Base station antenna arrangement

US 5,602,555 A
Filed: 05/16/1995
Issued: 02/11/1997
Est. Priority Date: 08/12/1993
Status: Expired due to Term

First Claim

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1. An antenna comprising:

a plurality of layered antenna arrays each capable of forming a multiplicity of separate overlapping narrow beams in azimuth, the arrays being positioned such that the beams provide a coverage in azimuth wider than each array;

azimuth beamforming means for each array;

a plurality of r.f. transceivers each for transmitting and receiving r.f. signals for one or more calls;

switching matrix means for connecting each transceiver with one or other of the arrays via the beamforming means;

and control means for controlling the switch matrix means whereby a particular transceiver is connected to a particular array, via the beamforming means, to exchange r.f. signals with a remote station located in the area covered by the antenna;

means for recognizing unique identifier signals incorporated in call signals passing through the antenna; and

coherent detection means for discriminating between unwanted call signals and wanted call signals using said unique identifier signals.

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Abstract

An antenna for a base station comprising a plurality of antenna arrays (40; FIG. 6a) each capable of forming a multiplicity of separate overlapping narrow beams in azimuth, the arrays being positioned such that the of beams formed by the arrays provide a coverage in azimuth wider than each array. Means are provided for recognizing unique identifier signals (70; FIG. 6b) incorporated in call signals passing through the antenna; and coherent detection means for discriminating between unwanted call signals and wanted call signals using said unique identifier signals.

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10 Claims

1. An antenna comprising:
- a plurality of layered antenna arrays each capable of forming a multiplicity of separate overlapping narrow beams in azimuth, the arrays being positioned such that the beams provide a coverage in azimuth wider than each array;
  
  azimuth beamforming means for each array;
  
  a plurality of r.f. transceivers each for transmitting and receiving r.f. signals for one or more calls;
  
  switching matrix means for connecting each transceiver with one or other of the arrays via the beamforming means;
  
  and control means for controlling the switch matrix means whereby a particular transceiver is connected to a particular array, via the beamforming means, to exchange r.f. signals with a remote station located in the area covered by the antenna;
  
  means for recognizing unique identifier signals incorporated in call signals passing through the antenna; and
  
  coherent detection means for discriminating between unwanted call signals and wanted call signals using said unique identifier signals.
- View Dependent Claims (2, 3, 4)
- - 2. A smart antenna arrangement as claimed in claim 1 wherein said unique identifier signals are incorporated in a training sequence within a call signal structure.
  - 3. An arrangement according to claim 1 further comprising separate amplifying means for each beam coupled between the switching matrix means and each array.
  - 4. An arrangement, according to claim 1 wherein the amplifying means are situated between the azimuth beamforming means and the diplexer means.

5. A non-sectorized base station arrangement comprising:
- a plurality of antenna arrays, wherein each antenna array is capable of forming separate overlapping narrow beams in azimuth, the arrays being positioned such that the beams provide a coverage in azimuth wider than each array;
  
  azimuth beamforming means for each array;
  
  a plurality of r.f. transceivers each for transmitting and receiving r.f. signals for one or more calls,switching matrix means for connecting each transceiver with one or other of the arrays via the beamforming means;
  
  control means for controlling the switch matrix means whereby a particular transceiver is connected to a particular array, via the beamforming means, to exchange r.f. signals with a remote station located in the area covered by the antenna;
  
  means for recognizing unique identifier signals incorporated in call signals passing through the antenna; and
  
  coherent detection means for discriminating between unwanted call signals and wanted call signals using said unique identifier signals.
- View Dependent Claims (6, 7, 8)
- - 6. An antenna arrangement as claimed in claim 5 wherein said unique identifier signals are incorporated in a training sequence within a call signal structure.
  - 7. An arrangement according to claim 5 further comprising separate amplifying means for each beam coupled between the switching matrix means and each array.
  - 8. An arrangement according to claim 5 wherein the amplifying means are situated between the azimuth beamforming means and the diplexer means.

9. A method of operating a non-sectorized base-station arrangement comprising:
- a plurality of layered antenna arrays each capable of forming a multiplicity of separate overlapping narrow beams in azimuth, the arrays being positioned such that the beams provide a coverage in azimuth wider than each array;
  
  azimuth beam forming means for each array;
  
  a plurality of r.f. transceivers each for transmitting and receiving r.f. signals for one or more calls;
  
  switching matrix means for connecting each transceiver with one or other of the arrays via the beamforming means;
  
  and control means for controlling the switch matrix means whereby a particular transceiver is connected to a particular array, via the beamforming means, to exchange r.f. signals with a remote station located in the area covered by the antenna;
  
  means for recognizing unique identifier signals incorporated in call signals passing through the antenna; and
  
  coherent detection means for discriminating between unwanted call signals and wanted call signals using said unique identifier signals, wherein the method includes the following steps;
  
  for a given signal received, determining the unique identifier signals to determine whether or not the incoming signal is from a mobile within the cell and, if affirmative, selecting the best beam on the uplink by measuring the quality of the received signal strength from the mobile;
  
  selecting the antenna which would provide the best beam for a given channel on the downlink;
  
  transmitting a signal from a transceiver, through a transmit switch matrix and through the selected antenna, to the mobile.
- View Dependent Claims (10)
- - 10. A method as claimed in claim 9 wherein the said unique identifier signals are incorporated in a training sequence within a call signal structure.

Specification

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Current Assignee
Microsoft Technology Licensing LLC (Microsoft Corporation)
Original Assignee
Northern Telecom Limited (Nortel Networks Corporation)
Inventors
Searle, Jeffrey G., Dean, Stuart J., Chrystie, Peter J., Broome, Keith R., Cox, Christopher R., Westlake, Stephen J.
Primary Examiner(s)
Tarcza, Thomas H.
Assistant Examiner(s)
PHAN, DAO LINDA

Application Number

US08/441,756
Time in Patent Office

637 Days
Field of Search

342/374, 342/81, 342/154, 342/354, 342/457, 342/373, 455/33.1, 455/53.1, 455/129, 455/103
US Class Current

342/374
CPC Class Codes

H01Q 1/246   specially adapted for base ...

H01Q 25/00   Antennas or antenna systems...

H04B 7/0408   using two or more beams, i....

H04W 16/28   using beam steering

Base station antenna arrangement

First Claim

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Abstract

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Base station antenna arrangement

First Claim

7 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

10 Claims

Specification

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Solutions

Use Cases

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