Hearing instrument comprising a rechargeable power source

What is claimed is: 1. A hearing instrument comprising: an audio signal source for capturing audio signals; an audio signal processing unit for processing said audio signals; means to be worn at or in a user's ear or to be implanted in a user's head for stimulating a user's hearing according to processed audio signals, and a rechargeable power source, wherein the rechargeable power source is a wound capacitor comprising a charging circuitry and a capacitor foil arrangement which comprises at least a first electrically conducting layer, a second electrically conducting layer and a dielectric layer in-between the first electrically conducting layer and the second electrically conducting layer and which is cylindrically wound in a manner so as to form a cylindrical induction coil for generating a current for wirelessly charging of the capacitor when exposed to an external alternating electromagnetic field generated by a charging device. 2. The hearing instrument of claim 1 , wherein the capacitor foil arrangement forms an electrochemical double layer capacitor. 3. The hearing instrument of claim 2 , wherein the dielectric layer is formed by an electrolyte wetting the first and second electrically conducting layer and suitable to form ionic layers of opposite polarity at the first and second electrically conducting layer, respectively, and wherein the first and second electrically conducting layer comprise a porous material. 4. The hearing instrument of claim 3 , wherein the porous material comprises activated carbon. 5. The hearing instrument of claim 1 , wherein the first and second electrically conducting layer and the dielectric layer are formed on a porous substrate. 6. The hearing instrument of claim 5 , wherein the dielectric layer is ferromagnetic. 7. The hearing instrument of claim 6 , wherein the dielectric layer comprises barium titanate. 8. The hearing instrument of claim 7 , wherein the barium titanate is provided as particles having a size of less than 10 nm. 9. The hearing instrument of claim 8 , wherein the barium titanate particles are dispersed in a solution. 10. The hearing instrument of claim 8 , wherein the barium titanate particles are sintered to form the dielectric layer. 11. The hearing instrument of claim 5 , wherein the first and second electrically conducting layers are metal layers. 12. The hearing instrument of claim 1 , wherein the capacitor foil arrangement is adapted to be discharged via discharge contacts provided at a same peripheral end of the first and second electrically conducting layer. 13. The hearing instrument of claim 1 , wherein the capacitor foil arrangement is adapted to be charged by said alternating external electromagnetic field in a manner that during first half of a cycle of the alternating external electromagnetic field a voltage induced in the capacitor foil arrangement serves to drive a charging current to an auxiliary capacitor connected to capacitor foil arrangement to charge the auxiliary capacitor and that during a second half of the cycle of the alternating external electromagnetic field a voltage at the auxiliary capacitor, together with the voltage induced in the capacitor foil arrangement, serves to drive a charging current to the capacitor foil arrangement. 14. The hearing instrument of claim 13 , wherein, for charging of the capacitor foil arrangement, a first contact of the auxiliary capacitor is connected to a first peripheral end of the second electrically conducting layer and a second contact of the auxiliary capacitor is connected in parallel via a first diode to a second peripheral end of the second electrically conducting layer and via a second diode to a second peripheral end of the first electrically conducting layer adjacent to the second peripheral end of the second electrically conducting layer, with the first and second diode being connected with opposite polarities to the second contact of the auxiliary capacitor. 15. The hearing instrument of claim 14 , wherein, for discharging of the capacitor foil arrangement, an electrical load is connected to the second peripheral end of the first electrically conducting layer and the second peripheral end of the second electrically conducting layer, respectively. 16. The hearing instrument of claim 14 , wherein a first peripheral end of the first electrically conducting layer adjacent to the first peripheral end of the second electrically conducting layer is electrically insulated. 17. The hearing instrument of claim 14 , wherein the capacitor foil arrangement comprises a third electrically conducting layer and a second dielectric layer separating the first electrically conducting layer and the third electrically conducting layer. 18. The hearing instrument of claim 17 , wherein a second auxiliary capacitor is provided, wherein, for charging of the capacitor foil arrangement, a first contact of the second auxiliary capacitor is connected to a first peripheral end of the first electrically conducting layer adjacent to the first peripheral end of the second electrically conducting layer, and the second contact of second auxiliary capacitor is connected in parallel via a third diode to the second peripheral end of the first electrically conducting layer and via a fourth diode to a second peripheral end of the third electrically conducting layer adjacent to the second peripheral end of the first electrically conducting layer, wherein the third and fourth diode are connected with opposite polarities to the second contact of the second auxiliary capacitor, wherein the second diode and the third diode are connected with opposite polarities to the first electrically conducting layer. 19. The hearing instrument of claim 13 , wherein each auxiliary capacitor is formed by layers of the capacitor foil arrangement. 20. The hearing instrument of claim 1 , wherein the audio signal source is a microphone arrangement for capturing first audio signals from ambient sound. 21. The hearing instrument of claim 1 , wherein the hearing instrument is a BTE, ITE or CIC hearing aid. 22. The hearing instrument of claim 1 , wherein the foil arrangement comprises a single, continuous, foil arrangement cylindrically wound to form a continuous cylindrical induction coil. 23. A method of charging a hearing instrument having a rechargeable power source having a wound capacitor comprising a charging circuitry and a capacitor foil arrangement which comprises at least a first electrically conducting layer, a second electrically conducting layer and a dielectric layer in-between the first electrically conducting layer and the second electrically conducting layer and which is cylindrically wound in a manner so as to form a cylindrical induction coil for generating a current for wirelessly charging of the capacitor when exposed to an external alternating electromagnetic field generated by a charging device, comprising the steps of: generating alternating external electromagnetic field for charging of the capacitor foil arrangement by inducing a voltage in the capacitor foil arrangement during a first half of a cycle of the alternating external electromagnetic to drive a charging current to an auxiliary capacitor connected to the capacitor foil arrangement to charge the auxiliary capacitor, and using a voltage at the auxiliary capacitor together with the voltage induced in the capacitor foil arrangement to drive a charging current to the capacitor foil arrangement during a second half of the cycl