Microwave antenna transmission device having a stripline to waveguide transition via a slot coupling

US 6,081,241 A
Filed: 05/22/1998
Issued: 06/27/2000
Est. Priority Date: 05/26/1997
Status: Expired due to Term

First Claim

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1. Device for power transmission of electromagnetic microwave energy between a first transmission conductor device and a second transmission conductor device wherein said first and second transmission conductor devices are arranged adjacent to each other and wherein the first transmission conductor device is bounded in a direction toward the second transmission conductor device by a first electrically conducting wall, and wherein said second transmission conductor device is bounded in a direction toward said first transmission conductor device by a second electrically conducting wall, wherein the power transmission is effected via a first radiation slot, having a size and shape, in said first electrically conducting wall, said device comprising:

a second radiation slot, having a size and shape, arranged in said second electrically conducting wall substantially opposite said first radiation slot, wherein said second radiation slot substantially exhibits the same size and shape as said first radiation slot; and

an electrically conducting sealing means arranged in electrical contact with said first electrically conducting wall and said second electrically conducting wall surrounding said first and second radiation slots wherein the sealing means abuts said first and said second electrically conducting wall such that an electrically closed cavity is provided between said first and said second wall, through which cavity the microwave energy is transferred between said first and second transmission conductor devices,wherein said electrically conducting sealing means is formed of an elastic material.

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Abstract

A device for the power transmission of microwaves between a strip-line and a number of parallel cavity waveguides arranged in a group antenna. The strip-line includes H-shaped slots. These slots are centered with respect to a central conductor. Opposite each of the slots, a corresponding slot is arranged through the wall of the cavity waveguide. Electrically conducting seals are arranged to follow immediately outside the contours of the slots. The strip-line is fixedly fastened to the seals and the ridge waveguide, whereby good electrical coupling is achieved. Simultaneously, small cavities are formed between the slots. These cavities have a leveling effect such that the demands on mechanical precision is appreciably lowered, such that the tolerance to placement of the slots opposite to each other is increased substantially as compared to the case of the waveguides directly abutting the strip-line.

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30 Claims

1. Device for power transmission of electromagnetic microwave energy between a first transmission conductor device and a second transmission conductor device wherein said first and second transmission conductor devices are arranged adjacent to each other and wherein the first transmission conductor device is bounded in a direction toward the second transmission conductor device by a first electrically conducting wall, and wherein said second transmission conductor device is bounded in a direction toward said first transmission conductor device by a second electrically conducting wall, wherein the power transmission is effected via a first radiation slot, having a size and shape, in said first electrically conducting wall, said device comprising:
- a second radiation slot, having a size and shape, arranged in said second electrically conducting wall substantially opposite said first radiation slot, wherein said second radiation slot substantially exhibits the same size and shape as said first radiation slot; and
  
  an electrically conducting sealing means arranged in electrical contact with said first electrically conducting wall and said second electrically conducting wall surrounding said first and second radiation slots wherein the sealing means abuts said first and said second electrically conducting wall such that an electrically closed cavity is provided between said first and said second wall, through which cavity the microwave energy is transferred between said first and second transmission conductor devices,wherein said electrically conducting sealing means is formed of an elastic material.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 24, 27, 28, 29)
- - 2. The device of claim 1, wherein said first transmission conductor device is a first cavity waveguide comprising electrically conducting walls surrounding a first cavity.
  - 3. The device of claim 2, wherein said first cavity waveguide is a ridge waveguide.
  - 4. The device of claim 1, wherein said second transmission conductor device is a strip-line card.
  - 5. The device of claim 4, wherein said first transmission conductor device is elongated, and wherein said strip-line card comprises a substrate, a respective ground plane, on each side of said substrate, wherein said ground plane comprises said second electrically conducting wall and said strip-line card further comprises an elongated central conductor arranged in the substrate, said conductor extending in a longitudinal direction of the first elongated transmission conductor device.
  - 6. The device of claim 5, wherein the central conductor is arranged substantially opposite said second radiation slot.
  - 7. The device of claim 5, wherein said strip-line card comprises a set of through-plated holes, whereby the ground planes are electrically connected at said set of through-plated holes, wherein said through-plated holes surround said second radiation slot.
  - 8. The device of claim 1, wherein an elongation of the cavity is smaller than said first and second transmission conductor devices.
  - 9. The device of claim 1, wherein said electrically closed cavity is bounded in a first dimension by said first and second electrically conducting walls and in a second and a third dimension by the electrically conducting sealing means.
  - 10. The device of claim 9, wherein the sealing means surrounds said first and second radiation slots, substantially following contours of said first and second radiation slots, such that an elongation of the cavity in said second and said third dimensions is larger than said first and second radiation slots.
  - 11. The device of claim 1, wherein the conducting sealing means comprises at least one electrically conducting sealing element.
  - 12. The device of claim 1, wherein the electrically conducting sealing means abuts both the first and second electrically conducting walls substantially along a perimeter thereof.
  - 13. The device of claim 1, wherein said first and second radiation slots are H-shaped, respectively.
  - 14. The device of claim 1, wherein said elastic material of said electrically conducting sealing means is comprised of silicon rubber coated with silver-plated aluminum.
  - 15. The device of claim 1, wherein said elastic material includes a conductive layer coating.
  - 24. The antenna device of claim 14, wherein the cavity waveguides are elongated and that said respective first slots are substantially evenly spaced along the respective cavity waveguides and elongated in a longitudinal direction of the respective cavity waveguides.
  - 27. The device of claim 14, wherein said electrically conducting sealing means is comprised of an elastic material.
  - 28. The device of claim 27, wherein said elastic material includes a conductive layer coating.
  - 29. The device of claim 27, wherein said elastic material of said electrically conducting sealing means is comprised of silicon rubber coated with silver-plated aluminum.

16. Antenna device for electromagnetic microwave energy comprising:
- a first set of substantially similar cavity waveguides which are arranged substantially parallel and adjacent to each other, each cavity waveguide comprising electrically conducting walls surrounding a cavity, respectively,said cavity waveguides each, respectively, having a first set of slots on a front wall through which microwave energy is exchanged with surroundings of said cavity waveguides,wherein said cavity waveguides, respectively, are coupled to a second set of transmission conduction devices via a second set of slots each having a size and shape, respectively, in respective rear walls of said cavity waveguides,said second set of transmission conductor devices comprises respective strip-line cards, each comprising at least a first ground plane wherein said strip-line cards are delimited towards the cavity waveguides by said at least a first ground plane in such a manner that said at least a first ground plane is parallel to the rear walls of the cavity waveguides,a third set of slots, each having a size and a shape, respectively, arranged in each said at least a first ground plane, wherein each slot in said third set of slots, respectively, is arranged substantially opposite one of said slots in said second set of slots, whereby a set of slot pairs are provided,wherein the slots in said third set of slots substantially exhibit the same size and shape as the slots in said second set of slots, respectively, andan electrically conducting sealing means arranged in electrical contact surrounding each slot pair, respectively, wherein each of said sealing means abuts the rear wall of one of the cavity waveguides and against the ground plane of one of said strip-line cards in such a manner that for each slot pair, a respective substantially sealed cavity is provided between the respective strip-line card and the cavity waveguide, through which cavity microwave energy is transferred.
- View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 25, 26)
- - 17. The antenna device of claim 16, wherein at least one of said cavity waveguides is a ridge waveguide.
  - 18. The antenna device of claim 16, wherein said strip-line cards each comprise a substrate and ground plane on each side of said substrate, wherein each of said strip-line cards further comprises an elongated strip-line conductor arranged in said substrate, respectively, which adjoins said respective third slot and extends in a longitudinal direction of the cavity waveguides.
  - 19. The antenna device of claim 18, wherein said strip-line conductors are each arranged essentially opposite on each of said third slots, respectively.
  - 20. The antenna device of claim 18, wherein at least one said strip-line card comprises a set of through-plated holes for each pair of slots, whereby the strip-line ground planes are electrically connected to each other, wherein said through-plated holes are arranged around the slot pair, respectively, thereby counteracting coupling of signals between different sets of slots.
  - 21. The antenna device of claim 16, wherein an elongation of the cavities is smaller than an elongation of the strip-line cards and an elongation of the cavity waveguides.
  - 22. The antenna device of claim 16, wherein each cavity is bounded in a first dimension of the respective cavity waveguide wall and one of the strip-line ground planes, respectively and in a second and a third dimension of the respective sealing means.
  - 23. The antenna device of claim 22, wherein each sealing means is arranged around the slot pairs, respectively, following contours of said slot pairs such that an elongation of each cavity in said second and said third dimensions is larger than an elongation of the respective slots of the slot pairs belonging to the cavity.
  - 25. The antenna device of claim 16, wherein said first set of cavity waveguides extends beyond said second set of transmission conductor devices.
  - 26. The antenna device of claim 16, wherein a plurality of cavity waveguides are coupled to a common transmission conductor device.

30. A device for power transmission of electromagnetic microwave energy between a first transmission conductor device and a second transmission conductor device wherein said first and second transmission conductor devices are arranged adjacent to each other and wherein the first transmission conductor device is bounded in a direction toward the second transmission conductor device by a first electrically conducting wall, and wherein said second transmission conductor device is bounded in a direction toward said first transmission conductor device by a second electrically conducting wall, wherein the power transmission is effected via a first radiation slot, having a size and shape, in said first electrically conducting wall, said device comprising:
- a second radiation slot, having a size and shape, arranged in said second electrically conducting wall substantially opposite said first radiation slot, wherein said second radiation slot substantially exhibits the same size and shape as said first radiation slot; and
  
  an electrically conducting sealing means arranged in electrical contact with said first electrically conducting wall and said second electrically conducting wall surrounding said first and second radiation slots wherein the sealing means abuts said first and said second electrically conducting wall such that an electrically closed cavity is provided between said first and said second wall, through which cavity the microwave energy is transferred between said first and second transmission conductor devices,wherein said electrically closed cavity is bounded in a first dimension by said first and second electrically conducting walls and in a second and a third dimension by the electrically conducting sealing means, andwherein the sealing means surrounds said first and second radiation slots, substantially following contours of said first and second radiation slots, such that an elongation of the cavity in said second and said third dimensions is larger than said first and second radiation slots.

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Current Assignee
Telefonaktiebolaget LM Ericsson
Original Assignee
Telefonaktiebolaget LM Ericsson
Inventors
Josefsson, Lars Gustaf, Malm, Lars Bertil, Eriksson, Mats Gunnar H.ang.kan, Bergendahl, Jan Michael
Primary Examiner(s)
Lee, Benny T.

Application Number

US09/083,502
Time in Patent Office

767 Days
Field of Search

333/26, 333/33, 343/771, 343/776, 343/24 R
US Class Current

343/771
CPC Class Codes

H01P 5/107 Hollow-waveguide/strip-line...

Microwave antenna transmission device having a stripline to waveguide transition via a slot coupling

First Claim

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Abstract

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30 Claims

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Microwave antenna transmission device having a stripline to waveguide transition via a slot coupling

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

30 Claims

Specification

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Solutions

Use Cases

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