Phase-locked loop with self-selecting multi-band VCO
First Claim
1. A phase-lock loop (PLL) comprising:
- a detector configured to receive first and second signals and provide a detector output, wherein the first signal is related to a reference signal to be locked to and the second signal is related to a VCO signal;
a loop filter configured to received and filter the detector output to provide a control signal;
a multi-band voltage controlled oscillator (VCO) configured to receive the control signal and a select signal, select one of a plurality of frequency bands based on the select signal, and provide the VCO signal at a frequency within the selected frequency band based on the control signal; and
a control unit configured to receive a third signal and provide the select signal, wherein the third signal is related to the control signal, the control unit comprising;
a first comparator configured to receive the third signal and a first threshold value and provide a first status signal indicative of whether or not the frequency of the VCO signal is too high, and a second comparator configured to receive the third signal and a second threshold value and provide a second status signal indicative of whether or not the frequency of the VCO signal is too low, and wherein the select signal is derived based on the first and second status signals.
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Accused Products
Abstract
Techniques to select the proper frequency band for use in a PLL from among multiple frequency bands of a multi-band VCO. The PLL comprises a detector, a loop filter, the multi-band VCO, and a control unit. The detector receives a first signal to be locked to and a second signal that is related to a VCO signal and provides a detector output. The loop filter filters the detector output to provide a control signal. The multi-band VCO selects one of the multiple frequency bands based on a select signal and provides the VCO signal at a frequency determined by the control signal. The control unit derives the select signal for the multi-band VCO based on information extracted from a third signal (e.g., a filtered version of the control signal) and a timing signal from a timer unit.
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Citations
23 Claims
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1. A phase-lock loop (PLL) comprising:
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a detector configured to receive first and second signals and provide a detector output, wherein the first signal is related to a reference signal to be locked to and the second signal is related to a VCO signal;
a loop filter configured to received and filter the detector output to provide a control signal;
a multi-band voltage controlled oscillator (VCO) configured to receive the control signal and a select signal, select one of a plurality of frequency bands based on the select signal, and provide the VCO signal at a frequency within the selected frequency band based on the control signal; and
a control unit configured to receive a third signal and provide the select signal, wherein the third signal is related to the control signal, the control unit comprising;
a first comparator configured to receive the third signal and a first threshold value and provide a first status signal indicative of whether or not the frequency of the VCO signal is too high, and a second comparator configured to receive the third signal and a second threshold value and provide a second status signal indicative of whether or not the frequency of the VCO signal is too low, and wherein the select signal is derived based on the first and second status signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
an output driver configured to receive the detector output and provide a drive signal, and wherein the loop filter is configured to filter the drive signal to provide the control signal.
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6. The phase-locked loop of claim 5, wherein the output driver is configured to provide approximately equal source and sink capability for the drive signal.
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7. The phase-locked loop of claim 1, wherein the first and second threshold values define a range of valid values for the third signal.
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8. The phase-locked loop of claim 1, wherein the control unit further includes a timer unit configured to provide a timing signal, and wherein the first and second status signals are detected at times determined by the timing signal.
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9. A phase-locked loop comprising:
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a detector configured to receive first and second signals and provide a detector output, wherein the first signal is related to a reference signal to be locked to and the second signal is related to a VCO signal;
a loop filter configured to received and filter the detector output to provide a control signal;
a multi-band voltage controlled oscillator (VCO) configured to receive the control signal and a select signal, select one of a plurality of frequency bands based on the select signal, and provide the VCO signal at a frequency within the selected frequency band based on the control signal; and
a control unit configured to receive a third signal and provide the select signal, wherein the third signal is related to the control signal, the control unit further configured to evaluate one or more candidate frequency bands to determine a proper frequency band for use. - View Dependent Claims (10)
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11. A phase-locked loop comprising:
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a detector configured to receive first and second signal and provide a detector output, wherein the first signal is related to a reference signal to be locked to and the second signal is related to a VCO signal;
a loop filter configured to received and filter the detector output to provide a control signal;
a multi-band voltage controlled oscillator (VCO) configured to receive the control signal and a select signal, select one of a plurality of frequency bands based on the select signal, and provide the VCO signal at a frequency within the selected frequency band based on the control signal; and
a control unit configured to receive a third signal and provide the select signal, wherein the third signal is related to the control signal, wherein the phase-locked loop is operable in a plurality of operating modes. - View Dependent Claims (12, 13, 14, 15)
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16. The phase-locked loop comprising:
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a detector configured to receive first and second signal and provide a detector output, wherein the second signal is related to a VCO signal;
a loop filter configured to received and filter the detector output to provide a control signal;
a multi-band voltage controlled oscillator (VCO) configured to receive the control signal and a select signal, select one of a plurality of frequency bands based on the select signal, and proved the VCO signal at a frequency within the selected frequency band based on the control signal; and
a control unit configured to receive an analog signal from the loop filter and provide the select signal, wherein the analog signal is related to the control signal, the control unit further configured to evaluate one or more candidate frequency bands to determine a proper frequency band for use. - View Dependent Claims (17)
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18. An integrated circuit comprising:
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a detector configured to receive first and second signals and provide a detector output, wherein the first signal is related to a reference signal to be locked to and the second signal is related to a VCO signal;
a loop filter configured to received and filter the detector output to provide a control signal;
a multi-band voltage controlled oscillator (VCO) configured to receive the control signal and a select signal, select one of a plurality of frequency bands based on the select signal, and provide the VCO signal at a frequency within the selected frequency band based on the control signal; and
a control unit configured to receive a third signal and provide the select signal, wherein the third signal is related to the control signal, the control unit further configured to evaluate one or more candidate frequency bands to determine a proper frequency band for use. - View Dependent Claims (19)
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20. A method for selecting a frequency band for use from among a plurality of frequency bands of a multi-band VCO, comprising:
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identifying a current frequency band being evaluated;
receiving a first status signal indicative of whether or not the frequency of a VCO signal from the multi-band VCO is too high;
receiving a second status signal indicative of whether or not the frequency of the VCO signal is too low;
selecting a next lower frequency band for evaluation when the first status signal indicates that the frequency of the VCO is too high;
selecting a next higher frequency band for evaluation when the second status signal indicates that the frequency of the VCO signal is too low; and
providing the current frequency band as the frequency band for use based on the first and second status signals. - View Dependent Claims (21, 22, 23)
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Specification