Low cost active antenna system

The invention claimed is: 1. An antenna array comprising at least three radiating elements arranged in sequence, wherein alternate radiating elements have feeds configured for direct feeding from output ports of corresponding radio frequency transmitters, and wherein each radiating element situated between a pair of directly-connected elements has a feed coupled to the feeds of the adjacent directly-fed elements. 2. The array as claimed in claim 1 , wherein the directly fed elements are connected to the outputs of at least one radio frequency phase shifting circuit. 3. The array as claimed in claim 2 , wherein the phase shifting circuits are configured to provide a variable phase shift under external control. 4. The array as claimed in claim 3 , wherein the control is analog control. 5. The array as claimed in claim 3 , wherein the control is digital control. 6. The array as claimed in claim 1 , wherein each radiating element located between a pair of directly fed elements has power coupled to its feed from the two adjacent element feed lines. 7. The array as claimed in claim 6 , wherein the adjacent element feed lines are connected to a combining means the output of which is connected to the radiating element situated between the two directly fed elements. 8. A three-port vectorial combining arrangement having first and second input ports and an output port, the arrangement further comprising: a) first and second power dividers respectively connected to the first and second input ports, each configured to provide a defined sample of the input power at a first output and the remainder of the input power at a second output; b) phase detection circuitry configured to detect a phase difference between the first outputs, respectively, of the first and second power dividers and to output a control signal representative of a phase angle between RF signals applied to the first and second input ports; c) tunable phase shifter circuitry connected to the second output of at least one of the first and second power dividers, the phase shifter circuitry having a control port to receive the control signal output by the phase detection circuitry such that the phase shift introduced by the tunable phase shifter circuitry is controlled by the control signal, the tunable phase shifter circuitry having at least one output; d) a power combiner having first and second inputs respectively connected to the second outputs of the first and second power dividers, at least one of the second outputs of the first and second power dividers being routed through the tunable phase shifter circuitry, and an output; e) a further tunable phase shifter having an input connected to the output of the power combiner and a control port to receive the control signal from the phase detection circuitry, the further tunable phase shifter being configured to output to the output port of the combining arrangement an RF signal having a phase substantially equal to an arithmetic mean of the phases of two RF signals fed to the respective first and second input ports of the combining arrangement. 9. The combining arrangement as claimed in claim 8 , wherein the control signal output from the phase detection circuitry is routed to the control port of the further tunable phase shifter by way of a component configured to scale the control signal such that the phase of the output of the further tunable phase shifter is substantially equal to the arithmetic mean of the phases of two RF signals fed to the respective first and second input ports of the combining arrangement. 10. The combining arrangement as claimed in claim 8 , wherein: a) the phase detection circuitry comprises first and second phase detectors, each having i) a first input connected to the first output, respectively, of the first and second power dividers, ii) a second input connected to a reference oscillator by way of a third power divider; and iii) an output providing a respective control signal representative of the phase angle between RF signals applied to the first and second inputs of the respective phase detector; b) the tunable phase shifter circuitry comprises first and second tunable phase shifters, respectively connected to the second outputs of the first and second power dividers, the first and second tunable phase shifters each having a control port connected to the respective outputs of the respective phase detectors such that the phase shifts introduced by the first and second phase shifters are controlled by the respective control signals from the first and second phase detectors, the first and second phase shifters each having an output; c) the power combiner has first and second inputs respectively connected to the outputs of the first and second tunable phase shifters, and an output; and d) the further tunable phase shifter is connected to the outputs of the first and second phase detectors by way of a component configured to combine and scale the respective control signals output by the first and second phase detectors thereby to generate the control signal to cause the further tunable phase shifter to output to the output port of the combining arrangement the RF signal having a phase substantially equal to an arithmetic mean of the phases of two RF signals fed to the respective first and second input ports of the combining arrangement. 11. The combining arrangement of claim 8 , wherein the component between the phase detection circuitry and the further tunable phase shifter, through which the control signal is routed, comprises an operational amplifier. 12. The combining arrangement of claim 8 , wherein the component between the phase detection circuitry and the further tunable phase shifter, through which the control signal is routed, comprises a microprocessor. 13. The combining arrangement of claim 8 , wherein at least one of the phase shifting circuitry and the further phase shifter comprises wideband phase shifting circuitry. 14. The combining arrangement of claim 8 , wherein at least one of the phase shifting circuitry and the further phase shifter comprises transmission line or time delay phase shifting circuitry.