Injection current modulation for chirp signal timing control

What is claimed is: 1 . A method, comprising: calibrating an injection current of a chirp injection current profile by providing a calibration ramp of a dummy chirp to a first set of capacitors of a capacitor bank of a phase-locked loop (PLL) during a calibration phase of the PLL, wherein the capacitor bank is coupled to a buffer configured to output a buffer current that is used to calibrate the injection current of the chirp injection current profile; and generating a frequency chirp based on the chirp injection current profile during an acquisition phase of the PLL. 2 . The method of claim 1 , wherein the PLL is in a high bandwidth mode during the calibration phase. 3 . The method of claim 1 , wherein the PLL is in a low bandwidth mode during the acquisition phase. 4 . The method of claim 1 , wherein the calibrating comprises: measuring the buffer current from the first set of capacitors during the calibration phase; and matching the chirp injection current profile with the measuring of the buffer current. 5 . The method of claim 4 , wherein matching the chirp injection current profile with the measuring of the buffer current comprises performing a binary search to match the chirp injection current profile with a profile derived from the measuring of the buffer current. 6 . The method of claim 1 , wherein a first shape of the calibration ramp is opposite to a second shape of a frequency ramp of the frequency chirp. 7 . The method of claim 1 , further comprising: adjusting a second set of capacitors of the capacitor bank of the PLL to a first capacitance value during a first portion of the acquisition phase; and adjusting the second set of capacitors to a second capacitance value during a reset portion, wherein calibrating the injection current of the chirp injection current profile is at least in part based on a current of the second set of capacitors. 8 . The method of claim 7 , wherein the generating the frequency chirp comprises: providing a first injection current value to the PLL during the first portion corresponding to the acquisition phase; providing a second injection current value to the PLL during a second portion corresponding to a dwell phase; and providing a third injection current value to the PLL during a third portion corresponding to the reset portion. 9 . The method of claim 8 , wherein the first portion includes a fourth portion corresponding to a settle phase of the acquisition phase. 10 . The method of claim 1 , wherein the PLL is configured to generate a radar pulse for a frequency-modulated continuous-wave (FMCW) radar system. 11 . A frequency chirp signal generator configured to provide a frequency-modulated continuous-wave (FMCW) signal, the frequency chirp signal generator comprising: a chirp timing engine configured to calibrate an injection current supplied to a first set of capacitors of a capacitor bank of a phase-locked loop (PLL) during a calibration phase of the PLL, wherein the capacitor bank is coupled to a buffer configured to output a buffer current that is used to calibrate the injection current; and an injection digital to analog converter (DAC) configured to generate the calibrated injection current during a chirp sequence. 12 . The frequency chirp signal generator of claim 11 , wherein the chirp timing engine is further configured to: feed a second set of capacitors with the buffer current from a calibration chirp; and match the injection current with the buffer current. 13 . The frequency chirp signal generator of claim 12 , wherein matching the injection current comprises performing a binary search to match the injection current with the buffer current. 14 . The frequency chirp signal generator of claim 12 , wherein the injection DAC is configured to switch between the first set of capacitors during the chirp sequence and the second set of capacitors during a calibration chirp. 15 . The frequency chirp signal generator of claim 11 , wherein the chirp timing engine is further configured to: adjust a first capacitance value of the first set of capacitors to a first value during an acquisition phase of the chirp sequence; and adjust a second capacitance value of the first set of capacitors to a second value during a reset phase of the chirp sequence, wherein calibrating the injection current is at least in part based on a current from the first set of capacitors. 16 . The frequency chirp signal generator of claim 15 , wherein the chirp timing engine is further configured to: provide a first injection current value to the PLL during the acquisition phase of the chirp sequence; provide a second injection current value to the PLL during the reset phase of the chirp sequence; and provide a third injection current value to the PLL during a dwell phase of the chirp sequence. 17 . A phase-lock loop (PLL) circuit configured to generate a frequency chirp for a frequency-modulated continuous-wave (FMCW) signal generator, comprising: a chirp timing engine configured to generate a chirp injection current profile supplied to a first set of capacitors of a capacitor bank of a phase-locked loop (PLL) during a calibration phase of the PLL, wherein the capacitor bank is coupled to a buffer configured to output a buffer current that is used to generate the chirp injection current profile; and an injection digital to analog converter (DAC) configured to generate a calibrated injection current supplied to the first set of capacitors based on the chirp injection current profile at the PLL during a chirp sequence. 18 . The PLL circuit of claim 17 , wherein the chirp timing engine is configured to perform: feeding a second set of capacitors with the buffer current during the calibration phase; and matching the chirp injection current profile with the buffer current. 19 . The PLL circuit of claim 18 , wherein the buffer current is obtained from the buffer copying a voltage controlled oscillator signal generating a calibration ramp for a frequency chirp of the calibration phase. 20 . The PLL circuit of claim 17 , wherein the injection DAC is configured to perform: providing a first injection current value according to the chirp injection current profile to the PLL during an acquisition phase of the chirp sequence; providing a second injection current value according to the chirp injection current profile to the PLL during a reset phase of the chirp sequence; and providing a third injection current value according to the chirp injection current profile to the PLL during a dwell phase of the chirp sequence.