Highly linear-gain oscillator

The invention claimed is: 1. A variable frequency oscillator comprising: an inductance unit having a first inductance; a first variable capacitor coupled across the inductance unit; and a second variable capacitor coupled across a part of the inductance unit, the inductance of said part being a proportion of the first inductance; the oscillator having an operating frequency range and the proportion being such as to substantially minimise the variation of rate of change of an operating frequency of the oscillator with a variation of a capacitance of at least one of the first variable capacitor and the second variable capacitor. 2. A variable frequency oscillator as claimed in claim 1 , the proportion being such as to substantially maximise the linearity of the rate of change of the operating frequency of the oscillator. 3. A variable frequency oscillator as claimed in claim 1 , the proportion being such that the derivative of the rate of change of the operating frequency of the oscillator is substantially minimum at said proportion. 4. A variable frequency oscillator as claimed in claim 1 , said part having a second inductance, the relationship between the first and second inductances being such as to substantially minimise the variation of rate of change of the operating frequency of the oscillator over the operating frequency range. 5. A variable frequency oscillator as claimed in claim 1 , the rate of change of the operating frequency of the oscillator being dependent on the change in frequency of the oscillator with respect to the change in capacitance of the first and/or second variable capacitors. 6. A variable frequency oscillator as claimed in claim 1 , the variance of the oscillator rate of change of operating frequency being dependent on the change in the rate of change of an operating frequency with respect to the change in the capacitance of the first and/or second variable capacitors. 7. A variable frequency oscillator as claimed in claim 1 , the capacitance of the first and second variable capacitor being variable for varying the frequency of the oscillator. 8. A variable frequency oscillator as claimed in claim 1 , the capacitance of the first and/or second variable capacitor being variable by means of the voltage applied to the capacitor(s). 9. A variable frequency oscillator as claimed in claim 1 , the capacitance of the second variable capacitor being less than the capacitance of the first variable capacitor. 10. A variable frequency oscillator as claimed in claim 1 , the inductance of said part being less than the first inductance. 11. A variable frequency oscillator as claimed in claim 1 , further comprising a controller configured to select an operating frequency, the operating frequency being selectable over an operating frequency range. 12. A variable frequency oscillator as claimed in claim 1 , the oscillator being a voltage controlled oscillator or a digitally controlled oscillator. 13. A variable frequency oscillator as claimed in claim 1 , the oscillator further comprising a pair of cross coupled field effect transistors, one of said transistors being coupled to a terminal of the inductance unit and the other transistor being coupled to the other terminal of the inductance unit. 14. A phase-locked loop comprising a variable frequency oscillator as claimed in claim 1 . 15. A variable frequency oscillator as claimed in claim 1 , wherein the first inductance is fixed.