Dielectric Type (e.g., Polystyrene Rod) Patents (Class 343/785)
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Patent number: 4983237Abstract: An antenna system and technique for laminating a dielectric substrate 14 to an antenna housing 12 which prevents separation of the dielectric substrate 14 from the housing 12. This is accomplished by confining an antenna assembly 10 inside a laminating fixture 24. Heat is then applied to the fixture 12. This causes the dielectric substrate 14 to become somwhat plastic and also to expand. This expansion results in great pressure being exerted between the dielectric 14 and the housing 12. When the assembly is allowed to cool the dielectric 14 adheres to the housing 12. This prevents separation of the housing 12 from the dielectric 14. The result is an antenna assembly 10 which can withstand large temperature extremes without causing an air gap between the dielectric 14 and the housing 12 which would distort the electrical signal transmitted or received by the antenna.Type: GrantFiled: August 18, 1988Date of Patent: January 8, 1991Assignee: Hughes Aircraft CompanyInventor: Norman L. Alfing
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Patent number: 4970525Abstract: An antenna is disclosed for increasing the gain of, or shaping the pattern of, a radiated radio frequency signal. The antenna includes a waveguide for directing the radio frequency signal or for receiving directively the radio signal, a first conductive reflector disposed beneath the waveguide and extending beyond the aperture of the waveguide for reflecting certain of the waves emanating from or entering the aperture of the waveguide, and a second reflector, which may be the mounting surface, disposed beneath the first reflector and extending beyond the first reflector for reflecting other of the waves emanating from or entering the aperture of the waveguide.Type: GrantFiled: May 30, 1989Date of Patent: November 13, 1990Assignee: Motorola, Inc.Inventors: Paul J. Rohret, Thomas A. Freeburg, Scott D. Munier
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Patent number: 4949094Abstract: A parasitic array for use on a transmission/reception antenna which comprises a cylindrical dielectric support having plural conductive, ring-like parasitic elements spaced along the support. The support is an elongate, hollow structure with closed ends and the parasitic elements are formed of a conductive film applied to the outer surface of the support.Type: GrantFiled: January 23, 1985Date of Patent: August 14, 1990Assignee: Spatial Dynamics, Ltd.Inventor: Tex Yukl
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Patent number: 4940990Abstract: An intrabuilding wireless communication system is disclosed wherein a work space is divided into a radiation zone seldom entered or occupied by workers and into which the signal carrying radiation is directed and contained i.e. the space adjacent to the ceiling and extending down about 1 meter and a substantially radiation free zone that is mormally occupied by workers. A master node antennae and each of the subscriber antennae (one for each work station in the work space) are located within the radiation space.The master antennae will preferably be an omni-directional antennae formed by a pair of substantially mirror image frusta-conical disks, axially aligned along their conical axes and with their minimum radius end faces in spaced parallel facing relationship.Type: GrantFiled: January 19, 1989Date of Patent: July 10, 1990Assignee: University of British ColumbiaInventors: Mostafa Z. Kharadly, Fredrick W. C. Siu
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Patent number: 4931808Abstract: An embedded surface wave antenna is described of compact design capable of broadband performance both for impedance match and for radiation pattern characteristics comprising two spaced apart conductive planar elements, one element being a transition from a narrow portion to a wider portion according to a continuous function, said one element having an upward inclination away from the other of said conductive planar elements and ending in a termination at the wider portion, a tapered lens material having a downward inclination from said termination toward said other of said conductive planar elements to define a sloping surface therebetween for launching and receiving electromagnetic waves. The subject surface wave antenna may be readily adapted into assemblies of radiating elements in a predetermined electrical and geometric configuration to provide an array rendering a preferred radiation pattern.Type: GrantFiled: January 10, 1989Date of Patent: June 5, 1990Assignee: Ball CorporationInventors: Farzin Lalezari, Michael G. Munson, Theresa A. Cronin
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Patent number: 4845508Abstract: An electric wave operating device for efficiently coupling electromagnetic energy from a waveguide into a dielectric element or vice versa. A waveguide horn portion is chosen for radiating in the primary HE.sub.11 mode and designed to have a predetermined HE.sub.11 mode farfield radiation pattern. A dielectric member is securely disposed with one end in the plane of the aperture of the waveguide horn with the dielectric member having a predetermined HE.sub.11 mode farfield radiation pattern substantially equal to the farfield radiation pattern of the horn.Type: GrantFiled: May 1, 1986Date of Patent: July 4, 1989Assignee: The United States of America as represented by the Secretary of the NavyInventors: Albert D. Krall, James P. Coughlin
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Patent number: 4841308Abstract: A slotted waveguide antenna assembly includes a slotted waveguide, a dielectric beam shaper and reflectors which are fixed and held by a holder member.The dielectric beam shaper is formed from a pair of dielectric plate members. The dielectric plate members are so arranged that they are slightly closer at the forward ends than the base ends, thus providing a nonparallel arrangement. The inclination of the dielectric plate members is selected within a range of 0.8.ltoreq.d/D<1 (D: a distance between the dielectric plate members at the base portions, d: a distance between the dielectric plate members at the forward portions).The dielectric plate members have a thickness which produces a phase difference, between electromagnetic waves reflected by inner surfaces of the respectivie dielectric plate members that are opposite each other.Type: GrantFiled: August 8, 1988Date of Patent: June 20, 1989Assignee: Tokyo Keiki Co., Ltd.Inventors: Takashige Terakawa, Mutsumi Takahashi, Noriyuki akaba
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Patent number: 4839659Abstract: A microstrip phase scan antenna array is provided having a columnar array microstrip radiating patches mounted on a dielectric substrate. Each column of the array is fed by a separate variable, reciprocal ferrite rod phase shifter which is mounted on the substrate and is coupled to the column which it controls and to a source of millimeter wave energy by microstrip to dielectric waveguide transitions. Each of the phase shifters is controlled by a helical biasing coil surrounding the ferrite rod. All of the biasing coils are serially interconnected by a single scanning control drive wire and the numbers of turns of the coils are related to each other by an arithmetic progression in which the number of turns of a particular biasing coil differs from the number of turns of the adjacent biasing coil in the sequence of biasing coils controlling the array by a constant amount.Type: GrantFiled: August 1, 1988Date of Patent: June 13, 1989Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Richard A. Stern, Richard W. Babbitt
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Patent number: 4835543Abstract: A transmission line comprising a multi-layer dielectric slab structure including: a dielectric substrate layer (30) having a thickness d.sub.s and permittivity .epsilon..sub.s ; a conductive ground plane (31) on the bottom surface of the dielectric substrate layer (30); a dielectric guiding layer (32) having a thickness h and permittivity .epsilon..sub.g, where .epsilon..sub.g >.epsilon..sub.s, attached to the top surface of dielectric substrate layer (30); at least one elongated and relatively narrow dielectric loading strip layer (33) having a width W, thickness d.sub.1, and permittivity .epsilon..sub.1, where .epsilon..sub.g >.epsilon..sub.1, attached to the top surface of the dielectric guiding layer (32); and a conductive coating (34) on the top surface of the dielectric loading strip layer (32). Such a structure permits single mode propagation over a relatively wide frequency band.Type: GrantFiled: November 27, 1985Date of Patent: May 30, 1989Assignee: Martin Marietta CorporationInventor: Hermann B. Sequeira
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Patent number: 4829312Abstract: The present invention is applied to a slotted waveguide antenna assembly which comprises a slotted waveguide having a plurality of slots, a reflector having an aperture in front of the slotted waveguide and reflecting radiated electromagnetic wave for forming directive beam, and a mounting portion for mounting the antenna assembly onto a place where the antenna assembly is to be installed.In such an antenna assembly, a fixing member is provided on the reflector at a position spaced from the slotted waveguide. The fixing member extends between the opposite walls of the reflector and fixed thereto. The fixing member has an end which projects outwardly from the wall of the reflector to form the mounting portion. The fixing member is sufficiently thin as compared with the working wavelength.The slotted waveguide antenna assembly may have a dielectric wave-guiding arrangement.Type: GrantFiled: January 22, 1987Date of Patent: May 9, 1989Assignee: Tokyo Keiki Co., Ltd.Inventors: Takashige Terakawa, Mutsumi Takahashi, Noriyuki Akaba
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Patent number: 4825221Abstract: Means are provided for radiating electromagnetic waves from a receiving end zone of a dielectric line for transmitting electromagnetic waves without the need for a metal horn antenna or a metal waveguide, and matching problems are thereby substantially avoided. Said means are provided by shaping the end of the line to specified contours, by varying the dielectric constant of the material of the line in a gradient longitudinally near the end zone of the line, and by arranging a reflecting mirror or lens to receive the waves emitted from the line. This waveguide is useful in wireless communications, radar transmission and similar applications.Type: GrantFiled: December 7, 1987Date of Patent: April 25, 1989Assignee: Junkosha Co., Ltd.Inventors: Hirosuke Suzuki, Hiromi Yasumoto, Haruo Imaizumi
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Patent number: 4786911Abstract: Disclosed is an arrangement of two conical radiators that electromagnetically interact with one another to produce circularly polarized radiation in a surface wave transmission system. One of the radiators includes an annular conductive region that coaxially surrounds the surface wave transmission line with a pair of spiral antenna arms extending outwardly along the conical surface of the radiator from oppositely disposed positions on the outer boundary of the annular conductive region. The second radiator, which is spaced apart from the first radiator, includes a circular conductive region to which the end of the surface wave transmission line is joined and further includes a pair of spiral antenna arms that extend outwardly along the surface of the second conical radiator.Type: GrantFiled: November 10, 1987Date of Patent: November 22, 1988Assignee: The Boeing CompanyInventor: Kosal Svy
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Patent number: 4785306Abstract: A feed horn arrangement for reception of C-band and Ku-band signals by a single satellite antenna. The arrangement permits a Ku-band feed horn and amplifier to be mounted at the focus of a satellite dish in addition to the C-band reception equipment. A dielectric rod is mounted within the preexisting C-band waveguide to act as a waveguide to direct Ku-band signals to the Ku-band feed horn and amplifier. The Ku-band dielectric waveguide has no effect on the C-band signals which are amplified by the standard C-band amplifier. The dielectric waveguide may be either straight or curved according to the configuration of the C-band reception equipment.Type: GrantFiled: January 17, 1986Date of Patent: November 15, 1988Assignee: General Instrument CorporationInventor: Edwin A. Adams
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Patent number: 4783665Abstract: A horn antenna with a cylindrical and an expanded (horn-shaped) waveguide for radiating or receiving polarized electromagnetic waves. The waveguide wall is partially or wholly covered with one or more grids (12) of electrical conducting material with dielectric layers between them. One possible design consists of a tapering (e.g., conical) core (10) of compact dielectric, which allows for the possibility of shaping the terminal surface (13) to a lens which curves the course of radiation in the aperture to the desired radiation graph. Another possible design where the horn wall consists of dielectric covered with metal grids has an especially light construction. The wall surfaces are developed with anisotrope and reactive impedance so that it mainly functions in the same way as a corrugated horn and thus gives low cross-polarizations across a large frequency area. This could be constructed with little weight and could easily be mass-produced.Type: GrantFiled: November 12, 1986Date of Patent: November 8, 1988Inventors: Erik Lier, Tor Schaug-Pettersen
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Patent number: 4772891Abstract: Disclosed is a conically shaped reflector for producing dual polarized electromagnetic radiation in a surface wave transmission system. The reflector includes a circular conductive region that covers the apex of the conical reflector with the surface wave transmission line being joined to the center of the circular conductive region. Extending outwardly from equally spaced apart positions along the circumference of the circular conductive region are four conductive log-periodic arms.Type: GrantFiled: November 10, 1987Date of Patent: September 20, 1988Assignee: The Boeing CompanyInventor: Kosal Svy
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Patent number: 4768001Abstract: A microwave phase shifter comprise a dielectric waveguide having a flat side and a moving conductor plane member substantially parallel to the waveguide side. Piezoelectric means are provided to move the plane member with respect to the waveguide side between a portion relatively remote from the waveguide side and an other position substantially in contact with the waveguide side. The piezoelectric means consists preferably of a stack of piezoelectric members supplied by a variable d.c. power source. Owing to the piezoelectric means for moving the conductor plane member, a variable phase shift is continuously adjusted. Such a phase shifter can be as an antenna network when the dielectric waveguide contains groups of radiator perturbations, such as conductor strips, respectively controlled by one or several piezoelectric means carrying conductor plates facing waveguide portions including the perturbations groups.Type: GrantFiled: April 29, 1986Date of Patent: August 30, 1988Assignee: Office National d'Etudes et de Recherches Aerospatiales (ONERA)Inventors: Bernard Chan-Son-Lint, Pierre Borderies, Christian J. Pouit
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Patent number: 4755827Abstract: A millimeter wavelength monolithic ferrite circulator/antenna device is pided comprising a four-sided ferrite rod having one end which is to be selectively coupled to millimeter wavelength radar transmitter and receiver apparatus and the other end coupled to a load. The rod end coupled to the radar apparatus has a pair of permanent magnets disposed on opposite sides of the rod and is shaped as a right prism having prism bases formed by sections of the rod sides on which the magnets are mounted and prism faces formed by sections of the remaining two rod sides and by the cross-section of the rod itself. The dc magnetic field produced by the magnets is perpendicular to the longitudinal axis of the rod and causes the prism to act as a ferrite circulator with respect to millimeter wave energy transmitted through the prism faces and along such rod axis. The remainder of the rod is utilized as a ferrite rod antenna of the leaky-wave type by providing energy emitting perturbations on one of the rod sides.Type: GrantFiled: February 4, 1987Date of Patent: July 5, 1988Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Richard A. Stern, Richard W. Babbitt
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Patent number: 4755743Abstract: A method and apparatus for measuring the moisture content or dry content of either high or low loss materials having a moisture content in excess of 50% utilizing a dielectric waveguide in contact with the material to be measured. The waveguide may be either embedded into the wall of a process pipe or it may pass through the pipe. The length of the waveguide can be controlled by the addition of reflecting spikes. The waveguide is designed and the microwave frequency so chosen that the microwave signal is reflected at least ten times. The strength of the output microwave signal is a function of the moisture content.Type: GrantFiled: October 14, 1985Date of Patent: July 5, 1988Assignee: Kemira OyInventor: Pekka Jakkula
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Patent number: 4743916Abstract: In a system for launching RF energy as a traveling surface wave onto a single wire transmission line and causing such energy to be radiated away from the line at a downstream location, a series of window radiators of annular shape are spaced along the line, coaxial therewith, each for radiating a portion of the surface wave energy. Each radiator has a conductive component that causes decoupling and radiation of a portion of the RF energy, and a dielectric window that allows the remaining portion of RF energy to pass therethrough and continue, as an attached surface wave, downstream to a succeeding, similarly formed radiator where the decoupling and partial radiation occurs again. Thus, from the same surface wave transmission line system, it is possible to radiate RF energy from two or more discrete locations along the line.Type: GrantFiled: December 24, 1985Date of Patent: May 10, 1988Assignee: The Boeing CompanyInventor: Greg A. Bengeult
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Patent number: 4691208Abstract: A phase-scan antenna apparatus including a rod-shaped ferrite dielectric eguide having two non-ferrite dielectric ends, and means for applying a variable magnetic field to the ferrite section.Type: GrantFiled: July 2, 1984Date of Patent: September 1, 1987Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Richard A. Stern, Richard W. Babbitt
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Patent number: 4689584Abstract: A transmission line comprising a multi-layer dielectric slab structure including: a dielectric substrate layer (30) having a thickness d.sub.s and permittivity .epsilon..sub.s ; a conductive ground plane (31) on the bottom surface of the dielectric substrate layer (30); a dielectric guiding layer (32) having a thickness h and permittivity .epsilon..sub.g, where .epsilon..sub.g >.epsilon..sub.s, attached to the top surface of dielectric substrate layer (30); at least one elongated and relatively narrow dielectric loading strip layer (33) having a width W, thickness d.sub.1, and permittivity .epsilon..sub.1, where .epsilon..sub.g >.epsilon..sub.1, attached to the top surface of the dielectric guiding layer (32); and a conductive coating (34) on the top surface of the dielectric loading strip layer (32). Such a structure permits single mode propagation over a relatively wide band.Type: GrantFiled: November 27, 1985Date of Patent: August 25, 1987Assignee: Martin Marietta CorporationInventor: Hermann B. Sequeira
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Patent number: 4689629Abstract: A surface wave microwave antenna is presented in which transmission or reception of microwave energy is effected by discontinuities in a dielectric body positioned between a central feeder element and a ground plane. When used as a transmitter, the central disc propagates surface waves in the dielectric body in expanding circles; and the discontinuities in the dielectric body act as radiating or scattering sites to couple the waves to free space. When used as a receiver, the reverse will occur.Type: GrantFiled: September 27, 1982Date of Patent: August 25, 1987Assignee: Rogers CorporationInventors: G. Robert Traut, Geoff J. Wilson
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Patent number: 4682180Abstract: The present invention relates to a multidirectional feed which can be used by itself or preferably incorporated within a surface wave structure to form a flush-mounted antenna on, for example, a mobile unit. The feed arrangement comprises a ground plane including an annular cavity with a smaller annular slot. The annular slot is connected by multiple, spaced-apart, leads to an associated transceiver. The annular cavity is also formed to prevent both a shorting of the radio waves therein and the radio waves from propagating away from the cavity in a direction opposite the slot. A surface wave structure is disposed preferably with the feed centrally mounted and can comprise any suitable structure including annular corrugations and/or a dielectric layer to provide a flush-mounted antenna arrangement which provides radiation in azimuth in all directions with moderate elevation gain.Type: GrantFiled: September 23, 1985Date of Patent: July 21, 1987Assignee: American Telephone and Telegraph Company AT&T Bell LaboratoriesInventor: Michael J. Gans
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Patent number: 4673947Abstract: A high bandwidth microwave antenna feed comprises a spigot (4) of relatively high dielectric constant protruding from a conventional hollow waveguide (3) and a generally conical member (12) of relatively low dielectric constant fitted coaxially onto, so as to expand from the protruding spigot. The base portion (2) of the conical member is silvered and constitutes a sub-reflector. In use, microwave radiation from the hollow waveguide is refracted at the spigot/conical member interface and is reflected from the sub-reflector to a facing main reflector (1). The two-part dielectric construction enables the dimensions of the sub-reflector to be reduced, thereby reducing blockage of the main reflector and increasing the bandwidth of the system.Type: GrantFiled: February 20, 1986Date of Patent: June 16, 1987Assignee: The Marconi Company LimitedInventor: Paul Newham
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Patent number: 4673945Abstract: A backfire feed antenna has a parabolic reflector with a ring-focus at the reflector focal point comprising a dielectric waveguide having a stem portion and a cap portion with a pointed end and most of the stem portion inside a conducting tube along the axis of the parabolic reflector. The outer surface of the cap portion is concave outward and convex inward and covered with a conducting layer. A curve between a parabola and hyperbola defines the surface. The cap portion has a conical surface extending between an annular surface at the junction between the stem portion and the cap portion and an axially extending circumferential surface surrounding the conducting layer. The inside end of the dielectric waveguide is pointed.Type: GrantFiled: September 24, 1984Date of Patent: June 16, 1987Assignee: Alpha Industries, Inc.Inventor: Harry Syrigos
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Patent number: 4647940Abstract: A parallel plate waveguide microwave antenna is presented in which transmission or reception of microwave energy is effected by radiating waveguide slots or apertures in a metallized glass plate or plate of other rigid dielectric material. The metallized glass plate cooperates with another metallized glass plate or other rigid dielectric material or a metal plate to define a parallel plate waveguide with air or an inert gas or vacuum as the dielectric between the plates. When used as a transmitter antenna, a central electrode propagates waves in the dielectric medium in expanding circles; and the slots or apertures in the metal layer act as scattering sites to couple the waves to free space. When used as a receiver antenna, the reverse will occur.Type: GrantFiled: September 27, 1982Date of Patent: March 3, 1987Assignee: Rogers CorporationInventors: G. Robert Traut, Geoff J. Wilson
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Patent number: 4644363Abstract: A millimeter wave dual beam line scanning antenna integral with a tunable solid state oscillator is disclosed. The antenna provides two fan-shaped beams from opposite faces and when the antenna is rotated, a roughly conical shaped scan obtains. Furthermore, variation of the oscillator frequency causes a variation in radiation angle and provides two line scanning beams from opposite faces.Type: GrantFiled: May 14, 1985Date of Patent: February 17, 1987Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Robert E. Horn, Harold Jacobs, deceased, Felix Schwering
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Patent number: 4633262Abstract: A microstrip antenna is presented in which the circuit pattern is on the inner side of a glass plate and is spaced from the ground plane by an air dielectric. The outer side of the glass plate serves as a protective cover for the circuit pattern and the ground plane.Type: GrantFiled: September 27, 1982Date of Patent: December 30, 1986Assignee: Rogers CorporationInventor: G. Robert Traut
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Patent number: 4618865Abstract: A dielectric trough waveguide antenna composed of a metallic guide having a dielectric substrate covering the bottom of the guide and a plurality metal radiators placed periodically on the dielectric at the dielectric-air interface provides a low loss antenna suitable for millimeter wave applications.Type: GrantFiled: September 27, 1984Date of Patent: October 21, 1986Assignee: Sperry CorporationInventors: David Lamensdorf, Chris J. Daigle
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Patent number: 4591865Abstract: The antenna is designed to radiate decimetric or centimetric waves according to an acute angle .theta..sub.o capable of varying by several dozens of degrees. It has the shape of a rectangular parallelepiped having a thickness e, a length L and a width l.sub.t metal-plated over almost its entire surface and containing a material having a dielectric constant .epsilon..sub.r. According to the invention only a band having a fixed width d has not been metal-plated, which band extends substantially in the center over a large face of the antenna, d being equal to several times e, the second large metal-plate face constituting the ground plane. A micro-strip line (26) which crosses the band and contains the antenna feedpoint (31) electrically interconnects the two metal-plated semi-surfaces (28, 29) defined by the non-plated band. The thickness e is of the order of that of a printed circuit board, the length L (L=N+z.sub.a) is more than twice the wavelength .lambda. of the wave to be transmitted and the width l.sub.Type: GrantFiled: November 30, 1983Date of Patent: May 27, 1986Assignee: U.S. Philips CorporationInventor: Yves S. Canal
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Patent number: 4575727Abstract: A millimeter-wave electronic scan, phased array antenna in a slotted dielectric waveguide having a semi-insulating core and at least one semi-conducting epitaxial layer. A controller affixed to the epitaxial layer is used to apply a bias voltage thereby varying the conductivity of the layer and influencing wave propagation in the guide to effect beam scanning.Type: GrantFiled: June 20, 1983Date of Patent: March 11, 1986Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Richard A. Stern, Elio A. Mariani
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Patent number: 4536767Abstract: A microwave directional antenna, particularly for the millimeter-wave range, comprises a dielectric line with line discontinuities, affixed to a metallic ground plane. The dielectric line is a radial waveguide extending about a center where the feed is provided. A mode launcher is located at this center. In a preferred embodiment, the boundary of the dielectric line circumscribes a circle; the line discontinuities are preferably embodied as metallic strips arranged on the dielectric guide on circles about the center.Type: GrantFiled: March 17, 1983Date of Patent: August 20, 1985Assignee: Licentia Patent-Verwaltungs-GmbHInventors: Bernhard Rembold, Klaus Solbach
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Patent number: 4516129Abstract: The antenna feed includes a waveguide radiator with a conductive flange positioned about the waveguide near its radiating end. A dielectric element is positioned about the waveguide between the flange and the radiating end and establishes the dielectric surface impedance seen by the waveguide. The dielectric element may consist of one or more layers of dielectric material to form a composite dielectric. One of the layers may be an air gap adjacent to the flange. The size and position of the flange and dielectric element will control the radiation pattern of the beam from the feed.Type: GrantFiled: June 4, 1982Date of Patent: May 7, 1985Assignee: Canadian Patents & Dev. Ltd.Inventors: Apisak Ittipiboon, Lotfollah Shafai, Ernest Bridges
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Patent number: 4516131Abstract: A variable slot conductance dielectric wavequide antenna in which the transmission line and radiating aperture is formed in one continuous, integrated and homogeneous material. The radiated antenna beam pattern is controlled by varying the conductance of radiating slots using varied geometries for each of the slots.Type: GrantFiled: February 4, 1983Date of Patent: May 7, 1985Assignee: The United States of America represented by the Secretary of the ArmyInventors: William T. Bayha, John Borowick, Richard A. Stern, Richard W. Babbitt
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Patent number: 4507664Abstract: An antenna array comprises a dielectric image waveguide (3) acting as a feeder, which may be of the insular or inverted-strip type, in contact with a dielectric sheet (1). On the sheet (1) is located a plurality of strips (4) of metallizing extending outwards from the feeder-guide (3). The inner ends of the strips are located to couple with the feeder-guide and their outer ends act to radiate or receive most of the power. Preferably the mode propagated in the feeder-guide is an E.sub.mn.sup.y mode higher than the fundamental, suitably the E.sub.21.sup.y mode.Type: GrantFiled: June 16, 1982Date of Patent: March 26, 1985Assignee: The Secretary of State for Defence in Her Britannic Majesty's Government of the United Kingdom of Great Britain and Northern IrelandInventors: James R. James, Ann Henderson
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Patent number: 4488157Abstract: Described is an antenna structure which reduces the side lobe level of a slot array antenna of the type using a dielectric plate as a director mechanism. A slot radiator is mounted on the vertical side of a member composed of metal plates and having a C-shaped side sectional shape, and a pair of parallel dielectric plates are projected to extend in the direction of the open end of the C-shaped member. Also, a pair of metal pent roof plates are provided to spread upwardly and downwardly from the open end edges of the C-shaped member on the outer side of the dielectric plates. The metal pent roof plates serve as reflecting plates for the radiation power from the slot radiator and thus the side lobe level is reduced to a practical low level.Type: GrantFiled: February 22, 1982Date of Patent: December 11, 1984Assignee: Tokyo Keiki Company LimitedInventors: Takashige Terakawa, Noriyuki Akaba
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Patent number: 4468672Abstract: The present invention relates to hybrid mode feeds which are capable of handling very wide bandwidths. In the present feed arrangements, a dominant TE.sub.11 mode is converted to the HE.sub.11 hybrid mode which is then launched. The TE.sub.11 to HE.sub.11 mode conversion is achieved by inserting a circular dielectric rod (12) into a flared end (11) of a smooth-walled cylindrical feedhorn until a small cylindrical section of the dielectric rod engages with the inner wall (15) of the unflared portion of the feedhorn. In one feed arrangement, the other end of the dielectric rod is similarly inserted into a flared end (21) of a corrugated cylindrical feedhorn section (22) until a short longitudinal section of the cylindrical portion of the rod is concentric with the corrugations of an unflared section of the feedhorn to provide a transition for the HE.sub.11 mode into the corrugated waveguide for subsequent launch.Type: GrantFiled: October 28, 1981Date of Patent: August 28, 1984Assignee: Bell Telephone Laboratories, IncorporatedInventor: Corrado Dragone
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Patent number: 4468673Abstract: A dielectric waveguide of rectangular cross-section has periodically spaced, transverse slots in its upper surface. When traveling waves of varying millimeter wavelength frequencies are applied to the waveguide, the slots perturb the waves resulting in radiation having a main lobe that scans as the frequency changes. The antenna is made rigid by the use of a dielectric support.Type: GrantFiled: August 18, 1982Date of Patent: August 28, 1984Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Richard A. Stern, Richard W. Babbitt, John Borowick
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Patent number: 4460901Abstract: An antenna-radome structure that functions as a self-referencing interferometer, including a radome having a leading edge and including a plurality of longitudinally disposed slabs of dielectric material having a front edge adjacent the leading edge of the radome; and a corresponding number of antennas disposed normal to the longitudinal axis of the radome and respectively embedded in or placed on the surface of each corresponding dielectric slab. Each antenna is located at a distance from the front end of the corresponding dielectric slab corresponding to a maximum of intensity in an intensity fringe pattern produced by interference between free space waves of a predetermined frequency incident upon the dielectric slab and waves guided by the dielectric slab in response to the incident waves. The thickness of each dielectric slab is tapered for reducing sidelobe levels in the far field pattern of the antenna.Type: GrantFiled: November 27, 1981Date of Patent: July 17, 1984Assignee: General Dynamics Corporation, Electronics DivisionInventors: Gus P. Tricoles, Eugene L. Rope
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Patent number: 4419670Abstract: A radar antenna includes a box horn radiator which is capable of simultaneously transmitting X band and S band signals. The S band signals are transmitted as a resultant of the TE.sub.01 and TE.sub.03 mode, which is generated within the box horn. Additionally, the X band frequencies are fed into an off-set input port, which launches the X band signal as a surface wave. By positioning the box horn at the focus of a reflector, azimuth pointing errors are prevented but different elevation patterns are produced.Type: GrantFiled: November 12, 1981Date of Patent: December 6, 1983Assignee: The Marconi Company LimitedInventor: Stewart C. Hill
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Patent number: 4378558Abstract: A lightweight, efficient, microwave power transmitting antenna is disclosed, suitable for use in a space borne transmitter for beaming solar generated electrical power down to earth based receiving antennas. The space borne antenna structure is formed by modules that are structurally integrated into a multimodule antenna array. Each module comprises a rectangular framework of limited depth having rigid sides circumscribing a generally open region in which a plurality of spaced parallel single wire Goubau transmission lines are strung to create a "see-through" harp-like configuration. A Klystron powered feed wave guide is disposed as one structural side of the module for exciting standing electromagnetic waves on the plurality of Goubau lines. Printed circuit Yagi endfire radiators are supported on dielectric webs disposed in juxtaposition with the Goubau lines for being synchronously excited by the standing waves on such lines.Type: GrantFiled: August 1, 1980Date of Patent: March 29, 1983Assignee: The Boeing CompanyInventor: Clarence D. Lunden
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Patent number: 4356493Abstract: A probe excited, open-end waveguide which can be used as an independent antenna, or as a launcher for an end fire, radiator and which achieves higher gain than conventional waveguides without an increase in size. The waveguide is formed as an elongated metallic container which includes a metal structure positioned within the container spaced from the side walls of the container and located within one half of the volume of the container, this volume being defined by cutting the cylinder along its elongated axis. A probe extends from the metal structure for excitation of the waveguide. An electronics package, conventionally utilized in conjunction with the waveguide can be positioned in the container within or under the metal structure. The electronics package does not interfere with the operation of the antenna. The antenna achieves higher gain as a result of the presence of the metal structure.Type: GrantFiled: December 14, 1979Date of Patent: October 26, 1982Inventor: Richard D. Bogner
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Patent number: 4295141Abstract: A disc-on-rod end-fire type antenna is disclosed in which close to optimum gain is maintained over a large range of antenna lengths, using the same disc size and spacing for all lengths.Type: GrantFiled: May 14, 1980Date of Patent: October 13, 1981Inventor: Richard D. Bogner
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Patent number: 4290068Abstract: A microwave television system comprising, a probe excited waveguide, an electronics circuit package contained within the waveguide, and a support for mounting the waveguide. The probe excited waveguide is an open-end waveguide which can be used as an independent antenna or a launcher for an end fire radiator, and which achieves a higher gain than conventional waveguides without an increase in size. The waveguide is formed of an elongated metallic container and includes a metal structure positioned within the container spaced from the side walls of the container and located within one half of the volume of the container, this volume being defined by cutting the cylinder along its elongated axis. A probe extends from the metal structure into the other half of the container for excitation of the waveguide. The electronics package conventionally utilized in conjunction with the waveguide can be positioned in the container beneath the metal structure.Type: GrantFiled: December 14, 1979Date of Patent: September 15, 1981Inventor: Richard D. Bogner
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Patent number: 4274097Abstract: A compact, directional antenna element for achieving narrow beamwidths and ide bandwidths. The element is formed from a polyrod having a high dielectric constant embedded in a wave guide made of a second medium having a dielectric constant slightly lower than that of the rod.Type: GrantFiled: March 21, 1980Date of Patent: June 16, 1981Assignee: The United States of America as represented by the Secretary of the NavyInventors: Albert D. Krall, Albert M. Syeles
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Patent number: 4197546Abstract: A device facilitating the design and adjustment of millimeter wave sources comprising an active component of quasi-microscopic dimensions which has to be coupled with extreme accuracy to the input of a directional antenna having relatively large dimensions. In various embodiments the device exhibits the following common features: an assembly incorporating a solid-state active component, a resonant cavity, means for coupling said cavity to a directional antenna, adjusting means and a directional antenna, said assembly being fitted in such a manner that a simultaneous adjustment of the position of said component in said cavity and of said coupling means, is made possible by acting upon said adjusting means.Type: GrantFiled: October 12, 1977Date of Patent: April 8, 1980Assignee: Thomson-CSFInventors: Gerard Cachier, Jacques Espagnol
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Patent number: 4150382Abstract: The present invention makes it possible to provide a guided wave antenna having a radiation pattern which can be controlled electronically, by control signals derived from a computer or any other suitable source. In this way, the directional characteristics of the antenna can be adjusted and/or scanned rapidly, without any mechanical manipulation of the antenna. In one embodiment, a guided radio wave is launched along an antenna surface having an array of elements which provide variable non-uniform surface impedance adapted to be controlled by electronic signals. For example, each variable impedance element may comprise a wave guide section having one end leading from the antenna surface. Each wave guide section may include a solid-state electronic reflection amplifier having charcteristics which can be varied by supplying control signals to the amplifier, to vary the magnitude and phase angle of the wave reflected from the reflection amplifier.Type: GrantFiled: October 3, 1975Date of Patent: April 17, 1979Assignee: Wisconsin Alumni Research FoundationInventor: Ray J. King
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Patent number: 4053897Abstract: A microwave element is disclosed that is fabricated from a dielectric material wherein the antenna, the iris, and a microwave cavity portion are formed generally from a single piece of relatively high dielectric constant material. The microwave cavity portion is converted into an actual microwave resonant cavity by covering the microwave cavity portion with a conductive material.Type: GrantFiled: October 14, 1976Date of Patent: October 11, 1977Assignee: Honeywell Inc.Inventor: Eldon Nerheim
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Patent number: H584Abstract: A circular symmetrical dielectric antenna structure and feed arrangement provide an omni-directional radiation pattern. The antenna includes a linear dielectric feed section, an integral radiating section having a taper which decreases outwardly, and an excitation means coupling millimeter wave energy to the feed section. The entire structure is circularly symmetrical about a central longitudinal axis. A first embodiment is in the form of a longitudinal dielectric rod having a uniform diameter at the feed and with circular periodically spaced corrugations at the radiating end. A tapered intermediate section has grooves of increasing depth, with the depth being constant at the remainder of the radiating end. A circular waveguide couples energy to a tapered dielectric transition section to provide excitation to the uniform feed end. A second embodiment is in the form of a flat circular disk having tapered radiating ends. A central metal cap limits radiation from the top surface.Type: GrantFiled: December 18, 1986Date of Patent: February 7, 1989Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Felix Schwering, Song-Tsuen Peng
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Patent number: H680Abstract: The antenna assembly is formed by building a shell housing by punch press operation. The housing contains the antenna features. The dielecric with load and connector is placed into the housing. Then a back is placed onto the assembly and the unit is enclosed by laser welding. This design allows the fabrication of the housing to be constructed with the antenna features built in and is simpler and less costly than prior designs.Type: GrantFiled: May 19, 1986Date of Patent: September 5, 1989Assignee: The United States of America as represented by the Secretary of the Air ForceInventors: Norman F. Alfing, Robert C. Breithaupt