A rake receiver for processing a multi-path input signal received from a communications channel, wherein each multi-path component of the multi-path input signal comprises one or more symbols, comprises a plurality of fingers and a demodulator. Each of the plurality of fingers is adapted to receive
A rake receiver for processing a multi-path input signal received from a communications channel, wherein each multi-path component of the multi-path input signal comprises one or more symbols, comprises a plurality of fingers and a demodulator. Each of the plurality of fingers is adapted to receive the multi-path input signal and provide a sequence of input samples corresponding to a multi-path component of the multi-path input signal. The demodulator is adapted (i) during a single clock period, to receive and process one or more input samples corresponding to only one of the fingers, (ii) for each of the fingers, to accumulate multiple processed input samples to form a symbol, and (iii) to provide the formed symbols for all fingers.
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I claim: 1. A rake receiver for processing a multi-path input signal received from a communications channel, each multi-path component of the multi-path input signal comprising one or more symbols, the rake receiver comprising: a plurality of fingers, each adapted to receive the multi-path input si
I claim: 1. A rake receiver for processing a multi-path input signal received from a communications channel, each multi-path component of the multi-path input signal comprising one or more symbols, the rake receiver comprising: a plurality of fingers, each adapted to receive the multi-path input signal and provide a sequence of input samples corresponding to a multi-path component of the multi-path input signal; and a demodulator adapted (i) during a single clock period, to receive and process one or more input samples corresponding to only one of the fingers, (ii) for each of the fingers, to accumulate multiple processed input samples to form a symbol, and (iii) to provide the formed symbols for all fingers. 2. The invention of claim 1, wherein the demodulator comprises an accumulator for each finger, each accumulator adapted (i) to accumulate the processed input samples for the finger and (ii) to output a symbol corresponding to the accumulated processed input samples. 3. The invention of claim 1, wherein each finger further comprises at least one code generator adapted to generate and provide to the demodulator at least one code sequence for demodulating one or more of the input samples provided by the finger. 4. The invention of claim 3, wherein: the code sequence is a descrambling sequence; and the demodulator comprises a descrambler adapted to descramble the one or more input samples using the descrambling sequence. 5. The invention of claim 3, wherein: the code sequence is a despreading sequence; and the demodulator comprises a despreader adapted to despread the one or more input samples using the despreading sequence. 6. The invention of claim 3, wherein: the at least one code sequence includes a descrambling sequence and a despreading sequence; the demodulator comprises a descrambler adapted to descramble the one or more input samples using the descrambling sequence; and the demodulator comprises a despreader adapted to despread the one or more input samples using the despreading sequence. 7. The invention of claim 1, wherein each finger further comprises at least one input buffer adapted to store one or more of the input samples. 8. The invention of claim 1, further comprising a controller adapted to cause one or more input samples from one of the fingers at a time to be provided to the demodulator. 9. The invention of claim 8, further comprising a switching device controlled by the controller to select one of the fingers to provide one or more input samples to the demodulator. 10. The invention of claim 9, wherein: each finger further comprises at least one code generator adapted to generate and provide to the demodulator at least one code sequence for demodulating one or more of the input samples provided by the finger; and further comprising another switching device adapted to selectively connect one of the code generators to the demodulator. 11. The invention of claim 1, wherein each input sample comprises a plurality of chips. 12. The invention of claim 1, wherein the demodulator is adapted to time-multiplex the processing of input samples corresponding to the plurality of fingers. 13. The invention of claim 1, wherein the demodulator is adapted to process (i) input samples for only a first finger during a first clock period and (ii) input samples for only a second finger during a second clock period different from the first clock period. 14. A method for processing a multi-path input signal received from a communications channel, each multi-path component of the multi-path input signal comprising one or more symbols, the method comprising: (a) receiving the multi-path input signal; (b) providing a plurality of sequences of input samples, each sequence corresponding to a multi-path component of the multi-path input signal; (c) during a single clock period, receiving and processing one or more input samples corresponding to only one of the multi-path components; (d) repeating step (c) for each of the multi-path components; (e) for each of the multi-path components, accumulating multiple processed input samples to form a symbol; and (f) providing the formed symbols for all multi-path components. 15. The invention of claim 14, further comprising: generating at least one code sequence for demodulating one or more of the input samples. 16. The invention of claim 15, wherein the code sequence is a descrambling sequence; and further comprising descrambling the one or more input samples using the descrambling sequence. 17. The invention of claim 15, wherein the code sequence is a despreading sequence; and further comprising despreading the one or more input samples using the despreading sequence. 18. The invention of claim 15, wherein the at least one code sequence includes a descrambling sequence and a despreading sequence; and further comprising: descrambling the one or more input samples using the descrambling sequence; and despreading the one or more input samples using the despreading sequence. 19. The invention of claim 14, further comprising buffering one or more input samples prior to processing. 20. The invention of claim 14, wherein each input sample comprises a plurality of chips. 21. The invention of claim 14, further comprising time-multiplexing the processing of input samples corresponding to the multi-path components. 22. The invention of claim 14, wherein: input samples for only a first finger are processed during a first clock period; and input samples for only a second finger are processed during a second clock period different from the first clock period. 23. An apparatus for processing a multi-path input signal received from a communications channel, each multi-path component of the multi-path input signal comprising one or more symbols, the apparatus comprising: (a) means for receiving the multi-path input signal; (b) means for providing a plurality of sequences of input samples, each sequence corresponding to a multi-path component of the multi-path input signal; (c) means for receiving and processing, during a single clock period, one or more input samples corresponding to only one of the multi-path components; (d) means for activating means (c) for each of the multi-path components; (e) means for accumulating, for each of the multi-path components, multiple processed input samples to form a symbol; and (f) means for providing the formed symbols for all multi-path components. 24. The invention of claim 23, further comprising means for time-multiplexing the processing of input samples corresponding to the multi-path components. 25. The invention of claim 23, wherein: input samples for only a first finger are processed during a first clock period; and input samples for only a second finger are processed during a second clock period different from the first clock period.
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