Abstract: A rotational antenna includes a stationary feed which is disposed in a substantially vertical orientation. A parabolic dish is rotationally mounted about the stationary feed in a state of being tipped with respect to the stationary, substantially vertically oriented feed. The rotational parabolic antenna may alternatively be provided with a rotating radio frequency (RF) and acoustic feed. Other embodiments are disclosed.

Abstract: The disclosure discloses a device for receiving signals, which includes: equipment with lead wires configured to be reused as a receiving antenna to receive Frequency Modulation (FM) signals. The disclosure further discloses an antenna device and a mobile terminal. According to the technical solution of the disclosure, occupied space of a receiving antenna for FM signal is reduced greatly.

Abstract: Disclosed are antenna assemblies suitable for establishing wireless communication with entities that have variable or indeterminate antenna orientation, especially entities having a limited power supply, the antenna assemblies comprising two linearly polarized reception antennae (18, 20) positioned so that the orientation of the antennae define a plane. Disclosed are also service station provided with such an antenna assembly. Disclosed are also methods of establishing wireless communication in a service station between a service station controller and entities that have variable or indeterminate antenna orientation, especially entities having a limited power supply.

Abstract: A mat based antenna system allows medical personnel to ascertain the presence or absence of objects (e.g., medical implements, medical supplies) tagged with transponders in an environment in which medical procedures (e.g., surgery) are performed, and may allow reading of information from the transponders, writing information to the transponders and/or controlling or commanding the transponders. In use, the mat based antenna system may be positioned beneath a patient, such as during surgery or child birth. A controller is coupled to the antennas to transmit signals (e.g. interrogation signals) to the transponders and to receive signals (e.g., response signals) from the transponders.

Abstract: A transmitting and receiving apparatus that is connected with each of plural connection targets, which include an antenna unit and a charger, to perform transmission/reception of signals. The transmitting and receiving apparatus includes a connection portion that is provided on a surface of a reception main body unit of the transmitting and receiving apparatus, connectable with the antenna unit and another connection target, and is connected, at one time, with only one connection target to prevent a malfunction.

Abstract: A purpose of the invention is to provide a piezoelectric speaker that can serve as an antenna and can be used for frequencies in the MHz band, thereby it is possible to suppress enlarging of the size due to use of the piezoelectric speaker also as the antenna to a minimum level. The antenna (4) is provided on a frame (2a) that is a peripheral edge portion of the diaphragm (2). With this configuration, enlarging of the size can be suppressed to a minimum level while using the piezoelectric speaker also as the antenna, and it is possible to achieve space saving in a miniature electronic apparatus such as a mobile phone or the like when the piezoelectric speaker is adopted to the miniature electronic apparatus. In addition, the antenna (4) is a loop antenna formed in a loop shape. With this configuration, the piezoelectric speaker can be used for frequencies in the MHz band, which is used in, for example, a noncontact IC card technology.

Abstract: Systems and methods are provided for a utility meter assembly including a plurality of meter components configured for measuring and collecting data, and including a transceiver operative for signal communications over a network; a faceplate, with meter reading information displayed on the front; an exterior cover; and an internal dipole antenna situated within the exterior cover. The internal dipole antenna is typically situated away from the meter components, so as to minimize interference by the meter components. The internal dipole antenna is typically tuned for optimal matching impedance in an 850 MHz or 1900 MHz receiving band, so that the desired receiving band Standing Wave Ration (SWR) is achieved, and also a specified minimum radiated power threshold is maintained.

Abstract: A portable computing device includes a display unit and a base unit coupled via a hinge such that a surface of the display unit is parallel to a surface of the display unit when the portable computing device is manipulated into a folded position. The display unit includes a display panel and a radiating element of an antenna, the radiating element disposed at an end of the display unit that is distal to the hinge. The base unit includes one or more information handling components and a metal base chassis, the metal base chassis defining a keep out aperture at a distal end of the base unit that is substantially devoid of metal material from the metal base chassis. The keep out aperture is axially displaced from a position of the radiating element when the portable computing device is manipulated into the folded position.

Abstract: A lamp apparatus 1 includes an optical unit 2 and a patch antenna 4. The optical unit 2 includes an LED 7 and a substrate 8 having the LED 7 mounted at the front face, and a cover member 9 having visible-light transmittance, spread over the LED 7 at the front. In this optical unit 2 are stored the patch antenna 4 including a patch element 11 and a ground element 12 located at the rear of the patch element 11.

Abstract: An accessory system (202, 402, 502) for a portable radio transceiver (200) includes an accessory device (206) which includes a speaker and/or a microphone disposed external of the portable radio transceiver. A cable (204) containing two or more conductors is provided for operatively connecting the accessory device to the portable radio transceiver. At least one antenna (210, 212) for the portable radio transceiver is integrated within the cable. When the accessory system is used with a multi-band portable radio transceiver, two or more antennas can be included in the cable, each optimized for operation on a particular RF frequency band.

Abstract: An antenna assembly is used in a wireless communication device, the wireless communication device includes a main body and a circuit board received within the main body. The antenna assembly includes a first antenna unit located in the main body, a feed point and a second antenna unit. The feed point is electrically connected to the circuit board and the first antenna unit. One part of the second antenna unit is exposed from the main body, the other part of the second antenna unit is located within the main body and produces resonance with the first antenna unit to receive and transmit radio signals. The antenna assembly can occupy small space in the wireless communication device and reduce coupled interference of other electronic components on the antenna assembly.

Abstract: Antennas systems are disclosed providing for the use of heat harvesters such as thermophotovoltaic cell materials for converting waste heat from antenna transmitters into useful electricity. A further aspect of the present disclosure provides for transmitters that include high-temperature solid-state power amplifiers for operation at relatively high temperatures, reducing or eliminating the need for thermal heat spreaders or heat sinks. Quantum-effect thermophotovoltaic cells, including quantum-dot based thermophotovoltaic cells are described. Field-coupling is described to extract energy from a quantum-dot based TPV. Novel solar cells are also disclosed.

Abstract: A door security system comprises a door, and a handle assembly attached to the door. The handle assembly includes a lock mechanism, a handle, and an escutcheon. The lock mechanism has an unlocked state and a locked state for securing access to the door, and the handle is rotatably supported by the handle assembly as a means of access through the door when the lock mechanism is in the unlocked state. At least one of the handle and the escutcheon acts as an antenna capable of wirelessly receiving and transmitting radio frequency signals and capable of communicating with the lock mechanism to switch the lock mechanism between the unlocked and locked state.

Abstract: A non-hermetically sealed and biocompatible multi-turn RFID loop antenna is electrically connected to a RFID chip which is enclosed within its own hermetically sealed miniature container. The hermetic seal can be very small and the loop antenna can be relatively large, wherein the entire package is both highly reliable, resistant to body fluids and completely biocompatible. The RFID structure can be implanted in a patient and later communicate with an RFID interrogator to provide information relating to the patient and/or implantable medical devices.

Abstract: A sensor assembly includes a sound sensor, an image sensor, an acceleration sensor, and a gyroscope sensor. The sound sensor includes a substrate defining a first cavity, a diaphragm positioned on the substrate and covering the first cavity, a back plate covering the diaphragm and positioned on the substrate, and a capacitance. A first electrode layer is coated on the diaphragm and faces the first cavity. A second cavity is defined between the diaphragm and the back plate. A second electrode layer is coated on the back plate and faces the second cavity. The capacitance is electrically connected between the first and second electrode layers. The image sensor, the acceleration sensor, and the gyroscope sensor are positioned on the substrate.

Abstract: The invention may provide an antenna device including a communication interface to couple the antenna device to an external device and a package housing with an adhesive surface. A planar antenna pattern may be fabricated on a substrate within the package housing, wherein the antenna pattern is configured to transmit an ultra-wideband signal and to receive a reflection of the transmitted signal.

Abstract: A wireless communication device having a configurable antenna, includes: a first antenna having a first resonant frequency; a first frequency modification unit for modifying the first resonant frequency of the antenna; a function operation unit activating a plurality of functions; and a control unit controlling the first frequency modification unit to modify the first resonant frequency in accordance with a function activated by the function operation unit.

Abstract: An implantable radio frequency identification (RFID) tag includes a hermetically sealed biocompatible housing for an active implantable medical device (AIMD), an RFID microelectronics chip is disposed within the housing, and a biocompatible antenna extends from the RFID microelectronic chip and exteriorly of the housing. In a preferred form of the invention, the antenna is disposed within a header block of the AIMD, and the RFID chip is disposed within the AIMD housing.

Abstract: An antenna mast for a wireless communication system is provided. The antenna mast comprises a mast body that is configured to form a supporting structure for an antenna arrangement of the wireless communication system at an elevated position on the antenna mast. The mast body is also configured to house therein a transceiver arrangement and a processor adapted to perform random user-related communication operations in a cell of the wireless communication system, the cell comprising the antenna arrangement, the transceiver arrangement, and the processor. The mast body is further configured to house at least part of a device to be utilized for a function other than supporting the antenna arrangement. The device comprises a communication interface for establishing a connection with the wireless communication system. A method of providing a further function in an antenna mast for a wireless communication system is also provided.

Abstract: A method of providing an antenna mast for a wireless communication system is presented. The method comprises selecting a lower module and an upper module from a set of modules. This set of modules comprises at least two different lower modules, at least two different upper modules, or at least two different lower modules and at least two different upper modules. The method further comprises assembling the selected lower module and the selected upper module into a mast body of the antenna mast. This mast body forms a supporting structure for an antenna arrangement of the wireless communication system. In assembling the mast body, the method includes the antenna arrangement in the selected upper module and includes in at least one of the selected lower module and the selected upper module a device configured to perform a function other than supporting the antenna arrangement.

Abstract: A bracket assembly is used to mount a wireless telemetry component proximate a rotating component of a combustion turbine engine (10), wherein the wireless telemetry component includes an RF transparent ceramic cover (128). The bracket assembly comprises a first mounting bracket (125) on a surface proximate the rotating component that includes a first (138) and second (139) bracket member spaced apart from one another. The first (138) and second (139) bracket members are disposed generally perpendicular to a direction of centrifugal forces generated by the rotating component. At least one of the first (138) or second bracket (139) members is inclined toward the other bracket member and disposed at an acute angle relative to the surface (141) proximate the rotating component.

Abstract: A wireless sensor device, system and method includes a handle/antenna component and probe shaft sensor. A spiralpole loop antenna interfaces with a probe shaft comprising electrical connection to a surface acoustic wave (SAW) sensor device for wireless temperature sensing. Applications include monitoring the internal temperature of the contents of ovens.

Abstract: An electronic device includes: an antenna; and a touch panel having an electrode sheet formed with an operation detecting pattern, which has conductive, wherein an antenna pattern configuring the antenna is formed on the periphery of the touch panel.

Abstract: A touch sensor with a transparent conductive layer and a metalized border area at least partially bordering the transparent conductive layer and forming a far-field antenna.

Abstract: Disclosed is an apparatus and method to create multiple signals by utilizing the ground plane as part of the antenna. The apparatus comprises an excitation structure that includes a first segment and a second segment joined to form an angle, the first segment to generate a first signal and the second segment to generate a second signal. The apparatus also includes a ground plane that includes a slot with a perimeter, the excitation structure residing within the perimeter of the slot. Further, the apparatus also includes at least one ground arm coupled to the ground plane and formed from at least a portion of the perimeter of the slot, the at least one ground arm to generate a third signal from at least one of the first signal or the second signal.

Abstract: An antenna module, and a touch module and an electronic device using the same are presented. The antenna module includes a transparent substrate and an antenna circuit disposed on the transparent substrate. The antenna circuit includes a pair of electrodes and a coil assembly connected to the electrodes. The electronic device includes a mother board, a display panel, and an antenna module. The transparent substrate and the mother board are overlapped on opposite surfaces of the display panel, such that a circuit design space of the electronic device using the antenna module is reduced.

Abstract: An antenna apparatus for a portable terminal includes a main board and a display device. The main board has a ground for grounding and a feed terminal for feeding. The display device electrically communicates with the main board by the medium of a Flexible Printed Circuit Board (FPCB) and has an ElectroStatic Charge (ESD) prevention ground. If the display device is mounted above the main board, the ESD prevention ground of the display device comes in electric contact with the feed terminal of the main board, for emission.

Abstract: In one aspect, an assembly includes a panel that includes a first surface. The panel also includes a first active circuit coupled to the first surface of the panel and a cold plate having a first bore. The cold plate includes a first inner surface exposed by the first bore. The panel further includes a first thermally conductive material in contact with the first inner surface of the cold plate and the first active circuit.

Abstract: An antenna structure includes a coil unit formed by etching a conductive film in a non-display area of a display and a set of electrodes for transmitting signals connected to terminals of the coil unit. The antenna structure can be a near field communication antenna or a radio frequency identification antenna to transmit and receive signals with the coil unit formed in the non-display area of the display to save the occupation space in a portable communication device. Therefore, the antenna structure can effectively reduce the size of the portable communication device.

Abstract: The invention includes a first circuit board on which a plurality of first terminal sections is arranged, a high-frequency circuit arranged on the first circuit board and connected to at least one of the plurality of first terminal sections, a second circuit board on which is arranged a plurality of second terminal sections facing the plurality of first terminal sections, a first internal circuit arranged on the second circuit board and connected to at least one of the plurality of second terminal sections, and electrical continuity unit providing electrical continuity among the plurality of first terminal sections and the plurality of second terminal sections. At least two contiguous terminals of the plurality of first terminal sections and/or the plurality of second terminal sections including a terminal connected to the high-frequency circuit are connected via a capacitor and function as an antenna for wireless communication.

Abstract: An air conditioner includes an air conditioning module and a wireless access module. The air conditioning module has at least one blade for controlling the wind direction of the air conditioning module. The wireless access module has at least one antenna. The antenna is disposed on the blade.

Abstract: A millimeter wave power source module may include N submodules, each of which includes M circuit devices, where M and N are greater than one. Each circuit device may have an output connected to a corresponding radiating element. Each submodule may include a power divider having K input ports and M output ports, where K is a factor of M. Each input port may be coupled to a corresponding receiving element, and each output port may be coupled to an input of a corresponding circuit device. Each submodule may include a heat spreader for removing heat from the circuit devices. The power source module may include a combination RF feed network and heat sink. The combination RF feed network and heat sink may include a wavefront expander to expand the RF input wavefront along at least one axis, and to direct the expanded wavefront to the receiving elements of the N submodules. The combination RF feed network and heat sink may also include a heat exchanger thermally coupled to the heat spreaders of the N submodules.

Abstract: An item checkout device with antenna which minimizes orientation sensitivity of RFID labels. An example checkout device includes a scale, a weigh plate on the scale, a radio frequency identification label reader antenna including a first portion within the weigh plate and a second portion below the first portion, and a radio frequency identification label reader coupled to the second portion. The second portion includes a conductive layer with substantially orthogonal slots having radiating edges, a drive circuit for driving the slots to radiate a circularly polarized electromagnetic field, and a non-conductive layer separating the conductive layer from the drive circuit.

Abstract: An antenna apparatus for a portable terminal which is light, thin, compact, and small. The antenna apparatus preferably includes a main board equipped with a power feeding part for feeding power and a ground surface for grounding the main board and at least one sub-board, each sub-board which has a ground surface and electrically communicates with the main board, wherein the ground surface of each sub-board receives power from the power feeding part of the main board and resonates.

Abstract: A multi-band antenna comprising a conductive structure and a plurality of current probes coupled around the conductive structure is disclosed. An existing antenna capable of generating H fields having a first signal line is converted into a multi-signal line antenna with increased frequency capabilities, by mounting a first current probe having a designated frequency range about a periphery of the existing antenna; coupling a second signal line to the first current probe; and performing at least one of transmitting and receiving via at least one of the first and second signal lines, wherein the mounting of the first current probe to the existing antenna improves a voltage standing wave ratio (VSWR) of the existing antenna and the second signal line operates as an independent signal line for signal reception/transmission within the designated frequency range.

Abstract: Aspects of a method and apparatus for an integrated antenna are provided. In an exemplary embodiment of the invention, a substrate may comprise one or more metal traces thereon and/or embedded therein. The substrate may be sufficiently flexible to be bent or molded into a shape that corresponds to the outer dimensions of a battery. When the substrate is bent into the shape corresponding to the outer dimensions of the battery, the one or more metal traces may form an antenna. A ferromagnetic laminate may be affixed to a first side of the substrate, and a dielectric laminate may be affixed to a second side of the substrate. The substrate may be wrapped around a battery and the battery and substrate may be integrated into a smartcard or other wireless communication device.

Abstract: A valve incorporates a sensor which can be remotely interrogated wirelessly. A body of the valve comprises a seat, a mobile assembly comprising a rod forming a plug with the seat, by way of a sealing component for closing off and releasing a fluid passage on command. The sensor is fixed to a base at the lower end of the rod.

Abstract: An antenna device of a portable terminal is provided. The device includes a sensor, at least two antenna radiators, and a controller. The sensor detects rotation of the portable terminal. At least two antenna radiators radiate radio waves. A controller selects one of the antenna radiators according to a rotation signal detected by the sensor, and switches on the selected antenna radiator so that the selected antenna radiator radiates radio waves.

Abstract: A display device includes a flat-panel display, a metal plate, and an antenna device. The flat-panel display portion is positioned on an upper surface of display device. The metal plate is positioned on the flat-panel display portion along an front edge of the upper surface. The antenna device for a wireless LAN is positioned on the upper surface of the flat-panel display portion.

Abstract: An antenna system (10, 11) with a plurality of individual antennae (14) in each case connected in a separate drive path (12), to which a common signal transmitter (16) is assigned, and with a triggering unit (22) provided for selective connecting of a drive path (12) selected in each case in the event of error particularly is to simply and reliably enable identification of a defective individual antenna. For this purpose and according to the invention each drive path (12) between signal transmitter (16) and respective individual antenna (14) is connected electrically via an assigned selecting isolation diode (32) to a common first reference point (34) provided for required tapping of a diagnosis potential.

Abstract: The present invention discloses a directional antenna for a portable device. The directional antenna includes at least one antenna, disposed on a side of a display of the portable device, for utilizing a metal part of the display as a reflector to generate a directional radiation pattern.

Abstract: Embodiments of antennas over flexible substrates are described herein. Other embodiments and related methods are also disclosed herein.

Abstract: There is disclosed an identification system which comprises electromagnetic identification means to be connected to objects, such as products, files, keys, file documents, suspension files and the like, and communication means provided with antennas for communication with the identification means. The system further comprises display means for the objects, which form the antennas, via which regular communication with the identification means takes place. Advantageously, the antennas perform a dual function as transmitters of electromagnetic radiation and as support or suspension elements for the objects, without this being realised at the expense of the advantages of the known identification systems.

Abstract: A system for dynamically reconfiguring the radiation pattern of a collection of slot antennas. A collection of slot antennas of various lengths and widths are fabricated. The control system independently drives the feed to one or more slot antennas to produce the desired radiation pattern. The control system activates and deactivates the feed to different slot antennas, thus dynamically reconfiguring the generated radiation pattern.

Abstract: Methods and systems for determining insertion loss for a mast clamp current probe (MCCP) coupled to a monopole antenna are disclosed. An exemplary method includes determining a first power radiated by the monopole antenna across a first range of frequencies while driving the monopole antenna using a base-feed arrangement to produce a first power-frequency measurement, determining a second power radiated by the monopole antenna across the first range of frequencies while driving the monopole antenna using an MCCP-feed arrangement to produce a second power-frequency measurement and to determine impedance mismatch (MM), and determining insertion loss using the first power-frequency measurement, the second power-frequency measurement and the impedance mismatch.

Abstract: An antenna structure includes an expansion card connector, an antenna, and a plurality of metal pins. The antenna is disposed on the expansion card connector. The plurality of metal pins is disposed on the expansion card connector, whereof the plurality of metal pins includes a first designated pin to be a feeding point of the antenna. The plurality of metal pins further includes a plurality of second designated pins, whereof the plurality of second designated pins is electrically connected to each other to be a radiator of the antenna.

Abstract: The invention relates to a flat screen (E) that comprises an active pixel matrix (M), an electrode that is common to said pixels (C), and a conductive strip (R) preferably in the form of a ring that is connected to said common electrode and at least partially surrounds said active matrix, characterised in that at least one slot (F) defining an antenna is formed in said conducting strip. The invention also relates to a portable apparatus that comprises: such a flat screen (E); an electronic board including a floorplan (PM) parallel to the flat screen and electrically connected to the conductive strip of the same; a means for generating and/or detecting electric radiofrequency signals; and an excitation port (P) for the slot antenna (F) installed in the flat screen, and connected to said means for generating and/or detecting electric radiofrequency signals.

Abstract: An antenna includes a ground plane, a dielectric, and an active radiating element. The dielectric is disposed on the ground plane, and the active radiating element is embedded in the dielectric for transmitting and/or receiving an RF signal. The antenna also includes a feeding element and a passive radiating element. The feeding element extends into the dielectric and is electrically coupled to the active radiating element. The passive radiating element is disposed on the ground plane and surrounds a periphery of the dielectric for perturbating the RF signal. The ground plane has a plurality of edges. At least one of the edges extends as a curvilinear lip. The curvilinear lip extends in a direction opposite the passive radiating element for directing the RF signal and for preventing abrupt discontinuity of the RF signal.

Abstract: An inverted-F antenna is disclosed including: a radiating body including a plurality of radiating portions, and some of the radiating portions located on a same plane; a shorting element extending outward from the radiating body and forming a first predetermined included angle with one of the radiating portions; a feeding element extending outward from the radiating body and forming a second predetermined included angle with one of the radiating portions; and a protrusion extending outward from the radiating body and forming a third predetermined included angle with one of the radiating portions; wherein at least one of the first, second, and third predetermined included angles is substantially a right angle.

Abstract: Embodiments disclosed in the detailed description include cables and connector assemblies employing a furcation tube(s) for radio-frequency identification (RFID)-equipped connectors, and related systems and methods. In one embodiment, a connector assembly is provided that comprises a cable comprising a cable end, an interior area, at least one communication line, and at least one furcation tube disposed in the interior area. The connector assembly also comprises a connector operably connected to the cable end. At least one antenna wire is configured to be electrically connected to at least one RFID tag to serve as at least a portion of an RFID antenna for at least one RFID tag. At least a portion of the at least one antenna wire is disposed inside the furcation tube in the cable. In this manner, the antenna wire is secured inside the rugged packaging of the cable to protect the antenna wire.