Low profile antenna

US 7,595,762 B2
Filed: 10/13/2006
Issued: 09/29/2009
Est. Priority Date: 10/16/2005
Status: Active Grant

First Claim

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1. A multi panel antenna, comprising:

a plurality of panels, each including a plurality of arrayed antenna radiator elements;

a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other;

an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;

RF transmission lines connecting the RF signal transmifter and/or receiver to the radiator elements in a manner which is capable of inducing electrical tilt in a pointing angle of a radiation pattern beam of one or more of the panels; and

a controller adapted to mechanically rotate the panels over a range of radiation pattern beam pointing directions, while also moving the panel centers relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions, wherein the controller is adapted to mechanically move the panels over a range including an angle in which the beam pointing direction of the panels and a line perpendicular to the panels are in separate quadrants of space when divided by horizontal and vertical lines intersecting at an axis of panel rotation.

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Abstract

Plural panelized phased arrays, possibly including electronic tilt, are controlled in physical orientation to present a reduced physical profile. Each panel may include a non-linear shaped aperture which physically mates with other shaped apertures to maintain a composite tapered aperture for reduced side lobes. Long delay compensation to equalize RF radiator element signal propagation times improves bandwidth.

131 Citations

35 Claims

1. A multi panel antenna, comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements;
  
  a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other;
  
  an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;
  
  RF transmission lines connecting the RF signal transmifter and/or receiver to the radiator elements in a manner which is capable of inducing electrical tilt in a pointing angle of a radiation pattern beam of one or more of the panels; and
  
  a controller adapted to mechanically rotate the panels over a range of radiation pattern beam pointing directions, while also moving the panel centers relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions, wherein the controller is adapted to mechanically move the panels over a range including an angle in which the beam pointing direction of the panels and a line perpendicular to the panels are in separate quadrants of space when divided by horizontal and vertical lines intersecting at an axis of panel rotation.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The multi panel antenna as in claim 1 wherein said mechanical mount structure comprises a plurality of assemblies such that at least one of said assemblies is configured to pivot at its base.
  - 3. The multi panel antenna as in claim 1 wherein said controller mechanically rotates the panels over a range of radiation pattern beam pointing directions while also moving the panel centers relative to each other rotates said panels and moves the centers of said panels relative to each other as part of a single complex movement.
  - 4. The multi panel antenna as in claim 1 wherein said RF transmission lines induce an electrical tilt in a pointing angle of a radiation pattern beam of one or more of the panels such that said electrical tilt is fixed.
  - 5. The multi panel antenna as in claim 1 wherein said RF transmission lines induce an electrical tilt in a pointing angle of a radiation pattern beam of one or more of the panels such that said electrical tilt is adjustable.
  - 6. The multi panel antenna as in claim 1 wherein said electronic tilt is at least a 45 degree angle from a perpendicular to said panels, and the range of possible beam pointing angles covers at least 75 degrees.
  - 7. The multi panel antenna as in claim 1 wherein said panels when viewed from the beam pointing direction appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions;
    - andwherein said panels when simultaneously viewed from an angle perpendicular to the panels appear to present a discontinuous surface with overlaps or gaps.

8. A multi panel antenna, comprising:
- a plurality of at least four panels, each including a plurality of arrayed antenna radiator elements;
  
  at least two assemblies of the panels, each assembly including at least two panels that are displaced from each other and also fixed in position with respect to each other so that they do not move relative to each other but are movable together as a unit with respect to at least one other panel;
  
  a mechanical mount structure carrying the panel assemblies in a manner which allows movement of at least two of the panel assemblies relative to each other, said movement of at least two of the panel assemblies comprising lateral movement wherein the centers of said assemblies move relative to each other;
  
  an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;
  
  RF transmission lines connecting the RF signal transmitter and/or receiver to the radiator elements; and
  
  a controller adapted to mechanically move the panel assemblies over a range of radiation pattern beam pointing directions.
- View Dependent Claims (9)
- - 9. A multi panel antenna as in claim 8 wherein said controller is adapted to move the panel assemblies relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over a multiplicity of angles in the range of possible beam pointing angles.

10. A multi panel antenna, comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements;
  
  a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other, said movement comprising lateral movement wherein the centers of said panels move relative to each other;
  
  an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;
  
  RF transmission lines connecting the RF signal transmitter and/or receiver to the radiator elements; and
  
  a controller adapted to mechanically rotate the panels over a range of radiation pattern beam pointing directions, while also moving the panel centers relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions, wherein said mechanical mount structure allows and the controller causes overlap of at least two of the panels at a vertical plane for some range of beam pointing directions.
- View Dependent Claims (11)
- - 11. The multi panel antenna as in claim 10 wherein said mechanical mount structure rotates said panels and moves the centers of said panels relative to each other as part of a single complex movement.

12. A multi panel antenna comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements;
  
  active areas of said panels including differently shaped active areas;
  
  a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other;
  
  an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;
  
  RF transmission lines connecting the RF signal transmitter and/or receiver to the radiator elements; and
  
  a controller adapted to mechanically move the panels over a range of radiation pattern beam pointing directions.
- View Dependent Claims (13, 14, 15)
- - 13. A multi panel antenna as in claim 12 wherein said controller is adapted to move the panels relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions.
  - 14. A multi panel antenna as in claim 12 wherein all of said active areas are tapered to smaller dimensions at edges thereof.
  - 15. A multi panel antenna as in claim 12 wherein a first of said panels has a generally oval shape and at least one other of said panels has a generally crescent shape which mates with said first panel and/or other crescent-shaped panels to provide a composite generally oval shape when their projections are viewed along said radiation pattern beam pointing directions.

16. A multi panel antenna comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements;
  
  a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other;
  
  an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;
  
  RF transmission lines connecting the RF signal transmitter and/or receiver to the radiator elements at least some of said transmission lines including time delay elements for introducing time delays, in addition to possible beam steering phase shifts, in transmission lines leading to/from at least some RF radiator elements of said panels and are dimensioned so as to substantially equalize effective signal propagation times to/from a remote signal source/sink and a local signal sink/source; and
  
  a controller adapted to mechanically move the panels over a range of radiation pattern beam pointing directions.
- View Dependent Claims (17, 18)
- - 17. A multi panel antenna as in claim 16 wherein said controller is adapted to move the panels relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions.
  - 18. A multi panel antenna as in claim 16 wherein at least some of said time delays are dimensioned to provide a time delay exceeding plural wavelength periods of the longest wavelength RF signals to be received and/or transmitted by the antenna.

19. A multi panel antenna comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements, at least one of said panels having a thickness and/or height dimension different from another panel;
  
  a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other;
  
  an RF signal transmitter and/or receiver adapted to respectively transmit and/or receive RF signals through the radiator elements of the panels;
  
  RF transmission lines connecting the RF signal transmitter and/or receiver to the radiator elements; and
  
  a controller adapted to mechanically move the panels over a range of radiation pattern beam pointing directions, while also moving the panels relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions.
- View Dependent Claims (20)
- - 20. An RF antenna phased array as in claim 19 wherein, for some beam directions, there is a vertical overlap of at least some of said panels and, for some other beam directions, there is no vertical overlap of said panels.

21. A method of operating a multi panel antenna comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements, said method comprising;
  
  inducing electrical tilt in a pointing angle of a radiation pattern beam of one or more of the panels as RF signals are communicated via said panels; and
  
  mechanically moving the panels over a range of radiation pattern beam pointing directions, while also moving the panel centers relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions, said moving comprising lateral movement wherein the centers of said panels move relative to each other and rotational movement over a range of angles, wherein the panels are mechanically moved over a range including an angle in which the beam pointing direction of the panels and a line perpendicular to the panels are in separate quadrants of space when divided by horizontal and vertical lines intersecting at an axis of panel rotation.
- View Dependent Claims (22)
- - 22. The method of claim 21 wherein said electrical tilt enables a reduction of the height of said panels to at least 0.7 times the panel height required to achieve the same tilt by mechanical rotation only.

23. A method of operating a multi panel antenna comprising:
- a plurality of panels included in each of plural assemblies of panels, the panels in each assembly being physically fixed with respect to each other, each panel including a plurality of arrayed antenna radiator elements, said method comprising;
  
  mechanically moving the panel assemblies over a range of radiation pattern beam pointing directions, said moving comprising lateral movement wherein the centers of said assemblies move relative to each other.
- View Dependent Claims (24)
- - 24. A method as in claim 23 further comprising:
    - moving the panel assemblies relative to each other and controlling the respective beam pointing directions of said panels such that when viewed from the beam pointing direction of the panels, they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions.

25. A method of operating a multi panel antenna comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements, said method comprising;
  
  mechanically moving the panels over a range of radiation pattem beam pointing directions, while also moving the panels relative to each other and controlling their respective beam pointing directions such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions, wherein at least two of the panels overlap at a vertical plane for some range of beam pointing directions.

26. A method of operating a multi panel antenna comprising a plurality of panels, each panel comprising respectively differently shaped and/or sized active areas including a plurality of arrayed antenna radiator elements, said method comprising:
- mechanically moving the panels over a range of radiation pattern beam pointing directions, while also moving the panels relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions.
- View Dependent Claims (27, 28, 29, 30)
- - 27. A method as in claim 26 wherein all of said active areas are tapered to smaller dimensions at at least one pair of opposing edges.
  - 28. A method as in claim 26 wherein a first of said panels has a generally oval shape and at least one other of said panels has a generally crescent shape which mates with said first panel and/or other crescent-shaped panels to provide a composite generally oval shape when their projections are viewed along said radiation pattern beam pointing directions.
  - 29. A method as in claim 26 wherein time delays, in addition to beam steering phase shifts, are introduced in transmission lines leading to/from at least some RF radiator elements of said panels and are dimensioned so as to substantially equalize effective signal propagation times to/from a remote signal source/sink and a local signal sink/source.
  - 30. A method as in claim 29 wherein at least some of said time delays are dimensioned to provide a time delay exceeding plural wavelength periods of the longest wavelength RF signals to be received and/or transmitted by the antenna.

31. A method of operating a multi panel antenna comprising a plurality of panels, at least one of said panels having a thickness and/or height dimension different from another panel and each panel including a plurality of arrayed antenna radiator elements, said method comprising:
- mechanically moving the panels over a range of radiation pattern beam pointing directions, while also moving the panels relative to each other and controlling their respective beam pointing directions such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over at least some range of beam pointing directions.

32. A method of operating an antenna phased array comprising a plurality of panels, each panel having an active area containing a phased sub-array of plural RF radiator elements for receiving and/or transmitting RF electromagnetic waves with a principal radiation pattern lobe having a pointing angle direction, said method comprising:
- mounting each said panel for controlled movements with respect to an antenna mounting base structure with a horizontal distance G between vertical projections of adjacent panel edges; and
  
  controlling coordinated movements of the panels and controlling their respective beam pointing directions so that a range of antenna pointing angles is provided wherein projections of the panels along said pointing angle direction of said principle radiation pattern lobe present substantially contiguous edges and an apparently continuous surface even when G becomes negative due to physically overlapping panel edges along a vertical direction over at least some range of beam pointing directions.
- View Dependent Claims (33)
- - 33. A method as in claim 32 wherein, for some beam directions, there is a vertical overlap of at least some of said panels and, for some other beam directions, there is no vertical overlap of said panels.

34. A multi panel antenna, comprising:
- a plurality of panels, each including a plurality of arrayed antenna radiator elements;
  
  a mechanical mount structure carrying the panels in a manner which allows movement of at least two of the panels relative to each other, wherein said mechanical mount structure comprises a plurality of assemblies such that at least one of said assemblies is configured to pivot at its base;
  
  an RF component comprising one or both of a signal transmitter which transmits and a signal receiver which receives signals through the radiator elements of the panels; and
  
  RF transmission lines connecting said RF component to the radiator elements in a manner which is capable of inducing electrical tilt in a pointing angle of a radiation pattern beam of one or more of the panels.

35. A multi panel antenna, comprising:
- a plurality of at least four panels, each including a plurality of arrayed antenna radiator elements;
  
  at least two assemblies of the panels, each assembly including at least two panels that are displaced from each other and also fixed in position with respect to each other so that they do not move relative to each other but are movable together as a unit with respect to at least one other panel;
  
  a mechanical mount structure carrying the panel assemblies in a manner which allows movement of at least two of the panel assemblies relative to each other;
  
  an RF component comprising one or both of a signal transmitter adapted to transmit and a signal receiver adapted to receive signals through the radiator elements of the panels;
  
  RF transmission lines connecting said RF component to the radiator elements; and
  
  a controller adapted to mechanically move the panel assemblies over a range of radiation pattern beam pointing directions, wherein said controller is adapted to move the panel assemblies relative to each other such that when viewed from the beam pointing direction of the panels they appear to present a continuous surface without overlap or gaps over a multiplicity of angles in the range of possible beam pointing angles.

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Litigation Campaign Assessment

Current Assignee
Panasonic Avionics Corporation (Panasonic Holdings Corporation)
Original Assignee
Starling Advanced Communications Ltd.
Inventors
Mansour, David
Primary Examiner(s)
CHEN, SHIH CHAO

Application Number

US11/580,306
Publication Number

US 20070146222A1
Time in Patent Office

1,082 Days
Field of Search

343/711, 343/757, 343/765, 343/766, 343/853, 343/879, 343/882
US Class Current

343/757
CPC Class Codes

H01Q 1/3283   side-mounted antennas, e.g....

H01Q 3/08   for varying two co-ordinate...

H01Q 3/26   varying the relative phase ...

Low profile antenna

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

131 Citations

35 Claims

Specification

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Low profile antenna

First Claim

2 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

131 Citations

35 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links