Abstract: A ballistic resistant antenna for use with a ballistic resistant communications system having a first plate fabricated from a ballistic material. The first plate has at least one opening configured to allow transmission of electromagnetic energy at a predetermined range of electromagnetic wavelengths. The antenna also has at least one plug having a geometry that is capable of insertion into the at least one opening. The at least one plug is made up of a material that is substantially transparent to the predetermined range of electromagnetic wavelengths.

Abstract: A rigid antenna support structure is designed and prefabricated to rest on two or more existing support foots normally found on a roof or similar structure. The antenna support structure, to which antennas are attached, possess mounting brackets associated with the exterior of the structure configured to accept a plurality of vertical support members composed of a substantially RF transparent material. Attached to the vertical support members are a number of horizontal support members thereafter forming a concealment assembly skeleton. A plurality of RF transparent panels are then connected to the horizontal support members so as to form a concealment assembly that conceals the antenna support structure and antennas. The concealment assembly is environmentally and aesthetically pleasing, and retains RF transparency so as to not to attenuate the RF signals being sent to or originating from the antennas housed within.

Abstract: An apparatus, for wirelessly powering a device having an enclosure for a charge storage component, includes a wireless power supply which fits into the enclosure. The apparatus includes an antenna connected to the wireless power supply. A battery. A cell phone cover for a cell phone. A headphone. A wireless power adapter for a DC jack. Alternatively, the apparatus includes a substrate having discrete components and integrated circuits disposed in the device. A method for wirelessly powering a device having an enclosure for a charge storage component.

Abstract: A mobile wireless communications device may include a portable housing having a surface, a printed circuit board (PCB) carried by the portable housing, and wireless transceiver circuitry carried by the PCB. The device may further include an antenna connected to the transceiver, and at least one electrically floating, electrically conductive, antenna beam shaping element secured to the surface of the portable housing for directing a beam pattern of the antenna.

Abstract: A GPS reception arrangement includes a GPS radome body having an upper body portion, a lower body portion and a peripheral body portion between the upper body portion and the lower body portion and extending circumferentially there around, and a GPS antenna positioned inside the radome body. A plurality of light sources on the peripheral body portion of the radome body project light in a manner to identify the GPS radome. Retroreflective material is positioned around the radome body on the peripheral body portion, adjacent the plurality of light sources.

Abstract: Method and apparatus for mounting and locating untethered embedded antenna elements in the dielectric cover of electric utility meters configured for but not limited to wireless remote one way or two way radio communications for automated metering applications such as remote meter reading, remote connect/disconnect, home area networking, meter equipment firmware downloads, load management or locations based services. A multiplicity of untethered integral antenna elements and topologies may be located within a replacement dielectric cover for a direct-connect cable free or cable connection to a radio or microwave modem. Also described is a method and apparatus for retro-fitting the antenna elements on the inner face of an existing utility meter dielectric cover.

Abstract: In an antenna unit including a dome-shaped top cover, an antenna module disposed in the top cover and adapted to receive radio waves, a bracket covering an under surface of the top cover, and a gasket disposed between the top cover and the bracket to thereby ensure hermeticity in the top cover, the bracket includes a bottom portion pressure welding the gasket between the bottom portion and the top cover to make inside of the top cover an enclosed space, and a mounting portion integrated to the bottom portion to enable the antenna unit to mount in a narrow-mounting-space cabinet.

Abstract: After a receiving antenna (A1) is inserted from a slot (B16) into a housing portion (B14) formed between cover members (B11, B12), the slot (B16) is pasted so as to secure the receiving antenna (A1). The receiving antenna (A1) is thus housed. Further, a tab (B17) which extends from one side of a pasted edge portion, holes (B20, B21) that penetrate opposing surfaces of the cover members (B11, B12), and perforated lines (B22, B23) running from the slot (B16) to the holes (B20, B21), respectively, are provided. Therefore, the receiving antenna (A1) can be easily attached to the antenna cover (B1) and to an outer surface of a subject (1), and the receiving antenna (A1) can be easily removed from the antenna cover (B1) and from the outer surface of the subject (1).

Abstract: After a receiving antenna (A1) is inserted from a slot (B16) into a housing portion (B14) formed between cover members (B11, B12), the slot (B16) is pasted so as to secure the receiving antenna (A1). The receiving antenna (A1) is thus housed. Further, a tab (B17) which extends from one side of a pasted edge portion, holes (B20, B21) that penetrate opposing surfaces of the cover members (B11, B12), and perforated lines (B22, B23) running from the slot (B16) to the holes (B20, B21), respectively, are provided. Therefore, the receiving antenna (A1) can be easily attached to the antenna cover (B1) and to an outer surface of a subject (1), and the receiving antenna (A1) can be easily removed from the antenna cover (B1) and from the outer surface of the subject (1).

Abstract: The invention is a passive parabolic antenna system for use with conventional subscriber module radio antennas. The passive parabolic antenna system includes a microwave feed assembly that forms a resonant cavity coupling device for coupling to an internal patch antenna of a conventional subscriber module radio antenna. A method of boosting signal strength of a conventional subscriber module radio antenna and a wireless communication system are also disclosed.

Abstract: A portable satellite antenna terminal, comprising a body (620) and a unit (637) within the body (620) for controlling the terminal and terminal functions. Also provided is an antenna (607) mounted to the body (620) for movement (633, 635) relative thereto. The antenna (607) is able to be stowed within the body (620) when not in use. The antenna (607) may be a flat panel antenna (624) and is moveable relative to the body (620) from a stowed position to an in-use position.

Abstract: An antenna element is formed by providing a radiation electrode on a base member made of a dielectric material. To protect the antenna element from external impact, a void is formed between a housing and the antenna element. This void is filled with a solid member. The relative permittivity of the solid member is equal to or higher than the relative permittivity of the housing, and equal to or lower than the relative permittivity of the base member. The solid member is formed as an elastic member.

Abstract: A modular equipment testing apparatus is suitable for use in severe environments. The testing apparatus comprises a base computing unit, an interchangeable test instrument board, and an interchangeable equipment interface pod. The base computing unit and the interchangeable test instrument board are sealed within a computing case. A bottom panel of the computing case is formed of a heat conducting material and acts as a heat sink for removing heat from inside the computing case. The computing case and the equipment interface pod interface to form a hermetically sealed case, which can withstand a drop of 1 meter to a solid surface and immersion to a depth of 0.5 meters in water without damage to components located within the sealed case.

Abstract: An aircraft antenna includes an aerodynamic housing structured for attachment to an outer surface of an aircraft, and the housing contains an electromagnetic radiator and tuned over a first band of frequencies to produce a first function, and a second electromagnetic radiator to produce a second function, said radiators being arranged to decouple the first radiator and the second radiator from each other.

Abstract: A antenna module comprises various different single-band miniature antennas respectively coupled to and hid inside individual batteries, and each antenna shares original terminals of the individual battery; the antenna module is allowed to use the terminals to electrically connect to a main body of a wireless communication device to enable the individual antenna module to receive signals in a different frequency range and the wireless communication device to be unnecessary to be disposed with various different single-band antennas. Whereby, space for original disposition of various different single-band antennas can be saved for the disposition of other components.

Abstract: An antenna apparatus includes: an antenna element; and a substrate on which a low noise amplifier is mounted and on which the antenna element is disposed, wherein the substrate comprises: an input unit for inputting an electric signal into the low noise amplifier from an output terminal formed at a lower part of the antenna element; an output unit for outputting the electric signal to a transmission unit connected to a signal processing unit for processing the electric signal from the antenna element; and a signal blocking unit provided between the input unit and the output unit.

Abstract: A RFID label has a multilayer structure including a sheet-like antenna base material, a RFID circuit element embedded in the antenna base material, a cover film having a printing region in which prescribed printing is performed, an adhesive layer for that bonds the antenna base material to the cover film, an adhesive layer for fixing the antenna base materials to a desired object, and a release layer for covering the adhesive layer. The length of the antenna base material in the longitudinal direction of the RFID label is no less than the length of the printing region.

Abstract: According to one embodiment, a radome includes two dielectric layers separated by an internal layer. The internal layer is configured with an internal cooling system including a fluid channel that receives a fluid through an inlet port, conducts heat from the radome to the fluid, and exhausts the heated fluid through an outlet port.

Abstract: RET antenna with motor and clutch assembly that is operative to mechanically disengage the DC motor and drive unit (also called the gear-motor unit) from the phase shifter adjustment shaft during a manual tilt operation. Disengaging the gear-motor unit removes the drag of the motor and the high gear ratio gear box from the phase shifter control rod making it easier to manually turn the phase shifter control knob. In addition, the clutch disengages the gear-motor without disengaging the position detector from the phase shifter control rod so that position calibration is not lost during manual tilt adjustment. When the manual tilt operation is completed, the mechanical tilt clutch enables the gear-motor unit to be reliably re-engaged with the phase shifter control rod for motorized electrical tilt operation without having to re-calibrate the position detector.

Abstract: The present invention provides an antenna device that is easy to manufacture by doing away with the wiring section. The antenna device includes an antenna member housed inside a nearly tubular case and a terminal body electrically connected to the antenna member for taking out electrical signal to outside, and the antenna member is sealed inside the case. The antenna device also has a housing for sealing the antenna member inside the case for engaging with a connector to be coupled, and a plugging member having an O-ring and a terminal stage fit into a nearly integral unit.

Abstract: An improved antenna device is has an external length compensation device, permitting a differing length expansion of the housing/radome relative to at least one of the at least two external mounting devices for fixing the antenna device. At least one of the two mounting devices has an external length compensation device, which covers at least one mounting device and a guide device by means of which the housing/radome may be adjusted relative to the mounting device in one direction of the antenna housing/radome. At least for one path length and the external length compensation device with the guide device is designed such that even with fastened screws, play remains between a section of the housing/radome and a section of the mounting device in order to permit an unhindered compensation movement between the mounting device and the housing/radome.

Abstract: A composite radome structure includes a first structural laminate layer having an outer radome surface, a second structural laminate layer comprising an inner radome surface, and an antenna having a screen, wherein the screen is inserted between the first and the second structural laminate layers.

Abstract: According to various aspects, exemplary embodiments are provided of antenna assemblies. In one exemplary embodiment, an antenna assembly suitable for installation to a vehicle body wall generally comprises a chassis, a radome, and a shield disposed generally between the chassis and radome. Two or more resiliently compressible bumpers are spaced apart and compressively sandwiched generally between the radome and the shield. Compression of the bumpers generates a compressive force urging the shield generally towards the chassis that aids in electrically grounding of the shield with the chassis.

Abstract: An integrated antenna and chip package and method of manufacturing thereof. The package includes a first substrate having a first surface and a second surface, The second surface is configured to interface the chip package to a circuit board. A second substrate of the package is disposed on the first surface of the first substrate and is made of a dielectric material. One or more antennas are disposed on the second substrate and a communication device is coupled to the antenna, wherein the communication device is disposed on the second substrate in substantially the same plane as the antenna. A lid is coupled to the first substrate and is configured to encapsulate the antenna and the communication device. The lid has a lens that is configured to allow radiation from the antenna to be emitted therethrough and a shoulder configured to transfer heat produced from the communication device.

Abstract: An aircraft forward pressure bulkhead as described herein includes a malleable and deformable dome that is configured to “catch” foreign objects, such as birds. The dome is intentionally designed to deform in response to a foreign object strike that imparts at least a threshold amount of impact energy to the bulkhead. The dome is free of rigid stiffeners and non-deformable reinforcement members that would otherwise hinder the flexible characteristic of the dome. Practical embodiments of the bulkhead utilize fewer parts, are less heavy, and are less expensive than traditional bulkheads that utilize rigid stiffeners.

Abstract: An embodiment of the present invention includes a technique to attach a wireless antenna to a consumer electronics (CE) device. A removable bezel holds a display assembly of the CE device. An antenna attachment mechanism integrated to the removable bezel at a pre-determined location to allow connection to a radio frequency (RF) communication circuit internal to the CE device. The antenna attachment mechanism is adapted for attachment to a wireless antenna used in a wireless transmission. In another embodiment, a wireless antenna is integrated within the removable bezel at a pre-determined location. The wireless antenna is coupled to the RF communication circuit for a wireless transmission. In yet another embodiment, an antenna assembly is attached to the removable bezel at a pre-determined location. The antenna assembly has a wireless antenna coupled to the RF communication circuit for a wireless transmission.

Abstract: An improved antenna device has an internal length compensation device, permitting a varying length expansion of the housing/radome in relation to the antenna support or reflector device located within the housing/radome. At least one of at least two internal fixing devices is provided with the internal length compensation device. The internal length compensation device is in at least two parts or has two limbs, wherein one part is fixed to the antenna support and/or reflector device and the other part is at least indirectly fixed to the housing/radome and/or supported thereby. The at least two parts can be moved relative to each other, be moved in position or deformed. In particular with relation to the support points of both parts, the position may be changed with common deformation.

Abstract: A wireless device includes a housing having a shielding case and a dielectric case. The housing receives a printed circuit board and an antenna element. The printed circuit board has a feeding pad, a first ground pad and a second ground pad. The antenna has a feeding portion electronically coupled with the feeding pad of the printed circuit board and a ground portion electronically coupled with the shielding case for increasing ground dimension to improve antenna characteristic. The first and second ground pads of the printed circuit board electronically coupled with the shielding case for reducing coupling effect to improve antenna characteristic.

Abstract: A ceiling-mountable wireless access point includes a ceiling box with a wing bracket and a wireless access point. The access point is receivable in the ceiling box, with the ceiling box mountable in a drywall installation. The wing bracket couples with ceiling box to secure the apparatus in a ceiling. A power-over-Ethernet module may be provided to eliminate the need for a dedicated power supply at the installation site.

Abstract: According to one embodiment, an integrated patch antenna may comprise a radome layer, having an outside surface and an inside surface, and a radiating layer. The radiating layer has a top surface and a bottom surface, the top surface of the radiating layer conforming to the shape of the inside surface of the radome layer. The radiating layer comprises a dielectric layer, a radiating element formed on a first side of the dielectric layer, and a moat formed in the dielectric layer around its perimeter forming an inner perimeter sidewall and an outer perimeter sidewall. The radiating layer also comprises a conductive coating disposed on the inner perimeter sidewall or the outer perimeter sidewall and a feed line disposed on a second side of the dielectric substrate.

Abstract: The specification discloses various embodiments of modular antenna assemblies for automotive vehicles. In one exemplary embodiment, an antenna generally includes a base assembly that may be used on a variety of vehicle platforms. The antenna may also include a radome assembly that is specific to a particular vehicle platform. The radome assembly may snap-fit onto the base assembly, and be installed during or after vehicle assembly. A wide variety of radome assemblies of different shapes, styles, and colors may be used in conjunction with a single base assembly.

Abstract: A rigid antenna support structure is designed and prefabricated to rest on two or more existing support foots normally found on a roof or similar structure. The antenna support structure, to which antennas are attached, possess mounting brackets associated with the exterior of the structure configured to accept a plurality of vertical support members composed of a substantially RF transparent material. Attached to the vertical support members are a number of horizontal support members thereafter forming a concealment assembly skeleton. A plurality of RF transparent panels are then connected to the horizontal support members so as to form a concealment assembly that conceals the antenna support structure and antennas. The concealment assembly is environmentally and aesthetically pleasing, and retains RF transparency so as to not to attenuate the RF signals being sent to or originating from the antennas housed within.

Abstract: A low profile broadband antenna capable of measuring shielding effectiveness (SE) of a shielded boundary above or below ground for permanent installation behind walls, under floors, above ceilings and other areas with limited transverse (as opposed to lateral) available space is provided. A spiral antenna having a wide operating bandwidth is positioned within the interior of an environmentally sealed enclosure. The enclosure likewise has a low profile suited for installation in such locations.

Abstract: A holding part 50 fixedly holds a shaft 17 included in a smart antenna 10 on a television receiver 20. The smart antenna 10 is held fixedly by the holding part 50. The shaft 17 of the smart antenna 10 is provided with an opening 17a in a part thereof distant from a part thereof held by the holding part 50. A wiring 15a is extended outside from the shaft 17 through the opening 17a and is connected to the television receiver 20.

Abstract: A partially shorted microstrip antenna configured to wrap around a projectile's body without interfering with the aerodynamic design of the projectile. The microstrip antenna has three identical conformal antenna elements equally spaced around the circumference of the projectile's body. The antenna has an operating frequency of 231.0 MHz±400 KHz. Each antenna element includes a plurality of vias which operate as a partial short connecting the radiating element to the ground plane and thereby increase the bandwidth of the antenna element.

Abstract: Compact top-loaded, fractal monopole antenna system embodiments are provided for multi-band airborne operation over ultrabroadband ranges (e.g., 30 to 2000 MHz). These multi-band embodiments are self-contained, aerodynamic and compact (e.g., blade height less than 9.5 inches) and are power efficient with a low return loss (e.g., less than ?7 dB). System embodiments include a set of impedance-matching circuits configured to substantially match an antenna impedance to a predetermined system impedance over a set of predetermined frequency bands. In an embodiment, at least one impedance-matching circuit includes a chain of selectable air-core inductors which are novelly arranged to improve radiation efficiency and prevent damage to support substrates. In an embodiment, a lowest-frequency one of the impedance-matching circuits is configured to process signals having a maximum wavelength ?max wherein a fractal member is configured with a length that does not exceed ?max/40.

Abstract: The invention relates to an enclosure for housing transmitter components of an Automatic Meter Reading (AMR) system electrically associated with a utility meter disposed in a substantially non-RF transparent location. The enclosure comprises a first section mechanically associated with a second section where the first section is disposed outside the non-RF transparent location, and said second section extends from said first section to a point within said non-RF transparent location. The first section may house an antenna and a transmitter while the second section may house a power source electrically associated with said transmitter.

Abstract: A feeding structure of a housing with an antenna, in which a flat antenna can be attached inconspicuously to the outer surface of the housing which is hard to be affected by a metal component and power can be supplied to the flat antenna without providing a through hole causing inferior appearance. The feeding structure of the housing with an antenna comprises a housing 2, a decorative film 3 covering at least a part of the outer wall face of the housing 2, a flat antenna 6 held between the outer wall face of the housing 2 and the decorative film 3, and an electrode 7 provided on the inner wall face of the housing 2. In the feeding structure, a capacitor is formed by arranging a feeding part 6a of the flat antenna 6 and the electrode 7 opposite to each other in both faces of the housing 2 and power transmission and communication are performed in a noncontact manner for the flat antenna 6 on the outside of the housing 2 from the inside of the housing 2 by connecting an inductor 8 with the electrode 7.

Abstract: An antenna module includes, a carrying layer made of resin, at least one dielectric layer, and at least two antenna layers, one of the antenna layers attached to the carrying layer. The dielectric layer and the antenna layers are alternately laminated on each other. The invention also discloses a method for making the antenna module, and a housing integrating the antenna module.

Abstract: Disclosed is a circuit substrate supporting structure including: a base; a cover to cover over the base; a circuit substrate accommodated in the cover in a state standing on the base; a projecting section provided on the circuit substrate in a state projecting from a bottom edge section of the circuit substrate and placed on the base; an elastic piece placed on the projecting section; and a pressurizing section convexly provided on an inner wall of the cover above the projecting section to be pressed against the projecting section from above the elastic piece.

Abstract: The invention is a low-cost, compact radar for adaptively forming beams and independently steering the beams to improve the noise and sensitivity of the radar. The radar includes a printed circuit board, a low-cost multi-layer organic substrate, and a three dimensional (3D) radio frequency (RF) front end that is flood mounted on the substrate.

Abstract: A stacked multi-band antenna for a satellite positioning system comprises a stack of conductive patches, which are each dimension so as to be respectively operative in a dedicated frequency band. An excitation line section comprising pairs of conductive strips is arranged underneath the stack of conductive patches. Each pair of conductive strips is adapted for radiatively coupling to an associate conductive patch of the stack of conductive patches. An RF front end with at least one electric circuit is arranged in a triplate section underneath the excitation line section for operatively connecting the pairs of conductive strips to a satellite positioning receiver. The at least one electric circuit includes filters and amplifiers for respectively filtering and amplifying signals from the pairs of conductive strips, during antenna operation.

Abstract: A portable fairing for a mobile radar array system includes at least partially open housing surrounding the mobile radar array and a curved covering mounted on the housing. The curved covering is adapted to cover the radar array in a closed position. The sides of the housing are curved such that when the curved covering is closed, the housing and the curved covering form a generally curved structure.

Abstract: A housing for a search-antenna polarization instrument is formed by two housing shells (2, 3) which are plugged together in an interlocking manner. A depression can be formed on the outside of the housing, as a positioning surface (12 to 16) for an alignment instrument. Furthermore, a direction-finding groove (19, 20, 21) can be formed on a housing wall. One housing wall may also have a respectively rising extremely profile on two opposite ones of its four side edges. This improves the direction-finding accuracy of a search-antenna polarization instrument.

Abstract: A system for enabling telemetry in implantable medical devices is provided. One aspect of this disclosure relates to an implantable medical device having radio-frequency telemetry capabilities. The device includes a housing and electronic circuitry contained within the housing. The device also includes an antenna connected to the electronic circuitry, the antenna having a helical portion and a whip portion, the whip portion separate from a feed conductor and adapted to enhance a radiation pattern of the antenna. According to various embodiments, the antenna and circuitry are adapted to facilitate transmission and reception of modulated radio-frequency energy at a specified carrier frequency. At least a portion of the antenna is embedded in a dielectric compartment, according to various embodiments. Other aspects and embodiments are provided herein.

Abstract: A mobile television antenna having an antenna element outwardly extending from opposing ends of a housing. An UHF digital booster extends perpendicularly from one side of the housing between the opposing ends carrying the antenna element. At least one UHF parasitic antenna element is connected on a boom which is integrally connected to the mobile television antenna housing. The ultra high frequency parasitic antenna element is held in a plane near the plane in which the antenna element is held by the housing.

Abstract: An antenna includes an antenna element, a circuit board, and a planer metallic holder disposed between the antenna element and the circuit board. The metallic holder supports the antenna element on a base.

Abstract: A hemispherical helical antenna employs a support frame assembly. The support frame assembly is configured to align and stabilize the turns of the helical antenna element above the ground plane. The support frame assembly includes a plurality of panels manufactured from a dielectric material. The panels are disposed at a fixed angular orientation that defines a central axis and form a series of supports for the element.

Abstract: Methods and apparatus for components according to various aspects of the present invention operate in conjunction with reaction bonded silicon nitride (RBSN). In one embodiment, a missile radome comprises a wall defining the radome body, including a base and a tip. The wall may comprise a core and one or more skins adjacent the core, such as in a sandwich configuration. The core and the skins may have different densities. The radome wall may be configured to transmit wideband RF signals. The RBSN may be extruded to form the radome.

Abstract: The radar apparatus includes an antenna device including a transmitting antenna and a receiving antenna, a main body which generates a radar wave, transmits the radar wave from the transmitting antenna, and receives the radar wave reflected from an obstacle to be detected by the receiving antenna, and a cover member covering the main body and the antenna device on a side of a transmission direction of the radar wave and located out of contact with the main body and the antenna device. The cover member has a transmission portion allowing the radar wave to pass therethrough, a surface of the transmission portion facing the antenna device being inclined by an angle greater than 3 degrees with respect to an antenna surface of the receiving antenna.