , comprising the electrical energy source, wherein the electrical energy source is configured to provide the electrical magnetic field source with a discontinuous alternating voltage of alternating sign. 4. The device in accordance with claim 1 , wherein the evaluator is configured to determine the position of the position indicator based on a lock-in method or a chopper method by excluding a potentially disturbing external field from a differential measurement of the magnetic field with an exciter current of positive or negative sign at the electrical magnetic field source. 5. The device in accordance with claim 1 , wherein the electrical magnetic field source and the sensor comprise a constant relative position to each other. 6. The device in accordance with claim 1 , wherein the position indicator and the sensor comprise a constant relative position to each other. 7. The device in accordance with claim 1 , wherein the position indicator and the sensor comprise a position variable relative to a position of the electrical magnetic field source. 8. A system comprising a device for detecting a position of a position indicator in accordance with claim 1 and an element movable relative to the sensor or the electrical magnetic field source, the movable element being connected to the position indicator or the movable element being the position indicator; wherein the position indicator comprises greater a distance to the electrical magnetic field source than to the sensor. 9. The system in accordance with claim 8 , wherein the electrical magnetic field source and the sensor comprise a constant relative position to each other. 10. The system in accordance with claim 8 , wherein the position indicator and the sensor comprise a constant relative position to each other. 11. The system in accordance with claim 8 , wherein the position indicator and the sensor comprise a position variable relative to a position of the electrical magnetic field source. 12. A system comprising a device for detecting a position of a position indicator in accordance with claim 1 , wherein the sensor and the electrical magnetic field source are arranged in a common casing. 13. The system in accordance with claim 12 , wherein the electrical magnetic field source and the sensor comprise a constant relative position to each other. 14. The system in accordance with claim 12 , wherein the position indicator and the sensor comprise a constant relative position to each other. 15. The system in accordance with claim 12 , wherein the position indicator and the sensor comprise a position variable relative to a position of the electrical magnetic field source. 16. A system comprising a device for detecting a position of a position indicator in accordance with claim 1 and an element movable relative to the sensor or the electrical magnetic field source, the movable element being connected to the position indicator or the movable element being the position indicator; wherein the sensor comprises a greater distance to the electrical magnetic field source than a distance between the sensor and the position indicator. 17. The system in accordance with claim 16 , wherein the electrical magnetic field source and the sensor comprise a constant relative position to each other. 18. The system in accordance with claim 16 , wherein the position indicator and the sensor comprise a constant relative position to each other. 19. The system in accordance with claim 16 , wherein the position indicator and the sensor comprise a position variable relative to a position of the electrical magnetic field source. 20. A device for detecting a position of a position indicator, comprising: an electrical magnetic field source generating a magnetic field when an electrical current flows through the electrical magnetic field source; a sensor configured to detect a magnetic field and to provide sensor signals based on the magnetic field detected, the sensor comprising at least two Hall sensors for detecting three spatial direction components of the magnetic field influenced by the position indicator, the sensors being configured to output a signal corresponding to the respective spatial direction component; an evaluator configured to receive the sensor signals and determine the position of the position indicator based on the sensor signals when the magnetic field in a surroundings of the electrical magnetic field source is influenced by the position indicator; wherein the device comprises an electrical energy source configured to provide the electrical magnetic field source with an electrical alternating current, and wherein the evaluator is configured to sample the sensor signals using a sample clock, wherein the sample clock and a frequency of the electrical alternating voltage are synchronized; or wherein the electrical magnetic field source is a coil and comprises a ferromagnetic coil core configured to amplify the magnetic field generated by the electrical magnetic field source. 21. The device in accordance with claim 20 , wherein the at least two Hall sensors are arranged to be spaced apart from one another and configured to detect an equal spatial direction component of the magnetic field and to output a signal corresponding to the spatial direction component. 22. A method for detecting a position of a position indicator, comprising: generating a magnetic field by means of an electrical current by providing an electrical m