Configurable wide scan angle array

The invention claimed is: 1. An antenna array structure comprising: a planar array reflector; a central beam forming antenna array located on the planar array reflector and configured to form radio frequency (RF) signals having a beam peak that is adjustable within a central scan angle range relative to a propagation axis that is normal to the array reflector; and a wide beam forming antenna array located on the surface of the planar array reflector and configured to form RF signals with a beam peak that is adjustable within a wide angle scan range that at least partially exceeds the central scan angle range, wherein the wide beam forming antenna array includes an array of configurable reversible inverted F-antenna (RIFA) units. 2. The antenna array structure of claim 1 wherein the central beam forming antenna array includes an array of antenna elements that are polarized approximately parallel to the array reflector, and the RIFA units of the wide beam forming antenna array are polarized approximately parallel to the propagation axis and orthogonal to the antenna elements of the central beam forming antenna array. 3. The antenna array structure of claim 2 wherein rows of the antenna elements of the central beam forming antenna array alternate with rows of the RIFA units of the wide beam forming antenna array on the array reflector. 4. The antenna array structure of claim 1 wherein the central beam forming antenna array includes a first array of first antenna elements and a second array of second antenna elements, wherein each first antenna element is co-located with a respective one of the second antenna element, the first antenna elements and second antenna elements having different polarizations. 5. The antenna array structure of claim 4 wherein the first antenna elements and second antenna elements are polarized orthogonally to each other. 6. The antenna array structure of claim 5 wherein the first antenna elements and second antenna elements are each dipole antenna elements. 7. The antenna array structure of claim 1 wherein the central beam forming antenna array includes antenna elements that are polarized parallel to a plane of the array reflector and that are one of: dipole antenna elements; slot antenna elements; slot coupled patch antenna elements; probe fed patch antenna elements; linear polarized antenna element and circular polarized antenna elements. 8. The antenna array structure of claim 1 wherein the RIFA units of the wide beam forming antenna array are polarized in a direction that is normal to a plane of the array reflector. 9. The antenna array structure of claim 1 wherein each RIFA unit comprises: a feed portion electrically coupling the RIFA unit to an RF feed; at least a first selective grounding portion and a second selective grounding portion, each selective grounding portion being configured to selectively enable or disable an electrical coupling to a ground plane of the planar array reflector; a first conductive arm providing electrical conduction between the feed portion and the first selective grounding portion, extending from the first selective grounding portion towards the feed portion and extending beyond the feed portion; and at least a second conductive arm providing electrical conduction between the feed portion and the second selective grounding portion, extending from the second selective grounding portion towards the feed portion and extending beyond the feed portion; the feed portion, the first selective grounding portion and the first conductive arm together defining a first inverted F antenna (IFA) element of the RIFA unit; the feed portion, the second selective grounding portion and the second conductive arm together defining at least a second IFA element of the RIFA antenna unit; the feed portion being common to both the first and at least the second IFA elements. 10. The antenna array structure of claim 9 wherein the first and second IFA elements are polarized in a direction that is normal to a plane of the array reflector, and oriented to propagate in opposing directions. 11. The antenna array of claim 10 wherein the central scan angle range is not more than +/−40° relative to the propagation axis that is normal to the array reflector. 12. The antenna array of claim 11 wherein the wide angle scan range is from not less than 35° to not more than 75° and from not more than −35° to not less than −75° relative to the propagation axis that is normal to the array reflector. 13. The antenna array structure of claim 1 comprising a controller configured to independently adjust a phase and an amplitude of an RF signal for each of a plurality of first antenna elements that are included in the central beam forming antenna array and each of the RIFA units that are included in the wide beam forming antenna array to cause the antenna array structure to form a collective RF signal having a beam peak that corresponds to a desired propagation angle. 14. The antenna array structure of claim 13 wherein the controller is configured to use the central beam forming antenna array to form the collective RF signal when the desired propagation angle falls within the central scan angle range and to use the wide beam forming antenna array to form the collective RF signal when the desired propagation angle falls within the wide scan angle range. 15. The antenna array structure of claim 14 wherein the controller is configured to use both the central beam forming antenna array and the wide beam forming antenna array to form the collective RF signal when the desired propagation angle falls within a scan angle range that is within an overlapping region of the central scan angle range and the wide scan angle range. 16. The antenna array structure of claim 13 wherein the controller is configured to use only the central beam forming antenna array to form the collective RF signal when the desired propagation angle falls within the central scan angle range and to use only the wide beam forming antenna array to form the collective RF signal when the desired propagation angle falls within the wide scan angle range. 17. A method of transmitting an RF signal using an antenna array structure that comprises a planar array reflector; a central beam forming antenna array located on the planar array reflector and configured to form radio frequency (RF) signals having a beam peak that is adjustable within a central scan angle range relative to a propagation axis that is normal to the array reflector; and a wide beam forming antenna array located on the surface of the planar array reflector and configured to form RF signals with a beam peak that is adjustable within a wide angle scan range that at least partially exceeds the central scan angle range, wherein the wide beam forming antenna array includes an array of configurable reversible inverted F-antenna (RIFA) units, the method comprising: selecting at least one of the central beam forming antenna array and the wide beam forming antenna array based on a desired propagation angle; and adjusting the amplitude and phase of RF signals provided to antenna elements of the selected antenna array to achieve the desired propagation angle for transmitting the RF signal. 18. The method of claim 17 wherein selecting at least one of the central beam forming antenna array and the wide beam forming antenna array based on a desired propagation angle comprises: if the desired propagation angle falls with the central scan angle range then selecting the central beam forming antenna and if the desired propagation a