Abstract: A watch-type mobile terminal including an antenna is provided. The watch-type mobile terminal may include a body configuring an external appearance of a watch and operating as a loop antenna, a plurality of feeding units applying each of a plurality of communication signals to the loop antenna, and a ground part connected to a ground of the watch. In this case, the body may include a metal housing connected to the ground part and corresponding to an outer loop, a metal bezel connected to the plurality of feeding units and corresponding to the inner loop, and a slot member disposed between the metal housing and the metal bezel to electrically disconnect the metal housing from the metal bezel. An antenna for providing a plurality of communication services may be provided.

Abstract: A wearable power harvesting system includes a knitted fabric rectenna including an antenna adapted to receive radio-frequency energy within a desired frequency band and a rectifier circuit that converts received radio-frequency energy into a DC current and voltage. A knitted fabric load/storage unit stores DC power from the rectifier circuit. The power harvesting system is adapted to harvest the radio-frequency energy within the desired frequency band, which may include WLAN frequencies such as the standard 2.4 GHz and 5 GHz WLAN standard frequencies.

Abstract: An electronic device includes a main body, a baseboard, a ground portion, and a frequency selected ground (FSG) circuit. The baseboard is received in the main body and is spaced from the main body. The baseboard and the main body together forms a gap and the baseboard includes a feed point for feeding current to the main body. The ground portion is grounded and electrically connects the main body to the baseboard. The ground portion covers a portion of the gap to form a grounding area and a non-grounding area. One end of the FSG circuit is electrically connected to the main body and another end of the FSG circuit is grounded. The FSG circuit includes a plurality of inductors and/or capacitors. The FSG circuit has different impedances in response to the electronic device working at different frequency bands.

Abstract: A communications headset having an antenna on each earpiece and having an RF switch for determining which antenna is receiving the superior signal and selecting that signal for amplification and distribution to headset speakers. A cable, supported and secured to a headband of the headset, connects the two earpieces for signal and power transfer. An illustrated embodiment has a transceiver and a speaker in an earpiece, with the RF switch, switching logic, and audio processor in one earpiece. Other configurations are within the scope of the invention. The RF switch selects the superior signal responsive to signal strength, signal to noise ratio, and/or similar figures of merit. Monitoring for signal superiority is at a high bandwidth to prevent granularity in the switching becoming noticeable to the user. The antenna corresponding to the superior signal is also used for transmitting from the headset.

Abstract: One example discloses a communications device, including: a bio-antenna conducting surface configured to receive a set of bio-antenna modulated broadcast signals; wherein the conducting surface is configured to receive the set of bio-antenna modulated broadcast signals through a capacitively coupling; a broadcast receiver coupled to the conducting surface; and wherein the conducting surface is configured to pass the broadcast signals to the broadcast receiver.

Abstract: An antenna that comprises a feeding point, a first conductor and a second conductor is provided. The first conductor is connected to the feeding point, includes, as an open end, an end which is not connected to the feeding point, and has a linear shape. The second conductor is formed to branch from the first conductor, includes, as an open end, an end on an opposite side of a point branching from the first conductor, and has a linear shape. At least part of the first conductor and at least part of the second conductor are formed on different planes and include coupling portions electromagnetically coupled to each other.

Abstract: A hearing aid device has an antenna device. The antenna device is configured to receive and/or transmit electromagnetic waves of a predetermined wavelength lambda. The antenna device has an energy coupling device which is configured to supply or to draw electrical energy to or from the antenna device. The antenna device has a first conductor and a second conductor, which are in energy exchange with the energy coupling device, extend away from the energy coupling device in different directions and are arranged a short distance from a third conductor. A first ohmic connection between the first conductor and the third conductor and a second ohmic connection between the second conductor and the third conductor are arranged at a predefined distance from the energy coupling device.

Abstract: Provided is a wrist wearable terminal including: a body portion including a function module; a coupling portion fastening the body portion on a wrist; and at least one strap portion linking the body portion and the coupling portion and including at least one function module that is coupled to the function module of the body portion via a signal line to convert or activate a use of at least one function of the wrist wearable terminal depending on a state of wearing of the wrist wearable terminal.

Abstract: A method for performing authentication in a portable electronic device is provided. The method includes identifying whether a peripheral electronic device is located within a certain distance from the portable electronic device, receiving biometrics information from the peripheral electronic device when the peripheral electronic device is located within the certain distance from the portable electronic device, identifying whether the biometrics information received from the peripheral electronic device is identical to biometrics information stored in the portable electronic device, and releasing security set to the portable electronic device when the biometrics information received from the peripheral electronic device is identical to the biometrics information stored in the portable electronic device.

Abstract: An electromagnetic induction wireless transceiver including: a magnetic antenna; and a signal source configured to produce a communication signal used to drive the magnetic antenna to produce electromagnetic induction fields, wherein the transceiver when connected to a first location on a body is configured to communicate with another electromagnetic induction wireless transceiver connected to a second location on the body.

Abstract: A system and method for a multi-function remote ambulatory cardiac monitoring system. The system includes a housing and a microprocessor disposed within the housing. The microprocessor controls the remote ambulatory cardiac monitoring system. The system also includes an electrode for sensing ECG signals and the electrode being in communication with the microprocessor. An integrated cellular module also is included in the system, and the cellular module is connected to the microprocessor and disposed within the housing. The integrated cellular module transmits ECG signals to a remote center.

Abstract: A mobile terminal with an antenna apparatus is provided. The mobile terminal in one embodiment includes an antenna radiator disposed at a first end of the mobile terminal; at least one antenna modifying element disposed at a second, opposing end of the mobile terminal; and a coupling unit for fastening the first and second ends and electrically connecting the at least one antenna modifying element with the antenna device when the first and second ends are fastened. In another embodiment, a deformation detector detects at least one deformation of the mobile terminal, an antenna matching unit is electrically connectable to the first antenna radiator; and a controller is coupled to the deformation detector, for controlling an electrical connection between the antenna matching unit and the first antenna radiator when the at least one deformation is detected. The antenna matching unit may include a second antenna radiator.

Abstract: An electronic timepiece has a case; an annular antenna housed in the case; a time display unit that is disposed on the inside of the antenna, and includes a dial and hands that rotate on a center pivot; and a battery compartment housing a storage battery that feeds the antenna. The antenna is not superimposed with the storage battery held in the battery compartment when seen from the direction perpendicular to the dial.

Abstract: A sensor attachable to a body of a user includes a heartbeat sensor or a motion sensor; and an antenna including a resonator structure configured to interact with a radio frequency signal. The resonator structure includes a dielectric resonator element. The dielectric resonator element is configured to resonate as a response to the radio frequency signal for at least one of transmitting and receiving electromagnetic energy wirelessly.

Abstract: Verifying a set of safety equipment criteria may include receiving a first unit of data at a first computing device. The first unit of data may be received via a wireless signal between the first computing device and a set of sensing devices. A set of safety equipment that includes the set of sensing devices may be identified as the first unit of data. The set of sensing devices may be configured to transmit the first unit of data. The wireless signal between the first computing device and the set of sensing devices may be monitored and the signal strength for the wireless signal may be determined to be below a threshold value. A second computing device may be notified in response to the determining that the signal strength for the wireless signal is below the threshold value.

Abstract: An embodiment of a hearing assistance device comprises a housing, a power source, a radio circuit, an antenna and a transmission line. The radio circuit is within the housing and electrically connected to the power source. The antenna has an aperture, and the radio circuit is at least substantially within the aperture. The transmission line electrically connects to the antenna to the radio circuit. Various antenna embodiments include a flex circuit antenna.

Abstract: Embodiments relate to an elastically deformable item of sports equipment (100; 200; 250; 300; 500), comprising at least one deformable electromagnetic coil structure (104; 204; 254; 304; 504) arranged around a curved surface (102; 106; 202; 206; 252; 256; 302; 306; 502; 506) within the item of sports equipment, wherein the at least one deformable electromagnetic coil structure has an elongation reserve corresponding to a maximum elastic deformation of the item of sports equipment.

Abstract: A portable antenna with a housing in which the antenna is held when not in use, and a mechanism to cause the antenna to pop-up from, and sit on top of, the housing when it is to be used. The mechanism can function to collapse the antenna into the housing when not in use.

Abstract: A wearable electronic device includes a first member and a second member. The second member includes a first, RF-attenuating, portion and a second, electrically conductive portion. A gap exists between the first member and at least the second portion of the second member. One or more transmitter/receivers, such as one or more BLUETOOTH®, BLUETOOTH® low energy, and/or IEEE 802.11 transceivers may be mounted in the first member. The one or more transmitter/receivers are conductively coupled to the second portion of the second member. RF signals generated by the one or more transceivers are emitted from the second portion of the second member.

Abstract: An antenna device for radio communications in a wearable device comprises a ground plate having an arc shape, a first antenna plate extending essentially parallel to the ground plate and connected thereto at a first end portion of the ground plate, the first antenna plate having a first feed terminal, and a second antenna plate extending essentially parallel to a the ground plate and connected thereto at a second end portion of the ground plate opposite to the first end portion of the ground plate, the second antenna plate having a second feed terminal. A gap is provided between the first antenna plate and the second antenna plate.

Abstract: An RFID tag to is attached to a metal member including a slit, the RFID tag including conductive members attached to a surface of the metal member at corresponding sides of the slit in a width direction of the slit through an isolator; and an IC chip that receives power through the conductive members. Each of the conductive members has a shape to avoid overlapping with storing portions, each of the storing portions being configured to store one of tablets.

Abstract: A method and apparatus for adapting an electronic device to receive digital television broadcast signals is disclosed. The device comprises a switch commandable to interpose one or more matching networks as in the RF signal path according to a channel command to match an integrated headset antenna to the tuner receiving the RF signals.

Abstract: An electronic timepiece has; an annular antenna; and a time display unit. The antenna includes an annular dielectric; a conductive driven element that is disposed on the dielectric, is ring-shaped with a notch therein (C-shaped), and is fed with a specific potential; and a conductive parasitic element that is disposed on the dielectric with a gap to the driven element, and is an endless ring or a ring with a notch therein (C-shaped). A feed position to which a specific potential is fed is disposed to the driven element at one place. When the electronic timepiece is seen in plan view, the feed position is disposed in a range from approximately 8:00 to approximately 10:00 relative to the center (center pivot) of the electronic timepiece.

Abstract: A wearable wireless electronic device to be worn on a wrist of a user includes a first conductive antenna element of an antenna that is electrically coupled to an antenna feed of the antenna and a second conductive antenna element of the antenna that is electrically coupled to a ground plane of the antenna. The first conductive antenna element and the second conductive antenna element are configured to be in contact with and/or in close proximity to a wrist of the user that is wearing the wearable first wireless electronic device.

Abstract: A portable antenna is disclosed that can be collapsed into, and erected from, a housing. There is also a pull cord mechanism arranged, when pulled, to cause the antenna to revert between the erect or collapsed configurations. The pull cord extends from the antenna to a position in easy reach of the soldier's hand so that the antenna can be erected/collapsed remotely.

Abstract: A near field communication and wireless charging device includes a coil, a tuning module, a near field communication module, a wireless charging module, and a power storage device. The coil is configured to receive electromagnetic waves. The tuning module is electrically connected to the coil. The near field communication module includes an attenuator and a near field communication control circuit. The attenuator is configured to attenuate the energy of electromagnetic waves transmitted from the tuning module. The near field communication control circuit is electrically connected to the attenuator. The power storage device is electrically connected to the wireless charging module. Electromagnetic waves are magnetically coupling to the coil, and the coil transmits signals of the electromagnetic waves to the near field communication module through the tuning module, or transmits the energy of the electromagnetic waves to the power storage device through the tuning module and the wireless charging module.

Abstract: Systems, articles, and methods for elastic electrical cables are described. An elastic electrical cable includes a molded band of elastomer with a length that follows a tortuous path including a number of semi-rigidly set changes in direction. The elastomer band is formed by an overmolding process to enclose or at least partially contain a flexible printed circuit board, with various access points provided to electrically couple to/from the flexible printed circuit board. An annular wearable electric device employing at least one such elastic electrical cable as an adaptive coupler that simultaneously provides both electrically conductive coupling and adaptive physical coupling is described. Methods of preparing/manufacturing such elastic electrical cables are also described.

Abstract: A hearing aid system comprising a microphone device for wireless communication with a hearing aid to be worn at or in proximity to a first user, the microphone device configured to be worn at or in proximity to a second user, the microphone device includes: a housing; a microphone for conversion of an acoustic sound signal into an electrical signal; a transceiver for wireless radio frequency communication; a first antenna connectable to the transceiver; and a second antenna connectable to the transceiver; wherein the first antenna is accommodated within the housing; and wherein the second antenna is external to the housing such that the second antenna can be carried at or in proximity to the second user at a distance from the housing; and wherein the microphone device further comprises a distributor for distributing power to the first antenna, to the second antenna, or to both.

Abstract: Electronic devices are provided that contain wireless communications circuitry. The wireless communications circuitry may include radio-frequency transceiver circuitry and antenna structures. The antenna structures may include antennas such as inverted-F antennas that contain antenna resonating elements and antenna ground elements. Antenna resonating elements may be formed from patterned conductive traces on substrates such as flex circuit substrates. Antenna ground elements may be formed from conductive device structures such as metal housing walls. Support and biasing structures such as dielectric support members and layer of foam may be used to support and bias antenna resonating elements against planar device structures. The planar device structures against which the antenna resonating elements are biased may be planar dielectric members such as transparent layers of display cover glass or other planar structures.

Abstract: A wrist phone with a single button includes a molded-plastic wristband and a wristband cap. A wireless transceiver module is mounted on a printed circuit board and is contained in a component cavity between the wristband and the wristband cap. A foil antenna is attached directly to the printed circuit board and extends between an outer layer and a wrist-facing layer of a flexible strap portion of the wristband. A microphone is located between the layers of the opposite flexible strap portion of the wristband at least two centimeters away from the wireless transceiver module. The single button is formed using the interleaved fingers of a landing pad on a surface beneath the inner surface of the wristband. The inner surface of the wristband is covered by a layer of conductive material that makes an electrical connection between the interleaved fingers when the outer surface of the wristband is pressed.

Abstract: Several (in some cases many dozen) small antennae are integrated into or over a full body suit or clothing. These antennae preferably include an intra-suit or clothing wired connection to one or more small Ultra-Wide-Band (UWB) radios, e.g., in the 3-10 GHz range. In some cases, each antenna connection includes a variable delay, e.g., a few nanoseconds with picoseconds-scale resolution on the delays, thus allowing for the body-suit ensemble to act as a directional phased-array.

Abstract: A wearable tag capable of wireless communications includes a first elastic layer, a second elastic layer over the first elastic layer, wherein the second elastic layer is embedded with a first conductive circuit. The wearable tag includes a dielectric layer on the second elastic layer, a third elastic layer on the dielectric layer, wherein the third elastic layer is embedded with a second conductive circuit, wherein the dielectric layer comprises via holes that contain electric connections between the semiconductor chip and the first conductive circuit. A semiconductor chip is in connection with the first conductive circuit and the second conductive circuit, wherein the semiconductor chip, the first conductive circuit, and the second conductive circuit are configured to wirelessly communicate with external devices. The wearable tag also includes a fourth elastic layer on the semiconductor chip.

Abstract: A wearable electronic device includes a device body having a wireless communication module, a wearing unit connected to the device body for being worn on a user, an antenna module entirely embedded inside the wearing unit, and a conductive unit is partially disposed in the wearing unit and electrically connected to the antenna module and the wireless communication module.

Abstract: The present disclosure provides a wearable electronic device. The wearable electronic device comprises: a main body; a fixing member movably connected to the main body and configured to fix the main body on a supporting member; a connecting member configured to connect the main body and the fixing member; at least one antenna arranged in the fixing member, connected to a radio frequency unit in the main body via the connecting member, and configured to transmit signals.

Abstract: Aspects of the innovations herein relates to a housing having a housing wall comprising a polymer including electrically conductive particles, wherein an inner chamber is provided in the housing, and is formed and enclosed by the housing wall and into which a mobile telephone may be inserted. In some implementations, the housing wall may be designed to attenuate a mobile radio signal of the mobile telephone, such as by ?3 dB, as compared to unobstructed propagation, on the side of the housing wall facing away from the inner chamber.

Abstract: A mechanism is disclosed to dismantle/erect a portable antenna that includes a linkage between radial driven elements and radial ground plane elements of the antenna which acts to cause them to move together between a collapsed and an erect arrangement.

Abstract: A hearing assistance device to provide sound to the ear of a user, the device comprising a housing, hearing assistance electronics enclosed in the housing, an acoustic transducer adapted to be worn in the ear, a cable assembly adapted to connect the acoustic transducer to the hearing assistance electronics, a wireless communications receiver connected to the hearing assistance electronics, and an antenna comprising one or more conductors forming at least a portion of the cable assembly.

Abstract: A right-hand circular polarized antenna and associated methods. In one embodiment, a quarter-wave antenna configuration is used within a small form factor portable device (e.g. wristwatch). The antenna comprises a radiator element which operates in as a linear polarized antenna while the device is operating in free space. However, when the device is attached to a user (e.g. at a user's wrist), the antenna utilizes the loading of the user's body tissue in order to suppress unwanted signals (e.g. left hand polarized signals) to permit operation in circular polarized mode (e.g. right hand polarized mode), thereby allowing for increased sensitivity to received circularly polarized signals such as those emanated from global positioning satellites.

Abstract: An electronic timepiece has a main plate 120 for a movement 110 that drives a time display unit inside an outside case 80; an annular antenna 40 housed inside the case 80 and positioned relative to the main plate 120; and aback cover 85 that engages the case 80. A circuit bridge 130 disposed below the main plate 120 has an upward pressure part 131 that pushes the main plate 120 to the time display unit side when the case 80 and back cover 85 are engaged. The main plate 120 has a movement top positioning part 122 that contacts the vertical positioning surface and positions the main plate 120 vertically to the case 80 when the main plate 120 is lifted toward the time display side by the upward pressure part 131.

Abstract: A system for use with a drug delivery device includes a sensor unit and a deactivation unit operatively coupled to an output of the sensor unit and to a drug-retaining region of the drug delivery device, wherein the drug-retaining region contains a drug. The sensor unit is configured to detect a characteristic of a local environment and generate an output corresponding to a value of the detected characteristic. The deactivation unit is configured to render the drug ineffective when the output of the sensor unit satisfies a predetermined condition.

Abstract: An antenna system for a wearable electronic device includes a first conductive surface constructed from a segment of outer housing of the wearable electronic device. The first conductive surface spans a first axis through the wearable electronic device. The antenna system also includes a second conductive surface that spans the first axis. The second conductive surface is constructed from a set of contacting metal components that are internal to the wearable electronic device. The first and second conductive surfaces are separated by a space. The antenna system also has a contact element having a feeding element that connects the first conductive surface to the second conductive surface along a plane that is normal to the first conductive surface.

Abstract: An antenna comprises first and second conducting elements and first, second and third conducting lines. Each conducting element has a conductive surface. The first conducting line provides a short circuit between the conductive surfaces. The second conducting line has a first end electrically connected to one conductive surface and a second, free end. The third conducting line has a first end electrically connected to the other conductive surface and a second, free end. The second and third conducting lines are aligned along an axis X-X and each of the second ends of the second and third conducting lines serves as one of the terminals of a two terminal port F for feeding an RF signal of wavelength ? to the antenna.

Abstract: An electronic device includes a display section, at least one substrate, a control section, a connecting section, a receiving section, and output wiring. The at least one substrate includes a plurality of wiring layers overlapped as a whole. Output wiring is provided on the first layer among the plurality of wiring layers and connects each of the plurality of the output terminals and the control section. From a planar view of the substrate, a bar antenna is attached on a face of a second layer on a side opposite of the first layer, in a position between positions corresponding to positions of the connecting section and the control section. The output wiring crosses between regions corresponding to both edge regions including both edges of the bar antenna.

Abstract: Conventionally, people have to go to the place where a measurement instrument for health data is, to obtain health data and the like. Further, even when using a portable measurement instrument, people have to manage data by themselves, thus health data cannot be managed rapidly. According to the invention, a modulating circuit, a demodulating circuit, a logic circuit, a sensor circuit, and an antenna circuit are provided over an insulating substrate, thereby data sensed by the sensor circuit is transmitted wirelessly. According to the invention, health data on the living body (for example a human body) is sensed and can be rapidly detected.

Abstract: Apparatus comprising a first antenna configured to receive alignment signalling from a first transmitter over a first communication channel, the first communication channel having a first set of characteristics, and a second antenna configured to exchange data w.th a second transmitter over a second communication channel, the second communication channel having a second different set of characteristics. The apparatus also comprising a processor configured to process the alignment signalling received from the first antenna and determine the location of the second transmitter relative to the apparatus; and generate control signalling representative of the determined location of the second transmitter relative to the apparatus.

Abstract: An electronic device may have electrical components such as input-output devices. An electrical component may be mounted on a flexible printed circuit. The flexible printed circuit may have a bend that forms a flexible printed circuit spring to bias the electrical component in a desired direction. The electronic device may have a display with a display cover layer. In an inactive display area, opaque masking material may be formed on the display cover layer. A light window may be formed in the opaque masking layer. The flexible printed circuit spring may bias the electrical component against the display cover layer in alignment with the light window. An air gap under the electrical component may separate the component from a planar portion of the flexible printed circuit that is overlapped by the electrical component. The electrical component may be a camera, a light sensor, or other device.

Abstract: A behind the ear (BTE) hearing aid includes: a microphone; a signal processor; a receiver; a partition plane extending between a first side of the hearing aid and a second side of the hearing aid; and a transceiver for wireless data communication interconnected with an antenna for electromagnetic field emission and electromagnetic field reception, the antenna having a first feed point and a second feed point; wherein at least a part of the antenna intersects the partition plane at an intersection so that a relative difference between a first distance from the first feed point to the intersection and a second distance from the second feed point to the intersection is less than or equal a first threshold.

Abstract: A communication device, including a device casing, an external connection element, and a first metal element, is provided. A ground element and an antenna element are disposed in the device casing. The ground element has a first edge, a second edge, and a first connection point. The first edge and the second edge are opposite to each other. The first connection point is disposed near or at the second edge. The antenna element is disposed near the first edge. The external connection element is formed by a non-conductive material and is outside the device casing. The external connection element has a belt-like structure and is combined with the device casing to substantially form a loop structure. The first metal element is supported by the external connection element and is coupled to the first connection point of the ground element.

Abstract: A wireless communication apparatus, includes: a second circuit board; a wireless communication processing circuit accommodated in the second circuit board; a first signal line that connects a first ground potential portion of the first circuit board with a first antenna feed point of the wireless communication processing circuit, wherein the first signal line and the first ground potential portion are configured to operate as a first antenna; a second signal line that connects the first circuit board with the second circuit board and is configured to convey a baseband signal; and a circuit element that is connected to the second signal line and is configured to block RF signals that are sent and received by the wireless communication processing circuit.

Abstract: Disclosed herein, among other things, are systems and methods for embedding a conductive trace for a hearing assistance device housing. One aspect of the present subject matter includes a method of forming a hearing assistance device housing. The housing is constructed of plastic including a photo conductive dopant, in various embodiments. According to various embodiments, the housing is laser printed to activate the photo conductive dopant on the surface of the plastic to provide a conductive trace on a surface of the housing. The housing is plated using an electroless process to increase the conductivity of the conductive trace, in various embodiments.