Receiver for spread spectrum communication and receiving method for the same

US 4,903,279 A
Filed: 09/30/1987
Issued: 02/20/1990
Est. Priority Date: 09/30/1986
Status: Expired due to Fees

First Claim

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1. A receiver for use in an spread spectrum communication system comprising:

receiving means for receiving spread spectrum signals,spread signal distributing means for distributing a spread spectrum signal received by said receiving means into a first spread signal, a second spread signal and a third spread signal,pseudo noise signal generating means for generating a first pseudo noise signal having a code series substantially the same as a code series of a pseudo noise signal included in said received spread spectrum signal and having a reference phase, a second pseudo noise signal having a phase that leads the reference phase by an amount corresponding to a specified number of bits and a third pseudo noise signal having a phase that lags the reference phase by an amount corresponding to a specified number of bits,activating means for setting a bit rate of said pseudo noise signal generating means,first correlation detecting means for reversely spreading said first spread signal and for detecting the correlation with said first pseudo noise signal,second correlation detecting means for reversely spreading said second spread signal and for detecting the correlation with said second pseudo noise signal,third correlation detecting means for reversely spreading said third spread signal and for detecting the correlation with said third pseudo noise signal,hybrid means for generating a signal depending on a difference between an output of said second correlation detecting means and an output of said third correlation detecting means,initial seizing control means for setting a first bit rate to said activating means and synchronizing the pseudo noise signal included in said received spread spectrum signal and said first pseudo noise signal by monitoring an output of said first correlation detecting means,phase lock sustaining control means for setting a second bit rate to said activating means and sustaining synchronization between the pseudo noise signal included in said received spread spectrum signal and said first noise signal by monitoring an output of said first correlation detecting means and an output of said hybrid means,synchronization control means for first operating the initial seizing control means and upon completion of the operation of said initial seizing control means, starting a measurement of time by suspending execution of a synchronization sustaining control operation which is performed by a synchronization sustaining control means when an output of said first correlation detecting means becomes lower than a specified level and executing the synchronization sustaining control operation if an output of said first correlation detecting means becomes higher than said specified level within a specified time period, anddemodulating means connected to said first correlation detecting means for extracting data included in said received spread spectrum signal.

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Abstract

The present invention discloses a receiver and a receiving method for spread spectrum communication for use in the digital communication system. The receiver basically comprises a receiving circuit, a spread signal distributing circuit, a pseudo noise signal generating circuit, an activating circuit, correlation detecting circuits, an initial seizing control circuit, a synchronization sustaining control circuit, a synchronization control circuit and a demodulating circuit. If a phase lock condition is broken within a short period of time, such condition is sustained until phase lock is recovered so that communication can be started again immediately after phase lock is recovered without initialization for each asynchronization. The receiving circuit is very much simplified and particularly, the Costas Loop demodulating circuit detects the phase lock condition when the signal obtained by multiplying the signal of which phase is shifted by 90° and the reversely spread signal is within the preset range without using a phase shifter or other multiplying circuit. Accordingly the circuit structure of the receiver as a whole can be simplified.

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1. A receiver for use in an spread spectrum communication system comprising:
- receiving means for receiving spread spectrum signals,spread signal distributing means for distributing a spread spectrum signal received by said receiving means into a first spread signal, a second spread signal and a third spread signal,pseudo noise signal generating means for generating a first pseudo noise signal having a code series substantially the same as a code series of a pseudo noise signal included in said received spread spectrum signal and having a reference phase, a second pseudo noise signal having a phase that leads the reference phase by an amount corresponding to a specified number of bits and a third pseudo noise signal having a phase that lags the reference phase by an amount corresponding to a specified number of bits,activating means for setting a bit rate of said pseudo noise signal generating means,first correlation detecting means for reversely spreading said first spread signal and for detecting the correlation with said first pseudo noise signal,second correlation detecting means for reversely spreading said second spread signal and for detecting the correlation with said second pseudo noise signal,third correlation detecting means for reversely spreading said third spread signal and for detecting the correlation with said third pseudo noise signal,hybrid means for generating a signal depending on a difference between an output of said second correlation detecting means and an output of said third correlation detecting means,initial seizing control means for setting a first bit rate to said activating means and synchronizing the pseudo noise signal included in said received spread spectrum signal and said first pseudo noise signal by monitoring an output of said first correlation detecting means,phase lock sustaining control means for setting a second bit rate to said activating means and sustaining synchronization between the pseudo noise signal included in said received spread spectrum signal and said first noise signal by monitoring an output of said first correlation detecting means and an output of said hybrid means,synchronization control means for first operating the initial seizing control means and upon completion of the operation of said initial seizing control means, starting a measurement of time by suspending execution of a synchronization sustaining control operation which is performed by a synchronization sustaining control means when an output of said first correlation detecting means becomes lower than a specified level and executing the synchronization sustaining control operation if an output of said first correlation detecting means becomes higher than said specified level within a specified time period, anddemodulating means connected to said first correlation detecting means for extracting data included in said received spread spectrum signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. A receiver for use in a spread spectrum communication system according to claim 1, wherein said synchronization control means causes said initial seizing control operation to start when an output of said first correlation detecting means becomes lower than said specified level and remains lower than the specified level for a period of time exceeding a specified time period during operation of said synchronization sustaining control means.
  - 3. A receiver for use in a spread spectrum communication system according to claim 2, wherein said synchronization control means suspends operation of said synchronization sustaining control means and starts a measurement of time when an output of said first correlation detecting means becomes lower than said specified level after said synchronization sustaining control means controls an output of said hybrid means to be within a specified range in the vicinity of the reference level and causes the synchronization sustaining control means to start operation again when a time measuring means of said first correlation detecting means becomes higher than said specified level within the specified time period.
  - 4. A receiver for use in a spread spectrum communication system according to claim 3, wherein said synchronization control means stops operation of said synchronization sustaining control means and causes said initial seizing control means to start operating when an output of said first correlation detecting means becomes lower than said specified level before said synchronization sustaining control means controls an output of said hybrid means within said specified range in the vicinity of the reference level.
  - 5. A receiver for use in a spread spectrum communication system according to claim 1, wherein said receiving means comprises:
    - oscillator means for oscillating electrical signals of a preset frequency,frequency mixing means for mixing said received spread spectrum signal and an electrical signal oscillated by said oscillator means to produce a spread spectrum signal of low frequency, andfrequency compensation control means for controlling an output of said first correlation detecting means by adjusting the frequency of said electrical signal from time to time.
  - 6. A receiver for use in a spread spectrum communication system according to claim 5, wherein said frequency mixing means further comprises:
    - level adjustment control means for controlling an output of said first correlation detecting means to a preset level,frequency compensation control means for controlling an output of said first correlation detecting means by adjusting the frequency of said electrical signal from time to time, andwherein said synchronization control means causes said synchronization sustaining control means, said level adjustment control means and said frequency compensation control means to start operating after said initial seizing control means has initially seized control.
  - 7. A receiver for use in a spread spectrum communication system according to claim 6, wherein said synchronization control means adjusts a gain of said level adjustment control means to a constant value during operation of said frequency compensation control means.
  - 8. A receiver for use in a spread spectrum communication system according to claim 1, wherein said demodulating means comprises:
    - Costas Loop demodulating means,first prelock detecting means for detecting a first prelock signal when an output of said first correlation detecting means exceeds a preset level,second prelock detecting means for detecting a second prelock signal when an amplitude of an output of a second multiplying means of said Costas Loop demodulating means is within a preset range, andlock detecting means which detects a lock condition of said Costas Loop demodulating means when said first prelock signal and said second prelock signal are present.
  - 9. A receiver for use in a spread spectrum communication system according to claim 8, wherein said Costas Loop demodulating means comprises,oscillator means for oscillating a first demodulating signal,phase shift means for generating a second demodulating signal of which the phase is shifted by 90°
    - from said first demodulating signal,first multiplying means for multiplying a first reverse spread signal generated from a first reverse spread of said first correlation detecting means and said first demodulating signal,second multiplying means for multiplying said first reverse spread signal and the second demodulating signal,third multiplying means for multiplying an output of said first multiplying means and an output of said second multiplying means, andfrequency control means for controlling the oscillation frequency of said oscillator means in accordance with a mean value of an output of said third multiplying means.
  - 10. A receiver for use in a spread spectrum communication system according to claim 9, wherein said first prelock detecting means comprises a binary encoding means, said second prelock detecting means comprises full-wave rectifying means and a binary encoding means, and said lock detecting means comprises a logic gate.

11. A receiver for use in a spread spectrum communication system comprising:
- spread signal distributing means for distributing a received spread spectrum signal into at least three signals comprising a first spread signal, a second spread signal and a third spread signal,pseudo noise signal generating means which generates pseudo noise signals having a code series which is substantially equal to a pseudo noise signal included in said received spread spectrum signal,phase shift means for receiving a pseudo noise signal generated by said pseudo noise signal generating means for outputting at least a first pseudo noise signal having a reference phase, a second pseudo noise signal having a phase which leads the reference phase of said first pseudo noise signal by an amount corresponding to a specified number of code bits and a third pseudo noise signal having a phase which lags the reference phase of said first pseudo noise signal by an amount corresponding to a specified number of code bits,first correlation detecting means comprising first reverse spread means for generating a first reverse spread signal by reversely spreading said first reverse spread signal with said first pseudo noise signal, first signal extracting means for extracting a signal element of said first reverse spread signal, and first detecting means for detecting by an envelope detection method an extracted signal element of said first signal extracting means,second correlation detecting means comprising second reverse spread means for generating a second reverse spread signal by reversely spreading said second spread signal with said second pseudo noise signal, second signal extracting means for extracting a signal element of said second reverse spread signal, and second detecting means for detecting by an envelope detecting method an extracted signal element of said second signal extracting means,third correlation detecting means comprising third reverse spread means for generating a third reverse spread signal by reversely spreading said third spread signal with said third pseudo noise signal, third signal extracting means for extracting a signal element of said third reverse spread signal and third detecting means for detecting by an envelope detection method an extracted signal element of said third signal extracting means,hybrid means for generating a signal corresponding to a difference between an output of said second correlation detecting means and an output of said third correlation detecting means,synchronization control means for setting a bit rate which deviates by a specified value from the bit rate of the pseudo noise signal included in said received spread spectrum signal and for executing an initial seizing control operation to adjust the bit rate to be substantially equal to the bit rate of the pseudo noise signal included in said received spread spectrum signal when an output of said first correlation detecting means becomes higher than the specified level, and for continuously executing a synchronization sustaining control operation to hold an output of said hybrid means to a reference level after the bit rate is adjusted in said initial seizing control operation by monitoring an output of said first correlation detecting means and an output of said hybrid means and adjusting the bit rates from time to time, and for suspending execution of said synchronization sustaining control operation to start a measurement of time when an output of said first correlation detecting means becomes lower than said specified level during execution of said synchronization sustaining control operation and for re-executing the synchronization sustaining control operation when an output of said first correlation detecting means becomes higher than said specified level within a specified time period, andactivating means for activating said pseudo noise generating means on the basis of the bit rate set by said synchronization control means.
- View Dependent Claims (12, 13, 14)
- - 12. A receiver for use in a spread spectrum communication system according to claim 11, wherein said synchronization control means executes said initial seizing control operation when an output of said first correlation detecting means becomes lower than said specified level during execution of said synchronization sustaining control operation and such condition continues for a period of time exceeding the specified time period.
  - 13. A receiver for use in a spread spectrum communication system according to claim 12, wherein said synchronization control means suspends execution of said synchronization sustaining control operation and starts a measurement of time when an output of said first correlation detecting means becomes lower than said specified level after an output level of said hybrid means is controlled to be within a specified range in the vicinity of said reference level of said synchronization sustaining control means for executing the synchronization sustaining control operation when an output of a measuring means of the first correlation detecting means becomes higher than said specified level within the specified time period.
  - 14. A receiver for use in spread spectrum communication system according to claim 13, wherein said synchronization control means suspends execution of the synchronization sustaining control operation and executes said initial seizing control operation when an output of first correlation detecting means becomes lower than said specified level before an output of said hybrid means is controlled to be within said specified level in the vicinity of said reference level in said synchronization sustaining control means.

15. A receiver for use in spread spectrum communication system comprising:
- oscillator means for oscillating an electrical signal of a preset frequency,frequency mixing means for mixing the received spread spectrum signal and an electrical signal oscillated by said oscillator means to generate a spread spectrum signal of low frequency,spread signal distributing means for distributing the spread spectrum signal output from said frequency mixing means into at least a first spread signal, a second spread signal and a third spread signal,pseudo noise signal generating means for generating a pseudo noise signal having a code train which is substantially equal to a pseudo noise signal included in said received spread spectrum signal,phase shift means for receiving the pseudo noise signal generated from said pseudo noise signal generating means and for outputting at least a first pseudo noise signal having a reference phase, a second pseudo noise signal having a phase which leads the reference phase of said first pseudo noise signal by an amount corresponding to a specified number of code bits and a third pseudo noise signal having a phase which lags the reference phase of said first pseudo noise signal by an amount corresponding to a specified number of code bits,first correlation detecting means comprising first reverse spread means for generating a first reverse spread signal by reversely spreading said first spread signal with said first pseudo noise signal, first signal extracting means for extracting a signal element of said first reverse spread signal, and first detecting means for detecting an extracted signal element of said first signal extracting means by an envelope detecting method,second correlation detecting means comprising a second reverse spread means for generating a second reverse spread signal by reversely spreading said second spread signal with said second pseudo noise signal, a second signal extracting means for extracting a signal element of said second reverse spread signal and second detecting means for detecting an extracted signal element of said second signal extracting means by an envelope detecting method,third correlation detecting means comprising a third reverse spread means for generating a third reverse spread signal by reversely spreading said third spread signal with said third pseudo noise signal, third extracting means for extracting a signal element of said third reverse spread signal and third detecting means for detecting an extracted signal element of said third extracting means by an envelope detecting method,hybrid means for generating a signal depending on a difference between an output of said second correlation detecting means and an output of said third correlation detecting means,synchronization control means for setting a bit rate which deviates by a specified value from the bit rate of the pseudo noise signal included in said received spread spectrum signal, and for executing an initial seizing control operation to adjust the bit rate to be substantially equal to the bit rate of the pseudo noise signal included in said received spread spectrum signal when an output of said first correlation detecting means becomes higher than a specified level, and for continuously executing, after the bit rate is adjusted in said initial seizing control operation, a synchronization sustaining control operation to hold an output of said hybrid means to a reference level and for causing a frequency compensation control means to control an output of said correlation detecting means by adjusting the frequency of said electrical signal from time to time by monitoring an output of said first correlation detecting means and an output of said hybrid means and adjusting the bit rates from time to time,activating means for activating said pseudo noise generating means on the basis of the bit rate set by said synchronization control means, anddemodulating means connected to said synchronization control means for extracting data included in said spread spectrum signal.
- View Dependent Claims (16, 17)
- - 16. A receiver for use in a spread spectrum communication system according to claim 15, wherein said frequency mixing means further comprises level adjusting means,said synchronization control means further controls said level adjusting means and continuously executes, after the bit rate is adjusted in said initial seizing control operation, the synchronization sustaining control operation to control an output of said hybrid means to be substantially at the reference level by adjusting the bit rates from time to time, and further controlling the level adjusting means to control an output of said first correlation detecting means to a preset level by adjusting the gain of said level adjusting means and controlling the frequency compensation control mean to control an output of the first correlation detecting means to be a maximum by adjusting the frequency of said electrical signal from time to time, by monitoring an output of said first correlation detecting means and an output of said hybrid means.
  - 17. A receiver for use in a spread spectrum communication system according to claim 16, wherein said synchronization control means adjusts the gain of the level adjusting means to a constant value during said frequency compensation control operation.

18. A receiver for use in a spread spectrum communication comprising:
- spread signal distributing mean for distributing a received spread spectrum signal into at least a first spread signal, a second spread signal and a third spread signal,pseudo noise signal generating means for generating a pseudo noise signal having a code series which is substantially equal to a pseudo noise signal included in said received spread spectrum signal,phase shift means for receiving the pseudo noise signal generated from said pseudo noise signal generating means and for outputting at least a first pseudo noise signal having a reference phase, a second pseudo noise signal having a phase which leads the reference of the first pseudo noise signal by an amount corresponding to a specified number of code bits and a third pseudo noise signal having a phase which lags the reference phase of the first pseudo noise signal by an amount corresponding to a specified number of code bits,first correlation detecting means comprising a first reverse spread means for generating a first reverse spread signal by reversely spreading said first spread signal with said first pseudo noise signal, first signal extracting means for extracting a signal element of said first reverse spread signal and first detecting means for detecting an extracted signal element of said first signal extracting means by an envelope detecting method,second correlation detecting means comprising a second reverse spread means for generating a second reverse spread signal by reversely spreading said second spread signal with said second pseudo noise signal, second signal extracting means for extracting a signal element of said second reverse spread signal, and second detecting means for detecting an extracted signal element of said second signal extracting means by an envelope detecting method,third correlation detecting means comprising a third reverse spread means for generating a third reverse spread signal by reversely spreading said third spread signal with said third pseudo noise signal, third signal extracting means for extracting a signal element of said third reverse spread signal and a third detecting means for detecting an extracted signal element of said third signal extracting means by an envelope detecting method,hybrid means for generating a signal corresponding to a difference between an output of said second correlation detecting means and an output of said third correlation detecting means,synchronization control means for setting a bit rate shifted by a specified value from the bit rate of a pseudo noise signal included in said received spread spectrum signal, and for executing an initial seizing control operation to adjust the bit rate to be substantially equal to the bit rate of the pseudo noise signal included in said received spread spectrum signal when an output of said first correlation detecting means becomes higher than a specified level and for continuously executing a synchronization sustaining control operation after the bit rate is adjusted in said initial seizing control operation to hold an output of said hybrid means to a reference level by monitoring an output of said first correlation detecting means and an output of said hybrid means and adjusting the bit rates from time to time,activating means for activating said pseudo noise generating means based on the bit rate set by said synchronization control means,demodulating means connected to said synchronization control means for extracting data included in said spread spectrum signal,Costas Loop demodulating means,first prelock detecting means for detecting a first prelock signal when an output of said first correlation detecting means exceeds the preset level,second prelock detecting means for detecting a second prelock signal when the amplitude of an output of a multiplying means of said Costas Loop demodulating means is within the preset range, andlock detecting means for detecting a lock condition of said Costas Loop demodulating means when said first prelock signal and second prelock signal exist.
- View Dependent Claims (19, 20)
- - 19. A receiver for use in a spread spectrum communication system according to claim 18, wherein said Costas Loop demodulating means comprises:
    - oscillator means for oscillating a first demodulating signal,second phase shift means for generating a second demodulating signal which deviates in phase by substantially 90°
      
      from said demodulating signal,first multiplying means for multiplying a first reverse spread signal generated from the first reverse spread of said first correlation detecting means and said first demodulating signal,second multiplying means for multiplying said first reverse spread signal and said second demodulating signal,third multiplying means for multiplying an output of said first multiplying means and an output of said second multiplying means, andfrequency control means for controlling the oscillation frequency of the oscillation means in accordance with a mean value of an output of said third multiplying means.
  - 20. A receiver for use in a spread spectrum communication system according to claim 19, wherein said first prelock detecting means comprises binary encoding means, said second prelock detecting means comprises full-wave rectifying means and binary encoding means, and said lock detecting means comprises a logic gate.

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Current Assignee
Aisin Seiki Co., Ltd. (Aisin Corp.)
Original Assignee
Aisin Seiki Co., Ltd. (Aisin Corp.)
Inventors
Yamamoto, Tomohiro, Murakami, Yuichi
Primary Examiner(s)
CANGIALOSI, SALVATORE A

Application Number

US07/102,731
Time in Patent Office

874 Days
Field of Search

375/1, 380/34
US Class Current

375/149
CPC Class Codes

H04B 1/7085 using a code tracking loop,...

Receiver for spread spectrum communication and receiving method for the same

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Receiver for spread spectrum communication and receiving method for the same

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Abstract

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