Antenna for a bone-anchored hearing aid

The invention claimed is: 1. A bone-anchored hearing aid for a recipient comprising: an antenna configured to transmit and/or receive a wireless signal, an electronic circuit configured to receive the wireless signal, one or more vibrator leads, a vibrator configured for receiving an electrical signal from the electronic circuit via the one or more vibrator leads, and the vibrator is configured to provide a vibrational stimulation to the recipient patient based on the electrical signal, and a vibrator housing configured to accommodate at least the vibrator, and wherein each of the one or more vibrator leads is connected to the vibrator and to the vibrator housing via a capacitance, and where the capacitance is configured to eliminate at least a parasitic coupling between the vibrator and the vibrator housing for improving the performance of the antenna; and wherein the capacitance includes a stack of layers, comprising: first layer including a conductive material, and the first layer is connected to the electronic circuit via the one or more vibrator leads, a second layer wherein the first layer is arranged on a primary surface of the second layer, and wherein a secondary surface of the second layer is connected to the vibrator housing, and wherein the second layer is configured to provide the capacitive coupling between the first layer and the vibrator housing. 2. A bone-anchored hearing aid according to claim 1 , wherein the vibrator includes a piezoelectric actuator and/or an electromagnetic vibrator. 3. A bone-anchored hearing aid according to claim 2 , wherein the capacitance is arranged on an outer surface of the vibrator housing. 4. A bone-anchored hearing aid according to claim 2 , wherein the vibrator includes a plurality of vibrator means, and the plurality of vibrator means includes at least a coil, a permanent magnet, and/or a piezo-element, and the one or more vibrator leads is connected to one or more of the plurality of vibrator means. 5. A bone-anchored hearing aid according to claim 2 , wherein the vibrator housing is the antenna unit, or a ground plane to the antenna unit, or a parasitic resonator to the antenna unit, and where the capacitance is configured to improve the performance of the antenna by removing unwanted resonances in the performance of the antenna. 6. A bone-anchored hearing aid according to claim 1 , wherein the capacitance is arranged on an outer surface of the vibrator housing. 7. A bone-anchored hearing aid according to claim 6 , wherein the vibrator includes a plurality of vibrator means, and the plurality of vibrator means includes at least a coil, a permanent magnet, and/or a piezo-element, and the one or more vibrator leads is connected to one or more of the plurality of vibrator means. 8. A bone-anchored hearing aid according to claim 1 , wherein the vibrator includes a plurality of vibrator means, and the plurality of vibrator means includes at least a coil, a permanent magnet, and/or a piezo-element, and the one or more vibrator leads is connected to one or more of the plurality of vibrator means. 9. A bone-anchored hearing aid according to claim 1 , wherein the secondary surface of the second layer is arranged on an outer surface of the vibrator housing via an adhesive material. 10. A bone-anchored hearing aid according to claim 1 , wherein an electrical size of the capacitance is determined by: the area of the conductive material of the first layer and a thickness of the second layer, or the area of the conductive material of the first layer and a thickness of the second layer and the adhesive material, or the area of each of two separate sections of the first layer and a thickness of the second layer, or the area of each of the two separate sections of the first layer and a thickness of the second layer and a thickness of the adhesive material. 11. A bone-anchored hearing aid according to claim 1 , wherein the vibrator housing is the antenna unit, or a ground plane to the antenna unit, or a parasitic resonator to the antenna unit, and where the capacitance is configured to improve the performance of the antenna by removing unwanted resonances in the performance of the antenna. 12. A bone-anchored hearing aid according to claim 1 , wherein the one or more vibrator leads are arranged in a flexible printed circuit board, wherein the flexible printed circuit board includes at least a first layer and a second layer, and wherein the one or more vibrator leads are arranged between the first layer and the second layer. 13. A bone-anchored hearing aid according to claim 12 , wherein the first layer and the second layer are configured to shield the one or more vibrator leads from unwanted electro-magnetic interference. 14. A bone-anchored hearing aid according to claim 1 , wherein the vibrator is decoupled from the electronic circuit via decoupling means. 15. A bone-anchored hearing aid according to claim 14 , wherein the decoupling means include a coil or another resonant decoupling component. 16. A bone-anchored hearing aid according to claim 1 , comprising a microphone unit configured to receive an acoustical wave, and wherein the electrical signal is provided based on the acoustical wave, or, the electrical signal is provided by a signal received by the antenna. 17. A bone-anchored hearing aid according to claim 1 , wherein the vibrator includes a plurality of vibrator means, and the plurality of vibrator means includes at least a coil, a permanent magnet, and/or a piezo-element, and the one or more vibrator leads is connected to one or more of the plurality of vibrator means.