MULTI-BEAM SMART ANTENNA FOR WYLAN AND PICO CELLULAR APPLICATIONS

US 20140313080A1
Filed: 04/26/2013
Published: 10/23/2014
Est. Priority Date: 04/19/2013
Status: Abandoned Application

First Claim

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1. A steerable antenna system, comprising:

a dipole antenna element located at substantially the center of a ground plane, wherein the dipole antenna element comprises a first conductor and a second conductor that is oriented parallel and collinear with the first conductor, wherein the ground plane, which has an upper-side and an underside, is located at a point between the first conductor and the second conductor;

a first plurality of parasitic elements, each parasitic element positioned substantially parallel to the dipole antenna element, and arranged on the upper-side of the ground plane in a predetermined array in relation to each other and to the dipole antenna element;

a second plurality of parasitic elements, each parasitic element positioned substantially parallel to the dipole antenna element, and arranged on the underside of the ground plane in substantially the same predetermined array as the first plurality of parasitic elements;

a plurality of switching elements for connecting a parasitic element with a corresponding parasitic element with the ground plane to form reflective elements, wherein the parasitic element and the corresponding parasitic element are oriented parallel and collinear with each other; and

a switching controller for controlling the switching elements, wherein the switching elements are used to alter the antenna system'"'"'s beam pattern by selectively activating or deactivating said reflective elements.

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Abstract

Multi-beam smart antenna for WLAN and cellular applications preferably has a steerable antenna system with a dipole antenna element located at the center of a ground plane. A first conductor is oriented parallel and collinear with a second conductor, and the ground plane is located therebetween. Each of first parasitic elements is positioned substantially parallel to the dipole element, and arranged on the upper-side of the ground plane in an array. Each of second parasitic elements is positioned parallel to the dipole element, and arranged on the underside of the ground plane in the same predetermined array. A plurality of switching elements connect parasitic elements and the ground plane to form reflective elements. Each parasitic element and corresponding parasitic element are oriented parallel and collinear with each other. A switching controller controls the switching elements to alter the antenna system'"'"'s beam pattern by selectively activating or deactivating the reflective elements.

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21 Claims

1. A steerable antenna system, comprising:
- a dipole antenna element located at substantially the center of a ground plane, wherein the dipole antenna element comprises a first conductor and a second conductor that is oriented parallel and collinear with the first conductor, wherein the ground plane, which has an upper-side and an underside, is located at a point between the first conductor and the second conductor;
  
  a first plurality of parasitic elements, each parasitic element positioned substantially parallel to the dipole antenna element, and arranged on the upper-side of the ground plane in a predetermined array in relation to each other and to the dipole antenna element;
  
  a second plurality of parasitic elements, each parasitic element positioned substantially parallel to the dipole antenna element, and arranged on the underside of the ground plane in substantially the same predetermined array as the first plurality of parasitic elements;
  
  a plurality of switching elements for connecting a parasitic element with a corresponding parasitic element with the ground plane to form reflective elements, wherein the parasitic element and the corresponding parasitic element are oriented parallel and collinear with each other; and
  
  a switching controller for controlling the switching elements, wherein the switching elements are used to alter the antenna system'"'"'s beam pattern by selectively activating or deactivating said reflective elements.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The steerable antenna system of claim 1, wherein the parasitic elements are approximately λ
    - /4 long.
  - 3. The steerable antenna system of claim 1, the first plurality of parasitic elements are approximately ⅜
    - λ
      
      long.
  - 4. The steerable antenna system of claim 3, the second plurality of parasitic elements are approximately λ
    - /8 long.
  - 5. The steerable antenna system of claim 1, wherein the reflector elements comprise both reflectors of λ
    - /4 length and reflectors of λ
      
      /8 length.
  - 6. The steerable antenna system of claim 1, further comprising a Watson Watts antenna arrangement.
  - 7. The steerable antenna system of claim 1, wherein the plurality of parasitic elements are arranged around the dipole antenna element to form a reflector ring.
  - 8. The steerable antenna system of claim 1, wherein the plurality of parasitic elements are arranged around the dipole antenna element to form two stacked reflector rings.

9. A system having improved signal reception, comprising:
- a processor;
  
  data storage;
  
  a wired connection enabled to send and receive a packet;
  
  a wireless connection enabled to wirelessly send and receive a packet;
  
  a dipole antenna element located at substantially the center of a ground plane, wherein the dipole antenna element comprises a first conductor and a second conductor that is oriented parallel and collinear with the first conductor, wherein the ground plane, which has an upper-side and an underside, is located at a point between the first conductor and the second conductor;
  
  a first plurality of parasitic elements, each parasitic element positioned substantially parallel to the dipole antenna element, and arranged on the upper-side of the ground plane in a predetermined array in relation to each other and to the dipole antenna element;
  
  a second plurality of parasitic elements, each parasitic element positioned substantially parallel to the dipole antenna element, and arranged on the underside of the ground plane in substantially the same predetermined array as the first plurality of parasitic elements;
  
  a plurality of switching elements for connecting a parasitic element with a corresponding parasitic element with the ground plane to form reflective elements, wherein the parasitic element and the corresponding parasitic element are oriented parallel and collinear with each other; and
  
  a switching controller for controlling the switching elements, wherein the switching elements are used to alter the antenna system'"'"'s beam pattern by selectively activating or deactivating said reflective elements.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. The system of claim 9, wherein the parasitic element are approximately λ
    - /4 long.
  - 11. The system of claim 9, the first plurality of parasitic elements are approximately ⅜
    - λ
      
      long.
  - 12. The system of claim 11, the second plurality of parasitic elements are approximately λ
    - /8 long.
  - 13. The system of claim 9, wherein the reflector elements comprise both reflectors of λ
    - /4 length and reflectors of λ
      
      /8 length.
  - 14. The system of claim 9, further comprising a Watson Watts antenna arrangement.
  - 15. The system of claim 9, wherein the plurality of parasitic elements are arranged around the dipole antenna element to form a reflector ring.
  - 16. The system of claim 9, wherein the plurality of parasitic elements are arranged around the dipole antenna element to form two stacked reflector rings.

17. A method for dynamically controlling an antenna system, said antenna system having a dipole antenna element, a first plurality of parasitic elements, a second plurality of parasitic elements, a plurality of switching elements for connecting one or more parasitic elements with the a ground plane to form a reflective elements and a switching controller for controlling said switching elements, the method comprising:
- scanning a region by steering the antenna system'"'"'s beam through multiple directions, wherein any interference on a desired channel in measured in each direction;
  
  using the measured interference to create an interference profile, wherein the interference profile is used to identify a most disruptive interference;
  
  determining the direction that corresponds to the most disruptive interference; and
  
  positioning a null in the direction of the most disruptive interference.
- View Dependent Claims (18, 19)
- - 18. The method of claim 17, wherein the system positions a null in the direction of the most disruptive interference by rotating the beam pattern.
  - 19. The method of claim 17, wherein the system positions a null in the direction of the most disruptive interference by selectively activating one or more reflective elements.

20. A method for controlling a beam steering antenna system, the antenna system having a dipole antenna element located substantially at the center of a ground plane, a first plurality of parasitic elements located on a first side of the ground plane, a second plurality of parasitic elements on a second side of the ground plane, a plurality of switching elements, and a switching controller, the method comprising:
- coupling a parasitic element and a corresponding parasitic element with the ground plane using a switching element, the parasitic element and the corresponding parasitic element being oriented parallel and collinear with each other;
  
  forming a reflective element by triggering the switching element;
  
  using a switching controller to selectively control the switching elements; and
  
  steering a beam by selectively controlling the reflective elements.

21. An steerable antenna system having improved signal reception, comprising:
- a first steerable antenna array having both λ
  
  /4 long and λ
  
  /8 long reflectors, wherein the first steerable antenna array is operated at a frequency of about 2.4 GHz;
  
  a second steerable antenna array having both λ
  
  /4 long and λ
  
  /8 long reflectors, wherein the second steerable antenna array is operated at a frequency of about 5 GHz; and
  
  a third steerable antenna array having both λ
  
  /4 long and λ
  
  /8 long reflectors, wherein the third steerable antenna array is operated at a frequency of about 5 GHz,wherein the first antenna array is positioned between the second antenna array and the third antenna array,wherein the λ
  
  /8 reflectors do not have an effect on the 2.4 Ghz signals and appear to the 5 Ghz signals as λ
  
  /4 reflectors, thereby effectively hiding the λ
  
  /4 reflectors that appear as λ
  
  /2 reflectors to the 5 GHz signals.

Specification

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Current Assignee
Telefonaktiebolaget LM Ericsson
Original Assignee
Telefonaktiebolaget LM Ericsson
Inventors
Smith, Roland A., Frank, Peter, Rayment, Stephen, Wight, Jim, Shafai, Lot, Skof, Michael

Application Number

US13/871,394
Publication Number

US 20140313080A1
Time in Patent Office

Days
Field of Search
US Class Current

342/372
CPC Class Codes

H01Q 19/28   using a secondary device in...

H01Q 19/32   the primary active element ...

H01Q 3/00   Arrangements for changing o...

H01Q 9/20   Two collinear substantially...

H01Q 9/32   Vertical arrangement of ele...

MULTI-BEAM SMART ANTENNA FOR WYLAN AND PICO CELLULAR APPLICATIONS

First Claim

1 Assignment

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Abstract

Citations

21 Claims

Specification

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MULTI-BEAM SMART ANTENNA FOR WYLAN AND PICO CELLULAR APPLICATIONS

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

21 Claims

Specification

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Solutions

Use Cases

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