Slot array antenna with reduced edge diffraction

US 6,452,560 B2
Filed: 12/08/2000
Issued: 09/17/2002
Est. Priority Date: 08/16/1999
Status: Expired due to Term

First Claim

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1. An antenna, suitable for transmitting and receiving electromagnetic signals of wavelength λ

, said antenna comprising;

a nonconductive substantially planar substrate having front and rear surfaces bounded by a common peripheral edge, said peripheral edge enclosing an antenna axis orthogonal to said front surface;

a transmission line disposed on said rear surface;

a conductive layer disposed on said front surface, said conductive layer including i. a plurality of slotted openings arrayed about said antenna axis, and ii. a surface-wave suppression region enclosing said array of slotted openings and attenuating surface waves propagating along said front surface from said slotted openings toward said peripheral edge; and

a plurality of peripheral openings disposed between said surface-wave suppression region and said peripheral edge, said peripheral openings extending through said conductive layer and said substrate and attenuating surface waves propagating within said substrate by diffraction;

such that an electromagnetic signal fed into said transmission line is coupled sequentially into respective said slotted openings and transmitted from said slotted openings substantially in the direction of said antenna axis.

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Abstract

A slot-array antenna includes a nonconductive substantially planar substrate and a transmission line disposed on a rear substrate surface where one end of the transmission line is connected to an amplifier, a connector, or an impedance load. A conductive layer on the front substrate surface includes a plurality of slotted openings arrayed about an antenna axis. A surface-wave suppression region encloses the array of slotted openings and a plurality of peripheral openings are disposed between the surface-wave suppression region and the peripheral edge of the antenna.

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25 Claims

1. An antenna, suitable for transmitting and receiving electromagnetic signals of wavelength λ
- , said antenna comprising;
  
  a nonconductive substantially planar substrate having front and rear surfaces bounded by a common peripheral edge, said peripheral edge enclosing an antenna axis orthogonal to said front surface;
  
  a transmission line disposed on said rear surface;
  
  a conductive layer disposed on said front surface, said conductive layer including i. a plurality of slotted openings arrayed about said antenna axis, and ii. a surface-wave suppression region enclosing said array of slotted openings and attenuating surface waves propagating along said front surface from said slotted openings toward said peripheral edge; and
  
  a plurality of peripheral openings disposed between said surface-wave suppression region and said peripheral edge, said peripheral openings extending through said conductive layer and said substrate and attenuating surface waves propagating within said substrate by diffraction;
  
  such that an electromagnetic signal fed into said transmission line is coupled sequentially into respective said slotted openings and transmitted from said slotted openings substantially in the direction of said antenna axis.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The antenna of claim 1 wherein said transmission line has a guided-wave length of at least λ
    - .
  - 3. The antenna of claim 1 wherein said transmission line is circular in shape so as to substantially enclose said antenna axis.
  - 4. The antenna of claim 1 wherein said transmission line comprises a plurality of coupling regions, each said coupling region corresponding to one of said slotted openings.
  - 5. The antenna of claim 1 wherein said surface-wave suppression region comprises a member of the group consisting of:
    - photonic bandgap material and photonic crystal.
  - 6. The antenna of claim 1 wherein said surface-wave suppression region comprises a plurality of concentric grooves.
  - 7. The antenna of claim 6 wherein said concentric grooves are spaced at approximate intervals of $λ$
    - 10.
  - 8. The antenna of claim 1 wherein said antenna has an approximate diameter of 6.25 inches.
  - 9. The antenna of claim 1 further comprising a reflector disposed adjacent said antenna and RF material disposed between said reflector and said antenna.
  - 10. The antenna of claim 1 further comprising a reflector disposed adjacent said antenna and RF material disposed between said reflector and said antenna.

11. A method of transmitting an electromagnetic signal of wavelength λ
- , said method comprising the steps of;
  
  providing a nonconductive substantially planar substrate having front and rear surfaces bounded by a common peripheral edge, said peripheral edge enclosing an antenna axis orthogonal to said front surface;
  
  inputting the electromagnetic signal into a transmission line disposed on said rear surface;
  
  coupling the electromagnetic signal into a plurality of slotted openings arrayed about said antenna axis, said slotted openings formed in a conductive layer disposed on said front surface;
  
  attenuating surface waves propagating along said conductive layer by means of a surface-wave suppression region enclosing said slotted openings; and
  
  attenuating surface waves propagating through said substrate by means of a plurality of peripheral openings disposed between said surface-wave suppression region and said peripheral edge, said peripheral openings extending through said conductive layer and said substrate.
- View Dependent Claims (12, 13, 14)
- - 12. The method of claim 11 wherein said transmission line comprises a plurality of coupling regions, each said coupling region corresponding to one of said slotted openings.
  - 13. The method of claim 11 wherein said surface-wave suppression region comprises a member of the group consisting of:
    - photonic bandgap material and photonic crystal.
  - 14. The method of claim 11 wherein said surface-wave suppression region comprises a plurality of concentric grooves.

15. An antenna, suitable for transmitting and receiving electromagnetic signals of wavelength λ
- , said antenna comprising;
  
  a nonconductive substantially planar substrate having front and rear surfaces bounded by a common peripheral edge, said peripheral edge enclosing an antenna axis orthogonal to said front surface;
  
  a transmission line disposed on said rear surface, said transmission line having a guided-wave length of at least λ
  
  ;
  
  a conductive layer disposed on said front surface, said conductive layer including i. a plurality of slotted openings arrayed about said antenna axis, and ii. a surface-wave suppression region enclosing said array of slotted openings; and
  
  a plurality of closely spaced peripheral openings;
  
  disposed between said surface-wave suppression region and said peripheral edge, said peripheral openings extending through said conductive layer and said substrate;
  
  such that an electromagnetic signal fed into said transmission line is coupled sequentially into respectived said slotted openings and transmitted from said slotted openings substantially in the direction of said antenna axis and surface waves propagation along said front surfaces from said slotted openings toward said peripheral edge are attenuated by said surface surface-wave suppression region and surface waves propagating within said substrate are attenuated by diffraction by said peripheral openings.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The antenna of claim 15 wherein said transmission line comprises twelve coupling regions, each said coupling region corresponding to one of said slotted openings.
  - 17. The antenna of claim 15 wherein said surface-wave suppression region comprises a member of the group consisting of:
    - photonic bandgap material and photonic crystal.
  - 18. The antenna of claim 15 wherein said surface-wave suppression region comprises at least ten concentric grooves.
  - 19. The antenna of claim 18 wherein said concentric grooves are spaced at approximate intervals of $λ$
    - 10.
  - 20. The antenna of claim 15 wherein said antenna has an approximate diameter of 6.25 inches.

21. An antenna, suitable for transmitting and receiving electromagnetic signal of wavelength λ
- , said antenna comprising;
  
  a nonconductive substantially planar substrate having front and rear a surfaces bounded by a common peripheral edge, said peripheral edge enclosing an antenna axis orthogonal to said front surface;
  
  a transmission line disposed on said rear surface;
  
  a conductive layer disposed on said front surface, said conductive layer including i. a plurality of slotted openings arrayed about said antenna axis such that an electromagnetic signal fed into said transmission line is coupled sequentially into respective said slotted openings and transmitted from said slotted openings substantially in the direction of said antenna axis, and ii. a surface-wave suppression region enclosing said array of slotted openings and attenuating surface waves propagating along said front surface from said slotted openings toward said peripheral edge.
- View Dependent Claims (22, 23, 24)
- - 22. The antenna of claim 21 wherein said surface-wave suppression region comprises a member of the group consisting of:
    - photonic bandgap material and photonic crystal.
  - 23. The antenna of claim 21 wherein said surface-wave suppression region comprises a plurality of concentric grooves.
  - 24. The antenna of claim 21 wherein said concentric grooves are spaced at approximate intervals of no more than $λ$
    - 10.

25. An antenna, suitable for transmitting and receiving electromagnetic signals of wavelength λ
- , said antenna comprising;
  
  a nonconductive substantially planar substrate having front and rear surfaces bounded by a common peripheral edge, said peripheral edge enclosing an antenna axis orthogonal to said front surface;
  
  a transmission line disposed on said rear surface;
  
  a conductive layer disposed on said front surface, said conductive layer including a plurality of slotted openings arrayed about said antenna axis such that an electromagnetic signal fed into said transmission line is coupled sequentially into respective said slotted openings and transmitted from said slotted openings substantially in the direction of said antenna axis; and
  
  a plurality of peripheral openings disposed between said slotted openings and said peripheral edge, said peripheral openings extending through said conductive layer and said substrate and attenuating surface waves within said substrate.

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Current Assignee
Novatel Incorporated (Hexagon AB)
Original Assignee
Novatel Incorporated (Hexagon AB)
Inventors
Kunysz, Waldemar
Primary Examiner(s)
PHAN, THO GIA

Application Number

US09/732,849
Publication Number

US 20020011965A1
Time in Patent Office

648 Days
Field of Search

H01/Q.138, H01/Q.936, H01/Q 1.310, H01/Q.938, 343/700.MS, 343/767, 343/768, 343/769, 343/770, 343/895, 343/909
US Class Current

343/770
CPC Class Codes

G03F 7/091   characterised by antireflec...

H01P 1/2005   Electromagnetic photonic ba...

H01Q 1/36   Structural form of radiatin...

H01Q 13/106   Microstrip slot antennas pa...

H01Q 13/20   Non-resonant leaky-waveguid...

H01Q 9/27   Spiral antennas

Slot array antenna with reduced edge diffraction

First Claim

1 Assignment

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Abstract

Citations

25 Claims

Specification

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Slot array antenna with reduced edge diffraction

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

25 Claims

Specification

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Solutions

Use Cases

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