Type-II all-digital phase-locked loop (PLL)
First Claim
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1. A method for improving signal acquisition performance in a phase-locked loop (PLL) comprising:
- acquiring a signal using a proportional loop gain circuit;
measuring an offset in the signal;
activating an integral block to accumulate a phase error signal;
subtracting the offset from the phase error signal; and
combining outputs from the proportional loop gain circuit and the integral block to produce an oscillator tuning signal.
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Abstract
System and method for providing type-II (and higher order) phase-locked loops (PLLs) with a fast signal acquisition mode. A preferred embodiment comprises a loop filter with a proportional loop gain path (proportional loop gain circuit 1115) and an integral loop gain block (integral loop gain block 1120). The proportional loop gain path is used during signal acquisition to provide large loop bandwidth, hence fast signal acquisition of a desired signal. Then, during the PLL'"'"'s signal tracking phase, the integral loop gain block is enabled and its output is combined with output from the proportional loop gain path to provide higher order filtering of the desired signal. An offset that may be present due to the use of the proportional loop gain path can be measured and subtracted to help improve signal tracking settling times.
49 Citations
19 Claims
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1. A method for improving signal acquisition performance in a phase-locked loop (PLL) comprising:
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acquiring a signal using a proportional loop gain circuit; measuring an offset in the signal; activating an integral block to accumulate a phase error signal; subtracting the offset from the phase error signal; and combining outputs from the proportional loop gain circuit and the integral block to produce an oscillator tuning signal.
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2. A method for improving signal acquisition performance in a phase-locked loop (PLL) comprising:
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acquiring a signal using a proportional loop gain circuit; measuring an offset in the signal; activating an integral block to accumulate an adjusted signal wherein the activating further comprises adjusting a magnitude of the accumulated adjusted signal; and combining outputs from the proportional loop gain circuit and the integral block to produce an oscillator tuning signal.
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3. A method for improving signal acquisition performance in a phase-locked loop (PLL) comprising:
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acquiring a signal using a proportional loop gain circuit; measuring an offset in the signal, wherein the offset is known as a residue, and wherein the residue may be eliminated in the signal by setting the offset to zero; activating an integral block to accumulate an adjusted signal, the adjusted signal being the signal combined with the offset; and combining outputs from the proportional loop gain circuit and the integral block to produce an oscillator tuning signal.
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4. A loop filter circuit comprising:
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a proportional loop gain circuit coupled to a phase error input, the proportional loop gain circuit containing circuitry to scale a phase error signal by a first constant; an integral loop gain block coupled to the phase error input, the integral loop gain block comprising a residue latch coupled to the phase error input, the residue latch containing circuitry to sample an offset present in the phase error signal and to produce an adjusted phase error signal; an integral block coupled to the residue latch, the integral block containing circuitry to accumulate the adjusted phase error signal produced by the residue latch; a loop gain adjuster coupled to the integral block, the loop gain adjuster containing circuitry to scale the accumulated adjusted phase error signal by a second constant; and the loop filter circuit further comprising a summing point coupled to the proportional loop gain circuit and the integral loop gain block, the summing point to combine signals from the proportional loop gain circuit and the integral loop gain block. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A phase-locked loop (PLL) synthesizer comprising:
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a phase detector for providing a phase error signal; an oscillator having a tuning input; a loop filter circuit coupled to the phase detector, wherein the loop filter circuit may operate in a fast acquisition mode and subsequently switch into a type-II mode of operation, the loop filter circuit comprising; a proportional loop gain circuit coupled to the phase detector, the proportional loop gain circuit containing circuitry to scale the phase error signal by a first constant; an integral loop gain block coupled to the phase detector, the integral loop gain block containing circuitry to sample the phase error signal and scale the phase error signal by a second constant; and a summing point coupled to the proportional loop gain circuit and the integral loop gain block, the summing point to combine signals from the proportional loop gain circuit and the integral loop gain block. - View Dependent Claims (15, 16, 17, 18, 19)
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Specification
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Current AssigneeTexas Instruments, Inc.
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Original AssigneeTexas Instruments, Inc.
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InventorsMuhammad, Khurram, Leipold, Dirk, Staszewski, Robert B.
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Primary Examiner(s)CHANG, JOSEPH
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Application NumberUS10/464,957Publication NumberTime in Patent Office1,265 DaysField of Search331/16, 331/17, 331/1.A, 331/25, 327/156, 327/159, 375373-376, 375/327US Class Current331/17CPC Class CodesH03F 1/0211 with control of the supply ...H03F 1/3282 Acting on the phase and the...H03L 2207/50 All digital phase-locked loopH03L 7/093 using special filtering or ...H03L 7/0991 the oscillator being a digi...H03L 7/1075 by changing characteristics...
