Abstract: An industrial truck with at least one antenna for sending and receiving data from and/or to an RFID transponder, characterized in that the antenna has a network of wires, which are embedded in a flexible material.

Abstract: A communication system comprises a signal carrying apparatus having a first conductor portion (111) of which external shape is sheet-like and which serves as a conductor and a second conductor portion (121), and an interface device having a first electrode (1211) and a second electrode (1222) located near the first conductor portion (111), the normalized reactance derived from the reactance component of the sheet impedance in the signal carrying apparatus is not extremely smaller than 1, and the normalized distance derived from a distance between the signal carrying apparatus and the interface device made closer to substantially equal to 1 or less for transmitting the electromagnetic field in the leak region (141) between the signal carrying apparatus and the interface device and in the interval region (131) between the external shape of the first conductor portion (111) and the external shape of the second conductor portion (121).

Abstract: An antenna for the transmission and reception of electromagnetic radiation is provided. The antenna includes a body portion, which can be flexible to permit incorporation of the antenna into a material. The antenna also includes an aggregate of extended length nanotubes along the body portion, and a plurality of contact points between adjacent nanotubes to permit transmission of electromagnetic radiation, while reducing resistivity along the antenna at a high frequency, for example, above 100 MHz. A method of manufacturing an antenna is also provided.

Abstract: The invention relates to an aqueous composition for preparing an edible coating on a microwavable food, which composition comprises at least one prolamin and at least one hydrocolloid or gelling agent. The invention further relates to a microwavable food comprising an edible coating, which coating comprises at least one prolamin and at least one hydrocolloid or gelling agent.

Abstract: A transparent antenna for a vehicle has a transmittance property providing good visibility without worsening the design and is capable of realizing low resistance. The transparent antenna has an insulating sheet-like transparent base body (1a) and an antenna pattern planarly formed on the surface of the transparent base body (1a). An electrically conductive section (1b) of the antenna pattern is constructed from an electrically conductive thin film of a mesh structure, lines of each mesh are constructed from very fine bands having substantially equal widths, and the width of each of the very fine bands is 30 ?m or less. The light transmittance of the antenna pattern is 70% or higher.

Abstract: A radiating element made from a conductive-nonwoven web is incorporated into a signal emitting apparatus. The signal emitting apparatus, for instance, may comprise an RFID tag. The conductive-nonwoven web contains, in one embodiment, conductive fibers combined with pulp fibers. The conductive fibers may comprise carbon fibers. The nonwoven web may be made using a conventional paper-making process. The resulting conductive web is not only well suited for use as an antenna, but is also relatively inexpensive to manufacture and can be easily incorporated into numerous products.

Abstract: A signal carrying apparatus (101) for transmitting a signal by variation of electromagnetic field comprises a meshed first conductor portion (111) which serves as a conductor in the frequency band of the electromagnetic field, and a second conductor portion (121) of which external shape is sheet-like and which serves as a conductor in the frequency band of the electromagnetic field and arranged substantially in parallel with the first conductor portion (111). In the interval region (131) between the external shape of the first conductor portion (111) and the external portion of the second conductor portion (121), and in the planar leak region (141) located oppositely to the interval region (131) across the external shape of the first conductor portion (111), the electromagnetic field propagating in that frequency band has a strength attenuating exponentially with the distance from the external shape of the first conductor portion (111) in the leak region (141).

Abstract: A communication system comprises a signal carrying apparatus having a first conductor portion (111) of which external shape is sheet-like and which serves as a conductor and a second conductor portion (121), and an interface device having a first electrode (1211) and a second electrode (1222) located near the first conductor portion (111), the normalized reactance derived from the reactance component of the sheet impedance in the signal carrying apparatus is not extremely smaller than 1, and the normalized distance derived from a distance between the signal carrying apparatus and the interface device made closer to substantially equal to 1 or less for transmitting the electromagnetic field in the leak region (141) between the signal carrying apparatus and the interface device and in the interval region (131) between the external shape of the first conductor portion (111) and the external shape of the second conductor portion (121).

Abstract: A transparent antenna for a vehicle, having transmittance property providing good visibility without worsening design and capable of realizing low resistance. The transparent antenna has an insulating sheet-like transparent base body (1a) and an antenna pattern planarly formed on the surface of the transparent base body (1a). An electrically conductive section (1b) of the antenna pattern is constructed from an electrically conductive thin film of a mesh structure, lines of each mesh are constructed from very fine bands having substantially the equal width, and the width of each of the very fine bands is 30 ?m or less. The light transmittance of the antenna pattern is 70% or higher.

Abstract: A transparent antenna for a display, for example, a portable telephone, the transparent antenna performing good transmission and reception, not bulky, and not impairing design of an apparatus. The transparent antenna (1) for a display has an insulating sheet-like transparent substrate (1a) and has a planar antenna pattern formed on the surface of the transparent substrate (1a). An electrically conductive section (1b) of the antenna pattern is constructed from an electrically conductive thin film of a mesh structure, outlines of each mesh are constituted from extra fine bands with substantially the same width, and the light transmittance of the section where the antenna pattern is formed is equal to or more than 70%.

Abstract: At least one antenna is disposed and fixed in a vehicle seat. The at least one antenna is formed from a conductive textile or nonwoven formed separately from a seat cover of the vehicle seat. Preferably, the at least one antenna can be coupled to a transmitting or receiving unit.

Abstract: A composite conductor assembly is configured as a core composed of polymeric elastomeric material and a conductive layer in intimate surrounding contact with the core. The polymeric material provides elasticity to the core to enable the core to elongate when subjected to strain forces within a tire. The conductive layer is fabricated from a low impedance material and may be configured as a composite wherein an inner base metal is selected as a strength member and an outer metallic layer is applied to the base for electrical performance enhancement.

Abstract: The invention relates to a textile strip comprising an integrated antenna thread for an RF transponder. The aim of the invention is to produce a textile strip in a simple, flexible manner and to avoid the risk of short-circuits. To achieve this, the strip is configured from a base textile (2, 2a) that is produced on a needle loom. The antenna thread (4, 4a, 4b) is laid on the base textile in an undulating or zigzag form during the production of said textile, the distance between the limbs (14a, 14b) of an antenna thread loop and at least one edge (8) of the strip being two weft threads.

Abstract: A method of constructing an antenna, filter, or similar structure comprising one or more planar electrically conductive radiating and/or receiving elements having conductive feedlines attached thereto and a planar around reference conductor spaced therefrom by a spacer layer, comprising the steps of: providing a planar dielectric fabric spacer layer; applying conductive material to a first side of said spacer layer, by an embroidery process employing conductive thread or yarn, to define said electrically conductive radiating and/or receiving elements having conductive feedlines attached thereto; providing a planar around reference conductor on the opposite side of said planar spacer layer in a position corresponding to the pattern of said electrically conductive radiating and/or receiving elements having conductive feedlines attached thereto; and providing a connection whereby said conductive feedlines attached to said electrically conductive radiating and/or receiving elements, and said planar around referen

Abstract: Antenna constructions for electronic devices and methods of manufacturing such antenna constructions. The electronic device comprises a transponder and an antenna electrically coupled with the transponder. The antenna has a core of a first material and a coating of a second material on the core. The second material has a higher electrical conductivity than the first material and/or a lower permeability than the first material. The coating on the core also has a predetermined thickness. The electronic devices may be used in tires.

Abstract: A wideband antenna (10) includes a plurality of conductive strands (12) randomly interconnected and further coupled to a feedpoint (19) and a sheath (52) structurally retaining the plurality of conductive strands. The sheath can be a thin dielectric coating and the plurality of conductive strands can each be taller than one-quarter wavelength. The wideband antenna can have low dielectric losses while maintaining a multi-octave bandwidth. Air can be used as a dielectric between the plurality of conductive strands.

Abstract: An antenna having excellent receiving sensitivity for radio waves of two or more different frequency bands is achieved with a relatively simple configuration using a single cord. The antenna of the present invention is made up of a single cord which has one end connected to a plug and includes at least one inductor inserted at a certain point of the cord. A length from one end to the other end of the cord and a length from the one end to a position where one of the inductors is connected are n/4 (n represents 1, 2, 3 or 4) of a wavelength at the center frequency of one of the two or more frequency bands or a frequency around the center frequency, and the at least one inductor has a self-resonant frequency matching with the center frequency of the frequency band corresponding to the length from the one end to the position where the inductor is connected or matching with a frequency around the center frequency.

Abstract: An antenna pattern having a broad band characteristic as to frequencies and having a wide directivity, and an electromagnetic wave energy processing device having the antenna pattern, particularly a sheet-like antenna or electromagnetic wave shielding filter. A conductor wire forming the antenna pattern comprises an aggregated wire consisting of mesh or continuously polygonal micro-image element lines or parallel element lines. The element lines are 5-300 ?m in line width and 5-1,000 ?m in line pitch interval, or the most preferably 5-30 ?m in line width and 5-150 ?m in line pitch interval. The element lines are printed with printing ink or paste material mixed with conductive powder. In accordance with necessity, pressure treatment or polishing treatment and/or conductive plating with aid of eletroless plating or directly without aid of eletroless plating are performed on the printed surface.

Abstract: The present invention provides a parabolic dish reflector antenna for wireless communications that is dually polarized for diversity reception purposes while causing minimal visual disturbance for use with cellular base stations and repeaters. The antenna comprises a reflector of paraboloidal shape along both the longitudinal and latitudinal axes of its diameter. The reflector of the antenna is comprised of 4 identical quadrants assembled at the installation site, where each quadrant is made of thin metal ribs with large openings metal mesh stretched and attached to the ribs. The antenna further comprises a feed that is located around the focal point. The antenna feed comprises an open cup-shaped conductive cavity wherein the two orthogonally mounted feeding elements of the antenna located within its volume, are low cost printed circuit board elements.

Abstract: A thin film switch with induced antenna effect includes two thin films, a touch circuit and an induced antenna circuit. The two films include two opposite inner surfaces and two opposite outer surfaces. The touch circuit includes a plurality of touch portions disposed on the opposite inner surfaces of the two thin films. The induced antenna circuit is disposed on at least one of the outer surfaces and includes at least one inductive element and an inductive loop. The inductive loop of the induced antenna circuit receives an external radio frequency signal and transfers it to the inductive element.

Abstract: A radome that defines an axis and has an open end. The radome includes a plurality of plies including a first ply and a second ply. At least one of the plies includes a first sheet that defines a first edge and a second sheet that defines a second edge. The first edge abuts against the second edge to define a seam. A core portion is disposed between the first ply and the second ply.

Abstract: A radome that includes a first plurality of plies arranged to define a window portion and a second plurality of plies arranged to define an attachment portion. A first portion of the first plurality of plies is also included within the second plurality of plies and a second portion of the first plurality of plies is not included in the second plurality of plies.

Abstract: An antenna system and method for tire monitoring systems provides an elasticized substrate in combination with an antenna wire(s). The antenna cable can be wrapped around or otherwise applied to the elasticized substrate, preferably in a wave or sinusoidal configuration. When subjected to forces of external origin, the substrate can elongate while the antenna wire straightens. Upon release from the influence of such forces, residual spring forces within the elasticized substrate relax and return the substrate and the antenna cable carried thereby back to its original, optimal configuration. The pitch of the antenna material on the substrate may be customized to suit the needs of the particular tire and communication. The antenna may be sewn or woven into the elasticized fabric, helically wound around a core composed of such material, or attached in an alternative manner.

Abstract: The present invention relates to a reception antenna structure of a tire pressure monitoring system. The reception antenna is implemented using a cable-type antenna connected to a receiver of the tire pressure monitoring system. The cable-type antenna enables a mounting position of the antenna to be freely changed and improves a reception rate for measured data about temperature and pressure of a tire, that is modulated into data in the UHF band and transmitted to the outside of the tire in a wireless manner by a transmitter.

Abstract: A framework for a deployable antenna is disclosed herein. The framework basically includes a plurality of elongate ribs, a matching plurality of foldable resilient members, and a hub. Each of the elongate ribs has both a proximal end and a distal end. The foldable resilient members serve to interconnect the proximal ends of the elongate ribs to the hub. Within such a configuration, each of the foldable resilient members is capable of storing strain energy whenever forcibly folded and also releasing the strain energy whenever subsequently permitted to elastically unfold. Thus, whenever the elongate ribs are released from a stowed position in which the foldable resilient members are forcibly folded, the strain energy causes automatic deployment of the antenna as the foldable resilient members are permitted to elastically unfold. In sum, therefore, the framework obviates many conventional uses of electro-mechanical motors or actuators in deploying various antennas.

Abstract: A wearable directional antenna. The system includes a clothing, a plurality of EM energy reflectors and a plurality of antenna elements. The clothing includes a non-conductive material. The plurality of EM energy reflectors is operatively coupled to the clothing and is capable of reflecting EM energy. The plurality of antenna elements is operatively coupled to the plurality of EM energy reflectors and is capable of receiving and transmitting EM energy in a specified direction.

Abstract: A multi-antenna garment comprising a first and second antenna incorporated into an electrically nonconductive garment, with tubular composites to improve gain and mitigate radiation hazard. The first antenna includes first and second RF elements attached to a first garment so that a gap exists between them, where the RF elements each form a band when the garment is worn by a wearer. The second antenna includes third, fourth, fifth, and sixth RF elements attached to a second garment worn over the first garment. RF feeds are electrically connected to the first, third, and fifth RF elements. Ground feeds are electrically connected to the second, fourth, and sixth RF elements. Insulating material disposed over gaps between the first and second, the third and fourth, and the fifth and sixth RF elements and in pockets in the regions of the RF feeds limits the wearer's exposure to electromagnetic field to acceptable levels.

Abstract: Disclosed are conductive polymeric materials comprising a resin-based structural material loaded with micron conductive fibers and/or micron conductive powders or to provide a conductive thermoplastic composition rather than an insulator. Also disclosed are antennas comprising the conductive thermoplastic compositions and methods for their fabrication.

Abstract: A resonator-slot antenna is configured to have a spiral of a conducive sheet material having at least one turn and extending along an axis with an elongated antenna slot helically wound around the axis in at least one full twist.

Abstract: A flat panel antenna, monopole or dipole, formed from a conductive loaded resin-based material containing micron conductive powders or micron conductive fibers to provide conductivity. The monopole antenna has an antenna element having an outer periphery with a length equal to an integral multiple of a quarter wavelength of the desired center frequency of the antenna. A bobbin, also formed of the conductive loaded resin-based material, and is attached to the antenna element by connection elements. A coil of conductive wire, having two ends connected to a coaxial cable, is wound around the bobbin. The coaxial cable can deliver power to a radiating antenna or extract power from a receiving antenna. The dipole antenna has first and second antenna elements both formed of conductive loaded resin-based material. The peripheries of the first and second antenna elements have lengths equal to an integral multiple of a quarter wavelength of a first and second frequency.

Abstract: According to this invention, there is provided a portable antenna comprising a flexible and durable conductive element fitted into an encasement made from a flexible and durable fabric-like material having a first open end wherefrom one end of the conductive element can be accessed.

Abstract: The invention provides a flexible electrode antenna having a layer of conductive material laminated between a layer of flame retardant material and a layer of protective material. The layer of conductive material is preferably a metalized polymer substrate having corrosion resistant properties. The flame retardant material is preferably a glass cloth, while the protective material is preferably a non-woven material.

Abstract: The present invention provides a 3-dimensional wave-guiding structure for horn or tube-type waveguides. The wave-guiding structure comprises a fiber-reinforced composite material and a conductive nonwoven fabric shaped together with the composite material. The present invention also provides a 3-dimensional wave-guiding structure comprising a conductive nonwoven fabric 30 and a fiber-reinforced triaxial woven fabric 20 which are laminated alternately or in an arbitrary order. The conductive nonwoven fabric having flexibility can be readily shaped together with the composite material composed of a triaxial woven fabric or the like in conformity with the 3-dimensional shape of various horn or tube-like waveguides such as a waveguide diplexer, waveguide circulator, hybrid waveguide and waveguide directional coupler to provide a lightweight wave-guiding structure capable of achieving both excellent mechanical and electrical characteristics.

Abstract: A broadband mesh antenna and a phased array broadband mesh antenna are provided. The antenna of the present invention is a mesh antenna system that may be implemented with printed circuit board technology and wired technology that operates with increased bandwidth. The mesh antenna system provides for a single mesh antenna to operate at a wide range of frequencies. The antenna may be employed as a high efficient broadband antenna for rockets, space vehicles and ships when placed inside a metallic open box.

Abstract: In an inflatable structure provided with an array antenna or the like, a membrane of a multi-layer inflatable structure is provided with an airtight layer for forming an airtight space inside and a rigidizing layer provided outside the airtight layer, and the rigidizing layer is composed of a triaxial woven fabrics of reinforcing fibers, to thereby achieve a light mass and a high level of precision, and enable adaptation to a demand for increased size.

Abstract: Low cost moldable antennas and methods of forming the antennas are described. Elements of the antennas are conductive loaded resin-based material having a conducting wire center. The conducting wire center can be single strand, multi-strand, insulated, or non-insulated wire. The conductive loaded resin-based material comprises micron conductor fibers, micron conductor powders, or in combination thereof homogenized within a base resin host wherein the ratio of the weight of the conductor fibers, conductor powders, or combination thereof to the weight of the base resin host is typically between about 0.20 and 0.40. The micron conductive fibers or powders can be stainless steel, nickel, copper, silver, carbon, graphite, or plated particles or fibers, or the like. The conducting metal wire can be copper, nickel, stainless steel, silver, or the like.

Abstract: An ultra-broadband antenna incorporated into an electrically nonconductive garment, with radiation absorber material to mitigate radiation hazard. The antenna includes first and second RF elements attached to the garment so that a gap exists between them, where the RF elements each form a band when the garment is worn by a wearer. RF and ground feeds are electrically connected to the first and second RF elements, respectively. A shorting strap electrically connected between the first and second RF elements on the anterior side of the garment generally opposite the feeds helps match the antenna impedance to an external signal source. Radiation absorber material disposed over the gap between the first and second RF elements and in a pocket in the region of the RF feed limits the wearer's exposure to electromagnetic field to acceptable levels.

Abstract: An antenna unit and a computing system utilizing the antenna unit are disclosed. The antenna is compact and can be fabricated at low cost and with high accuracy. The antenna unit comprises an antenna and a connection cable. The antenna unit is constructed by forming the antenna and the connection cable integrally on a preferably flexible insulating film using preferably the FPC (Flexible Printed Circuit) technique. The computing system comprises a body having its main operational circuits and a hinged cover having a display. The flexible printed antenna is formed integrally with its module of electric components using the FPC technique and is made to span the body and the cover. The antenna itself and the connection cable can be freely bent or folded, resulting in higher freedom in their positioning within the computer system body and cover.

Abstract: An antenna reflector for a spacecraft. The antenna reflector comprises one outer layer of an electrically conductive and electrically reflective material including a plurality of openings formed therein. The antenna reflector also comprises at least one inner layer of a fabric material bonded to the outer layer. The fabric material includes a plurality of openings formed therein. The combination of the openings in the outer layer and the openings in the inner layer allow acoustic noise to be transmitted and dissipated through the openings.

Abstract: Low cost antennas formed of conductive loaded resin-based materials. The conductive loaded resin-based materials are resins filled with conductive materials to provide a material which is a conductor rather than an insulator or body. The conductive materials comprise a resin-based structural material loaded with micron conductive powders or micron conductive fibers to provide a composite which is a conductor rather than an insulator. Virtually any antenna fabricated by conventional means such as wire, strip-line, printed circuit boards, or the like can be fabricated using the conductive loaded resin-based materials. The antennas can be formed using methods such as injection molding, overmolding, or extrusion.

Abstract: The invention provides a flexible electrode antenna having a layer of conductive material laminated between a layer of flame retardant material and a layer of protective material. The layer of conductive material is preferably a metalized polymer substrate having corrosion resistant properties. The flame retardant material is preferably a glass cloth, while the protective material is preferably a non-woven material.

Abstract: A broadband mesh antenna and a phased array broadband mesh antenna are provided. The antenna of the present invention is a mesh antenna system that may be implemented with printed circuit board technology and wired technology that operates with increased bandwidth. The mesh antenna system provides for a single mesh antenna to operate at a wide range of frequencies. The antenna may be employed as a high efficient broadband antenna for rockets, space vehicles and ships when place inside a metallic open box.

Abstract: The invention provides a flexible electrode antenna having a layer of conductive material laminated between a layer of flame retardant material and a layer of protective material. The layer of conductive material is preferably a metalized polymer substrate having corrosion resistant properties. The flame retardant material is preferably a glass cloth, while the protective material is preferably a non-woven material.

Abstract: A method and system for providing a RFID transponder having a fabric antenna. The system including a radio frequency (RF) transponder, the transponder having a housing, an RF circuit enclosed in said housing, and a fabric antenna coupled to the RF circuit. The method of fabricating a radio frequency (RF) transponder including the steps of enclosing an RF circuit in a housing, forming a fabric antenna and coupling the fabric antenna to the RF circuit.

Abstract: A resonator-slot antenna is configured to have a spiral of a conducive sheet material having at least one turn and extending along an axis with an elongated antenna slot helically wound around the axis in at least one full twist.

Abstract: A method and system for providing a RFID transponder having a fabric antenna. The system including a radio frequency (RF) transponder, the transponder having a housing, an RF circuit enclosed in said housing, and a fabric antenna coupled to the RF circuit. The method of fabricating a radio frequency (RF) transponder including the steps of enclosing an RF circuit in a housing, forming a fabric antenna and coupling the fabric antenna to the RF circuit.

Abstract: The present invention provides for inexpensive transparent microwave antennas with high efficiency. Conductors for the antennas are formed from metallic meshes with a net transparency greater than 70% and supported by a clear substrate. The associated antenna gain efficiencies are greater than 50%.

Abstract: An ultra-broadband antenna is incorporated into an electrically nonconductive garment. The antenna includes first and second RF elements attached to the garment so that a gap exists between them, where the RF elements each form a band when the garment is worn by a wearer. RF and ground feeds are electrically connected to the first and second RF elements, respectively. A shorting strap electrically connected between the first and second RF elements on the anterior side of the garment generally opposite the feeds helps match the antenna impedance to an external signal source. A gap between the RF elements provides a voltage difference between the RF elements when the antenna is energized. Electrically conductive straps are electrically connected between the anterior and dorsal regions of the first RF element that extend over the shoulder region of the garment.

Abstract: A label includes an inlay including a conductive material. A sheet is fixed over at least a portion of the inlay, and has a first surface and a second surface. A protective material is fixed to the first surface of the sheet, and an aperture extending through the protective material and sheet is positioned over at least a portion of the conductive material to define a protective cavity. A device is disposed in the protective cavity, and electrically connected to the conductive material, wherein the protective cavity surrounds the device. In another aspect of the present invention, the protective material is expandable from an unexpanded height to an expanded height, and the expanded height is at least 10% greater than the unexpanded height.

Abstract: A garment 10, such as a pair of trousers, skirt or full-length coat, comprises an antenna 12 and means 14 for connection of the same to a portable electronic device 16 to permit wireless communications of said device 16 via the antenna 12. The antenna 12 is a longitudinal conductive element attached to the garment 10 in such an orientation as to be close to the ground and to extend substantially vertically when a wearer of the garment is in a standing position. The antenna orientation close to the natural ground plane gives improved reception for, e.g. FM radio broadcasts.