Method and apparatus for recovering data from a radio signal
First Claim
1. In a telecommunications system, a method in a receiver for simultaneously extracting offset and phase information from a synchronous multiple-amplitude-level baseband signal which has been digitally modulated and transmitted by a transmitter, said method comprising the steps of:
- providing from the transmitter to the receiver, as part of the multiple-amplitude level baseband signal, a preamble comprising a sequence of alternating extreme-deviation symbols terminating in a mid-deviation symbol; and
thereafter at the receiver;
digitizing the baseband signal through an analog to digital converter to obtain a digitized baseband signal;
sampling the digitized baseband signal over a plurality of symbol times to obtain samples; and
thereafteraveraging the samples in amplitude and in time substantially simultaneously to determine average d.c. offset of amplitude and nominal transition boundaries between symbols.
1 Assignment
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Accused Products
Abstract
In a communications system using a synchronous digital data stream employing multiple-amplitude-level symbols, preamble acquisition and d.c. offset correction is achieved simultaneously by receiver averaging of sampled values in amplitude and in time to determine the average d.c. offset and the nominal transition boundaries between symbols. After symbol timing acquisition and d.c. offset acquisition, other circuitry is enabled for symbol tracking, and additional circuitry uses the acquired d.c. offset and symbol timing information to extract the data from the symbol stream. D.c. offset tracking involves subtracting the d.c. offset value from the output of an ADC representing the digitized baseband signal and then adjusting the d.c. offset value by a fraction of the error between the actual value and the expected value relative to the offset corrected signal. Symbol timing tracking is accomplished through examination of the d.c. offset-corrected digitized baseband signal during a symbol timing window centered on the symbol clock transition for signal amplitude near the nominal center of amplitude ranges expected for any one of the allowable symbols. Timing is corrected by adding or subtracting counts from a binary counter whose phase was previously preset during acquisition mode. The subtracting and adding may be done upon overflow or underflow of an up/down counter which tracks the coincidence between the amplitude window and the phase window, incrementing and decrementing symmetrically whenever window coincidence is exact; otherwise overflow or underflow results which causes isolated correction in the count of the binary counter.
52 Citations
9 Claims
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1. In a telecommunications system, a method in a receiver for simultaneously extracting offset and phase information from a synchronous multiple-amplitude-level baseband signal which has been digitally modulated and transmitted by a transmitter, said method comprising the steps of:
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providing from the transmitter to the receiver, as part of the multiple-amplitude level baseband signal, a preamble comprising a sequence of alternating extreme-deviation symbols terminating in a mid-deviation symbol; and
thereafter at the receiver;digitizing the baseband signal through an analog to digital converter to obtain a digitized baseband signal; sampling the digitized baseband signal over a plurality of symbol times to obtain samples; and
thereafteraveraging the samples in amplitude and in time substantially simultaneously to determine average d.c. offset of amplitude and nominal transition boundaries between symbols.
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2. In a telecommunications system, a method in a receiver for simultaneously extracting offset and phase information from a synchronous multiple-amplitude-level baseband signal which has been digitally modulated and transmitted by a transmitter, said method comprising the steps of:
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providing from the transmitter to the receiver, as part of the multiple-amplitude level baseband signal, a preamble comprising a sequence of alternating extreme-deviation symbols terminating in a mid-deviation symbol; and
thereafter at the receiver;digitizing the baseband signal through an analog to digital converter to obtain a digitized baseband signal; sampling the digitized baseband signal over a plurality of symbol times to obtain samples; and
thereafteraveraging the samples in amplitude and in time substantially simultaneously to determine average d.c. offset of amplitude and nominal transition boundaries between symbols wherein said averaging step further comprises averaging the samples over exactly an even number of symbol times based on a preselected symbol rate in order to obtain d.c. offset value.
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3. In a telecommunications system, a method in a receiver for simultaneously extracting offset and phase information from a synchronous multiple-amplitude-level baseband signal which has been digitally modulated and transmitted by a transmitter, said method comprising the steps of:
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providing from the transmitter to the receiver, as part of the multiple-amplitude level baseband signal, a preamble comprising a sequence of alternating extreme-deviation symbols terminating in a mid-deviation symbol; and
thereafter at the receiver;digitizing the baseband signal through an analog to digital converter to obtain a digitized baseband signal; sampling the digitized baseband signal over a plurality of symbol times to obtain samples; and
thereafteraveraging the samples in amplitude and in time substantially simultaneously to determine average d.c. offset of amplitude and nominal transition boundaries between symbols wherein said averaging step further comprises initiating the averaging after at least one symbol time after initial detection of a baseband signal in order to allow time-sensitive circuitry to stabilize.
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4. In a telecommunications system, a method in a receiver for simultaneously extracting offset and phase information from a synchronous multiple-amplitude-level baseband signal which has been digitally modulated and transmitted by a transmitter, said method comprising the steps of:
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providing from the transmitter to the receiver, as part of the multiple-amplitude level baseband signal, a preamble comprising a sequence of alternating extreme-deviation symbols terminating in a mid-deviation symbol; and
thereafter at the receiver;digitizing the baseband signal through an analog to digital converter to obtain a digitized baseband signal; sampling the digitized baseband signal over a plurality of symbol times to obtain samples; and
thereafteraveraging the samples in amplitude and in time substantially simultaneously to determine average d.c. offset of amplitude and nominal transition boundaries between symbols wherein said symbol timing is determined by; digitally counting between symbol transitions using a binary divider; accumulating counts in an accumulator over a period equal to a plurality of symbol times divisible by 2n, where n is an integer; and dividing said accumulated counts by 2n in order to determine a phase average of symbol transitions. - View Dependent Claims (5, 6, 7)
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8. In a telecommunications system, a method in a receiver for tracking d.c. offset of a synchronous multiple-amplitude-level baseband signal which has been digitally modulated and transmitted by a transmitter, said method comprising the steps of:
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digitizing the baseband signal through an analog to digital converter to obtain a digitized baseband signal; sampling the digitized baseband signal to obtain samples; and
thereafterexamining the digitized baseband symbol during a symbol timing window centered on a symbol clock transition for signal amplitude near the nominal center of amplitude ranges expected for any one of allowable symbols; and correcting timing for clock drift by adding counts to and subtracting counts from a binary clock divider which has been preset during an acquisition mode. - View Dependent Claims (9)
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Specification