Circuit for detecting phase shift applied to an RF signal

The invention claimed is: 1. A circuit for detecting an amount of phase shift applied to an RF signal to produce a phase shifted RF signal in an RF signal path, the circuit comprising: a phase shifter operable to apply a phase shift to a reference signal to produce a phase shifted reference signal; a phase detector operable to detect a phase difference between the phase shifted RF signal and the phase shifted reference signal, wherein the phase detector has a reduced input range at a frequency of the phase shifted RF signal compared to an input range of the phase detector at a frequency lower than the frequency of the phase shifted RF signal, and a controller operable to control the phase shifter to set the phase shift of the phase shifted reference signal so that the phase difference between the phase shifted RF signal and the phase shifted reference signal falls within the reduced input range of the phase detector. 2. The circuit of claim 1 , wherein the controller is operable to: control a phase shifter of the RF signal path for applying an intended phase shift applied to the RF signal to produce the phase shifted RF signal. 3. The circuit of claim 2 , wherein the controller is operable to control the phase shifter of the RF signal path to trim the phase shift applied to the RF signal to produce the phase shifted RF signal in accordance with the phase difference detected by the phase detector. 4. The circuit of claim 3 , wherein an output of the phase detector is connected to an analogue to digital converter for producing a digital word representative of the detected phase difference, and wherein the analogue to digital converter is operable to supply the digital word to the controller. 5. The circuit of claim 2 , wherein the controller is operable to: control the phase shifter of the RF circuit to set the phase of the phase shifted reference signal in accordance with: the intended phase shift to be applied to the RF signal to produce the phase shifted RF signal; and/or the reduced input range of the phase detector at the frequency of the phase shifted RF signal. 6. The circuit of claim 1 , wherein the controller is operable to make an initial estimate of the phase shift to be applied to produce the phase shifted reference signal based on a measurement by the phase detector that falls outside the reduced input range of the phase detector. 7. The circuit of claim 1 , comprising a component for producing a pair of signals having a phase difference that falls within the reduced input range of the phase detector for calibrating the phase detector. 8. The circuit of claim 7 , wherein the controller is operable to calibrate the phase detector by: causing the pair of signals to be applied to inputs of the phase detector; and determining the output of the phase detector at the reference phase difference. 9. The circuit of claim 8 , wherein the controller is further operable to calibrate the phase detector by: controlling the phase shifter of the RF signal path to apply a phase shift to the RF signal corresponding to the reference phase difference value; and iteratively controlling the phase shifter of the RF circuit to adjust the phase difference it applies to the reference signal until the output of the phase detector corresponds to the output of the phase detector determined while the pair of signals were applied to inputs of the phase detector. 10. The circuit of claim 1 , wherein the reduced input range of the phase detector is bounded by an inaccurate zone in which the phase detector is unable to give an accurate measurement of the phase difference between the phase shifted RF signal and the phase shifted reference signal. 11. The circuit of claim 1 , wherein the reference signal is used in the signal path for generating the RF signal. 12. The circuit of claim 1 , for detecting the amount of phase shift applied to a plurality of RF signals to produce a plurality of phase shifted RF signals in a plurality of RF signal paths, the RF circuit comprising, for each respective RF signal path: a phase shifter operable to apply a phase shift to a reference signal to produce a phase shifted reference signal; and a phase detector operable to detect a phase difference between the phase shifted RF signal of the respective signal path and the phase shifted reference signal, wherein the phase detector has a reduced input range at a frequency of the phase shifted RF signal compared to the input range of the phase detector at a frequency lower than the frequency of the phase shifted RF signal, wherein the controller is operable to control each phase shifter to set the phase of each phase shifted reference signal so that the phase difference between the phase shifted RF signal of each signal path and each respective phase shifted reference signal falls within the reduced input range of each respective phase detector. 13. The circuit of claim 1 : wherein the circuit is embedded in an RF heating apparatus. 14. A method of detecting an amount of phase shift applied to an RF signal to produce a phase shifted RF signal in an RF signal path, the method comprising: receiving a reference signal and applying a phase shift to the reference signal to produce a phase shifted reference signal; using a phase detector to detect a phase difference between the phase shifted RF signal and the phase shifted reference signal, wherein the phase detector has a reduced input range at a frequency of the phase shifted RF signal compared to an input range of the phase detector at a frequency lower than the frequency of the phase shifted RF signal, and setting the phase of the phase shifted reference signal so that the phase difference between the phase shifted RF signal and the phase shifted reference signal falls within the reduced input range of the phase detector. 15. The method of claim 14 , further comprising calibrating the phase detector by: determining the output of the phase detector when signals having a known reference phase difference are applied to inputs of the phase detector; controlling a phase shifter of the RF signal path to apply a phase shift to the RF signal corresponding to the reference phase difference; and iteratively adjusting the phase difference applied to the reference signal until the output of the phase detector corresponds to the output of the phase detector determined while the signals having the known reference phase difference were applied to the inputs of the phase detector.