Reconfigurable antenna

The invention claimed is: 1. A reconfigurable antenna comprising: a balanced antenna and an unbalanced antenna, wherein the unbalanced antenna is mounted on a supporting substrate having an end and a conductive ground plane extending across the supporting substrate but not extending across the end, the unbalanced antenna being laterally spaced from the conductive ground plane by a gap, and the unbalanced antenna consisting of a single non-resonant element that is etched onto the supporting substrate and fed against the conductive ground plane, wherein both the balanced antenna and the unbalanced antenna are located substantially at the end of the substrate, wherein the balanced antenna comprises a pair of arms with respective first portions extending away from each other along the end of the substrate and respective second portions extending from ends of the respective first portions along sides of the end of the substrate so as to define a footprint at the end of the substrate, wherein each of the balanced and the unbalanced antenna is provided with at least one matching circuit including at least one variable capacitor to tune a frequency of the respective antenna over a particular frequency range to a desired operating frequency, the at least one matching circuit for the balanced antenna being coupled to a first signal port and the at least one matching circuit for the unbalanced antenna being coupled to a second signal port, and wherein the unbalanced antenna is at least partially enclosed by the footprint of the balanced antenna. 2. The antenna according to claim 1 , wherein the antenna is configured to cover one or more of: DVB-H, GSM710, GSM850, GSM900, GSM 1800, PCS1900, GPS1575, UMTS2100, Wi-Fi®, Bluetooth®, LTE, LTA or 4G frequency bands. 3. The antenna according to claim 1 , wherein different modes of operation are available by selecting different matching circuits for at least one of the balanced antenna or the unbalanced antenna, and wherein switches are provided to select a desired matching circuits for a particular mode of operation. 4. The antenna according to claim 1 , wherein the respective at least one variable capacitor of at least one of the balanced antenna or the unbalanced antenna is constituted by multiple fixed capacitors with switches, a varactor or a MEMs capacitor. 5. The antenna according to claim 1 , wherein at least one of each signal port or each matching circuit is associated with a different polarisation. 6. The antenna according to claim 1 , wherein the balanced antenna and the unbalanced antenna are provided with substantially centrally located feed lines. 7. The antenna according to claim 1 , wherein the unbalanced antenna is bracket-shaped having a first element substantially parallel to the substrate and a second element substantially perpendicular to the substrate. 8. The antenna according to claim 1 , wherein the pair of arms of the balanced antenna comprises two inwardly facing L-shaped arms. 9. The antenna according to claim 8 , wherein the balanced antenna is bracket-shaped with each arm having at least one perpendicular element. 10. The antenna according to claim 8 , wherein a first arm is configured as a floating ground plane for a second arm. 11. The antenna according to claim 10 , wherein the at least one matching circuit for the balanced antenna is mounted on the floating ground plane. 12. The antenna according to claim 1 , wherein the balanced antenna is constituted by a printed dipole. 13. The antenna according to claim 1 , wherein the substrate is substantially rectangular but with a cut-out located beneath the balanced antenna. 14. The antenna according to claim 1 , wherein the balanced antenna and the unbalanced antenna are provided on opposite surfaces of the substrate. 15. The antenna according to claim 1 , wherein the conductive ground plane is printed on a first surface of the substrate, and wherein the unbalanced antenna is also provided on the first surface. 16. The antenna according to claim 1 , wherein a 90 degree phase difference is provided between each signal port or matching circuit at the respective desired operating frequency, the antenna further comprising a control system which is connected to each port and which is configured to select a desired operating mode. 17. The antenna according to claim 1 , wherein the antenna is configured as a chassis antenna for use in a portable device or configured for Multiple-Input-Multiple-Output (MIMO) applications. 18. The antenna according to claim 1 , wherein the substrate is constituted by a printed circuit board. 19. The antenna according to claim 1 , wherein the balanced antenna is fed against a floating ground plane. 20. The antenna according to claim 19 , wherein the at least one matching circuit for the balanced antenna is mounted on the floating ground plane. 21. A portable electronic device comprising: a reconfigurable antenna, wherein the reconfigurable antenna comprises: a balanced antenna and an unbalanced antenna, wherein the unbalanced antenna is mounted on a supporting substrate having an end and a conductive ground plane extending across the supporting substrate but not extending across the end, the unbalanced antenna being laterally spaced from the conductive ground plane by a gap, and the unbalanced antenna consisting of a single non-resonant element that is etched onto the supporting substrate and fed against the conductive ground plane, wherein both the balanced antenna and the unbalanced antenna are located substantially at the end of the substrate, wherein the balanced antenna comprises a pair of arms with respective first portions extending away from each other along the end of the substrate and respective second portions extending from ends of the respective first portions along sides of the end of the substrate so as to define a footprint at the end of the substrate, wherein each of the balanced and the unbalanced antenna is provided with at least one matching circuit including at least one variable capacitor to tune a frequency of the respective antenna over a particular frequency range to a desired operating frequency, the at least one matching circuit for the balanced antenna being coupled to a first signal port and the at least one matching circuit for the unbalanced antenna being coupled to a second signal port, and wherein the unbalanced antenna is at least partially enclosed by the footprint of the balanced antenna.