RF coupler for measuring RF parameters in the near-field
First Claim
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1. An RF coupler for coupling RF signals to and/or from and RF antenna substantially without shielding said antenna, said coupler including:
- a non-conductive housing capable of being mated and unmated with said RF antenna;
an RF pickup element disposed within said housing; and
a non-conductive conformal mounting structure at least partially disposed within said housing, said conformal mounting structure snugly enveloping said RF antenna such that said RF pickup element is disposed at a predetermined spacing and orientation relative to said antenna when said housing is mated with said antenna.
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Accused Products
Abstract
An RF coupler is used to measure transmitted power and receiver sensitivity of an avionics RF transceiving system (e.g., a secondary radar transponder). The coupler physically mates with (e.g., by conformally enveloping) an airborne type blade antenna mounted to the fuselage of an aircraft. The construction and theory of operation of such a coupling device for coupling RF energy into an antenna is disclosed. The coupling device provides receiver sensitivity measurements and produces rectified pulses or DC levels for the purpose of measuring transmitter power. The system measures such parameters in the extreme near-field (e.g., about 0.1 wavelength) to simplify the measurements and to isolate the measurements from errors due to standing waves and the presence of other nearby objects.
90 Citations
24 Claims
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1. An RF coupler for coupling RF signals to and/or from and RF antenna substantially without shielding said antenna, said coupler including:
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a non-conductive housing capable of being mated and unmated with said RF antenna; an RF pickup element disposed within said housing; and a non-conductive conformal mounting structure at least partially disposed within said housing, said conformal mounting structure snugly enveloping said RF antenna such that said RF pickup element is disposed at a predetermined spacing and orientation relative to said antenna when said housing is mated with said antenna. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An RF probe assembly for easily and repeatably providing predetermined spacing and orientation of a RF pickup element relative to an antenna under test, said probe assembly comprising:
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a housing having a cavity therein, said housing having first and second walls, said first wall defining a first opening therein, said second wall defining a second opening therein, said first and second openings being at least partially in registry with one another, said first and second openings being dimensioned and positioned relative to one another such that at least a portion of said antenna passes through said first opening, into said cavity, and out of said housing cavity through said second opening; dielectric compressible foam disposed within said housing cavity, said foam having first and second compressible foam walls defining a slot through said foam in registry with said first and second openings, said foam walls frictionally contacting said antenna when said antenna passes through said first and second openings; and said RF pickup element being disposed within said housing cavity at a predetermined location and orientation relative to said first and second openings and said slot. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A method of measuring performance characteristics of an airborne RF transceiver of the type including an antenna protruding from the fuselage of an aircraft, said method including:
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(a) placing a probe into proximity with said antenna, said probe including a substantially non-shielding conformal mounting structure and an internal RF pickup element disposed at fixed positions relative to one another; (b) forcing a portion of said antenna to penetrate into said probe such that said probe conformally envelopes at least a portion of said antenna and said RF pickup element is disposed at a predetermined position and orientation relative to said antenna; (c) coupling RF signals between said antenna and said pickup element substantially without shielding said antenna; (d) measuring at least one characteristic of RF signals provided to and/or from said pickup element; and (e) removing said probe from said antenna. - View Dependent Claims (17, 18, 19, 20, 21)
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22. An RF coupler for coupling RF signals to and/or from an RF antenna, said coupler including:
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a showing capable of being mated and unmated with said RF antenna; an RF pickup element disposed within said housing; and conformal mounting structure at least partially disposed within said housing, said conformal mounting structure snugly enveloping said RF antenna such that said RF pickup element is disposed at a predetermined spacing and orientation relative to said antenna when said housing is mated with said antenna, wherein said conformal mounting structure includes a compressible dielectric foam having first and second compressible foam walls defining an aperture therethrough, said antenna penetrating into, displacing and being frictionally contacted by said first and second foam walls.
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23. An RF coupled for coupling RF signals to and/or from an RF antenna, said coupler including:
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a showing capable of being mated and unmated with said RF antenna; an RF pickup element disposed within said housing; and conformal mounting structure at least partially disposed within said housing, said conformal mounting structure snugly enveloping said RF antenna such that said RF pickup element is disposed at a predetermined spacing and orientation relative to said antenna when said housing is mated with said antenna, wherein said conformal mounting structure includes first and second slots defined by said housing, said first and second slots being disposed in at least partial registry with one another, said antenna penetrating said housing through said first slot and exiting said housing through said second slot when said housing is mated with said antenna.
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24. A method of measuring performance characteristics of an airborne RF transceiver of the type including an antenna protruding from the fuselage of an aircraft, said method including:
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(a) placing a probe into proximity with said antenna, said probe including conformal mounting structure and an internal RF pickup element disposed at fixed positions relative to one another; (b) forcing a portion of said antenna to penetrate into said probe such that said probe conformally envelopes at least a portion of said antenna and said RF pickup element is disposed at a predetermined position and orientation relative to said antenna; (c) coupling RF signals between said antenna and said pickup element; (d) measuring at least one characteristic of RF signals provided to and/or from said pickup element; and (e) removing said probe from said antenna, wherein said forcing step includes the step of frictionally contacting said antenna with at least one dielectric foam wall disposed within said probe so as to compress said foam wall against said antenna.
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Specification
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Current AssigneeTEL Instrument Electronics Corporation
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Original AssigneeTEL Instrument Electronics Corporation
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InventorsHelfrick, Albert D.
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Primary Examiner(s)Hajec, Donald
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Assistant Examiner(s)Ho, Tan
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Application NumberUS07/777,629Time in Patent Office818 DaysField of Search343/703, 343/705, 343/708, 343/873, 343/895, 455/226.1, 455/67.1US Class Current343/703CPC Class CodesG01R 29/10 Radiation diagrams of antennas
