Noise reduction method and apparatus for phase-locked loops
First Claim
1. An improved phase-locked loop for providing a variable frequency output signal comprising:
- voltage controlled oscillator means responsive to a composite control signal for providing said variable frequency output signal;
variable divider means for dividing the frequency of said variable frequency output signal by a selectable value to provide a plurality of feedback signals, each including respective signal and noise components, wherein the phase of the signal component of each of said plurality of feedback signals is substantially equal and wherein the noise component of any one of said plurality of feedback signals is not substantially correlated with the noise component of any other of said plurality of feedback signals; and
control means responsive to said plurality of feedback signals and a reference signal to provide said composite control signal wherein said composite control signal is a substantially direct current voltage having a magnitude that is a function of the phase difference between said reference signal and said plurality of feedback signals, said control means being adapted to combine the signal components and the noise components of said plurality of feedback signals in a manner to substantially improve the signal to noise ratio of said variable frequency output signal.
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Abstract
Method and apparatus for improving the signal-to-noise ratio of a divide-by-N phase-locked loop includes a variable divider circuit to provide a plurality of feedback signals of substantially equal phase. Each of the plurality of feedback signals includes a signal component and a noise component wherein the signal components of the plurality of feedback signals have substantially equal phase and wherein the noise components of the plurality of feedback signals are not substantially correlated. A respective plurality of control circuits is provided to combine the plurality of feedback signals with a reference signal to provide a plurality of control signals wherein each control signal is a substantially direct current voltage the magnitude of which is proportional to the phase difference between the reference signal and the feedback signal which comprised its origin. The plurality of control signals are added to provide a composite control signal so that the signal components of the plurality of control signals add by linear superposition and so that the noise components of the plurality of control signals add by the square root of the sum of their squares, thereby substantially improving the signal-to-noise ratio of the phase-locked loop output.
25 Citations
19 Claims
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1. An improved phase-locked loop for providing a variable frequency output signal comprising:
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voltage controlled oscillator means responsive to a composite control signal for providing said variable frequency output signal; variable divider means for dividing the frequency of said variable frequency output signal by a selectable value to provide a plurality of feedback signals, each including respective signal and noise components, wherein the phase of the signal component of each of said plurality of feedback signals is substantially equal and wherein the noise component of any one of said plurality of feedback signals is not substantially correlated with the noise component of any other of said plurality of feedback signals; and control means responsive to said plurality of feedback signals and a reference signal to provide said composite control signal wherein said composite control signal is a substantially direct current voltage having a magnitude that is a function of the phase difference between said reference signal and said plurality of feedback signals, said control means being adapted to combine the signal components and the noise components of said plurality of feedback signals in a manner to substantially improve the signal to noise ratio of said variable frequency output signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An improved phase-locked loop for providing a variable frequency output signal comprising:
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first control circuit means responsive to a reference signal and a first feedback signal to provide a first control signal wherein said first control signal is a substantially direct current voltage having a voltage magnitude that is a function of the phase difference between said reference signal and said first feedback signal; second control circuit means responsive to said reference signal and a second feedback signal to provide a second control signal wherein said second control signal is a substantially direct current voltage having a voltage magnitude that is a function of the phase difference between said reference signal and said second feedback signal; signal adder means for combining said first and second control signals to provide a composite control signal; voltage controlled oscillator means responsive to said composite control signal for providing said variable frequency output signal wherein the frequency of said variable frequency output signal is a function of the voltage magnitude of said composite control signal; variable frequency divider means for dividing the frequency of said variable frequency output signal by a variable divisor to provide a frequency control signal wherein the value of said variable divisor determines the frequency of said variable frequency output signal; and first and second clocking means responsive to said variable frequency output signal and said frequency control signal for providing said first and second feedback signals, respectively, said first and second feedback signals being provided so that they include respective first and second signal and noise components wherein the phase of said first and second signal components is substantially equal so that said first and second signal components add to provide a signal representing the maximum magnitude of the signal component and wherein said first and second noise components are not substantially correlated so that said first and second noise components add by the square root of the sum of their squares, said signal adder means thereby improving the signal to noise ratio of said variable frequency output signal. - View Dependent Claims (11, 12, 13)
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14. An improved phase-locked loop for providing a variable frequency output signal comprising:
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first control circuit means responsive to a reference signal and a first feedback signal to provide a first control signal wherein said first control signal is a substantially direct current voltage having a voltage magnitude that is a function of the phase difference between said reference signal and said first feedback signal; second control circuit means responsive to said reference signal and a second feedback signal to provide a second control signal wherein said second control signal is a substantially direct current voltage having a voltage magnitude that is a function of the phase difference between said reference signal and said second feedback signal; signal adder means for providing a composite control signal that represents the arithmetic sum of the magnitude of said first and second control signals, the arithmetic sum representing the maximum signal component and a reduced noise component; voltage controlled oscillator means responsive to said composite control signal for providing said variable frequency output signal wherein the frequency of said variable frequency output signal is a function of the voltage magnitude of said composite control signal; first and second variable frequency divider means each for dividing the frequency of said variable frequency output signal by a variable divisor to provide said first and second feedback signals, respectively, wherein the value of said variable divisor determines the frequency of said variable frequency output signal; and means for synchronizing the output of said first and second variable frequency divider means.
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15. A phase-locked loop for providing a variable frequency output signal of a predetermined frequency comprising:
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first and second phase detectors each being coupled to receive a reference signal, said first and second phase detectors further being coupled to receive respective first and second feedback signals, said first phase detector being constructed to provide a first control signal that is a function of the phase difference between said reference signal and said first feedback signal and said second phase detector being constructed to provide a second control signal that is a function of the phase difference between said reference signal and said second feedback signal; first and second low pass filters coupled to receive said first and second control signals, respectively, and being constructed to filter out high frequency components of said first and second control signals to provide respective first and second filtered control signals; first and second amplifiers respectively coupled to amplify said first and second filtered control signals to provide first and second amplified control signals; a signal adder constructed to provide a composite control signal that represents the arithmetic sum of the magnitude of said first and second amplified control signals; a voltage controlled oscillator responsive to said composite control signal for providing said variable frequency output signal having a frequency that is a function of the voltage magnitude of said composite control signal; a fixed frequency divider constructed to divide the frequency of said variable frequency output signal by a constant divisor thereby to provide a divided feedback signal; a variable frequency divider constructed to divide the frequency of said divided feedback signal by a variable divisor to provide a frequency control signal wherein the value of said variable divisor determines the frequency of said variable frequency output signal; means for delaying the transition of said divided feedback signal thereby to provide a delayed feedback signal; and first and second flip flops, said first and second flip flops having respective first and second clock inputs each coupled to receive said delayed feedback signal, said first and second flip flops having respective first and second data inputs each coupled to receive said frequency control signal, said first and second flip flops being constructed to provide said first and second feedback signals, respectively, the magnitude of said first and second feedback signals being substantially equal to the magnitude of said frequency control signal during a predetermined transition of said delayed feedback signal, said first and second feedback signals including first and second noise components introduced substantially by said first and second flip flops, wherein said first noise component is not correlated with said second noise component so that said first and second noise components add by the square root of the sum of their squares to thereby substantially improve the signal-to-noise ratio of said composite control signal and said variable frequency output signal.
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16. A method for providing a variable frequency output signal comprising the steps of:
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(a) responding to the voltage magnitude of a composite control signal to provide the variable frequency output signal; (b) dividing the frequency of the variable frequency output signal by a selectable constant to provide a plurality of feedback signals each including respective signal and noise components, said plurality of feedback signals being provided so that the phase of the signal components of the plurality of feedback signals is substantially constant and so that the noise components of the plurality of feedback signals are not substantially correlated; and (c) combining the plurality of feedback signals with a reference signal to provide the composite control signal wherein the composite control signal is a substantially direct current voltage having a voltage magnitude that is a function of the phase difference between the reference signal and the plurality of feedback signals and wherein the respective noise and signal components of the plurality of feedback signals are combined in a manner to improve the signal-to-noise ratio of the variable frequency output signal. - View Dependent Claims (17, 18, 19)
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Specification