Phase lock loop (PLL) apparatus and method
First Claim
1. A circuit, comprising:
- a clock generator that generates a plurality of first clock signals having different phases, each first clock signal having a first frequency that is less than a reference frequency; and
a prescaler coupled to the clock generator that receives the plurality of first clock signals to generate a second clock signal based on the reference frequency that is higher than the first frequency.
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Abstract
A phase lock loop (PLL) and methods for using same is provided that includes a multiple-feedback CMOS voltage control oscillator (VCO) and multi-phase sampling fractional-N prescaler. The PLL provides increased performance characteristics for a single chip CMOS radio frequency (RF) communications system. The multiple feedback CMOS VCO maintains an amplitude of a VCO signal while reducing a rise/fall time of the VCO signal. The multiple feedback CMOS VCO further reduces supply noise effects. The multi-phase sampling fractional-N prescaler provides sufficient bandwidth for a CMOS VCO while maintaining spectral purity and reducing fractional-spur. The multi-phase sampling fractional-N prescaler can include a divider, a sampler circuit, a selector circuit and a modular counter.
49 Citations
23 Claims
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1. A circuit, comprising:
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a clock generator that generates a plurality of first clock signals having different phases, each first clock signal having a first frequency that is less than a reference frequency; and
a prescaler coupled to the clock generator that receives the plurality of first clock signals to generate a second clock signal based on the reference frequency that is higher than the first frequency. - View Dependent Claims (2, 3, 4, 5, 6)
a divider circuit coupled to receive one of the plurality of first clock signals;
a sampler circuit that receives an output signal of the divider circuit and at least two of the plurality of first signals, wherein the sampler circuit outputs a plurality of second clock signals;
a selector coupled to receive at least two of the plurality of second clock signals and a selection signal, wherein the selector outputs a divided clock signal; and
a logic circuit coupled between the divider circuit and the selector to output the selection signal.
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7. A method, comprising:
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outputting a plurality of clock signals, wherein each of the plurality of clock signals have the same period, and wherein at least two of the plurality of clock signals are out of phase;
inputting the plurality of clock signals into a prescaler; and
generating a divided clock signal having a higher frequency than the plurality of clock signals. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
generating a reduced frequency signal from one of the plurality of clock signals;
determining a control signal based on the reduced frequency signal;
sampling the plurality of clock signals according to the control signal to output a plurality of sampled clock signals;
generating a selection signal by logically processing the control signal; and
outputting one of the sampled clock signals as the divided signal according to the selection signal.
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13. The method of claim 7, wherein the generating comprises:
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generating a plurality of sampled clock signals from the plurality of clock signals;
reducing a frequency of one of the plurality of clock signals; and
selecting one of the sampled clock signals as the divided clock signal based on a control signal set according to the reduced frequency signal.
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14. The method of claim 13, wherein a next selected sampled clock signal is based on a time delay from the selected one of the sampled clock signals.
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15. An apparatus, comprising:
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an oscillator, wherein the oscillator comprises a plurality of delay cells configured to output a plurality of signals at the same frequency having different phases; and
means for outputting a signal having a different frequency than the oscillator. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23)
means for generating a plurality of sampled clock signals from the plurality of signals;
means for reducing a frequency of one of the plurality of signals; and
means for selecting one of the sampled clock signals as the signal based on a control signal set according to the reduced frequency signal.
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17. The apparatus of claim 16, wherein the means for outputting a signal having a different frequency than the oscillator comprises a multiplexer configured to:
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input the plurality of signals; and
output one of the plurality of signals.
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18. The apparatus of claim 15, wherein the means for outputting a signal having a different frequency than the oscillator comprises:
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a divider circuit coupled to receive one of the plurality of signals;
a sampler circuit that receives an output signal of the divider circuit and the plurality of signals, wherein the sampler circuit outputs a plurality of first signals;
a selector coupled to receive the plurality of first signals and a selection signal, wherein the selector outputs the signal having the different frequency; and
a logic circuit coupled between the divider circuit and the selector to output the selection signal.
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19. The apparatus of claim 18, wherein each of the plurality of signals have the same period and a different phase.
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20. The apparatus of claim 18, wherein the selector selectively outputs a current one of the first signals as a divided clock signal based on a previous one of the plurality of first signals that was previously output from the selector.
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21. The apparatus of claim 20, wherein the current one of the first signals and the previous one of the first signals are out of phase.
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22. The apparatus of claim 20, wherein the selector selectively outputs the current one of the first signals according to a time delay from the output of the previous one of the first signals.
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23. The apparatus of claim 22, wherein the time delay is determined according to a sequential order of inputs of the plurality of first signals into the selector.
Specification