Frequency synchronizing method for a reference oscillator
First Claim
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1. A method comprising the steps of:
- using a reference oscillator set to a first frequency, scanning for a radio frequency carrier modulated with a predetermined pattern;
locating the radio frequency carrier such that a received pattern comprising a frequency shifted version of the predetermined pattern is identified and time synchronization is established;
combining the received pattern, the predetermined pattern, and stepped alterations to the first frequency to provide a set of results that represent pattern correlation versus frequency, wherein the stepped alterations comprise at least two frequency translated versions of the received pattern;
interpolating the set of results using a centreid formula to offset the first frequency, such that frequency synchronization is improved.
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Abstract
A method and apparatus of frequency synchronization is described for a reference oscillator. Using a reference oscillator set to a first frequency, the process begins by scanning for a radio frequency carrier modulated with a predetermined pattern. The radio frequency carrier is located such that a received pattern comprising a frequency shifted version of the predetermined pattern is identified and time synchronization is established. The received pattern, the predetermined pattern, and stepped alterations to the first frequency are combined to provide a set of results that represent pattern correlation versus reference oscillator frequency. The first frequency is offset using the set of results, such that frequency synchronization is improved.
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Citations
25 Claims
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1. A method comprising the steps of:
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using a reference oscillator set to a first frequency, scanning for a radio frequency carrier modulated with a predetermined pattern; locating the radio frequency carrier such that a received pattern comprising a frequency shifted version of the predetermined pattern is identified and time synchronization is established; combining the received pattern, the predetermined pattern, and stepped alterations to the first frequency to provide a set of results that represent pattern correlation versus frequency, wherein the stepped alterations comprise at least two frequency translated versions of the received pattern; interpolating the set of results using a centreid formula to offset the first frequency, such that frequency synchronization is improved. - View Dependent Claims (2, 3, 4, 5)
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6. A method comprising the steps of:
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using a reference oscillator set to a first frequency, scanning for a radio frequency carrier modulated with a predetermined pattern; locating the radio frequency carrier such that a received pattern comprising a frequency shifted version of the predetermined pattern is identified and time synchronization is established; combining the received pattern with the predetermined pattern to provide a first result; altering the first result as a function of stepped alterations to the first frequency to provide a set of second results that represent pattern correlation versus frequency, wherein the stepped alterations comprise at least two frequency translated versions of the received pattern; interpolating the set of second results using a centroid formula to offset the first frequency, such that frequency synchronization is improved. - View Dependent Claims (7, 8, 9, 10)
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11. A method comprising the steps of:
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performing wideband time correlation on a received signal and an expected signal; detecting time synchronization by comparing the received signal to the expected signal; finding a peak time for correlating the received signal to the expected signal; scaling the received signal to provide a scaled received signal; stepped frequency correlating the scaled received signal and the expected signal to provide a set of values representing pattern correlation as a function of frequency; verifying time synchronization; determining a peak frequency for correlating the scaled received signal to the expected signal; fine frequency interpolating the set of values using a centroid formula, thereby yielding a frequency offset; adjusting a variable frequency oscillator by the frequency offset. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
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15. The method of claim 11, wherein the step of scaling further comprises the step of performing the calculation:
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space="preserve" listing-type="equation">z.sub.y (n)=z(n.sub.o +n)y(n), n={. . . N-1},where n is an integer index; no is a time index; N is a width of the expected signal; z is a complex data sequence; y is a length N data sequence representing the expected signal.
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16. The method of claim 11, wherein the step of stepped frequency correlating further comprises the step of performing the calculation:
- ##EQU11## where ρ
is a correlation coefficient;no is a time index; k is an integer index; m is an integer index; N is a width of the expected signal; M is a positive integer; z is a complex data sequence; y is a length N data sequence representing the expected signal.
- ##EQU11## where ρ
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17. The method of claim 11, wherein the step of verifying further comprises the comparing ρ
- (k)>
thresh2, where thresh2 is a correlation threshold in the range 0 to 1, ρ
is a correlation coefficient, and k is an integer index.
- (k)>
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18. The method of claim 11, wherein the step of determining a peak frequency further comprises the step of finding ko such that:
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space="preserve" listing-type="equation">ρ
(k.sub.o -1)<
ρ
(k.sub.o)>
ρ
(k.sub.o +1),where ρ
is a correlation coefficient.
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19. The method of claim 11, wherein the step of fine frequency interpolating further comprises finding the frequency offset, fo, such that:
- ##EQU12## where ρ
is a correlation coefficient;ko is a frequency index; fs is a sample rate of the received pattern; M is a positive integer.
- ##EQU12## where ρ
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20. An apparatus for synchronizing with respect to a carrier frequency that is modulated with a predetermined pattern, the apparatus comprising:
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an oscillator having an output and a control input; a radio transceiver coupled to the output of the oscillator and having a received signal output; a pattern detector, coupled to the received signal output, arranged and constructed to detection off a frequency shifted version of the predetermined pattern; a combiner coupled to the pattern detector and having an output that provides a combined version of the predetermined pattern and the frequency shifted version of the predetermined pattern; a correlator coupled to the output of the combiner and the received signal output and having an output that provides a set of results that represents pattern correlation versus frequency; an oscillator controller that is coupled to the output of the correlator and the control input of the oscillator, such that the oscillator is controlled, at least in part, as an interpolation, using a centroid formula, of the set of results that represent pattern correlation versus frequency. - View Dependent Claims (21, 22, 23, 24, 25)
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Specification
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Current AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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Original AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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InventorsBeukema, Troy J.
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Primary Examiner(s)Chin, Stephen
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Assistant Examiner(s)VO, DON NGUYEN
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Application NumberUS08/196,624Time in Patent Office792 DaysField of Search375/343, 375/344, 375/346, 375/354, 375/362, 375/365, 375/368, 455/161, 455/164.1, 455/164.2, 455/182.2, 455/192.2US Class Current375/344CPC Class CodesH03J 7/02 Automatic frequency control...
