Double-ridge waveguide to microstrip coupling
First Claim
1. A method for forming a double-ridge waveguide to microstrip circuit coupling wherein both the waveguide and the microstrip have electric fields, magnetic fields and impedances, the double-ridge waveguide having top, bottom, and side walls with an upper ridge projecting centrally from the top wall and a lower ridge projecting centrally from the bottom wall and a ridge gap extending between the upper ridge and the lower ridge, the microstrip having a dielectric substrate with a microstrip line on one side and a ground plane on the other side, the method comprising:
- gradually expanding the lower ridge to create a wide floor for filling a microstrip coupling end of the coupling;
gradually increasing the height of the upper ridge of the coupling to a height such that the ridge gap is equal to the thickness of the microstrip circuit;
gradually reducing the width of the upper ridge such that at the end of the microstrip end of the coupling, the width of the upper ridge is such that the impedance of the coupling is equal to the impedance of the microstrip circuit;
inserting the microstrip circuit into the microstrip end of the coupling to interconnect the coupling and the microstrip circuit such that the microstrip line of the microstrip circuit is in good electrical and physical contact with the modified upper ridge of the coupling and the microstrip ground plane is in good electrical and physical contact with the expanded lower ridge which forms the entire floor of the waveguide at the microstrip coupling end; and
modifying the upper and lower ridges of the waveguide such that the boundary conditions of the electric and magnetic fields are continuous at all locations along the ridges and the impedance is smoothly and gradually changed to match the microstrip at the microstrip end of the coupling and the double-ridge waveguide at the end opposite thereto.
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Accused Products
Abstract
A method and apparatus for coupling a double-ridge wavguide to a microstrip circuit. A lower ridge of a coupling section of waveguide is expanded by gradually increasing its width such that at the beginning of the coupling the lower ridge is equal to the width of the lower ridge of the double-ridge waveguide to be coupled and at the end of the coupling the width of the lower ridge is equal to the full width of the coupling. This flaring of the lower ridge creates an electrically conductive surface for receiving a ground plane for the microstrip circuit. Additionally, the upper ridge is altered gradually such that at the beginning of the coupling the ridge gap is equal to the gap in the double-ridge waveguide and at the end of the coupling the ridge gap is equal to the sum of the thicknesses of the dielectric substrate, the microstrip line, and the ground plane of the microstrip circuit. The upper ridge is gradually tapered over the length of the coupling and then sharply tapered adjacent the microstrip end of the coupling so that the width of the upper ridge is changed to the width of the microstrip line and the impedance of the coupling matches the impedance of the microstrip circuit. The sidewalls of the coupling may also be tapered inwardly or outwardly if needed for impedance matching.
32 Citations
7 Claims
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1. A method for forming a double-ridge waveguide to microstrip circuit coupling wherein both the waveguide and the microstrip have electric fields, magnetic fields and impedances, the double-ridge waveguide having top, bottom, and side walls with an upper ridge projecting centrally from the top wall and a lower ridge projecting centrally from the bottom wall and a ridge gap extending between the upper ridge and the lower ridge, the microstrip having a dielectric substrate with a microstrip line on one side and a ground plane on the other side, the method comprising:
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gradually expanding the lower ridge to create a wide floor for filling a microstrip coupling end of the coupling; gradually increasing the height of the upper ridge of the coupling to a height such that the ridge gap is equal to the thickness of the microstrip circuit; gradually reducing the width of the upper ridge such that at the end of the microstrip end of the coupling, the width of the upper ridge is such that the impedance of the coupling is equal to the impedance of the microstrip circuit; inserting the microstrip circuit into the microstrip end of the coupling to interconnect the coupling and the microstrip circuit such that the microstrip line of the microstrip circuit is in good electrical and physical contact with the modified upper ridge of the coupling and the microstrip ground plane is in good electrical and physical contact with the expanded lower ridge which forms the entire floor of the waveguide at the microstrip coupling end; and modifying the upper and lower ridges of the waveguide such that the boundary conditions of the electric and magnetic fields are continuous at all locations along the ridges and the impedance is smoothly and gradually changed to match the microstrip at the microstrip end of the coupling and the double-ridge waveguide at the end opposite thereto. - View Dependent Claims (2, 3)
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4. A method for forming a double-ridge waveguide to a microstrip circuit coupling wherein both the waveguide and the microstrip have impedances, the double-ridge waveguide having top, bottom, and side walls with an upper ridge projecting centrally from the top wall and a lower ridge projecting centrally from the bottom wall and a ridge gap between the upper ridge and the lower ridge, the microstrip having a dielectric substrate with a microstrip line on one side and a ground plane on the other side, the method comprising:
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determining the microstrip line width using the desired impedance of the microstrip line and dielectric characteristics of specification of the dielectric substrate; gradually expanding the width of the lower ridge such that at the waveguide end of the coupling the lower ridge is equal to the width of the lower ridge of the waveguide, and at the microstrip end of the coupling the width of the lower ridge is equal to the full width of the coupling; gradually altering the upper ridge of the coupling such that at the waveguide end of the coupling the ridge gap is equal to the gap in the double-ridge waveguide and at the microstrip end of the coupling the ridge gap is equal to sum of the dielectric substrate thickness, the microstrip line thickness, and the ground plane thickness; gradually tapering the upper ridge such that the width of the upper ridge at the beginning of the coupling is equal to the upper ridge width of the double-ridge waveguide and at the microstrip end of the coupling the width of the upper ridge is such that the impedance of the waveguide equals the impedance of the microstrip line; sharply tapering the upper ridge at the end of the coupling so that the width of the upper ridge rapidly changes to the width of the microstrip line; and placing the microstrip circuit within the microstrip end of the coupling, such that the microstrip line of the microstrip circuit is in good electrical and physical contact with the upper ridge and the ground plane of the microstrip circuit is in good electrical and physical contact with the lower ridge, which now forms the entire floor of the coupling.
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5. A double-ridge waveguide to microstrip circuit coupling comprising:
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top, bottom, and side walls with an upper ridge projecting centrally from the top wall and a lower ridge projecting centrally from the bottom wall and a ridge gap between the upper ridge and the lower ridge, a waveguide end of said coupling conforming to a double-ridge waveguide to be coupled; said lower ridge gradually expanding toward a microstrip end of said coupling to create a full width floor for filling the microstrip end of said coupling; the height of said upper ridge of said coupling gradually increasing to a height such that the ridge gap is equal to the thickness of a microstrip circuit to be coupled; the width of said upper ridge gradually reducing such that at the end of the microstrip end of said coupling, the width of the upper ridge is such that the impedance of the coupling is equal to the impedance of the microstrip circuit; and the microstrip circuit being inserted into the microstrip end of said coupling such that the microstrip line of the microstrip circuit is in good electrical and physical contact with the modified upper ridge and the microstrip ground plane is in good electrical and physical contact with the expanded lower ridge which forms the entire floor of the coupling at the microstrip end. - View Dependent Claims (6, 7)
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Specification