Tunable bandpass filter
First Claim
1. A tunable dielectric resonator filter, comprising:
- an electrically conductive housing defining a cavity;
a dielectric resonator disposed in the cavity;
a tuning aperture, in the resonator, substantially parallel to a direction of an electric field excited within the resonator; and
a tuning device received within the tuning aperture, the depth of penetration within the resonator of which determines a frequency response of the resonator.
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Accused Products
Abstract
A method and apparatus for reducing the size of microwave (or millimeter wave) dielectric resonator filters and for tuning the filter by inserting tuning screw within the dielectric itself. The filter includes a metallic housing that encloses a plurality of cavities, and each cavity contains a dielectric resonator whose top and bottom surfaces are flush with the top and bottom walls of the metallic structure. Due to the continuity and uniformity of the electric field generated in the y-axis of the dielectric, the filter'"'"'s performance response becomes independent of height. This novel design allows for substantial reduction in cavity size without appreciably dropping the Q factor. Such continuity and uniformity of the electric field also allows for openings to be made parallel to the y-axis and inside the dielectric resonator, wherein tuning screws are inserted to selectively adjust the frequency. Other aspects of the invention include alternative methods for electromagnetic coupling in, within, and out of the filter; methods for reducing the machining accuracy by creating a small air gap at one end of the resonator; and methods for reducing the propagation of high modes by alternating the shapes or orientation of the resonators within the filter.
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Citations
20 Claims
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1. A tunable dielectric resonator filter, comprising:
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an electrically conductive housing defining a cavity;
a dielectric resonator disposed in the cavity;
a tuning aperture, in the resonator, substantially parallel to a direction of an electric field excited within the resonator; and
a tuning device received within the tuning aperture, the depth of penetration within the resonator of which determines a frequency response of the resonator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, 18)
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15. A bandpass filter, comprising a series of dielectric resonator filters coupled together, each of the dielectric filters having an electrically conductive housing defining a cavity, a dielectric resonator disposed in the cavity, a tuning aperture, in the resonator, substantially parallel to a direction of an electric field excited within the resonator, and a tuning device received within the tuning aperture, the depth of penetration within the resonator of which determines a frequency response of the resonator.
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19. An oscillator comprising a dielectric resonator filter coupled to an oscillating element, the dielectric resonator filter having an electrically conductive housing defining a cavity, a dielectric resonator disposed in the cavity, a tuning aperture, in the resonator, substantially parallel to a direction of an electric field excited within the resonator, and a tuning device received within the tuning aperture, the depth of penetration within the resonator of which determines a frequency response of the resonator
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20. A tunable bandpass filter, comprising:
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an electrically conductive housing defining a cavity;
an input and an output for coupling a signal to and from the cavity, respectively;
a plurality of dielectric resonators disposed in the cavity, each resonator having a tuning aperture substantially parallel to a direction of an electric field excited within the resonator by the signal, and a tuning device received within the tuning aperture, the depth of penetration within the resonator of which determines a frequency selectivity of the resonator.
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Specification