Automatic frequency control processing in multi-channel receivers
First Claim
1. A method for generating a reference frequency, the method comprising the steps of:
- generating a frequency reference signal;
generating an RF local oscillator signal derived from the frequency reference signal at a communications synthesizer of a communications receiver;
commanding a frequency adjustment for adjusting a frequency of the frequency reference signal;
generating a GPS local oscillator signal, a frequency of the GPS local oscillator signal being derived from the reference signal and having a tune; and
adjusting, in response to and substantially in synchronization with the commanding the frequency adjustment, the frequency of the GPS local oscillator signal based upon the frequency adjustment to maintain the tune of the GPS local oscillator signal;
wherein the adjusting step includes the sub-step of adjusting a relationship between the GPS local oscillator signal and the reference signal.
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Accused Products
Abstract
A multiple channel receiver (200) includes a communications receiver synthesizer (204) and at least one numerically controlled oscillator (NCO) (406) that produce local oscillator signals that are derived from a common reference oscillator (202). A DSP (212) and CPU (214) perform automatic frequency control (AFC) by adjustment of the reference oscillator (202) based upon a signal received by a receive channel using the local oscillator signal produced by the communications receiver synthesizer (204). The CPU (214) also provides a synchronous indication of adjustments to the reference oscillator (202) to control circuitry for the at least one NCO (406) so that the configuration of the NCO (406) can be altered so as to maintain a substantially constant frequency output during the adjustment of the reference oscillator (202).
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Citations
20 Claims
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1. A method for generating a reference frequency, the method comprising the steps of:
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generating a frequency reference signal; generating an RF local oscillator signal derived from the frequency reference signal at a communications synthesizer of a communications receiver; commanding a frequency adjustment for adjusting a frequency of the frequency reference signal; generating a GPS local oscillator signal, a frequency of the GPS local oscillator signal being derived from the reference signal and having a tune; and adjusting, in response to and substantially in synchronization with the commanding the frequency adjustment, the frequency of the GPS local oscillator signal based upon the frequency adjustment to maintain the tune of the GPS local oscillator signal; wherein the adjusting step includes the sub-step of adjusting a relationship between the GPS local oscillator signal and the reference signal. - View Dependent Claims (2, 3, 4)
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5. A multiple channel receiver comprising:
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a reference oscillator for producing a frequency reference signal, the reference oscillator accepting a frequency adjustment; a first receiver, electrically coupled to the reference oscillator, for receiving at least a first transmitted signal that is transmitted at a first signal frequency, the first receiver tuning to a first tuned frequency based upon a first local oscillator signal that is derived from the frequency reference signal; a frequency reference adjustor, electrically coupled to the reference oscillator, for producing the frequency adjustment; and a second receiver, electrically coupled to the frequency reference adjustor, for receiving at least a second transmitted signal that is transmitted at a second signal frequency, the second receiver tuning to a second tuned frequency that is derived from the frequency reference signal, wherein the second receiver accepts an indication of the frequency adjustment and adjusts, in response to and substantially in synchronization with the frequency reference adjustor producing the frequency adjustment to the reference oscillator, a relationship between the frequency reference signal and the second local oscillator signal to maintain the second tuned frequency. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A method for receiving multiple signals, said method comprising the steps of:
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generating a frequency reference signal at a reference oscillator; tuning a first receiver to a first tuned frequency based upon a first local oscillator signal, the first local oscillator being related to the frequency reference signal; tuning a second receiver to a second tuned frequency based upon a second local oscillator signal that is derived from the frequency reference signal; commanding a frequency adjustment of the frequency reference signal of the reference oscillator; and commanding, in response to and substantially in synchronization with the commanding the frequency adjustment of the frequency reference signal, an adjustment of a relationship between the frequency reference signal and the second local oscillator signal to maintain the second tuned frequency. - View Dependent Claims (12, 13, 14, 15, 16)
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17. A machine-readable medium encoded with a program product, the program product comprising instructions for performing the steps of:
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generating a frequency reference signal at a reference oscillator; tuning a first receiver to a first tuned frequency based upon a first local oscillator signal, the first local oscillator being related to the frequency reference signal; tuning a second receiver to a second tuned frequency based upon a second local oscillator signal that is derived from the frequency reference signal; commanding a frequency adjustment of the frequency reference signal of the reference oscillator; and commanding, in response to and substantially in synchronization with the commanding the frequency adjustment of the frequency reference signal, an adjustment of a relationship between the frequency reference signal and the second local oscillator signal to maintain the second tuned frequency. - View Dependent Claims (18, 19, 20)
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Specification