Preamable detection circuit for digital communications system

US 5,012,491 A
Filed: 08/07/1989
Issued: 04/30/1991
Est. Priority Date: 08/05/1988
Status: Expired due to Term

First Claim

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1. A preamble detection circuit for a receive end of a transmission system in which a preamble containing a predetermined bit pattern and a digital signal are modulated upon orthogonal carriers and transmitted in a series of burst signals from a transmit end of the system, said receive end comprising symbol clock generator means for generating a local clock pulse, sampler means for sampling orthogonal signals in response to said local clock pulse, variable-frequency carrier generator means for generating first local orthogonal carriers having variable frequency and phase, and synchronous detector means for synchronously detecting the transmitted symbols from outputs of said sampler means with said first local orthogonal carriers, said circuit comprising:

orthogonal demodulator means for noncoherently detecting the transmitted burst signals with second local orthogonal carriers of constant frequency equal to the frequency of the transmitted orthogonal carriers, said second local orthogonal carriers tending to deviate in phase over a predetermined range from the transmitted orthogonal carriers, said orthogonal demodulator means generating in-phase and quadrature output signals as said orthogonal signals;

means for generating a local bit pattern corresponding to the bit pattern contained in said preamble;

first and second correlators, the first correlator providing a correlation calculation between the local bit pattern and the in-phase output signal and the second correlator providing a correlation calculation between the local bit pattern and the quadrature output signal;

carrier phase error detector means connected to the outputs of the first and second correlators for detecting a carrier phase error of the second local orthogonal carriers with respect to the transmitted carriers and controlling said variable-frequency carrier generator means with the detected carrier phase error; and

clock phase error detector means connected to be responsive to one of the outputs of the first and second correlators and to the output of the symbol clock generator means for detecting a clock phase error of the local clock pulse with respect to symbols contained in the transmitted burst signals and controlling the symbol clock generator means with the detected clock phase error.

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Abstract

In a burst mode digital communication system, a preamble containing a predetermined bit pattern and a digital signal are modulated upon orthogonal carriers and transmitted in a series of burst signals. At a distant end of the system, the preamble and the digital signal are noncoherently detected with locally generated orthogonal carriers having the same frequency as the transmitted orthogonal carries to produce in-phase and quadrature signals. First and second correlators are provided to perform a correlation calculation between a locally generated bit pattern and the in-phase signal and to perform a correlation calculation between the local bit pattern and the quadrature signal. A phase error of the local carriers with respect to the transmitted carriers is detected from the outputs of the first and second correlators. A clock phase error of a locally generated clock pulse with respect to symbols contained in the transmitted burst signals is detected from one of the outputs of the correlators. Power level detector is connected to the outputs of the correlators for detecting a power level of the received burst signals. The carrier and clock phase error detection as well as the power level detection are performed in a parallel fashion, allowing a reduction of the amount of information contained in the preamble.

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10 Claims

1. A preamble detection circuit for a receive end of a transmission system in which a preamble containing a predetermined bit pattern and a digital signal are modulated upon orthogonal carriers and transmitted in a series of burst signals from a transmit end of the system, said receive end comprising symbol clock generator means for generating a local clock pulse, sampler means for sampling orthogonal signals in response to said local clock pulse, variable-frequency carrier generator means for generating first local orthogonal carriers having variable frequency and phase, and synchronous detector means for synchronously detecting the transmitted symbols from outputs of said sampler means with said first local orthogonal carriers, said circuit comprising:
- orthogonal demodulator means for noncoherently detecting the transmitted burst signals with second local orthogonal carriers of constant frequency equal to the frequency of the transmitted orthogonal carriers, said second local orthogonal carriers tending to deviate in phase over a predetermined range from the transmitted orthogonal carriers, said orthogonal demodulator means generating in-phase and quadrature output signals as said orthogonal signals;
  
  means for generating a local bit pattern corresponding to the bit pattern contained in said preamble;
  
  first and second correlators, the first correlator providing a correlation calculation between the local bit pattern and the in-phase output signal and the second correlator providing a correlation calculation between the local bit pattern and the quadrature output signal;
  
  carrier phase error detector means connected to the outputs of the first and second correlators for detecting a carrier phase error of the second local orthogonal carriers with respect to the transmitted carriers and controlling said variable-frequency carrier generator means with the detected carrier phase error; and
  
  clock phase error detector means connected to be responsive to one of the outputs of the first and second correlators and to the output of the symbol clock generator means for detecting a clock phase error of the local clock pulse with respect to symbols contained in the transmitted burst signals and controlling the symbol clock generator means with the detected clock phase error.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A preamble detection circuit as claimed in claim 1, further comprising power level detector means connected to the outputs of the first and second correlators for detecting a power level of the received burst signals.
  - 3. A preamble detection circuit as claimed in claim 1, wherein the bit pattern contained in the preamble is a series of alternating binary logic values.
  - 4. A preamble detection circuit as claimed in claim 1, wherein the carrier phase error detector means comprises:
    - a division circuit for providing a division calculation between the in-phase and quadrature output signals to produce a quotient; and
      
      arctangent calculator means for determining the arctangent of the quotient.
  - 5. A preamble detection circuit as claimed in claim 1, wherein the clock phase error detector means comprises:
    - delay means for delaying the local clock pulse by an amount corresponding to one-half the interval between successive symbols contained in the transmitted burst signals;
      
      first sampling means for sampling one of the in-phase and quadrature output signals in response to the delayed local clock pulse;
      
      second sampling means for sampling the one of said in-phase and quadrature output signals in response to the local clock pulse;
      
      symbol detector means for detecting a predetermined symbol from the output of the second sampling means; and
      
      multiplier means for generating a signal representative of a product of the output of the first sampling means and the predetermined symbol.

6. A digital communication system in which a preamble and a digital signal are modulated upon orthogonal carriers and transmitted to a distant end of the system in a series of burst signals, the preamble containing a predetermined bit pattern for carrier and clock recovery at the distant end of the system, comprising at the distant end:
- gain-controlled amplifier means for receiving the transmitted burst signals and amplifying the received signals;
  
  orthogonal demodulator means connected to the amplifier means for noncoherently detecting the preamble and the digital signal with local orthogonal carriers having the same frequency as the frequency of the transmitted orthogonal carriers, said local orthogonal carriers tending to deviate in phase over a predetermined range from the transmitted orthogonal carriers, said orthogonal demodulator means generating in-phase and quadrature output signals;
  
  means for generating a local bit pattern corresponding to the bit pattern contained in said preamble;
  
  first and second correlators, the first correlator providing a correlation calculation between the local bit pattern and the in-phase output signal and the second correlator providing a correlation calculation between the local bit pattern and the quadrature output signal;
  
  symbol clock generator means for generating a local clock pulse at a symbol rate of the transmitted burst signals;
  
  first and second decision circuits responsive to the local clock pulse for respectively sampling the in-phase and quadrature output signals;
  
  clock phase error detector means connected to one of the outputs of the first and second correlators and to the output of the symbol clock generator means for detecting a phase error of the local clock pulse with respect to symbols contained in the transmitted burst signals and controlling the symbol clock generator means with the detected phase error;
  
  carrier generator means for generating second local orthogonal carriers;
  
  synchronous detector means for providing synchronous detection on output signals from the first and second decision circuits with the second local orthogonal carriers;
  
  carrier phase error detector means connected to the outputs of the first and second correlators for detecting a phase error of the local orthogonal carriers with respect to the transmitted carriers and controlling the carrier generator means with the detected phase error; and
  
  power level detector means connected to the outputs of the first and second correlators for detecting a power level of the received burst signals and controlling the gain-controlled amplifier means with the detected power level.
- View Dependent Claims (7, 8, 9, 10)
- - 7. A digital communication system as claimed in claim 6, wherein the bit pattern contained in the preamble is a series of alternating binary logic values.
  - 8. A digital communication system as claimed in claim 6, wherein the carrier phase error detector means comprises:
    - a division circuit for providing a division calculation between the in-phase and quadrature output signals to produce a quotient; and
      
      arctangent calculator means for determining the arctangent of the quotient.
  - 9. A digital communication system as claimed in claim 6, wherein the clock phase error detector means comprises:
    - delay means for delaying the local clock pulse by an amount corresponding to one-half the interval between successive symbols contained in the transmitted burst signals;
      
      first sampling means for sampling one of the in-phase and quadrature output signals in response to the delayed local clock pulse;
      
      second sampling means for sampling the one of said in-phase and quadrature output signals in response to the local clock pulse;
      
      symbol detector means for detecting a predetermined symbol from the output of the second sampling means; and
      
      multiplier means for generating a signal representative of a product of the output of the first sampling means and the predetermined symbol.
  - 10. A digital communication system as claimed in claim 6, further comprising means for sampling the detected power level in response to the local clock pulse and supplying the sampled power level to the gain-controlled amplifier means as said detected power level.

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Current Assignee
NEC Corporation
Original Assignee
NEC Corporation
Inventors
Iwasaki, Motoya
Primary Examiner(s)
Safourek, Benedict V.

Application Number

US07/390,040
Time in Patent Office

631 Days
Field of Search

375/15, 375/77, 375/94, 375/96, 375/97, 375/98, 375/106, 375/119, 375/120, 375/84, 375/85, 375/86, 375/114, 375/116, 329/304, 329/307, 329/358, 329/360, 329/361, 329/363, 455/257, 455/258, 455/260, 455/265
US Class Current

375/343
CPC Class Codes

H04L 2027/003   at baseband only

H04L 2027/0057   quadrature phase

H04L 2027/0095   in a preamble or similar st...

H04L 27/2275   wherein the carrier recover...

H04L 27/2332   using a non-coherent carrier

H04L 7/033   using the transitions of th...

H04L 7/046   using a dotting sequence

Preamable detection circuit for digital communications system

First Claim

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Abstract

53 Citations

10 Claims

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Preamable detection circuit for digital communications system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

53 Citations

10 Claims

Specification

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Solutions

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