Temperature compensating tunable cavity filter
First Claim
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1. A resonator, comprising:
- an inner conductive post within a conductive cavity with a first end of the inner conductive post in electrical contact with an inner surface of the cavity;
a movable, conductive end cap positioned near a second end of the inner conductive post and in electrical contact with the inner conductive post;
a ceramic disc in contact with the movable conductive end cap between the movable conductive end cap and an inner surface of the cavity; and
a movable non-conductive rod passing through the inner conductive post and the movable conductive end cap and the ceramic disc that changes the frequency of the resonator based upon the movement of the movable non-conductive rod acting on the movable conductive end cap.
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Abstract
A high Q cavity resonator loaded with a metallic post and a ceramic disc, the resonator comprising an inner conductive post having a length less than a quarter wavelength. The resonance frequency of the resonator is tunable by changing a distance between a) an outer plate and b) a ceramic disc and an end cap where the ceramic disc is located between the outer plate and the end cap. The resonance frequency can be tuned when the outer plate, ceramic disc, and end cap are in contact with each other by varying a pressure between the contact surfaces of the ceramic disc, the end cap and the outer plate. Temperature compensation allows the resonator to hold a resonance frequency over a range of tunable frequencies despite changes in temperature, and can be achieved by selecting thermal coefficients of expansion of components holding or placing the ceramic disc and end cap relative to the outer plate.
58 Citations
14 Claims
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1. A resonator, comprising:
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an inner conductive post within a conductive cavity with a first end of the inner conductive post in electrical contact with an inner surface of the cavity;
a movable, conductive end cap positioned near a second end of the inner conductive post and in electrical contact with the inner conductive post;
a ceramic disc in contact with the movable conductive end cap between the movable conductive end cap and an inner surface of the cavity; and
a movable non-conductive rod passing through the inner conductive post and the movable conductive end cap and the ceramic disc that changes the frequency of the resonator based upon the movement of the movable non-conductive rod acting on the movable conductive end cap. - View Dependent Claims (2, 3, 4, 5, 6, 10)
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7. A multi-cavity filter, comprising:
plural resonant cavities, wherein at least one of the plural resonant cavities comprises an inner conductive post arranged with a first end of the inner conductive post in direct electrical contact with an inner surface of the at least one resonant cavity; and
at least one adjustable aperture to couple the at least two resonant cavities based on the bandwidth to which the multi-cavity filter is to be tuned. - View Dependent Claims (8)
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9. A Duplexer, comprising:
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plural resonant cavities that are tuned to a specific frequency based on the movement of a conductive inner post, relative to an end cap;
a first cavity of plural two cavities configured as a receive filter having a receive connector;
a second cavity of the at least two cavities configured as transmit filter having a transmit connector; and
an antenna connection;
wherein the frequency of the second cavity of the at least two cavities is tuned to allow transmission and reception, and the frequency of the first cavity is tuned to block transmitter power to the receive connector and allow simultaneous reception.
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11. A device for selecting a frequency for reception and transmission, comprising:
a cavity resonator operating in an evanescent mode containing a ceramic disc and a conductive post that cooperate to tune the cavity frequency.
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12. A Duplexer for receiving and transmitting including at least two cavity filters, comprising:
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a first cavity of the at least two cavity fillers configured as a receive filter having a receive connector and a coupling to a second cavity filler;
a second cavity of the at least two cavity filler configured as a filter having a transmit connector and an antenna connector and a coupling to the first cavity;
wherein the frequency of the second cavity is adjustable for reception and transmission and the frequency of the first cavity is adjustable for reception.
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13. A device for receiving or transmitting, comprising:
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a first cavity of at least three cavities configured as a receive filter having a receive connector;
a second cavity of at least three cavities configured as a transmit filter having a transmit connector;
a third cavity of at least three cavities tunable for reception or transmission of particular radio frequencies, based on the movement of a movable rod acting on a movable conductive end cap, the third cavity coupled to the first cavity and the second cavity and having an antenna connector;
wherein the frequency of the third cavity is adjustable for reception or transmission.
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14. A Duplexer for receiving and transmitting, comprising:
plural cavity radio frequency filters, comprising;
a first cavity of the plural cavities configured as a receive filter having a receive connector;
a second cavity of the plural cavities configured as transmit filter having a transmit connector;
a third tunable cavity of the plural cavities with an adjustable coupling to the first cavity of the first cavity and an adjustable coupling to the first cavity of the second cavity and having an antenna connector;
wherein the frequency and bandwidth of reception and transmission are adjustable.
Specification
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Current AssigneeMicrowave Circuits, Inc.
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Original AssigneeMicrowave Circuits, Inc.
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InventorsD'Ostilio, James
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current333/229
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CPC Class CodesH01P 7/04 Coaxial resonators
