Programmable noise bandwidth reduction by means of digital averaging
First Claim
1. A pre-averager for reducing the noise band-width of a signal corresponding to transmitted digital data, said pre-averager comprising:
- conversion means receiving an analog signal for generating digital signal samples corresponding to said analog signal at a first sampling rate;
processor means responsive to said digital signal samples and a predetermined weighting factor for accumulating the digital signal samples over a predetermined interval, said predetermined interval being at least twice a symbol interval of the signal to be detected, to produce a weighted accumulated sample for said digital signal samples occurring over said predetermined interval; and
means, responsive to said weighted accumulated sample, for outputting said weighted accumulated sample at a second sampling rate.
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Abstract
Predetection noise bandwidth reduction is effected by a pre-averager capable of digitally averaging the samples of an input data signal over two or more symbols, the averaging interval being defined by the input sampling rate divided by the output sampling rate. As the averaged sample is clocked to a suitable detector at a much slower rate than the input signal sampling rate the noise bandwidth at the input to the detector is reduced, the input to the detector having an improved signal to noise ratio as a result of the averaging process, and the rate at which such subsequent processing must operate is correspondingly reduced. The pre-averager forms a data filter having an output sampling rate of one sample per symbol of received data. More specifically, selected ones of a plurality of samples accumulated over two or more symbol intervals are output in response to clock signals at a rate of one sample per symbol interval. The pre-averager includes circuitry for weighting digitized signal samples using stored finite impulse response (FIR) filter coefficients. A method according to the present invention is also disclosed.
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Citations
11 Claims
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1. A pre-averager for reducing the noise band-width of a signal corresponding to transmitted digital data, said pre-averager comprising:
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conversion means receiving an analog signal for generating digital signal samples corresponding to said analog signal at a first sampling rate; processor means responsive to said digital signal samples and a predetermined weighting factor for accumulating the digital signal samples over a predetermined interval, said predetermined interval being at least twice a symbol interval of the signal to be detected, to produce a weighted accumulated sample for said digital signal samples occurring over said predetermined interval; and means, responsive to said weighted accumulated sample, for outputting said weighted accumulated sample at a second sampling rate.
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2. A pre-averager for reducing the noise band-width of a signal corresponding to transmitted digital data, said pre-averager comprising:
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conversion means receiving an analog signal for generating digital signal samples corresponding to said analog signal at a first sampling rate; processor means responsive to said digital signal samples and a predetermined weighting factor for weighting and accumulating the digital signal samples over a predetermined interval, said predetermined interval being at least twice a symbol interval of the signal to be detected, to produce a weighted accumulated sample for said digital signal samples occurring over said predetermined interval; and means, responsive to said weighted accumulated sample, for outputting said weighted accumulated sample at a second sampling rate of one sample per said symbol interval. - View Dependent Claims (3, 4, 5, 6)
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7. In a receiver for receiving a modulate signal which has a symbol interval which may be variable, apparatus for reducing the noise bandwidth of the modulated signal prior to signal detection, comprising:
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conversion means receiving the analog modulated signal for generating a digital signal sample corresponding to the modulated signal at a first sampling rate; a plurality of accumulators receiving said digital signal samples for accumulating values corresponding to said digital signal samples over a predetermined interval of at least two symbol intervals of a signal to be detected so as to produce a plurality of accumulated samples representing a sum of said digital signal samples over said predetermined interval; and means, responsive to said accumulated samples for interlacing said accumulated samples so as to provide an output signal corresponding to said accumulated samples at a second sampling rate slower than said first sampling rate. - View Dependent Claims (8, 9)
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10. A pre-averager for reducing the noise bandwidth of a signal corresponding to transmitted digital data, said pre-averager comprising:
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conversion means receiving an analog signal for generating digital signal samples corresponding to said analog signal at a first sampling rate; first and second multipliers operatively coupled to said conversion means for generating first and second weighted digital signal samples responsive to first and second weighting factors, respectively, said first weighting factor being time-staggered with respect to said second weighting factor; first and second accumulators operatively coupled to corresponding ones of said first and second multipliers, for accumulating said first and second weighted digital signal samples, respectively, over a predetermined interval, said predetermined interval being at least twice a symbol interval of the signal to be detected, for generating first and second weighted accumulated samples; first and second reset circuits, each of said reset circuits having an input and an output operatively coupled to a corresponding one of said first and second accumulators and receiving a corresponding one of first and second reset signals so as to permit said first and second reset circuits to reset a corresponding one of said first and second accumulators when a corresponding one of said first and second weighting factors is equal to a predetermined minimum value; interlacing means operatively coupled to said first and second accumulators and receiving said first and second weighted accumulated samples and first and second clock signals, said interlacing means outputting said first and second weighted accumulated samples at a second sampling rate of one sample per said symbol interval responsive to said first and second clock signals; wherein said first and second clock signals are time-staggered with respect to one another and wherein said first and second weighted accumulated samples are time-staggered responsive to said first and second clock signals.
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11. A method of data filtering an analog signal corresponding to transmitted digital data having a symbol interval which may be variable comprising the steps of:
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generating a plurality of digital signal samples responsive to said analog signal at a first sampling rate based on the bandwidth of said analog signal; weighting said digital signal samples so as to produce weighted digital signal samples; accumulating said weighted digital signal samples over a predetermined interval of at least two symbol intervals responsive to a plurality of clock signals so as to produce a plurality of weighted accumulated samples, each of said weighted accumulated samples being time-staggered with respect to the others of said weighted accumulated samples; and outputting an average value corresponding to a selected one of said weighted accumulated samples in response to a plurality of second clock signals so as to provide an output signal corresponding to said analog signal at a second rate corresponding to one sample per said symbol interval.
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Specification