Mobile communication device with improved antenna performance

We claim: 1. A mobile communication device comprising: a ground plane; a main antenna comprising a main radiator that can couple electromagnetically to the ground plane and to a first signal path; a diversity antenna comprising a diversity radiator; a reconfigurable input matching circuit that couples the diversity radiator to the ground plane and to a second signal path; a control unit coupled to the reconfigurable input matching circuit and adapted to change the coupling of the diversity radiator to the ground plane during operation, wherein the reconfigurable input matching circuit comprises a tunable capacitor, wherein the diversity radiator is connected to the ground plane via a path that comprises the tunable capacitor, and wherein the capacitance of the tunable capacitor is set to a maximum value when the diversity antenna is inactive. 2. The mobile communication device according to claim 1 , wherein the capacitance of the tunable capacitor is set to value below a maximum value when the diversity antenna is active. 3. The mobile communication device according to claim 1 , wherein the reconfigurable input matching circuit comprises a second tunable capacitor and a sensing coil. 4. The mobile communication device according to claim 1 , further comprising a second reconfigurable input matching circuit, wherein the main radiator is coupled to the first signal path via the second reconfigurable input matching circuit, and wherein the control unit is coupled to the second reconfigurable input matching circuit and adapted to change the coupling of the main radiator to the first signal path during operation. 5. The mobile communication device according to claim 1 , wherein the main antenna and the diversity antenna are specified for a LTE communication device. 6. The mobile communication device according to claim 1 , wherein the main radiator and the diversity radiator are arranged at opposite ends of the ground plane. 7. The mobile communication device according to claim 1 , further comprising a printed wiring board wherein the ground plane, the control unit and the reconfigurable input matching circuit are arranged on the printed wiring board. 8. The mobile communication device according to claim 1 , wherein coupling the diversity radiator to the ground plane enhances the performance of the main antenna in a GSM operation mode, in a WCDMA operation mode, or in a LTE TDD operation mode. 9. The mobile communication device according to claim 1 , comprising two or more main antennas wherein each main antenna comprises a main radiator. 10. The mobile communication device according to claim 1 , comprising two or more diversity antennas wherein each diversity antenna comprises a diversity radiator, each diversity radiator being connected to a reconfigurable input matching circuit that couples the respective diversity radiator to the ground plane and to a diversity signal path, wherein the control unit can change the coupling of each diversity radiator (DRAD) to the ground plane during operation. 11. A method for enhancing the performance of a mobile communication device, wherein the mobile communication device comprises a ground plane, a main antenna comprising a main radiator that can couple electromagnetically to the ground plane and to a first signal path, a diversity antenna comprising a diversity radiator, a reconfigurable input matching circuit that couples the diversity radiator to the ground plane and to a second signal path, and a control unit coupled to the reconfigurable input matching circuit and adapted to change the coupling of the diversity radiator to the ground plane during operation, wherein the control unit reconfigures the reconfigurable input matching circuit during operation of the device to change the coupling of the diversity radiator to the ground plane and to enhance the performance of the main antenna, wherein the reconfigurable input matching circuit comprises a tunable capacitor, wherein the diversity radiator is connected to the ground plane via a path that comprises the tunable capacitor, and wherein the control unit sets the capacitance of the tunable capacitor to a maximum value when the diversity radiator is inactive. 12. The method according to claim 11 , wherein during operation of the main antenna with an inactive diversity antenna, the control unit reconfigures the reconfigurable input matching circuit to provide a coupling of the diversity radiator to the ground plane that is lower-ohmic compared to the coupling of the diversity radiator to the second signal path. 13. The method according to claim 11 or 12 , wherein during simultaneous operation of the main and the diversity, the control unit reconfigures the reconfigurable input matching circuit to provide a coupling of the diversity radiator to the ground plane that is higher-ohmic compared to the coupling of the diversity radiator to the second signal path. 14. The method according to claim 11 , wherein the control unit sets the capacitance of the tunable capacitor to a value below a maximum value when the diversity radiator is active. 15. A mobile communication device comprising: a ground plane; a main antenna comprising a main radiator that can couple electromagnetically to the ground plane and to a first signal path; a diversity antenna comprising a diversity radiator; a reconfigurable input matching circuit that couples the diversity radiator to the ground plane and to a second signal path; and a control unit coupled to the reconfigurable input matching circuit and adapted to change the coupling of the diversity radiator to the ground plane during operation, wherein, during operation of the main antenna with an inactive diversity antenna, the control unit is configured to reconfigure the reconfigurable input matching circuit to provide a coupling of the diversity radiator to the ground plane that is lower ohmic compared to the coupling of the diversity radiator to the second signal path.