Abstract: Provided is a planar inverted-F antenna (PIFA) which has a Co-Planar Waveguide (CPW) feeding structure and can be attached to a metal surface, and an RFID tag using the same. The PIFA includes a radiation patch layer; a Co-Planar Waveguide (CPW) feeding layer; a feeding probe; and a short-circuit. The CPW feeding layer includes a feeding means and a ground surface. The feeding probe electrically connects the radiation patch layer and the feeding means and provides a Radio Frequency (RF) signal to be radiated to the radiation patch layer. The short-circuiting means short-circuits the radiation patch layer and the ground surface through the dielectric layer. The PIFA can be applied to a passive RFID tag. Impedance matching between the antenna and the RFID chip is possible. Also, the PIFA can easily control resonant frequency of the antenna and reactance.

Abstract: A system for wireless data communication between a vehicle and at least one of its tires (10), the system comprising a fixed antenna mounted on the vehicle and an antenna integral with the tire (10), the latter antenna being located in proximity with the tire's (10) belt. The characteristics of the tire belt are chosen in order to achieve an increased transmission distance.

Abstract: A vehicle-mounted antenna for a vehicle-mounted information processing device performs wireless communication within a vehicle between the vehicle-mounted information processing device located at a rear side of a veneer plate and another electronic circuit within the vehicle. The vehicle-mounted information processing device reads data from a medium inserted via a media insertion opening formed in the veneer plate and executes various processing based on the read-in data. The vehicle-mounted antenna is arranged deeper than the media insertion opening, within a region set if the media insertion opening is extended in a direction substantially orthogonal with the veneer plate.

Abstract: A mobile radio apparatus that achieves high radiation efficiency in various usage states of a foldable mobile radio apparatus without causing negative impact on communication, and that can realize a thin model. In this mobile radio apparatus that is foldable and that has a mechanism joining a first case and second case at a hinge part and allowing the mobile radio apparatus to open and close, flat conductor (104), flat conductor (106) and flat conductor (107) that are placed distant from flat conductor (104) are placed in the first case, gravity sensor (122) detects an inclination angle of the mobile radio apparatus to judge the usage state of the mobile radio apparatus, and control section (123) controls high frequency switch (112) according to the inclination angle and supplies power selectively to flat conductor (106) and flat conductor (107).

Abstract: A buoyant cable antenna element is taught that employs a specific double-negative meta-material sheath with a negative permeability. The double-negative meta-material sheath is disposed over the insulated wire portion of the buoyant cable antenna element. The double-negative meta-material sheath enables a deliberate reduction in the antenna wire inductance to a zero value at a desired critical frequency. Reducing the antenna wire inductance to zero creates a traveling wave structure antenna having enhanced bandwidth.

Abstract: An antenna comprises electrical conductors arranged to form a radiating element including a folded line configuration and a distributed strip configuration, where the radiating element can be in proximity to a ground conductor and/or arranged as a dipole. Embodiments of the antenna include conductor patterns formed on a printed wiring board, having a ground plane, spacedly adjacent to and coplanar with the radiating element. An antenna can comprise a distributed strip patterned on a printed wiring board, integrated with electronic components mounted on top of or below the distributed strip, and substantially within the extents of the distributed strip. Mounting of electronic components on top of or below the distributed strip has little effect on the performance of the antenna, and allows for realizing the combination of the antenna and integrated components in a compact form.

Abstract: A lighted antenna is provided. The lighted antenna is composed of an antenna pole, a base block, a cylindrical body, a control circuit, and a battery. The base block has a hole in the center for fixing the antenna in upright position, and a plurality of clipping holes surrounding center hole. The cylindrical body has a plurality of cylinder clips formed along the circular rim on one end, corresponding to the positions of the clipping holes. A plurality of light-emitting diodes are installed inside the base block and positioned directly below respective clipping holes. The cylindrical body is attached onto the base block by press fitting the cylinder clips into respective clipping holes. Whenever the antenna is activated, light is projected onto the antenna surface with inclined angle, passing through unblocked portion of clipping holes, to produce flashing light.

Abstract: Methods, apparatuses and systems directed to a wireless network interface supporting directional antenna diversity. Directional diversity, in one embodiment, makes use of antennas with higher gain and non-overlapping patterns to provide communication over a greater area and select the best antenna to receive signals transmitting wireless frames or packets. Certain embodiments optimize wireless network systems using Orthogonal Frequency Division Multiplexed (OFDM) signals where spatial diversity protection provided by spatially-separated, omni-directional antennas is not required. In other embodiments, use and selection of directional antennas allows for sectorization resulting in performance gains such as extended coverage areas, noise reduction, enhanced efficiency, and increased throughput.