Broadband power combining device using antipodal finline structure

US 7,215,220 B1
Filed: 08/23/2004
Issued: 05/08/2007
Est. Priority Date: 08/23/2004
Status: Active Grant

First Claim

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1. A power combining device comprising:

an input port;

an input waveguide section in communication with the input port;

an output port;

an output waveguide section in communication with the output port; and

a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein the center coaxial waveguide section comprises a plurality of trays disposed radially about the central axis, each tray including a carrier, generally wedge-shaped in cross-section, on which a pair of antipodal finline structures of the plurality of antipodal finline structures is mounted, and an active element of the plurality of active elements associated with said pair.

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Abstract

A broadband power combining device includes an input port, an input waveguide section, a center waveguide section formed by stacked wedge-shaped trays, an output waveguide section, and an output port. Each tray is formed of a wedge-shaped metal carrier, an input antipodal finline structure, one or more active elements, an output antipodal finline structure, and attendant biasing circuitry. The wedge-shaped metal carriers have a predetermined wedge angle and predetermined cavities. The inside and outside surfaces of the metal carriers and surfaces of the cavity all have cylindrical curvatures. When the trays are assembled together, a cylinder is formed defining a coaxial waveguide opening inside. The antipodal finline structures form input and output arrays. An incident EM wave is passed through the input port and the input waveguide section, distributed by the input antipodal finline array to the active elements, combined again by the output antipodal finlines array, then passed to the output waveguide section and output port. A hermetic sealing scheme, a scheme for improving the power combining efficiency and thermal management scheme are also disclosed. The broadband power combining device operates with multi-octave bandwidth and is easy to manufacture, well-managed thermally, and highly efficient in power combining.

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53 Claims

1. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein the center coaxial waveguide section comprises a plurality of trays disposed radially about the central axis, each tray including a carrier, generally wedge-shaped in cross-section, on which a pair of antipodal finline structures of the plurality of antipodal finline structures is mounted, and an active element of the plurality of active elements associated with said pair.
- View Dependent Claims (2, 3, 4)
- - 2. The device of claim 1, wherein the wedge-shaped cross-sectional shape of each carrier includes an arcuate outer side such that when the trays are assembled together the arcuate outer sides of the carriers combine to provide the center coaxial waveguide section with a substantially circular cross-sectional shape.
  - 3. The device of claim 1, wherein the wedge-shaped cross-sectional shape of each carrier includes a planar outer side such that when the trays are assembled together the planar outer sides of the carriers combine to provide the center coaxial waveguide section with a substantially polygonal cross-sectional shape.
  - 4. The device of claim 1, wherein the center coaxial waveguide section comprises 16 stacked trays whose carriers each having a wedge angle of about 22.5°
    - .

5. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein the center coaxial waveguide section comprises a plurality of trays disposed radially about the central axis, each tray including a carrier on which a pair of antipodal finline structures of the plurality of antipodal finline structures is mounted and an active element of the plurality of active elements associated with said pair, wherein each carrier includes a pair of cut-out regions defining a portion of a coaxial waveguide opening.
- View Dependent Claims (6, 7)
- - 6. The device of claim 5, wherein the cut-out regions of each carrier are defined by arcuate major sides.
  - 7. The device of claim 5, wherein the cut-out regions of each carrier are defined by planar major sides.

8. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein the plurality of antipodal finline structures are provided with tapered profiles configured to optimize impedance matching between said center coaxial waveguide section and said active elements.
- View Dependent Claims (9)
- - 9. The device of claim 8, wherein the plurality of antipodal finline structures each comprise a substrate having a top side conductor which gradually changes in shape into a microstrip line and a back side conductor which gradually changes in shape into a continuous ground.

10. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein the plurality of antipodal finline structures each comprise at least one antipodal finline taper, each taper connecting to at least one active element of the plurality of active elements.
- View Dependent Claims (11)
- - 11. The device of claim 10, wherein each taper connects to a plurality of active elements by a multi-way planar divider and combiner.

12. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein the plurality of active elements include bare die chips and/or circuitry comprised of bare die chips.

13. A power combining device comprisingan input port;
- an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein each of said plurality of active elements is a packaged active element.
- View Dependent Claims (14, 15)
- - 14. The device of claim 13, wherein each of said packaged active elements is a surface mountable packaged active element.
  - 15. The device of claim 13, wherein each of said packaged active elements is a hermetic packaged active element.

16. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port;
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures; and
  
  a plurality of DC control circuits each associated with an active element of the plurality of active elements and operating to maximize combining efficiency by substantially unifying output power of the plurality of active elements.

17. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port;
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures, wherein the center coaxial waveguide section comprises a plurality of trays disposed radially about the central axis, each tray including a carrier on which a pair of antipodal finline structures of the plurality of antipodal finline structures is mounted and an active element of the plurality of active elements associated with said pair; and
  
  a heat sink surrounding at least a portion of the center coaxial waveguide section, the heat sink including at least one section having two halves that are fastened together.

18. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port,an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures, wherein the center coaxial waveguide section comprises a plurality of trays disposed radially about the central axis, each tray including a carrier on which a pair of antipodal finline structures of the plurality of antipodal finline structures is mounted and an active element of the plurality of active elements associated with said pair, wherein each of said carriers has a top side on which a first pair of antipodal finline structures of the plurality of antipodal finline structures is mounted, and has a back side having a recess for accommodating an active element of the plurality of active elements that is associated with a second pair of antipodal finline structures of the plurality of antipodal finline structures, the second pair being mounted on a carrier of an adjacently-stacked tray.

19. A power combining device comprising:
- an input port;
  
  an input waveguide section in communication with the input port;
  
  an output port;
  
  an output waveguide section in communication with the output port; and
  
  a center coaxial waveguide section in communication with the input waveguide section and the output waveguide section, the center coaxial waveguide section having a central longitudinal axis and including a plurality of antipodal finline structures arranged radially about said central axis, and further including a plurality of active elements associated with the antipodal finline structures,wherein said input and output waveguide sections define coaxial waveguides.
- View Dependent Claims (20)
- - 20. The device of claim 19, wherein the coaxial waveguides defined by said input and output waveguide sections each include an inner conductor and an outer conductor, said inner and outer conductors predetermined tapered profiles.

21. A tray for use in a power combining device, said tray being stackable with other trays to thereby form a center coaxial waveguide of the power combining device, the tray comprising:
- a wedge-shaped carrier having first and second cut-out regions;
  
  an input antipodal finline structure mountable on a front side of the wedge-shaped carrier;
  
  an output antipodal finline structure mountable on the front side of the wedge-shaped carrier; and
  
  a first active element coupling the input antipodal finline structure with the output antipodal finline structure,wherein the wedge-shaped carrier is provided with a recess on a back side thereof for receiving a second active element.
- View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
- - 22. The device of claim 21, wherein the wedge-shaped carrier includes an arcuate outer side such that when the trays are assembled together the arcuate outer sides of the carriers combine to provide the center coaxial waveguide section with a substantially circular cross-sectional shape.
  - 23. The device of claim 21, wherein the wedge-shaped carrier includes a planar outer side such that when the trays are assembled together the planar outer sides of the carriers combine to provide the center coaxial waveguide section with a substantially polygonal cross-sectional shape.
  - 24. The device of claim 21, wherein each carrier includes a pair of cut-out regions defining a portion of a coaxial waveguide opening.
  - 25. The device of claim 24, wherein the cut-out regions are defined by arcuate major sides.
  - 26. The device of claim 24, wherein the cut-out regions of each carrier are defined by planar major sides.
  - 27. The device of claim 21, wherein the antipodal finline structures are provided with tapered profiles configured to optimize impedance matching between said center coaxial waveguide section and said first active element.
  - 28. The device of claim 27, wherein the antipodal finline structures each comprise a substrate having a top side conductor which gradually changes in shape into a microstrip line and a back side conductor which gradually changes in shape into a continuous ground.
  - 29. The device of claim 21, wherein the antipodal finline structures each comprise at least one antipodal finline taper connected to the first active element.
  - 30. The device of claim 29, further comprising a second active element to which the at least one antipodal finline is.
  - 31. The device of claim 21 wherein the active element includes bare die chips and/or circuitry comprised of bare die chips.
  - 32. The device of claim 21, wherein the active element is a packaged active element.
  - 33. The device of claim 32, wherein the packaged active element is a surface mountable packaged active element.
  - 34. The device of claim 32, wherein the packaged active element is a hermetic packaged active element.
  - 35. The device of claim 21, wherein said input and output antipodal finline structures are part of a unitary component.
  - 36. The device of claim 35, wherein the active element is mounted on the unitary component.
  - 37. The device of claim 21, further including a DC control circuit connected to the active element and operating to maximize combining efficiency for the active element.
  - 38. The device of claim 21, wherein the carrier has a wedge angle of about 22.5°
    - .

39. A method for combining higher-power electromagnetic signals, comprising:
- providing an input electromagnetic signal to an input waveguide section;
  
  distributing the electromagnetic signal to a center coaxial waveguide section;
  
  coupling the distributed electromagnetic signal in the center coaxial waveguide section to a plurality of antipodal finline structures arranged radially about a central longitudinal axis of the center coaxial waveguide section;
  
  operating on said electromagnetic signal in each antipodal finline structure;
  
  coupling the operated electromagnetic signal to an output waveguide section; and
  
  minimizing impedance mismatch in the input and output waveguide sections.

40. A method for combining high-power electromagnetic signals, comprising:
- providing an input electromagnetic signal to an input waveguide section;
  
  distributing the electromagnetic signal to a center coaxial waveguide section;
  
  coupling the distributed electromagnetic signal in the center coaxial waveguide section to a plurality of antipodal finline structures arranged radially about a central longitudinal axis of the center coaxial waveguide section;
  
  operating on said electromagnetic signal in each antipodal finline stricture;
  
  coupling the operated electromagnetic signal to an output waveguide section; and
  
  passing the electromagnetic signal in each antipodal finline structure through a transition from a balanced finline to an unbalanced microstrip line.

41. A method for combining high-power electromagnetic signals, comprising:
- providing an input electromagnetic signal to an input waveguide section;
  
  distributing the electromagnetic signal to a center coaxial waveguide section;
  
  coupling the distributed electromagnetic signal in the center coaxial waveguide section to a plurality of antipodal finline structures arranged radially about a central longitudinal axis of the center coaxial waveguide section;
  
  operating on said electromagnetic signal in each antipodal finline structure;
  
  coupling the operated electromagnetic signal to an output waveguide section; and
  
  passing the electromagnetic signal in each antipodal finline structure through a cavity whose dimensions are selected to avoid exciting resonance at higher frequency and avoid deteriorating lower frequency response.

42. A power combining device comprising:
- an input waveguide section;
  
  an output waveguide section; and
  
  a center waveguide section in communication with the input and output waveguide sections, the center waveguide section including a plurality of antenna structures each comprising;
  
  an input antenna structure;
  
  an output antenna structure;
  
  an active element coupling the input antenna structure to the output antenna structure;
  
  a control circuit connected to the active element and configured to equalize an output of the active element such that variations between outputs of active elements of different antenna structures are minimized.
- View Dependent Claims (43, 44, 45, 46, 47, 48, 49, 50)
- - 43. The device of claim 42, wherein the input and output waveguide sections comprise coaxial waveguides.
  - 44. The device of claim 42, wherein the input and output waveguide sections comprise rectangular waveguides.
  - 45. The device of claim 42, wherein at least one of the input and output antenna structures is a finline structure.
  - 46. The device of claim 45, wherein the finline structure is antipodal.
  - 47. The device of claim 42, wherein at least one of the input and output antenna structures is a slotline structure.
  - 48. The device of claim 42, wherein the active element is a field effect transistor (FET).
  - 49. The device of claim 48, wherein the control circuit comprises a feedback loop operating to adjust a gate voltage of the FET such that a substantially fixed drain current is achieved.
  - 50. The device of claim 42, wherein the control circuit comprises a power sensor configured to detect the power of the active element and lock said power substantially at a predetermined value.

51. A power combining device comprising:
- an input waveguide section;
  
  an output waveguide section;
  
  a center waveguide section in communication with the input and output waveguide sections, the center waveguide section including a plurality of trays each accommodating an antenna structures having an active element mounted thereon; and
  
  a heat sink assembly comprising a plurality subparts adapted to be fastened together and to substantially surround at least a portion of the center waveguide section and clamp together the plurality of trays,wherein the heat sink is provided with an inner cavity substantially conforming to an outer shape of the center waveguide section.
- View Dependent Claims (52, 53)
- - 52. The device of claim 51, wherein said outer shape is substantially cylindrical.
  - 53. The device of claim 51, wherein said outer shape is polygonal cross-section.

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Current Assignee
Qorvo California, Inc. (Qorvo, Inc.)
Original Assignee
Cap Wireless Incorporated (Qorvo, Inc.)
Inventors
Jia, Pengcheng
Primary Examiner(s)
Pascal; Robert
Assistant Examiner(s)
Glenn; Kimberly E

Application Number

US10/925,330
Time in Patent Office

988 Days
Field of Search

333/125, 333/136, 333/128, 333/127, 333/137, 330/286, 330/295
US Class Current

333/125
CPC Class Codes

H01P 5/12 Coupling devices having mor...

Broadband power combining device using antipodal finline structure

First Claim

4 Assignments

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Abstract

294 Citations

53 Claims

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Broadband power combining device using antipodal finline structure

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

294 Citations

53 Claims

Specification

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Solutions

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