PHASE NOISE MINIMIZED PHASE/FREQUENCY-LOCKED VOLTAGE-CONTROLLED OSCILLATOR CIRCUIT
First Claim
1. A phase noise minimization circuit to operate in a feedback system, the circuit comprising:
- a calibration circuit, comprising;
a noise power meter to receive a control voltage fed into an oscillator, the oscillator, part of the feedback system, to generate an output frequency, wherein the noise power meter analyzes voltage noise present on the control voltage that corresponds to a phase noise power of the oscillator within a bandwidth of the feedback system, the analysis resulting in a control voltage noise power; and
a noise minimization algorithm circuit, to;
obtain the control voltage noise power from the noise power meter;
generate a correction parameter that minimizes the control voltage noise power; and
send the correction parameter to the oscillator;
the feedback system further comprising an AC-coupled transconductor and two digital-to-analog converters to generate two different DC biases, the transconductor and digital-to-analog converters to remove a voltage offset generated by device mismatches, wherein the two different DC biases are optimized by the calibration circuit to minimize flicker noise up-conversion by minimizing the control voltage noise power of the oscillator.wherein the phase noise generated by the oscillator is minimized by the correction parameter.
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Abstract
A phase noise minimization circuit is disclosed, to be used in a voltage-controlled oscillator (VCO) circuit embedded in a feedback system. The phase noise minimization circuit includes a noise power meter to analyze the control voltage fed into the VCO by the feedback system and determine its voltage noise power. Since the VCO is controlled by the feedback system, the control voltage noise power is also an indication of the VCO phase noise power for frequencies offset within the bandwidth of the feedback system. The VCO has several parameters that can be adjusted to affect its phase noise. A minimization algorithm generates the optimum set of parameters that minimize the control voltage noise power (and thus the VCO phase noise power), and sends them to the oscillator. The phase noise minimization circuit may be used in a variety of applications, particularly in phase-locked loop and frequency-locked loop VCOs.
15 Citations
18 Claims
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1. A phase noise minimization circuit to operate in a feedback system, the circuit comprising:
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a calibration circuit, comprising; a noise power meter to receive a control voltage fed into an oscillator, the oscillator, part of the feedback system, to generate an output frequency, wherein the noise power meter analyzes voltage noise present on the control voltage that corresponds to a phase noise power of the oscillator within a bandwidth of the feedback system, the analysis resulting in a control voltage noise power; and a noise minimization algorithm circuit, to; obtain the control voltage noise power from the noise power meter; generate a correction parameter that minimizes the control voltage noise power; and send the correction parameter to the oscillator; the feedback system further comprising an AC-coupled transconductor and two digital-to-analog converters to generate two different DC biases, the transconductor and digital-to-analog converters to remove a voltage offset generated by device mismatches, wherein the two different DC biases are optimized by the calibration circuit to minimize flicker noise up-conversion by minimizing the control voltage noise power of the oscillator. wherein the phase noise generated by the oscillator is minimized by the correction parameter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
wherein the noise minimization algorithm obtains the correction parameter from the look-up table.
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7. The phase noise minimization circuit of claim 1, wherein the control voltage is a digital signal.
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8. The phase noise minimization circuit of claim 1, further comprising:
an analog-to-digital converter to convert the control voltage to a digital signal, wherein the digital signal is analyzed by the calibration circuitry.
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9. A feedback system, comprising:
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a feedback system comprising a voltage-controlled oscillator, the voltage-controlled oscillator to generate an output signal, the voltage-controlled oscillator to receive a control signal derived from a reference signal, wherein the control signal has a voltage noise power; and a phase noise minimization circuit, comprising; a noise power meter to analyze voltage noise present on the control signal to determine the phase noise power of the voltage-controlled oscillator; and a noise minimization algorithm circuit, to; obtain the voltage noise power from the noise power meter; generate a correction parameter based on the phase noise power; and send the correction parameter to the oscillator; the feedback system further comprising an AC-coupled transconductor and two digital-to-analog converters to generate two different DC biases, the transconductor and digital-to-analog converters to remove a voltage offset generated by device mismatches, wherein the two different DC biases are optimized by the calibration circuit to minimize flicker noise up-conversion by minimizing the control voltage noise power of the oscillator; wherein the phase noise generated by the oscillator is minimized by the correction parameter. - View Dependent Claims (10, 11, 12, 13)
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14. A system to reduce up-conversion of flicker noise in a voltage-controlled oscillator, the system comprising:
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a noise power meter and noise minimization algorithm circuit; a first digital-to-analog converter coupled to a first output of the noise power meter and noise minimization algorithm circuit, the first digital-to-analog converter to generate a first direct current bias, Vg,1; a second digital-to-analog converter coupled to a second output of the noise power meter and noise minimization algorithm circuit, the second digital-to-analog converter to generate a second direct current bias, Vg,1; and an alternating current-coupled transconductor oscillator comprising a pair of n-type metal oxide (NMOS) semiconductor devices, each NMOS semiconductor devices comprising a gate voltage bias, wherein the transconductor oscillator and digital-to-analog converters remove the gate voltage biases. - View Dependent Claims (15, 16, 17, 18)
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Specification