Method and apparatus for serial noncoherent correlation of a spread spectrum signal
First Claim
1. An apparatus for despreading a received continuous phase modulated spread spectrum signal comprising:
- a power divider which divides a received spread spectrum signal into a first signal and a second signal, said first signal and said second signal being duplicates of one another,means for demodulating said first signal into a real-I/imaginary-Q signal, said means comprising a first non-coherent local reference signal,means for demodulating said second signal into an imaginary-I/real-Q signal, said means comprising a second non-coherent local reference signal having the same frequency as said first non-coherent local reference signal but phase offset therefrom by 90 degrees,a real I multiplier for multiplying said real-I/imaginary-Q signal with an odd chip signal representing the odd chips of a chip sequence and generating a real I product signal,a real Q multiplier for multiplying said imaginary-I/real-Q signal with an even chip signal representing the even chips of said chip sequence and generating a real Q product signal,an imaginary I multiplier for multiplying said imaginary-I/real-Q signal with said odd chip signal and generating an imaginary I product signal,an imaginary Q multiplier for multiplying said real-I/imaginary Q signal with an inverse of said even chip signal and generating an imaginary Q product signal,a first selector connected to an output of said real I product signal and said real Q product signal, said first selector having an output selectively alternating between said real I product signal and said real Q product signal so as to form a real product signal,a second selector connected to an output of said imaginary I product signal and said imaginary Q product signal, said second selector having an output selectively alternating between said imaginary I product signal and said imaginary Q product signal so as to form an imaginary product signal,a real integrator for integrating said real product signal and generating a real correlation signal,an imaginary integrator for integrating said imaginary product signal and generating an imaginary correlation signal, andmeans for combining said real correlation signal and said imaginary correlation signal into a final correlation signal.
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Abstract
A technique for modulating and demodulating CPM spread spectrum signals and variations of CPM spread spectrum signals. A transmitter divides a signal data stream into a plurality of data streams (such as I and Q data streams), independently modulates the I and Q data streams using CPM or a related technique, and superposes the plurality of resultants for transmission. A receiver receives the superposed spread spectrum signal and simultaneously attempts to correlate for a plurality of chip sequences (such as I and Q chip sequences), and interleaves the correlated I and Q data streams into a unified signal data stream. In one embodiment, the receiver separates the received spread spectrum signal into real and imaginary parts, attempts to correlate both real and imaginary parts for a plurality of chip sequences, and combines the real I, real Q, imaginary I, and imaginary Q signals into a unified signal data stream. The demodulating reference signal in the receiver may or may not be frequency or phase matched with the transmitter. In other embodiments, single bit or multi-bit digitization of the received spread spectrum signal for both I and Q signals (or real I, real Q, imaginary I, and imaginary Q signals) is carried out prior to correlation. In another embodiment, the transmitter differentially phase encodes the information to be transmitted, and the receiver decodes the phase encoded information by determining a quantized phase angle of the received signal.
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Citations
16 Claims
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1. An apparatus for despreading a received continuous phase modulated spread spectrum signal comprising:
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a power divider which divides a received spread spectrum signal into a first signal and a second signal, said first signal and said second signal being duplicates of one another, means for demodulating said first signal into a real-I/imaginary-Q signal, said means comprising a first non-coherent local reference signal, means for demodulating said second signal into an imaginary-I/real-Q signal, said means comprising a second non-coherent local reference signal having the same frequency as said first non-coherent local reference signal but phase offset therefrom by 90 degrees, a real I multiplier for multiplying said real-I/imaginary-Q signal with an odd chip signal representing the odd chips of a chip sequence and generating a real I product signal, a real Q multiplier for multiplying said imaginary-I/real-Q signal with an even chip signal representing the even chips of said chip sequence and generating a real Q product signal, an imaginary I multiplier for multiplying said imaginary-I/real-Q signal with said odd chip signal and generating an imaginary I product signal, an imaginary Q multiplier for multiplying said real-I/imaginary Q signal with an inverse of said even chip signal and generating an imaginary Q product signal, a first selector connected to an output of said real I product signal and said real Q product signal, said first selector having an output selectively alternating between said real I product signal and said real Q product signal so as to form a real product signal, a second selector connected to an output of said imaginary I product signal and said imaginary Q product signal, said second selector having an output selectively alternating between said imaginary I product signal and said imaginary Q product signal so as to form an imaginary product signal, a real integrator for integrating said real product signal and generating a real correlation signal, an imaginary integrator for integrating said imaginary product signal and generating an imaginary correlation signal, and means for combining said real correlation signal and said imaginary correlation signal into a final correlation signal. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for despreading a received continuous phase modulated spread spectrum signal comprising the steps of:
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dividing a received spread spectrum signal into a first signal and a second signal, said first signal and said second signal being duplicates of one another, demodulating said first signal into a real-I/imaginary-Q signal using a first non-coherent local reference signal, demodulating said second signal into an imaginary-I/real-Q signal using a second non-coherent local reference signal having the same frequency as said first non-comprises a tri-valued return-to-zero waveform coherent local reference signal but phase offset therefrom by 90 degrees, multiplying said real-I/imaginary-Q signal with an odd chip signal representing the odd chips of a chip sequence to generate a real I product signal, multiplying said imaginary-I/real-Q signal with an even chip signal representing the even chips of said chip sequence to generate a real Q product signal, multiplying said imaginary-I/real-Q signal with said odd chip signal to generate an imaginary I product signal, multiplying said real-I/imaginary Q signal with an inverse of said even chip signal to generate an imaginary Q product signal, alternately selecting between said real I product signal and said real Q product signal so as to form a real product signal, selecting alternately between said imaginary I product signal and said imaginary Q product signal so as to form an imaginary product signal, integrating said real product signal to generate a real correlation signal, integrating said imaginary product signal to generate an imaginary correlation signal, and combining said real correlation signal and said imaginary correlation signal into a final correlation signal. - View Dependent Claims (8, 9, 10, 11, 12)
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13. An apparatus for despreading a received continuous phase modulated spread spectrum signal comprising:
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means for dividing a received spread spectrum signal into a first signal and a second signal, said first signal and said second signal being duplicates of one another, means for demodulating said first signal into a real-I/imaginary-Q signal, said means comprising a first non-coherent local reference signal, means for demodulating said second signal into an imaginary-I/real-Q signal, said means comprising a second non-coherent local reference signal having the same frequency as said first non-coherent local reference signal but phase offset therefrom by 90 degrees, a real I inverted-XOR logic gate receiving as inputs said real-I/imaginary-Q signal and a chip sequence and generating a real I output signal, an imaginary-I/real-Q inverted-XOR logic gate having as inputs said imaginary-I/real-Q signal and said chip sequence and generating an imaginary I output signal and a real Q output signal, an imaginary Q inverted-XOR logic gate having as inputs said imaginary-I/real-Q signal and said chip sequence and generating a real Q output signal, a real counter receiving said real I output signal and said real Q output signal at alternating intervals and generating a real correlation signal indicating a number of agreements between said real-I/imaginary-Q signal and the odd chips of said chip sequence and between said imaginary-I/real-Q signal and the even chips of said chip sequence, an imaginary counter receiving said imaginary output signal and said imaginary Q output signal at alternating intervals and generating an imaginary correlation signal indicating a number of agreements between said imaginary-I/real-Q signal and said odd chips and between said real-I/imaginary Q signal and an inverse of said even chips, and means for combining said real correlation signal and said imaginary correlation signal into a final correlation signal. - View Dependent Claims (14, 15)
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16. An apparatus for despreading a received continuous phase modulated spread spectrum signal comprising:
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a power splitter coupled to a received spread spectrum signal and having as outputs a first signal and a second signal, a first multiplier coupled to said first signal and a first local reference signal and having as an output a third signal, said first local reference signal differing in phase and small amounts of frequency over periods of time from a carrier in said spread spectrum signal, a second multiplier coupled to said second signal and a second local reference signal and having as an output a fourth signal, said second local reference signal phase offset from said first local reference signal by 90 degrees, a first low pass filter coupled to said third signal and having as an output a first filtered signal, a second low pass filter coupled to said fourth signal and having as an output a second filtered signal, a first inverted-XOR logic gate having as inputs said first filtered signal and a chip sequence, a second inverted-XOR logic gate having as inputs said second filtered signal and said chip sequence, a third inverted-XOR logic gate having as inputs said first filtered signal and said chip sequence, a first multiplexer receiving as inputs an output of said first inverted-XOR logic gate and an output of said second inverted-XOR gate, a second multiplexer receiving as inputs an output of said second inverted-XOR gate and an output of said third inverted-XOR gate, said first and second multiplexers under control of a common clocking signal, a first counter receiving an output of said first multiplexer and outputting a first count signal, a second counter receiving an output of said second multiplexer and outputting a second count signal, a Robertson device coupled to said first count signal and said second count signal, and having as an output a correlation signal.
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Specification