Multi-function scalable antenna array

The invention claimed is: 1. A radio frequency (RF) device comprising: a computer; a pulses-per-second (PPS) signal source outputting a PPS signal; and N base units where N is an integer greater than or equal to two, each base unit including: a differential segmented aperture (DSA) tile including a support board and a two-dimensional (2D) array of electrically conductive tapered projections disposed on the support board with the electrically conductive tapered projections tapering in a direction extending away from the support board, wherein neighboring pairs of the electrically conductive tapered projections form RF pixels; and at least one RF unit (RFU) having RF connections with the DSA tile to transmit and/or receive RF signals via the RF pixels of the DSA tile and operatively connected to transfer digital data to and/or from the computer; wherein the RFUs of the N base units are programmed to operate the DSA tiles as a phased RF array with the digital data transferred to and/or from the computer being synchronized using the PPS signal. 2. The RF device of claim 1 wherein the PPS signal source comprises a digital clock. 3. The RF device of claim 1 wherein: the computer is connected with the RFUs via a wired digital data network; and the PPS signal source is connected to communicate the PPS signal to the RFUs via the wired digital data network. 4. The RF device of claim 3 wherein the wired digital data network comprises an Ethernet. 5. The RF device of claim 3 wherein the PPS signal complies with a precision time protocol (PTP) standard. 6. The RF device of claim 1 wherein the RFUs are configured to digitize RF signals received from the DSA via the RF connections when the RFUs operate the phased RF array in a receive mode. 7. The RF device of claim 1 wherein the RFUs are configured to convert a digital signal received from the computer to an analog RF signal and to send the analog RF signal to the DSA via the RF connections to be transmitted by the DSA when the RFUs operate the phased RF array in a transmit mode. 8. The RF device of claim 1 wherein the phased RF array has a bandwidth of at least 2 GHz. 9. The RF device of claim 1 wherein the phased RF array is configured to implement an IEEE 802.11 communication protocol. 10. The RF device of claim 1 wherein the phased RF array is configured to implement an HPSA+ communication protocol. 11. The RF device of claim 1 wherein the phased RF array is configured to implement a WiMAX communication protocol. 12. The RF device of claim 1 wherein the phased RF array is configured to implement a 3GPP communication protocol. 13. The RF device of claim 1 wherein the phased RF array is configured to implement an ATSC communication protocol. 14. A radio frequency (RF) device comprising: a differential segmented aperture (DSA) including a support board and a two-dimensional (2D) array of electrically conductive tapered projections disposed on the support board with the electrically conductive tapered projections tapering in a direction extending away from the support board, wherein neighboring pairs of the electrically conductive tapered projections form RF pixels; and at least one RF unit (RFU) having RF connections with the DSA to transmit and/or receive RF signals via the RF pixels of the DSA, wherein the at least one RFU is configured to receive a pulses-per-second (PPS) signal and synchronize digital data transferred between the at least one RFU and an associated computer using the PPS signal. 15. The RF device of claim 14 wherein the at least one RFU comprises an RF integrated circuit (RFIC), or an RF system-on-module (RFSOM) comprising one or more integrated circuits (IC) s disposed on a single printed circuit board (PCB). 16. The RF device of claim 14 wherein the at least one RFU is connected with the DSA by RF connections and the at least one RFU is configured to digitize RF signals received from the DSA via the RF connections when the at least one RFU operates the RF device in a receive mode. 17. The RF device of claim 14 wherein the at least one RFU is connected with the DSA by RF connections and the at least one RFU is configured to convert a received digital signal to an analog RF signal and to send the analog RF signal to the DSA via the RF connections to be transmitted by the DSA when the at least one RFU operates the RF device in a transmit mode. 18. The RF device of claim 14 wherein the DSA has a bandwidth of at least 2 GHz. 19. The RF device of claim 14 wherein the RF device is configured to implement an IEEE 802.11 communication protocol, an HPSA+communication protocol, a WiMAX communication protocol, a 3GPP communication protocol, and/or an ATSC communication protocol.