Data transmitter and receiver of a spread spectrum communication system using a pilot channel
First Claim
1. A spread spectrum communication system, comprising:
- a pilot channel signal generator for generating a pilot signal exhibiting a predetermined binary value;
a pseudo-random noise generator for generating first and second pseudo-random noise codes in response to a pseudo-random noise clock;
first Walsh code generator means for generating a first Walsh code according to a first set of Walsh functions, and generating a second Walsh code according to a second set of Walsh functions;
modulator means coupled to receive an input information signal and the pilot signal, for modulating the pilot signal according to the first Walsh code and modulating the input information signal according to the second Walsh code to generate a modulated pilot signal and a modulated information signal, respectively; and
spreader means for band spreading the modulated pilot signal and the modulated information signal with each of the first and second pseudo-random noise codes to generate a spread spectrum signal to be transmitted via a communication channel.
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Accused Products
Abstract
An improved spread spectrum communication system includes a transmitter and a receiver utilizing a pilot channel for the transmission of pure rather than modulated PN codes for code acquisition or tracking purposes with a lower bit error rate. The pilot signal is used to obtain initial system synchronization and phase tracking of the transmitted spread spectrum signal. At the transmitter side, a Walsh code generator, a Walsh modulator, a first PN code generator, a first band spreader, a second band spreader, finite impulse response filters, digital-analog converters, low-pass filters, an intermediate frequency mixer, a carrier mixer, a band-pass filter are used to transmit a spread spectrum signal. At the receiver side, a corresponding band-pass filter, a carrier mixer, an intermediate-frequency mixer, low-pass filters, analog-digital converters, a second PN code generator, an I channel despreader, a Q channel despreader, a PN code synchronization controller, a Walsh code generator, a first Walsh demodulator, a second Walsh demodulator, accumulator & dump circuits, a combiner, and a data decider are used to demodulate a received spread spectrum signal
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Citations
18 Claims
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1. A spread spectrum communication system, comprising:
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a pilot channel signal generator for generating a pilot signal exhibiting a predetermined binary value; a pseudo-random noise generator for generating first and second pseudo-random noise codes in response to a pseudo-random noise clock; first Walsh code generator means for generating a first Walsh code according to a first set of Walsh functions, and generating a second Walsh code according to a second set of Walsh functions; modulator means coupled to receive an input information signal and the pilot signal, for modulating the pilot signal according to the first Walsh code and modulating the input information signal according to the second Walsh code to generate a modulated pilot signal and a modulated information signal, respectively; and spreader means for band spreading the modulated pilot signal and the modulated information signal with each of the first and second pseudo-random noise codes to generate a spread spectrum signal to be transmitted via a communication channel. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A spread spectrum receiver, comprising:
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means for receiving a spread spectrum via an antenna having a received pseudo-random noise code and a received pilot signal modulated therein, and separating an in-phase signal and an quadrature-phase signal therefrom; pseudo-random noise generator means for generating first and second pseudo-random noise codes, respectively, in response to a pseudo-random noise clock; despreader means for band despreading the in-phase signal and the quadrature-phase with each of the first and second pseudo-random noise codes to generate a despreaded in-phase signal and a despreaded quadrature-phase signal; Walsh code generator means for generating a first Walsh code according to a first set of Walsh functions, and generating a second Walsh code signal according to a second set of Walsh functions; first demodulator means for demodulating the despreaded in-phase signal and the despreaded quadrature-phase signal according to the first Walsh code into a demodulated in-phase signal and a demodulated quadrature-phase signal; pseudo-random noise code control means for receiving the demodulated in-phase and quadrature-phase signals, and establishing initial synchronization between the received pseudo-random noise code modulated in the received spread spectrum signal and the first and second pseudo-random noise codes by generating the pseudo-random noise clock to control generation of the first and second pseudo-random noise codes; and second demodulator means for demodulating the despreaded in-phase and quadrature-phase signals according to the first and second Walsh codes to produce a demodulated baseband signal. - View Dependent Claims (11, 12, 13, 14)
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15. A transmitter of a spread spectrum communication system using a pilot channel, comprising:
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Walsh code generating means for generating first and second Walsh codes having respective code systems; Walsh modulating means for multiplying a predetermined pilot signal and information signal to be transmitted respectively by said first and second Walsh codes and then generating Walsh-modulated pilot and information signals; PN code generating means for generating predetermined first and second pseudo-random noise (PN) codes; first band spread means for multiplying said Walsh-modulated pilot signal by said first and second PN codes to produce band spreaded I channel and Q channel pilot signals; second band spread means for multiplying said Walsh-modulated information signals by an inverted second PN code and said first PN code to produce band spreaded I channel and Q channel information signals; finite impulse response filtering means for finite impulse response filtering said band spreaded I channel and Q channel pilot signals and said band spreaded I channel and Q channel information signals; first converting means for combining the filtered band spreaded I channel pilot signal and the filtered band spreaded I channel information signal and then converting into an I channel analog signal; second converting means for combining the filtered band spreaded Q channel pilot signal and the filtered band spreaded Q channel information signal and then converting into a Q channel analog signal; a low-pass filter for low-pass filtering said I channel and Q channel analog signals to produce I channel and Q channel low-pass filtered signals; a first mixer for multiplying said I channel low-pass filtered signal by an in-phase component of an intermediate frequency signal and multiplying said Q channel low-pass filtered signal by an quadrature-phase component of said intermediate frequency signal, and then combining the I channel and Q channel multiplied signals which have been mixed with said intermediate frequency signal; a second mixer for multiplying an output signal of said first mixer by a radio frequency signal; a band-pass filter for band-pass filtering an output signal of said second mixer; and an amplifier for amplifying an output signal of said band-pass filter in accordance with a predetermined amplification ratio to produce a baseband signal. - View Dependent Claims (16)
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17. A receiver of a spread spectrum communication system using a pilot channel, comprising:
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means for receiving a spread spectrum signal from an antenna; a first filter for generating a band-pass filtered signal by band-pass filtering the received spread spectrum signal; a first mixer for multiplying the band-pass filtered signal by a radio-frequency signal and then converting into an intermediate-frequency signal; a second mixer for multiplying the intermediate-frequency signal by an in-phase component and a quadrature-phase component of an intermediate frequency, and generating I channel and Q channel signals in which a carrier frequency has been removed; a second filter for generating low-pass filtered I channel and Q channel signals by low-pass filtering said I channel and Q channel signals; converting means for converting the low-pass filtered I channel and Q channel signals into digital-converted I channel and Q channel signals; PN code generating means for generating first and second PN codes having respective PN code systems in response to a PN clock; I channel despreader means for multiplying the digital-converted I channel signal by said first and second PN codes, and generating a despreaded I channel signal; Q channel despreader means for multiplying the digital-converted Q channel signal by said first and second PN codes, and generating a despreaded Q channel signal; Walsh code generating means for generating first and second Walsh codes having respective Walsh code systems; PN code sync control means for Walsh-demodulating said despreaded I channel and Q channel signals with said first Walsh code, establishing synchronization of the Walsh demodulated I channel and Q channel signals, and generating the PN clock corresponding to said synchronization; first Walsh demodulating means for receiving and demodulating said despreaded I channel signal in accordance with said first and second Walsh codes to produce Walsh-demodulated first and second I channel signals respectively; second Walsh demodulating means for receiving and demodulating said despreaded Q channel signal in accordance with said first and second Walsh codes to produce Walsh-demodulated first and second Q channel signals respectively; combining means for multiplying the Walsh-demodulated first and second I channel signals and multiplying the Walsh-demodulated first and second Q channel signals to produce a combined I channel signal and a combined Q channel signal; and data deciding means for obtaining a difference value between said combined I channel and Q channel signals to produce a baseband signal corresponding to the phase of said difference value. - View Dependent Claims (18)
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Specification