Feed signal generation for a phased array antenna

The invention claimed is: 1. A feed signal generator for a phased array antenna, the feed signal generator comprising: an input arranged to receive an optical spectrum having first and second phase-locked spectral components, the first spectral component having a first frequency and the second spectral component having a second frequency different to the first frequency by a preselected frequency difference; wavelength selective separator apparatus arranged to separate the optical spectrum into a first optical signal being the first spectral component and a second optical signal being the second spectral component; an optical time delay element arranged to apply a time delay to the first optical signal to form a delayed optical signal; optical amplitude control apparatus arranged to set an amplitude of the delayed optical signal; and a heterodyning device arranged to heterodyne the delayed optical signal and the second optical signal to generate a feed signal for the phased array antenna at the preselected frequency difference, the feed signal having a power proportional to a product of an amplitude of the second optical signal and the amplitude of the delayed optical signal and having a phase proportional to said time delay; wherein the optical amplitude control apparatus is arranged to set the amplitude of the delayed optical signal such that the product of the amplitude of the second optical signal and the amplitude of the delayed optical signal causes the power of the feed signal to have a preselected value. 2. A feed signal generator for a phased array antenna as claimed in claim 1 , further comprising an optical modulator arranged to receive a communications signal carrying communications traffic and the optical modulator arranged to modulate the second optical signal with the communications signal, such that the second optical signal carries the communications traffic. 3. A feed signal generator as claimed in claim 2 , further comprising a chirped Bragg grating in an optical waveguide, the chirped Bragg grating being arranged to apply a wavelength dependent time delay to the second optical signal output from the optical modulator. 4. A feed signal generator for a phased array antenna as claimed in claim 1 , wherein the optical time delay element is one of an optical ring resonator and a chirped Bragg grating in an optical waveguide. 5. A feed signal generator for a phased array antenna as claimed in claim 1 , comprising: a first optical splitter arranged to split the first optical signal into a plurality of first optical signals; a second optical splitter arranged to split the second optical signal into a plurality of second optical signals; a plurality of said optical time delay elements each arranged to apply a respective time delay to a respective one of said plurality of first optical signals to form a respective delayed optical signal; a plurality of said optical amplitude control apparatus each arranged to set an amplitude of a respective delayed optical signal; and a plurality of said heterodyning devices each arranged to heterodyne a respective delayed optical signal and a respective one of said plurality of second optical signals to generate a respective feed signal at said preselected frequency difference for a respective one of a plurality of antenna elements of the phased array antenna, each feed signal having a respective phase proportional to the respective time delay; wherein each optical amplitude control apparatus is arranged to set the amplitude of the respective delayed optical signal such that the respective power of each feed signal is caused to have the preselected value. 6. A feed signal generator for a phased array antenna as claimed in claim 5 , wherein each optical time delay element is a variable optical time delay element, such that the time delay applied by each optical time delay element may be varied, and each optical amplitude control apparatus is variable to set the amplitude of the respective delayed optical signal such that the power of each feed signal is maintained at the preselected value. 7. A feed signal generator for a phased array antenna as claimed in claim 6 , wherein each optical amplitude control apparatus is a variable optical attenuator arranged to apply a variable optical attenuation to the respective first optical signal such that each delayed optical signal has a consistent total attenuation applied to it by the respective optical attenuator and the respective optical time delay element. 8. A feed signal generator for a phased array antenna as claimed in claim 7 , wherein each variable optical attenuator is provided before the respective optical time delay element. 9. A wireless communication network transmitter comprising: a phased array antenna; an optical source arranged to provide an optical spectrum having first and second phase-locked spectral components, the first said spectral component having a first frequency and the second said spectral component having a second frequency different to the first frequency by a preselected frequency difference; and a feed signal generator for the phased array antenna, as claimed in claim 1 . 10. A radar system comprising: a phased array antenna; an optical source arranged to provide an optical spectrum having first and second phase-locked spectral components, the first said spectral component having a first frequency and the second said spectral component having a second frequency different to the first frequency by a preselected frequency difference; and a feed signal generator for the phased array antenna, as claimed in claim 1 . 11. A method of generating a feed signal for a phased array antenna, the method comprising the steps of: a. providing an optical spectrum having first and second phase-locked spectral components, the first spectral component having a first frequency and the second spectral component having a second frequency different to the first frequency by a preselected frequency difference; b. separating the optical spectrum into a first optical signal being the first spectral component and a second optical signal being the second spectral component; c. applying a time delay to the first optical signal to form a delayed optical signal; d. setting an amplitude of the delayed optical signal; and e. heterodyning the delayed optical signal and the second optical signal to generate a feed signal for the phased array antenna at the preselected frequency difference, the feed signal having a power proportional to a product of an amplitude of the second optical signal and the amplitude of the delayed optical signal and having a phase proportional to said time delay; wherein the amplitude of the delayed optical signal is set such that the product of the amplitude of the second optical signal and the amplitude of the delayed optical signal causes the power of the feed signal to have a preselected value. 12. A method as claimed in claim 11 , further comprising, before step e., receiving a communications signal carrying communications traffic and modulating the second optical signal with the communications signal, such that the second optical signal carries the communications traffic. 13. A method as claimed in claim 12 , further comprising, after modulating the second optical signal with the communications signal, applying a wavelength dependent time delay to the second optical signal. 14. A method as claimed in claim 11 , wherein in step c. the time delay is applied to the first optical signal using one of an optical ring resonator and a chirped Bragg grating in an optical waveguide. 15. A me