Phase-locked loop with reduced frequency transients

The invention claimed is: 1. A phased locked loop (PLL) having reduced frequency transients, the PLL comprising: a phase-frequency detector (PFD) configured to output a PFD signal based on two inputs, wherein the two inputs including a reference signal and a feedback signal; a charge pump configured to receive the PFD signal and output a charge signal; a filter configured to receive the charge signal and output a filter output signal; an oscillator configured to receive an oscillator tuning signal within a tuning acceptance range and output an oscillating signal; a reducer circuit configured to receive the filter output signal and output a reduced tuning signal; and a control circuit configured to: receive a control input signal based on the reduced tuning signal; determine an elevator signal based on the control input signal and the tuning acceptance range of the oscillator; and output the elevator signal; wherein the oscillator tuning signal is based on a combination of: the reduced tuning signal; and the elevator signal; wherein the oscillating signal has a frequency and a phase based at least in part on the oscillator tuning signal; and wherein the feedback signal received by the PFD is based on the oscillating signal. 2. The PLL of claim 1 , wherein the control input signal is the reduced tuning signal. 3. The PLL of claim 1 , further comprising a frequency divider configured to receive the oscillating signal and output the feedback signal having a feedback frequency comprising a fraction of the oscillating signal frequency. 4. The PLL of claim 1 , wherein the oscillator tuning signal is the sum of the reduced tuning signal and the elevator signal. 5. The PLL of claim 1 , wherein the oscillator tuning signal has a range comprised of a substantial portion of the tuning acceptance range. 6. The PLL of claim 5 , wherein the oscillator tuning signal has a range comprised of at least 90% of the tuning acceptance range. 7. The PLL of claim 1 , wherein: the elevator signal has an elevator slew rate comprising a time derivate of the elevator signal; and the elevator slew rate is limited by the control circuitry to be less than a maximum slew rate calculated from properties of the charge pump and the filter. 8. The PLL of claim 7 , wherein the elevator slew rate is less than 10% of the maximum slew rate. 9. The PLL of claim 1 , wherein the reduced tuning signal has a reduced tuning range comprised of only a portion of the tuning acceptance range of the oscillator. 10. The PLL of claim 9 , wherein the reducer circuit is adjustable such that the reduced tuning range comprises a selectable portion of the acceptance range. 11. The PLL of claim 9 , wherein the reduced tuning range is less than 30% of the tuning acceptance range. 12. The PLL of claim 1 , further comprising a lock detector configured to output a lock signal based on a phase of the reference signal and a phase of the feedback signal, wherein: when a phase difference between the phase of the oscillator signal and the phase of the reference signal is less than a lock threshold, the lock signal indicates that lock has been achieved; and when the phase difference is greater than the lock threshold, the lock signal indicates that lock has not been achieved. 13. The PLL of claim 12 , wherein: the control circuit is configured to additionally receive the lock signal; and the elevator voltage is determined based on the control input signal, the tuning acceptance range of the oscillator, and the lock signal. 14. The PLL of claim 13 , wherein: when the lock signal indicates that lock has not been achieved, an amplitude of the elevator voltage is adjusted by the control circuit such that an amplitude of the oscillator tuning signal is maintained in relation to a particular extreme of the tuning acceptance range of the oscillator; and the particular extreme of the tuning acceptance range comprises a minimum or a maximum of the tuning acceptance range and the particular extreme of the tuning acceptance range is chosen based on an amplitude of the control input signal. 15. The PLL of claim 14 , wherein a difference, maintained between the oscillator tuning signal and the particular extreme, has a magnitude not greater than the reduced tuning range. 16. The PLL of claim 12 , wherein: when the lock signal indicates that lock has been achieved, an amplitude of the elevator signal is continuously adjusted to maintain the control input signal relative to a midpoint of the control input signal. 17. The PLL of claim 16 , wherein the control input signal is maintained between 10% and 90% of its range. 18. The PLL of claim 1 , wherein: the control input signal and oscillator tuning signal are both comprised of analog signals; the control circuit includes: an analog-to-digital converter (ADC) configured to convert the control input signal to a digital signal; and a digital-to-analog converter (DAC) configured to convert the elevator signal to an analog signal. 19. The PLL of claim 1 wherein the oscillator includes a sapphire-loaded cavity resonator. 20. A radar system wherein radar signals are derived at least in part from the oscillating signal of claim 1 .