Electronically tuned cavity filter

What is claimed is: 1. An apparatus for tuning a cavity filter comprising: a membrane assembly comprising a piezoelectric tuning element configured to form a portion of the cavity filter; and a phase-locked loop circuit comprising: a phase-locked loop control system connected to the piezoelectric tuning element; a VCO gain element connected to the phase-locked loop control system; and a LC resonator connected to the VCO gain element, the LC resonator comprising: a tank coil, connected to the VCO gain element; and a capacitive disk connected to the tank coil, wherein: the VCO gain element, tank coil, capacitive disk and the piezoelectric tuning element form a resonator capacitor, the phase-locked loop control system is configured to apply a control signal to the piezoelectric tuning element, the LC resonator is configured to generate an oscillating signal in the VCO gain element, and the phase-locked loop circuit is configured to lock based on a phase difference between the reference signal and the oscillating signal. 2. The apparatus of claim 1 , wherein the phase-locked loop control system is further configured to alter the control signal based on the phase difference. 3. The apparatus of claim 1 , wherein the phase-locked loop control system comprises: a phase detector, wherein the phase-locked loop control system is connected to the piezoelectric tuning element through the phase detector; a fractional divider connected to the phase detector, wherein the VCO gain element is connected to the phase-locked loop control system through the fractional divider; and a modulator connected to the fractional divider, wherein the fractional divider is configured to receive the oscillating signal and produce an output frequency. 4. The apparatus of claim 3 , wherein the fractional divider is configured to operate with a plurality of division ratios. 5. The apparatus of claim 3 , wherein the phase detector is configured to receive a reference frequency. 6. The apparatus of claim 5 , wherein the control signal represents a phase difference between the reference frequency and the output frequency. 7. An apparatus for tuning a plurality of cavity filters comprising: a membrane assembly comprising a plurality of piezoelectric tuning elements, each piezoelectric tuning element configured to form a portion of one of the plurality of cavity filters; and a plurality of phase-locked loop circuits, each phase-locked loop circuit comprising: a phase-locked loop control system connected to one of the plurality of piezoelectric tuning elements; a VCO gain element connected to the phase-locked loop control system; a LC resonator connected to the VCO gain element; and a capacitive disk connected to the LC resonator, wherein: each capacitive disk and piezoelectric tuning element comprise a resonator capacitor; each phase-locked loop control system is configured to apply a control signal to the one of the piezoelectric tuning elements, each LC resonator is configured to generate an oscillating signal in the VCO gain element, each phase detector element is configured to measure a phase difference between a reference signal and the oscillating signal, and each of the plurality of phase-locked loop circuits is configured to operate independently of each of the other of the plurality of phase-locked loop circuits. 8. The apparatus of claim 7 , wherein each phase-locked loop control system is further configured to alter the control signal based on the oscillator signal. 9. The apparatus of claim 7 , wherein each phase-locked loop control system comprises: a phase detector, wherein the phase-locked loop control system is connected to the one of the plurality of piezoelectric tuning elements through the phase detector; a fractional divider connected to the phase detector, wherein the VCO gain element is connected to the phase-locked loop control system through the fractional divider; and a modulator connected to the fractional divider, wherein the fractional divider is configured to receive the oscillator signal and produce an output frequency. 10. The apparatus of claim 9 , wherein each fractional divider is configured to operate with a plurality of division ratios. 11. The apparatus of claim 9 , wherein each phase detector is configured to receive one of one or more reference frequencies. 12. The apparatus of claim 11 , wherein the control signal represents a phase difference between one or more reference frequencies and the output frequency. 13. The apparatus of claim 7 , wherein each LC resonator comprises: a tank coil connected to the VCO gain element; and a capacitive disk connected to the tank coil, wherein the capacitive disk, tank coil, VCO gain element and the one of the plurality of piezoelectric tuning elements form a LC oscillator. 14. A method of tuning a cavity filter comprising: applying a control voltage to a piezoelectric tuning element; generating an oscillator frequency in a voltage-controlled oscillator including the piezoelectric tuning element based on a piezoelectric effect of the piezoelectric tuning element; comparing a phase of an oscillator frequency with a phase of a reference frequency to produce a phase difference voltage generating a control signal based on the phase difference voltage; and altering the oscillator frequency based on control signal, wherein applying the control voltage to a piezoelectric tuning element; generating the oscillator frequency; comparing a phase of an oscillator frequency with a phase of a reference frequency; generating the control signal; and altering the oscillator frequency constitute a feedback loop to tune the cavity filter to a desired center frequency. 15. The method of claim 14 , further comprising altering the oscillator frequency with a fractional divider. 16. The method of claim 14 , wherein the voltage-controlled oscillator comprises a VCO gain element and LC resonator comprising a tank coil connected to a capacitive disk, and the piezoelectric tuning element, such that the capacitive disk and piezoelectric tuning element comprise a resonator capacitor. 17. The method of claim 14 , wherein generating the oscillator frequency based on the piezoelectric effect of the piezoelectric tuning element is performed by a VCO gain element connected to the LC resonator. 18. The method of claim 14 , wherein altering the oscillator frequency based on the control signal is performed by applying the control signal to the piezoelectric tuning element to alter a displacement of the piezoelectric tuning element through a piezoelectric effect.