| Entries |
| Document | Title | Date |
|---|
| 20080196238 | Antenna Enclosed Within an Animal Training Apparatus - An animal training apparatus including an electrical conductor embedded within a flexible member, and a housing having a through-opening for receiving the electrical conductor therethrough. The flexible member is molded around the electrical conductor and the antenna, while the electrical conductor is positioned such that it extends into the housing through the through-opening. As a result of the molding process, the flexible member shields the housing through-opening, discouraging substances such as water from accessing the interior of the housing via the through-opening. | 08-21-2008 |
| 20080216304 | METHOD OF MANUFACTURING ANTENNA MODULE BY LASER CARVING - A method of manufacturing antenna by laser carving comprising the following steps: to attach metal material such as copper, silver etc. onto the base plate by a method of conductive coating by spraying; and then to trim the metal material to complete the shape of an antenna by laser carving. Thereby, the size and shape of the antenna are not limited, and the antenna can be manufactured on a non-planar base plate, thus the height of the entire antenna module can be reduced. | 09-11-2008 |
| 20080222877 | COMBINATION OF TUBE ASSEMBLY AND CLIP FOR WIRELESS ANTENNA GROUNDING - An antenna tube configured to accommodate a grounding clip and an antenna, the antenna tube having a cylindrical tube having an upper end and an inner end opposite the upper end; a circumferentially extending groove in the cylindrical tube located between the upper end and the inner end; and a tapered lip at the inner end of the cylindrical tube, wherein the grounding clip fits between the circumferentially extending groove and the tapered lip, and at least a portion of the antenna slidably fits into the upper end of the cylindrical tube. | 09-18-2008 |
| 20080235937 | WAVE ANTENNA WIRELESS COMMUNICATION DEVICE AND METHOD - A wireless communication device coupled to a wave antenna that provides greater increased durability and impedance matching. The wave antenna is a conductor that is bent in alternating sections to form peaks and valleys. The wireless communication device is coupled to the wave antenna to provide wireless communication with other communication devices, such as an interrogation reader. The wireless communication device and wave antenna may be placed on objects, goods, or other articles of manufacture that are subject to forces such that the wave antenna may be stretched or compressed during the manufacture and/or use of such object, good or article of manufacture. The wave antenna, because of its bent structure, is capable of stretching and compressing more easily than other structures, reducing the wireless communication device's susceptibility to damage or breaks that might render the wireless communication device coupled to the wave antenna unable to properly communicate information wirelessly. | 10-02-2008 |
| 20080256785 | METHOD FOR CONSTRUCTING MICROWAVE ANTENNAS INCORPORATED WITHIN NONWOVEN FABRIC - A method of constructing fabric microwave antennas with a calendering apparatus which comprises: heating the rollers of the calendering apparatus; setting the pressure at the nip or meeting point of said rollers of said calendering apparatus; shaping antenna patches from conductive fabric; feeding at least one roll of carrier fabric to the heated rolling drums of said calendering apparatus; placing preformed conductive patches on to the carrier fabric before the carrier fabric enters said heated rolling drums of the calendering apparatus; and cutting the calendered or bonded layers of conductive and non-conductive fabric into desired shapes for incorporation into flexible structures. | 10-23-2008 |
| 20080263854 | METHOD OF MAKING A MOTOR -VEHICLE ANTENNA ASSEMBLY - A motor-vehicle antenna assembly is made by first printing on a face of a substantailly flat deformable plastic film a layer of an electrically conductive paste. Then the film is permanently plastically deformed into a three-dimensional shape corresponding to a shape of an installation location of a motor vehicle. The plastically deformed film with the printed layer is then fitted to the installation location. | 10-30-2008 |
| 20080295317 | PROCESS FOR MANUFACTURE OF A LOW COST EXTRUDED AND LAMINATED MICROSTRIP ELEMENT ANTENNA - Methods, systems, and apparatuses for automated manufacturing microstrip element antennas is described. The microstrip element antenna comprises a printed circuit layer, a dielectric layer and a ground plane layer. Mass manufacturing process for such microstrip element antennas without any substantial manual assembly process is described. Automation of the manufacturing steps leads to lower production costs, faster production and a higher yield. | 12-04-2008 |
| 20090000106 | METHOD OF FORMING VERTICAL COUPLING STRUCTURE FOR NON-ADJACENT RESONATORS - A method for forming a vertical coupling structure for non-adjacent resonators is provided to have a first and a second resonators, a dielectric material layer, a first and a second high-frequency transmission lines and at least one via pole. The first and the second resonators respectively have a first and a second opposite metal surfaces. The dielectric material layer is disposed between the opposite second metal surfaces of the first and the second resonators. The first and the second transmission lines are respectively arranged at sides of the first metal surfaces of the first resonator and the second resonator. The first high-frequency transmission line is vertically connected to the second high-frequency transmission line by the via pole. | 01-01-2009 |
| 20090007415 | Hollow waveguide and method of manufacturing the same - A hollow waveguide has a metal-clad pipe having an inside metal layer and an outside metal layer, and a hollow region formed inside of the metal-clad pipe. The metal-clad pipe is formed by pressure-bonding metal pipes each of which is made of a metal material different from each other. | 01-08-2009 |
| 20090019687 | Manufacturing method of planar antenna - A manufacturing method of a planar antenna is provided. Wherein, a plurality of antenna patterns and conductive patterns are simultaneously formed by the printing or electroless plating process. The conductive patterns which string the antenna patterns are taken as the plating electrodes and a roll-to-roll manufacturing process is cooperated to plate the antenna patterns. Then, a cutting process is used to separate the electroplated antenna patterns and the conductive patterns to respectively form the individual antenna structure. The manufacturing method has the advantages of speedy manufacture, mass production and low cost. | 01-22-2009 |
| 20090025204 | MICROSTRIP LINE DIELECTRIC OVERLAY - A printed circuit board has a dielectric constant different from the dielectric constant of free space, with at least two microstrip lines routed adjacent to one another on a surface of the printed circuit board. A dielectric coating is applied to at least one of the at least two microstrip lines such that the dielectric constant of the dielectric coating differs from the dielectric constant of free space. In a further embodiment, the dielectric coating comprises a material having a dielectric constant approximately equal to the dielectric constant of the printed circuit board. | 01-29-2009 |
| 20090031553 | RFID tag producing apparatus - This disclosure discloses an RFID tag producing apparatus comprising: a first antenna device that transmits and receives information to and from an RFID circuit element; a writing control portion that writes a command signal for commanding operation of at least one operating device so as to produce a command RFID tag; a second antenna device that transmits and receives information to and from the command RFID tag; a reading control portion that acquires the command signal; and a device control portion, based on information obtained by the reading control portion, that controls the at least one operating device. | 02-05-2009 |
| 20090038141 | METHOD FOR MANUFACTURING ANTENNA - Provided is a method for manufacturing an antenna which is minimized and used in a low frequency band. The method includes forming and preparing a radiator for an antenna, mounting the radiator inside a dam molding part including an upper dam molding part and a lower dam molding part, injecting a molding material into the dam molding part through an inlet provided at one side of the dam molding part, the molding material including a composite material with a controlled diameter and content, hardening the injected molding material, and separating the hardened molding material covering the radiator from the dam molding part. Accordingly, a miniaturized antenna can be provided, which can achieve a high integration density, prevent deformation of the radiator caused by external pressure generated in processes, and be used in a low frequency band by covering the radiator with a molding material having a high permittivity and a low-loss characteristic. | 02-12-2009 |
| 20090044399 | Methods for producing large flat panel and conformal active array antennas - Methods for assembling an active array system are described. In one exemplary embodiment, an active subarray panel assembly having a first surface with a first array of electrical contacts and a radiator aperture with an array of radiator structure and an aperture mounting surface with a second array of electrical contacts are assembled together. The first surface of the panel assembly and the aperture mounting surface of the radiator aperture are brought into contact with an adhesive layer including microwave interconnects in a pattern corresponding to the first array of electrical contacts and the second array of electrical contacts so that the adhesive layer is between the first surface of the panel assembly and the aperture mounting surface of the radiator aperture. Pressure, heat and vacuum are applied to cure the adhesive and complete engagement of the microwave interconnects. | 02-19-2009 |
| 20090056105 | METHOD FOR FORMING A PHOTONIC BAND-GAP STRUCTURE AND A DEVICE FABRICATED IN ACCORDANCE WITH SUCH A METHOD - A device for application in the high frequency field and a method for forming a photonic band-gap structure are provided. The device being mountable on a primary substrate for forming the device. The device being formed by forming conformal coplanar waveguide metallizations on surface areas of two substrates, connecting the conformal coplanar waveguide metallizations of the two substrates, and structured back-etching of the two substrates, starting at surface areas of the two substrates that are opposite the coplanar waveguide metallizations. | 03-05-2009 |
| 20090077790 | MULTI-LAYER CONDUCTIVE TUBE ANTENNA - A method of manufacturing an antenna including providing a dielectric core which does not contain an electrical conductor, forming a layer of an electrically conductive material on the core and providing an electrically insulative tube over the core and over the layer of the electrically conductive material. | 03-26-2009 |
| 20090100666 | METHOD OF INSTALLING OF ANTENNAS OF A NOTEBOOK - A method of installation of notebook antennas, the method is mainly to design to use a mode of manufacturing labels to make groups of or integrate antennas required by the notebook to make a label type antenna; then the label type antenna is stuck and fixed on an inner layer of the housing of the notebook. This method can reduce cost of manufacturing and thickness and weight of notebooks. | 04-23-2009 |
| 20090100667 | METHOD FOR BONDING A WIRE CONDUCTOR LAID ON A SUBSTRATE - Method for bonding a wire conductor arranged on a preferably card-like substrate during the manufacture of a transponder unit having a wire coil and a chip module, comprising a first phase, wherein the coil is permanently joined with the substrate, and a second phase, wherein the wire conductor and the chip module are bonded, whereas in the first phase at least one of the end portions of the wire conductor intended for later bonding with the chip module is attached to the substrate with a free loop being formed, and that the loop thus formed is gripped in a second phase and a section of the loop is then bonded with a bonding area of the chip module and attached to it in an electronically conductive manner. | 04-23-2009 |
| 20090211079 | Method of designing and manufacturing an array antenna - A method of manufacturing an array antenna including a designing step which comprises: determining a one-dimensional reference radiation pattern and an associated reference aperture; computing the cumulative phasorial summation of the field distribution of said reference aperture in a reference direction and representing it as a reference curve in the complex plane; determining a polygonal curve optimally approximating said reference curve, subject to predetermined constraints; and determining, from said polygonal curve, an antenna array pattern, each side of said polygonal curve being associated to a particular antenna element of the array. | 08-27-2009 |
| 20090249610 | METHODS OF FABRICATING COPLANAR WAVEGUIDE STRUCTURES - Methods for fabricating a coplanar waveguide structure. The method may include forming first and second ground conductors and a signal conductor in a coplanar arrangement between the first and second ground conductors, forming a first coplanar array of substantially parallel shield conductors above the signal conductor and the first and second ground conductors, and forming a second coplanar array of substantially parallel shield conductors below the signal conductor and the first and second ground conductors. The method further includes forming a first plurality of conductive bridges located laterally between the signal conductor and the first ground conductor, and forming a second plurality of conductive bridges located laterally between the signal conductor and the second ground conductor. Each of the first plurality of conductive bridges connects one of the shield conductors in the first array with one of the shield conductors in the second array. Each of the second plurality of conductive bridges connects one of the shield conductors in the first array with one of the shield conductors in the second array. | 10-08-2009 |
| 20090265915 | INSERT-MOLDED COVER AND METHOD FOR MANUFACTURING SAME - The present invention relates to an insert-molded cover ( | 10-29-2009 |
| 20090265916 | Antenna Core and Method for Production of an Antenna Core - An antenna core comprises a flexible stack of a plurality of oblong soft-magnetic strips consisting of an amorphous or nanocrystalline alloy. The strips of said antenna core are separated from one another by an electrically insulating film each. The amorphous or nanocrystalline alloy has a magnetostriction value lambdas in the range of +4<.>10<−6> to −4<.>10<−6> and a linear BH loop. The coefficient of induction L of the antenna core changes at 60 kHz at a center distortion by 25% of its length by less than 10% and the quality Q of the antenna core is >=10 at 60 kHz. | 10-29-2009 |
| 20090271972 | Method for Producing a Contactless Transponder by Stitching a Contactless Module to an Antenna, and Transponder Obtained - A contactless transponder includes an antenna and an electronic module placed on a substrate and connected to the antenna by a conducting wire passing through the contact pads in the form of at least one stitch. The module is produced as a single block, having at least one integrated circuit and contact pads. The module is transferred to the substrate before connection to the antenna. | 11-05-2009 |
| 20090271973 | Methods of Making a Radio Frequency Identification (RFID) Tags - Methods and apparatuses for an electronic assembly. The electronic assembly has a first object created and separated from a host substrate. The first object has a first electrical circuitry therein. A carrier substrate is coupled to the first object wherein the first object is being recessed below a surface of the carrier substrate. The carrier substrate further includes a first carrier connection pad and a second carrier connection pad that interconnect with the first object using metal connectors. A receiving substrate, which is substantially planar, including a second electrical circuitry, a first receiving connection pad, and a second receiving connection pad that interconnect with the second electrical circuitry using the metal connectors. The carrier substrate is coupled to the receiving substrate using the connection pads mentioned. | 11-05-2009 |
| 20090300901 | ANTENNA INCLUDING A SERPENTINE FEED WAVEGUIDE COUPLED IN PARALLEL TO A PLURALITY OF RADIATING WAVEGUIDES, AND METHOD OF FABRICATING SUCH ANTENNAS - The present invention relates to an antenna including a plurality of radiating waveguides disposed so that their wave paths are parallel two by two and including a feed waveguide having a wave path forming a flat zigzag serpentine pattern. The feed waveguide is disposed against the radiating waveguides so that a longitudinal axis of the feed waveguide pattern intersects the radiating waveguides at an angle of substantially 90 degrees. The feed waveguide includes coupling elements on its face in contact with the radiating waveguides. The radiating waveguides are straight and the straight portions of the zigzag wave path in the feed waveguide form a non-zero angle with the wave paths of the radiating waveguides, so that the coupling elements feed the radiating waveguides. | 12-10-2009 |
| 20100000076 | MANUFACTURING METHOD FOR A WIRELESS COMMUNICATION DEVICE AND MANUFACTURING APPARATUS - A method for manufacturing wireless communication devices for use in tracking or identifying other items comprises a number of cutting techniques that allow the size of the antenna for the wireless communication device. Further, the chip for the wireless communication device is nested so as to be flush with the surface of the substrate of the wireless communication device. Rollers cut the tabs that form the antenna elements. In a first embodiment, a plurality of rollers is used, each on effecting a different cut whose position may be phased so as to shorten or lengthen the antenna element. In a second embodiment, the rollers are independently positionable to shorten or lengthen the antenna element. | 01-07-2010 |
| 20100005647 | METHOD OF MANUFACTURING AN INLET MEMBER FOR AN ELECTRONIC TAG - In order to offer the technology which can form the pattern of the antenna of the inlet for electronic tags accurately and cheaply, the resist layer at the time of forming the pattern of an antenna by chemical etching is formed using a photogravure printing machine. Let the extending direction of region 16C which has the minimum width in the height of the front surface of a gravure plate be an opposite direction to the direction of rotation of a gravure plate (a doctor's relative direction of movement seen from the gravure plate). The radius of curvature of an inner circumference of the curved part in region 16B is made larger than the radius of curvature of a periphery. The outer edge of region 16D is formed so that it may become forward tapered shape-like toward position D, so that the width of region 16D may become larger than the width of region 16C in position D which the end of height attains. | 01-14-2010 |
| 20100031495 | METHODS FOR PRODUCING LARGE FLAT PANEL AND CONFORMAL ACTIVE ARRAY ANTENNAS - Methods for assembling an active array system are described. In one exemplary embodiment, an active subarray panel assembly having a first surface with a first array of electrical contacts and a radiator aperture with an array of radiator structure and an aperture mounting surface with a second array of electrical contacts are assembled together. The first surface of the panel assembly and the aperture mounting surface of the radiator aperture are brought into contact with an adhesive layer including microwave interconnects in a pattern corresponding to the first array of electrical contacts and the second array of electrical contacts so that the adhesive layer is between the first surface of the panel assembly and the aperture mounting surface of the radiator aperture. Pressure, heat and vacuum are applied to cure the adhesive and complete engagement of the microwave interconnects. | 02-11-2010 |
| 20100071197 | INTEGRAL ANTENNAS IN METAL LAMINATES - A method of making an integral antenna from a metal laminate is provided. The metal laminate comprises a top metal layer, a middle thermoplastic layer, and a bottom metal layer. A portion of the top metal layer of the metal laminate is isolated to create an antenna structure so that the antenna remains a part of the metal laminate to create an integral antenna. | 03-25-2010 |
| 20100083485 | METHOD FOR PRODUCING A SECURITY LAYERED CONSTRUCTION AND SECURITY LAYERED CONSTRUCTION AND IDENTIFICATION DOCUMENTS CONTAINING SUCH A CONSTRUCTION - A method for producing a security layered construction as well as a security layered construction for an identification document ( | 04-08-2010 |
| 20100088884 | Antenna with thermally transferred element - An antenna includes an element that is made by thermally bonding a patterned conductive layer to a dielectric sheet. The antenna can be redesigned easily for prototype or low volume production yet the invention is suitable for volume production as well. The antenna, or an element thereof, can be made from a xerographic print using toner as an adhesive. | 04-15-2010 |
| 20100212141 | Method of manufacturing coil and coil device - A thin film made of a conductive material is formed on one surface of a long-sheet-shaped flexible base. The flexible base formed with the thin film made of the conductive material is wound in a roll shape to fabricate an original roll of coils. The flexible base formed with the thin film made of the conductive material is unwound from the original roll of coils, and rewound around an outer periphery of a core to fabricate a wound body. The wound body is cut in a direction orthogonal to the longitudinal direction of the core to make a coil intermediary body. A cut surface of the coil intermediate body which is cut from the wound body is lapped. Lead wires are attached to both ends of a winding section comprised of the conductive material within the coil intermediary body. The foregoing steps are performed in sequence to manufacture a coil. | 08-26-2010 |
| 20100212142 | Antenna apparatus - A disclosed antenna apparatus includes: a punched out antenna element made of a sheet metal; a punched out ground element made of a sheet metal, the ground element facing the antenna element; and a surface mount type coaxial connector mounted across the antenna element and the ground element. | 08-26-2010 |
| 20100242261 | COMBINED SATELLITE AND BROADBAND ACCESS ANTENNAS USING COMMON INFRASTRUCTURE - A method of installing multiple over-the-air antennas is disclosed. The method includes the steps of mounting a satellite antenna to a installation surface, such that the mounting allows the satellite antenna to be aimed at a satellite, attaching a broadband access antenna to one of the installation surface and a portion of the satellite antenna, such that the attaching allows the broadband access antenna to be aimed at a broadband access source, connecting first wiring from the broadband access antenna to a first downconverter and second wiring from the satellite antenna to a second downconverter, providing outputs of the first and second downconverters to a cable in communication with at least a satellite receiver and positioning, on at least a coarse scale, the satellite antenna and the broadband access antenna such that they are approximately pointed at the satellite and the broadband access source, respectively. | 09-30-2010 |
| 20100257725 | MAGNETIC POWDER PRODUCTION METHOD, MAGNETIC SHEET PRODUCTION METHOD, AND ANTENNA MODULE PRODUCTION METHOD - To provide a magnetic powder production method, a magnetic sheet production method, and an antenna module production method that are capable of reducing a size of magnetic particles, achieving thinning and a low loss, and improving magnetic permeability without lowering it. | 10-14-2010 |
| 20100263199 | Multilayer metamaterial isolator - A method of fabricating an array of radiating elements includes on one layer or surface of a dielectric substrate, forming a first leg of a first resonator loop, on another layer or surface of the dielectric substrate forming a second leg of the first resonator loop between adjacent radiating elements, forming a via through the dielectric substrate, and metallizing the via forming a third leg of the first resonator loop interconnecting the first and second legs. | 10-21-2010 |
| 20100263200 | WIRELESS COMMUNICATION DEVICE USING VOLTAGE SWITCHABLE DIELECTRIC MATERIAL - A wireless communication device, such as an RFID tag, is provided material that is dielectric, unless a voltage is applied that exceeds the materials characteristic voltage level. In the presence of such voltage, the material becomes conductive. The integration of such material into the device may be mechanical and/or electrical. | 10-21-2010 |
| 20100299914 | Apparatus and Method for Making an Antenna for a Radiofrequency Identifying Device - An apparatus for making an antenna for wire transponders of electrically conductive material, comprising at least one depositing device for depositing said wire on a substrate placed on a support element, said at least one depositing device and said substrate being movable with respect to each other; said support element being movable along directions parallel to at least two axis of a Cartesian reference system. A method for making an antenna comprising providing a substrate intended to receive said antenna, providing a lamina or wire of electrically conductive material wound on at least one reel, unwinding said lamina, or said wire from said at least one reel, pressing said lamina, or wire, on a surface of said substrate by means of at least one pressing element, fixing said lamina, or wire, to said substrate, separating, by means of at least one cutting device a stretch of lamina, or wire, fixed to said substrate from the remaining lamina, or wire, wound on said at least one reel, said substrate being movable with respect to an assembly comprised of said at least one reel, said at least one pressing and said at least one cutting device, along at least one direction substantially parallel to an axis of a Cartesian reference system. | 12-02-2010 |
| 20110010926 | MICROWAVE ANTENNA AND METHOD FOR MAKING SAME - A method for fabricating a microwave horn antenna in which a thermoplastic sacrificial layer is mounted to a thermoplastic horn layer. A heated horn embossing plate having at least one horn shaped embossing element is then moved into the horn layer so that the horn element penetrates through the horn layer and extends partially into the sacrificial layer thus forming a horn opening in the horn layer complementary in shape to the horn element. The horn layer and sacrificial layer are then separated from each other and the horn opening and at least a portion of the back surface of the horn layer is covered with a metal coating. A thermoplastic wave guide layer formed by embossing wave guide channels into the layer is covered with metal and attached to the back side of the horn layer to form the antenna. Alternatively, a portion of the horn and the remaining portion of a microwave channel are formed in both a first and second thermoplastic section. These portions of the microwave guide channel and horn are then coated with a metal material and the sections are secured together in a facing relationship so that the horn portions and wave guide channel portions on both the first and second sections register with each other. | 01-20-2011 |
| 20110030198 | METHOD AND DEVICE FOR MANUFACTURING ANTENNA PATTERN FRAME - A method of manufacturing an antenna pattern frame, includes arranging antenna radiators in an elongated radiator sheet in the form of cells, the antenna radiators including antenna pattern portions receiving an external signal, and while moving the radiator sheet, forming connection terminal portions of the antenna radiators by a successive bending process and injecting-molding radiator frames such that the antenna pattern portions are formed on one set of respective sides of the radiator frames and the connection terminal portions are formed on the other set of respective opposite sides of the radiator frames. | 02-10-2011 |
| 20110047784 | Method of Manufacturing Radome - A method of manufacturing a radome, which is provided on a detection side of a radar for detecting an obstacle in a vicinity of a vehicle, includes a first forming step of forming a transparent member that includes a recess on one surface thereof; an first installing step of installing a bright member, which has a shape corresponding to a space in the recess and of which a contact surface coming into contact with an inner surface of the recess has brilliance, in the recess; and a second installing step of installing a base member that covers the one surface and integrally holds the transparent member and the bright member. | 03-03-2011 |
| 20110056069 | Method for Constructing a Dipole Antenna - A method of fabricating a microwave antenna assembly is disclosed. The fabrication method includes providing a proximal portion having an inner conductor and an outer conductor, the inner conductor extending at least partially therein. The method further includes providing a distal portion disposed distally of the proximal portion, with the inner conductor extending at least partially therein. A high strength material may be injected from an inflow slot to an outflow slot of the distal portion such that the material is disposed in-between the inner conductor and a ceramic layer. The material bonds the distal portion and the ceramic layer to the proximal portion while providing mechanical strength to the distal portion. | 03-10-2011 |
| 20110072642 | COMPACT WAVEGUIDE LOAD - A compact integrated waveguide load has a load section disposed within an interior region of the waveguide proximate to a closed end of the waveguide. The load section has a tubiform shape, with an exterior surface congruent with an interior surface of the waveguide and an interior surface defining a circumferential step within the waveguide. A method of making a compact integrated waveguide load includes providing a waveguide and placing electromagnetic wave absorbing materially circumferentially around the interior surface to create an inward step. | 03-31-2011 |
| 20110088250 | MULTI-LAYER CONDUCTIVE TUBE ANTENNA - A method of manufacturing an antenna including providing a dielectric core which does not contain an electrical conductor, forming a layer of an electrically conductive material on the core and providing an electrically insulative tube over the core and over the layer of the electrically conductive material. | 04-21-2011 |
| 20110113618 | PROCESS FOR FABRICATING AN ORIGAMI FORMED ANTENNA RADIATING STRUCTURE - A process for fabricating an origami formed antenna radiating structure is provided. In one embodiment, the invention relates to a process for precisely fabricating a radio frequency (RF) antenna structure, the process including providing a flexible circuit substrate, forming a plurality of parallel channels in the flexible circuit substrate in a first direction, mounting the flexible substrate to a precision die, pressing the flexible substrate into the precision die using an elastomeric material thereby sandwiching the flexible substrate between the elastomeric material and the precision die, and applying heat to the flexible substrate sandwiched between the elastomeric material and the precision die. | 05-19-2011 |
| 20110113619 | PROCESS FOR FABRICATING A THREE DIMENSIONAL MOLDED FEED STRUCTURE - A process for fabricating a three dimensional molded feed structure is provided. In one embodiment, the invention relates to a process for fabricating a three dimensional radio frequency (RF) antenna structure, the process including providing a flexible circuit substrate, forming a first preselected pattern of channels in the flexible circuit substrate, depositing a conductive layer on the formed flexible substrate, and removing portions of the conductive layer to form a plurality of conductive traces. | 05-19-2011 |
| 20110119901 | PNEUMATIC TIRE AND METHOD OF MOUNTING TRANSPONDER TO PNEUMATIC TIRE - In a pneumatic tire ( | 05-26-2011 |
| 20110119902 | FILTER DEVICE AND METHOD FOR MANUFACTURING THE SAME - A filter device having a frame made of plated steel sheet generates a smaller insertion loss and is excellent in productivity. Resonant elements are shaped into a cylindrical form by bending the steel sheet, whose both sides are plated, before they are placed in a filter housing. A gap formed on a lateral face of each resonant element is brazed with solder, and an outer plated face of each resonant element is brazed with solder to an inner plated face of the frame. | 05-26-2011 |
| 20110209338 | PATCH ANTENNA AND METHOD OF MAKING THE SAME - A patch antenna includes: a dielectric layer made of an insulation material, and having upper and lower surfaces, and a through hole; a radiation metal layer disposed on the upper surface of the dielectric layer, and having a first plate body, a first aperture aligned with the through hole, and a first protruding portion extending from a peripheral edge of the first aperture into the through hole; and a grounding metal layer disposed on the lower surface of the dielectric layer, and having a second plate body, a second aperture aligned with the through hole, and a second protruding portion extending from a peripheral edge of the second aperture into the through hole. The first and second protruding portions contact each other in the through hole so that the radiation and grounding metal layers are electrically connected. A method of making a patch antenna is also disclosed. | 09-01-2011 |
| 20110209339 | METHOD FOR ASSEMBLY OF A SEGMENTED REFLECTOR ANTENNA - A method for assembly of a segmented reflector antenna, including coupling a central segment upon an antenna mount. Attaching a peripheral segment to a bottom portion of the central segment. Rotating the central segment to present a bottom portion of the central segment without a peripheral segment, and attaching a peripheral segment to the bottom portion. In additional steps, a secondary ring of peripheral segments may be applied, each connected to an outer edge of a peripheral segment connected to the bottom portion of the central segment. | 09-01-2011 |
| 20110247197 | FORMING CHANNELS FOR AN ANTENNA WIRE OF A TRANSPONDER - Channels may be formed in the inlay substrate of a transponder, such as by laser ablation, and the antenna wire may subsequently be laid in the channels. Laying the wire in a channel ensures that it substantially fully embedded in the substrate, thereby eliminating a need for pressing the wire into the substrate. The channels may be tapered, or profiled, to enhance adhesion of a self-bonding wire. A recess for the chip module can also be formed using laser ablation, and insulation may be removed from end portions of the antenna wire using laser ablation. Laser ablation may also be used to create various mechanical and security features. | 10-13-2011 |
| 20110265314 | METHOD OF MANUFACTURING A MICRORADIO - A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an n | 11-03-2011 |
| 20110302770 | METHOD OF MANUFACTURE OF IC CONTACTLESS COMMUNICATION DEVICES - A method of manufacture of an electrical bridge including the following steps: (a) providing a first flexible electrically insulating material, (b) laminating a pattern of a second electrically conductive material, on the first material, (c) separating a strap having a connection portion formed from the pattern of electrically conductive material. | 12-15-2011 |
| 20120017427 | METHOD FOR FORMING ANTENNA STRUCTURE - A method for forming an antenna structure is provided, including the following steps of: providing a non-conductive frame and disposing a plating resist material on the non-conductive frame, removing a part of the plating resist material within a predetermined region on the non-conductive frame and forming a roughened surface on the non-conductive frame within the predetermined region by laser marking, forming a medium layer on the roughened surface, wherein the medium layer comprises Pd or Ag, removing the plating resist material on the non-conductive frame, and forming a metal layer on the medium layer. | 01-26-2012 |
| 20120042505 | METHOD FOR MANUFACTURING ANTENNA - A method for manufacturing an antenna includes steps as follows. First, a substrate is provided, wherein a surface of the substrate has an antenna region. Then, the surface of the substrate is electroless plated with a metal medium, so that the surface is covered with the metal medium. Then, the metal medium is covered with a resist. Then, a portion of the resist in the antenna region is removed. Then, the antenna region is electroplated with metal material to form an antenna main body. Then, a remaining portion of the resist is removed, and excluding a portion of the metal medium in the antenna region, the other portion of the metal medium is also removed from the substrate. | 02-23-2012 |
| 20120042506 | Method for Constructing a Dipole Antenna - A method of fabricating a microwave antenna assembly is disclosed. The fabrication method includes providing a proximal portion having an inner conductor and an outer conductor, the inner conductor extending at least partially therein. The method further includes providing a distal portion disposed distally of the proximal portion, with the inner conductor extending at least partially therein. A high strength material may be injected from an inflow slot to an outflow slot of the distal portion such that the material is disposed in-between the inner conductor and a ceramic layer. The material bonds the distal portion and the ceramic layer to the proximal portion while providing mechanical strength to the distal portion. | 02-23-2012 |
| 20120055013 | FORMING MICROSTRUCTURES AND ANTENNAS FOR TRANSPONDERS - Microstructures such as connection areas, contact pads, antennas, coils, plates for capacitors and the like may be formed using nanostructures such as nanoparticles, nanowires and nanotubes. A laser may be used to assist in the process of microstructure formation, and may also be used to form other features on a substrate such as recesses or channels for receiving the microstructures. A smart mobile phone sticker (MPS) mounted to a cell phone with a self-sticking shielding element comprising a core layer having ferrite particles. | 03-08-2012 |
| 20120110834 | Cooled Dielectrically Buffered Microwave Dipole Antenna - Microwave antenna assemblies incorporating a resilient insulating coupler are described herein. The microwave antenna includes a radiating portion connected by a coaxial feedline to a power generating source, e.g., a generator. Distal and proximal radiating portions of the antenna, which correspond to inner and outer conductors provided by the coaxial feedline, are separated by the resilient insulating coupler. The described coupler includes a proximal threaded portion, and an overmolded insulating portion formed from an elastomeric material. The inner conductor of the coaxial feedline is joined to the threaded portion of the coupler, and is placed under tension to draw together the distal radiating portion, the coupler, and the proximal radiating portion into a single rigid assembly. In use, the resilient coupler provides increased strength and reliability by absorbing mechanical stresses typically encountered during microwave ablation procedures. | 05-10-2012 |
| 20120131791 | ANTENNA SYSTEM AND METHOD - A radiator coupled to an antenna patch disposed along a first end of the radiator, said patch disposed on an insulator. A ground plane is connected to the insulator and a radome is disposed opposite a second end of the radiator. The radome may have a region presenting a convex surface towards the radiator, and the radome has a second region presenting a concave surface towards the radiator. The first end of the conical radiator is the apex of the cone. A ground plane is included and a portion of the ground plane is a planar surface and another portion extends away from the planar portion towards the radome. Also disclosed is a method for forming a radiation pattern by shaping the radome to effectuate a predetermined radiation pattern using localized convex and concave surfaces positioned on the radome at different points in relation to the conical radiator. | 05-31-2012 |
| 20120137505 | PROCESS FOR FABRICATING AN ORIGAMI FORMED ANTENNA RADIATING STRUCTURE - A process for fabricating an origami formed antenna radiating structure is provided. In one embodiment, the invention relates to a process for precisely fabricating a radio frequency (RF) antenna structure, the process including providing a flexible circuit substrate, forming a plurality of parallel channels in the flexible circuit substrate in a first direction, mounting the flexible substrate to a precision die, pressing the flexible substrate into the precision die using an elastomeric material thereby sandwiching the flexible substrate between the elastomeric material and the precision die, and applying heat to the flexible substrate sandwiched between the elastomeric material and the precision die. | 06-07-2012 |
| 20120144657 | METHOD TO TURN BIOLOGICAL TISSUE SAMPLE CASSETTES INTO TRACEABLE DEVICES, USING A SYSTEM WITH INLAYS TAGGED WITH RADIO FREQUENCY INDENTIFICATION (RFID) CHIPS - The present invention relates to a method to turn cassettes for biological tissue samples into devices traceable with RFID technology, using a system with inlays tagged with an RFID chip, which inlays are placed in the tissue sample chamber of the tissue cassettes, wherein the part of the inlay that contains the antenna of the RFID chip is running around an opening or is folded together. Such inlays do not risk to be affected by damaging forces outside the tissue cassettes. With an inlay that at every suitable moment can be positioned in the tissue sample chamber for one or more limited periods of time, or indefinitely, tissue cassettes can tracked and traced with RFID technology without the fear of destroying the RFID chip during processing that involves the use of a microwave oven. During that period the inlay can be temporarily removed from the tissue cassette. The inlays are further designed to: allow sufficient flow of fluids through cassette lids and the bottom of the tissue cassettes. leave as much room as possible for tissue samples. fit in cassettes with and without an inner tissue sample chamber. enable the use of different RFID chips and antennas. enable fixation in a cassette, without additional fixation means. | 06-14-2012 |
| 20120186073 | MULTI-FREQUENCY ANTENNA AND MANUFACTURING METHOD - A multi-frequency GNSS antenna is provided which can be manufactured from PCB materials and exhibits good multipath rejection. The antenna is capable of receiving RHCP signals from all visible GNSS satellites across a wide beamwidth. A multi-frequency GNSS antenna manufacturing method includes the steps of providing PCB base and support assemblies, first and second feed networks and connecting said first and second feed networks to first and second hybrid connector outputs. | 07-26-2012 |
| 20120198689 | ANTENNAS WITH TUNING STRUCTURE FOR HANDHELD DEVICES - Handheld electronic devices are provided that contain wireless communications circuitry. The wireless communications circuitry may include antenna structures. To accommodate manufacturing variations, the antenna structures and handheld electronic devices may be characterized by performing measurements such as antenna performance measurements. Appropriate antenna adjustments may be made during manufacturing of a handheld electronic device based on the characterizing measurements. An antenna may be formed using an inverted-F design in which an antenna flex circuit is mounted to a dielectric antenna support structure. Cavities in the support may be selectively filled with dielectric material and dielectric patches may be added to the antenna flex circuit to adjust the dielectric loading of the antenna. The length of a ground return path in the antenna may be adjusted by appropriate positioning of an electrical connector within the ground return path. | 08-09-2012 |
| 20120297609 | RFID LABEL TECHNIQUE - An RFID webstock containing a relatively high pitch-density array of semiconductive chips is provided and joined to a web bearing relatively widely spaced antennas in a continuous process. The RFID webstock is separated or cut into individual chip sections, with the spacing of the chips being increased as the RFID webstock is die cut. The individual chips on the sections are then joined to corresponding antennas to form an RFID inlay stock. This process is conducive to high speed roll-to-roll production of RFID tag and label roll stock. | 11-29-2012 |
| 20120317793 | METHOD OF FORMING ANTENNA BY SPUTTERING AND LITHOGRAPHY - A method of forming an antenna includes molding a supporting body, sputtering a conductive layer onto the supporting body, and defining a pattern of the antenna on the conductive layer. The step of molding the supporting body includes molding the supporting body having a non-planar surface. The step of defining the pattern of the antenna on the conductive layer includes defining part of the pattern of the antenna on part of the conductive layer sputtered on the non-planar surface. The method of forming the antenna further includes performing metallization or chemical plating on the formed antenna. | 12-20-2012 |
| 20130055555 | Method of Manufacturing Conductive Structures - The present invention relates to a method of manufacturing a web of a plurality of conductive structures which may be used for example to produce an antenna, electronic circuit, photovoltaic module or the like. The method involved simultaneously patterning at least one pattern in a conductive layer using a plurality of registration marks. The registration marks serve to align and guide the creation of the plurality of conductive structures. Optical brighteners may also be utilized within the adhesive layer and the registration marks of the present invention in order to detect the location where conductive structures are to be placed. | 03-07-2013 |
| 20130081261 | Antenna Modification To Reduce Harmonic Activation - An arrangement for modifying a printed circuit antenna of the type used in mobile communication devices includes introducing one or more discontinuities into a printed circuit pattern of the antenna so that it is not activated at undesired frequencies. Examples of discontinuities include localized narrowing the printed circuit strip, localized widening of the printed circuit strip and localized changing of the shape of the printed circuit strip. | 04-04-2013 |
| 20130133181 | ELECTROMAGNETIC INTERFERENCE (EMI) WAVEGUIDE DEVICE FOR USE IN A PARALLEL OPTICAL COMMUNICATIONS MODULE, AND A METHOD - A parallel optical communications module is equipped with an EMI waveguide (WG) device having a tube-like structure that surrounds portions of one or more optical fiber ribbon cables that pass through the tube-like structure and connect to the module. The EMI WG device attenuates EMI to acceptable levels to provide the module with effective EMI shielding capability. | 05-30-2013 |
| 20130185929 | PROCESS FOR MANUFACTURING AN ANTENNA FOR AN ELECTRONIC DEVICE IN A TYRE - During a process for manufacturing an antenna, which includes a core of filiform shape and which is intended to be integrated into a rubber compound of a tyre, the core is coated with a coating made of a material different from a material of the core. After the core is coated, at least one portion of the coated core is plastically deformed. | 07-25-2013 |
| 20130269175 | ARBITRARILY-SHAPED MULTIFUNCTIONAL STRUCTURES AND METHOD OF MAKING - Multifunctional structures and methods of manufacturing multifunctional structures which function as both electronic devices and load-bearing elements are disclosed. The load-bearing elements are designed to have electronic functionality using electronics designed to be load-bearing. The method of manufacturing the multifunctional structure comprises forming an electronic element directly on at least one ply of arbitrarily shaped load-bearing material using conventional lithographic techniques and/or direct write fabrication techniques, and assembling at least two plies of arbitrarily shaped load-bearing material into a multifunctional structure. The multifunctional structure may be part of an aerospace structure, part of a land vehicle, pan of a watercraft or part of a spacecraft. | 10-17-2013 |
| 20130318778 | METHOD FOR MANUFACTURING ANTENNA STRUCTURE - A method for manufacturing an antenna structure is disclosed. Employing steps of mixing with a catalyst and embedding a metal insert can simplify steps for manufacturing the antenna structure. Further, a non-conductive frame produced by the process disclosed herein can exhibit waterproof effect. The catalyst mentioned above is mixed with a plastic and then injected into a mold to form the non-conductive frame. The metal insert mentioned above is disposed in the mold before the step of injecting the plastic. Alternatively, the metal insert is embedded in the non-conductive frame after the step of injecting the plastic. | 12-05-2013 |
| 20140000098 | MICROWAVE ANTENNA PROBES AND METHODS OF MANUFACTURING MICROWAVE ANTENNA PROBES | 01-02-2014 |
| 20140033515 | SYSTEMS AND METHODS FOR INTEGRATING RADIO-FREQUENCY IDENTIFICATION CIRCUITRY INTO FLEXIBLE CIRCUITS - Systems and methods for integrating radio-frequency identification (RFID) circuitry into flexible circuits are provided. An RFID integrated circuit can be embedded within a dielectric layer of a flexible circuit or between a dielectric layer and a conductive layer of the flexible circuit. Additionally or alternatively, an RFID antenna may be integrated into a conductive layer of the flexible circuit. Alternatively, both the integrated circuit and antenna of RFID circuitry may be provided off of the flexible circuit but an RFID connector coupling the integrated circuit and antenna may be integrated into the flexible circuit. | 02-06-2014 |
| 20140059840 | LOW RADAR CROSS SECTION ARRAY PANEL - A low RCS array panel employs a number of linkable support segments. Each support segment has several junctions spaced along it, and the support segments are designed to connect with each other at the junctions to create a support grid. The segments can connect orthogonally, and the junctions can be spaced according to the frequency performance requirements for the antenna the array panel is designed to support. | 03-06-2014 |
| 20140109393 | Method of Assembly of Articles and Intermediate Created Thereby - An assembly method for first and second articles is disclosed. A first substrate with a plurality of first articles and a second substrate with a plurality of second articles are selected. The articles on the flexible substrate webs with different pitches are assembled together by displacing portions between the first articles of one web out of plane to move the first articles on that web to the same shorter pitch as the second articles on the other web, aligning the two webs to register corresponding first and second articles on the two webs, and assembling the corresponding articles together. The assembly may be used for example in the making of RFID tags, labels and inlays. | 04-24-2014 |
| 20140144009 | Microfabrication Technique of Silicon Microlens Array for Terahertz Applications - A set of antenna geometries for use in integrated arrays at terahertz frequencies are described. Two fabrication techniques to construct such antennas are presented. The first technique uses an advanced laser micro-fabrication, allowing fabricating advanced 3D geometries. The second technique uses photolithographic processes, allowing the fabrication of arrays on a single wafer in parallel. | 05-29-2014 |
| 20140196278 | SONOTRODE WITH CUTTING MECHANISM - During mounting to an inlay substrate, at least one end portion (including end) of an antenna wire is positioned directly over a terminal of the chip module for subsequent connecting thereto. A sonotrode is disclosed with a cutter above the capillary for cutting or nicking the wire. Insulation may be removed from a portion of the wire. The antenna may comprise two separate stubs, each having an end portion (including end) positioned over a terminal of the chip module. Additional techniques for mounting the antenna wire are disclosed. | 07-17-2014 |
| 20140208581 | METHOD OF INSTALLING ARTIFICIAL IMPEDANCE SURFACE ANTENNAS FOR SATELLITE MEDIA RECEPTION - A method for fabricating and installing an artificial impedance surface antenna (AISA) includes locating a substantially flat surface having a line of sight to a satellite or satellites of interest, determining an angle θ | 07-31-2014 |
| 20140208582 | EXTREMELY LOW PROFILE FERRITE-LOADED WIDEBAND ANTENNA DESIGN - A very low profile wideband antenna adapted to operate from 30 MHz to 300 MHz or in another desired range. The maximum diameter and height of one embodiment of this antenna is only 60.96 cm and 5.08 cm, respectively. This design is comprised of a fat grounded metallic plate placed 5.08 cm over a ground plane. In one embodiment, ferrite loading strategically placed between the plate and ground plane improves the low frequency gain and the pattern at high frequencies. A minimal amount of ferrite may be used to keep weight low. | 07-31-2014 |
| 20140230237 | INSERT TYPE ANTENNA MODULE FOR PORTABLE TERMINAL AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to an antenna module for an insert type antenna module for a portable terminal and a method for manufacturing the same. More specifically, the method for manufacturing an insert type antenna module for a portable terminal comprises an antenna radiation part manufacture step wherein an antenna core is manufactured, the antenna core being engaged by an insert so that an antenna radiation part configured in a predetermined shape selected between a plane shape and a curved shape with at least one axis by cutting and bending a conductive metal sheet is exposed toward an outer surface of one side, wherein in the antenna radiation part manufacture step, in the core forming mold is disposed an antenna support protrusion maintaining a gap for the sake of a thickness development of the antenna core. | 08-21-2014 |
| 20140259638 | Stamped Antenna and Method of Manufacturing - A stamped antenna and a method of manufacturing includes providing a sheet of metallic material for a first partial stamping. The first partial stamping forms an antenna including traces, contacts, carriers connected to the traces, and tie-bars between the traces. A pressure sensitive adhesive is then bonded to the traces of the antenna. A second complete stamping is then performed on the antenna, including pressure sensitive adhesive, to remove the carriers and tie-bars. An intermediate product for the manufacture of an antenna includes a pressure sensitive adhesive, one or more stamped traces bonded with the pressure sensitive adhesive, and at least one tie-bar connected between the one or more traces supports the one or more traces. | 09-18-2014 |
| 20140290045 | METHOD FOR CONSTRUCTING A DIPOLE ANTENNA - A method of fabricating a microwave antenna assembly is disclosed. The fabrication method includes providing a proximal portion having an inner conductor and an outer conductor, the inner conductor extending at least partially therein. The method further includes providing a distal portion disposed distally of the proximal portion, with the inner conductor extending at least partially therein. A high strength material may be injected from an inflow slot to an outflow slot of the distal portion such that the material is disposed in-between the inner conductor and a ceramic layer. The material bonds the distal portion and the ceramic layer to the proximal portion while providing mechanical strength to the distal portion. | 10-02-2014 |
| 20140298643 | METHOD OF FABRICATING CAPACITIVE TOUCH PANEL - The present disclosure relates to a method of fabricating a capacitive touch pane where a plurality of groups of first conductive patterns are formed along a first direction, a plurality of groups of second conductive patterns are formed along a second direction, and a plurality of connection components are formed on a substrate. Each first conductive pattern is electrically connected to another adjacent first conductive pattern in the same group by each connection component and each group of the second conductive patterns is interlaced with and insulated from each group of the first conductive patterns. Next, a plurality of curved insulation mounds are formed to cover the first connection components. Then, a plurality of bridge components are formed to electrically connect each second conductive pattern with another adjacent second conductive pattern in the same group. | 10-09-2014 |
| 20140317909 | METHOD FOR PRODUCING AN ANTENNA ELEMENT OF AN RFID TRANSPONDER - A method for producing a radio frequency identification transponder includes
| 10-30-2014 |
| 20140345118 | Antenna Installation Apparatus and Method - Methods and systems are disclosed for enabling installation of antennas in a cost effective and efficient manner. The methods and systems disclosed herein provide a hollow pole and an elevating mechanism, wherein the elevating mechanism can be used to position antenna equipment located in one or more capsules attached to the elevating mechanism. The antenna equipment may be attached to a removable power source located in the capsule or to a non-removable power source located at the base of the hollow pole. Additionally, the antenna equipment may also be attached to communications equipment adapted to communicate with one or more communications networks. In an embodiment disclosed herein, the capsules may be adapted to rotate around a one or more axis in response to received commands and/or in accordance with instructions stored on a memory module attached to the capsules. | 11-27-2014 |
| 20150047179 | WAVEGUIDE NEURAL INTERFACE DEVICE - A waveguide neural interface device including: a neural device implantable in tissue and including an array of electrode sites that electrically communicate with their surroundings, in which the array of electrode sites includes at least one recording electrode site; and a waveguide, coupled to the neural device, that carries light along a longitudinal axis and includes a light directing element that redirects the carried light from the waveguide to illuminate selectively targeted tissue, in which at least a portion of the redirected light is directed laterally away from the longitudinal axis and the recording electrode site is configured to sample illuminated tissue. A method for assembling a waveguide neural interface device is also described. | 02-19-2015 |
| 20150082618 | SHIELDED IMPLANTABLE MEDICAL LEAD WITH REDUCED TORSIONAL STIFFNESS - Shields within implantable leads increase the torsional stiffness of the leads. The torsional stiffness may be reduced by cutting the shield axially to break the circumferential mechanical continuity of the shield. The circumferential shielding continuity of the shield may be re-established to preserve the shielding effect in various manners. The shield may overlap onto itself to close the slot created by the cut. A shield patch may be placed across the slot created by the cut. The shield may be located between two insulation layers of the lead. The shield may be cut and then the slot closed prior to application of the outer insulation layer. The outer insulation layer may then be added over the shield. The outer insulation layer may be compliant so that once covered, the circumferential mechanical continuity of the shield remains broken. | 03-26-2015 |
| 20150121687 | METHOD AND DEVICE FOR MANUFACTURING ANTENNA PATTERN FRAME - A method of manufacturing an antenna pattern frame, includes arranging antenna radiators in an elongated radiator sheet in the form of cells, the antenna radiators including antenna pattern portions receiving an external signal, and while moving the radiator sheet, forming connection terminal portions of the antenna radiators by a successive bending process and injecting-molding radiator frames such that the antenna pattern portions are formed on one set of respective sides of the radiator frames and the connection terminal portions are formed on the other set of respective opposite sides of the radiator frames. | 05-07-2015 |
| 20150349398 | MODE CONVERTER AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a mode converter including a substrate that is a single member and includes a first main surface, a second main surface opposite to the first main surface, and a micro hole which is formed in the first main surface, grounding conductor layers that are formed on the first main surface and the second main surface, a plane circuit that is formed on the first main surface, and a pin that is formed so as to cover an inner surface of the micro hole and is electrically connected to the plane circuit, the method includes: irradiating the substrate with laser light to form a first modified portion to a desired depth from one main surface of the substrate; removing the first modified portion to form the micro hole; and filling the micro hole with a conductive material to form the pin. | 12-03-2015 |
| 20150356399 | METHODS AND APPARATUS FOR EMBEDDING WIRE IN SUBSTRATES FOR SECURE DOCUMENTS - A booster antenna (BA) for a smart card comprises a card antenna (CA) component extending around a periphery of a card body (CB), a coupler coil (CC) component at a location for an antenna module (AM), and an extension antenna (EA) contributing to the inductance of the booster antenna (BA). A method of wire embedding is also disclosed, by controlling a force and ultrasonic power applied by an embedding tool at different positions on the card body (CB). | 12-10-2015 |
| 20150357985 | LOW-LOSS TUNABLE RADIO FREQUENCY FILTER - A method of constructing an RF filter comprises designing an RF filter that includes a plurality of resonant elements disposed, a plurality of non-resonant elements coupling the resonant elements together to form a stop band having a plurality of transmission zeroes corresponding to respective frequencies of the resonant elements, and a sub-band between the transmission zeroes. The non-resonant elements comprise a variable non-resonant element for selectively introducing a reflection zero within the stop band to create a pass band in the sub-band. The method further comprises changing the order in which the resonant elements are disposed along the signal transmission path to create a plurality of filter solutions, computing a performance parameter for each of the filter solutions, comparing the performance parameters to each other, selecting one of the filter solutions based on the comparison of the computed performance parameters, and constructing the RF filter using the selected filter solution. | 12-10-2015 |
| 20150364809 | DUAL STRIPLINE TILE CIRCULATOR UTILIZING THICK FILM POST-FIRED SUBSTRATE STACKING - A dual stacked stripline circulator includes multiple composite ferrite discs, each having an inner portion and an outer portion; a first substrate having an edge with a first composite ferrite disc disposed in the first substrate; a second substrate having an edge with a second composite ferrite disc disposed in the second substrate; a third substrate having an edge with a third composite ferrite disc disposed in the third substrate, the third substrate disposed adjacent the second substrate; a fourth substrate having an edge with a fourth composite ferrite disc disposed in the fourth substrate; a first pattern defining three ports of a first three-port circulator disposed between the first substrate and the second substrate; a second pattern defining three ports of a second three-port circulator disposed between the third substrate and the fourth substrate; and a metal film encircling the edge of the first, second, third and fourth substrate. | 12-17-2015 |
| 20150380801 | PLANAR BALUN TRANSFORMER DEVICE - An electric transformer device (balun) is formed on a support plate having a first base face and an opposite second base face. The balun includes a first port ( | 12-31-2015 |
| 20160036406 | INTEGRATED MICROELECTROMECHANICAL SYSTEM DEVICES AND METHODS FOR MAKING THE SAME - Integrated Microelectromechanical System (“MEMS”) devices and methods for making the same. The integrated MEMS device comprises a substrate ( | 02-04-2016 |
| 20160072183 | Method of Making a Double-Sided Flexible Printed Circuit Type Antenna Device - A method of making a double-sided flexible printed circuit type antenna device includes: aligning first and second alignment units and positioning a substrate on a suction plate; screen printing a conductive paste on a first surface of the substrate to fill first and second holes in the substrate with a conductive paste and to form a first paste pattern; removing and turning the substrate upside down; re-aligning the first and second alignment units and re-positioning the substrate on the suction plate; and screen printing the conductive paste on a second surface of the substrate to further fill the first and second holes with the conductive paste and to form a secondpaste pattern. The first and second paste patterns contact the conductive paste in the first and second holes. | 03-10-2016 |
| 20160072469 | SWITCHABLE FILTERS AND DESIGN STRUCTURES - Switchable and/or tunable filters, methods of manufacture and design structures are disclosed herein. The method of forming the filters includes forming at least one piezoelectric filter structure comprising a plurality of electrodes formed on a piezoelectric substrate. The method further includes forming a micro-electro-mechanical structure (MEMS) comprising a MEMS beam formed above the piezoelectric substrate and at a location in which, upon actuation, the MEMS beam shorts the piezoelectric filter structure by contacting at least one of the plurality of electrodes. | 03-10-2016 |
| 20160141761 | APPARATUS AND PROCESS FOR ASSEMBLING DIFFERENT CATEGORIES OF MULTI-ELEMENT ASSEMBLIES TO PREDETERMINED TOLERANCES AND ALIGNMENTS USING A RECONIFIGURABLE ASSEMBLING AND ALIGNMENT APPARATUS - Systems and methods for assembling different multi-element items with different specifications using a reconfigurable apparatus are provided. One embodiment includes a base plate, a back plate coupled to the base plate in a predetermined angle relationship. The exemplary back plate comprises a plurality of alignment pins adapted to engage with alignment locations of multiple element assembly items. The exemplary base plate and alignment mounting structures couple to end cap parts disposed on opposing ends of the multiple element assembly items holding the items together. A clamping mechanism maintains/releases pressure on the multiple element assembly items against the back plate. The back plate holds alignment pins in a first back plate location in a first orientation for one type of multiple element assembly items and hold the alignment pins in a second location when the back plate is in a second orientation for a different type of multiple element assembly items. | 05-19-2016 |
| 20160149286 | METHOD OF MAKING A LOW MASS FOAM ELECTRICAL STRUCTURE - A method of making an electrical structure having a foam housing is set forth. The foam housing includes an interior surface forming a conductive cavity adapted to carry energized waveforms therethrough. An electrical component of the electrical structure is integrally formed with the interior surface as the foam housing of the structure is assembled. The method includes the steps of depositing a plating material into a mold, pouring a foam polymer into the mold and removing the plated foam structure from the mold without etching the section from the mold. The method further includes steps of forming a metallic form into a planar structure, filling the open pores of the foam with a material such as photo-resist, machining a cavity from the foam, electroplating the cavity in the foam then removing the photo-resist material. | 05-26-2016 |
| 20160149296 | Stamped Antenna and Method of Manufacturing - A stamped antenna and a method of manufacturing includes providing a sheet of metallic material for a first partial stamping. The first partial stamping forms an antenna including traces, contacts, carriers connected to the traces, and tie-bars between the traces. A pressure sensitive adhesive is then bonded to the traces of the antenna. A second complete stamping is then performed on the antenna, including pressure sensitive adhesive, to remove the carriers and tie-bars. An intermediate product for the manufacture of an antenna includes a pressure sensitive adhesive, one or more stamped traces bonded with the pressure sensitive adhesive, and at least one tie-bar connected between the one or more traces supports the one or more traces. | 05-26-2016 |
| 20160172741 | THREE DIMENSIONAL SUB-MM WAVELENGTH SUB-THZ FREQUENCY ANTENNAS ON FLEXIBLE AND UV-CURABLE DIELECTRIC USING PRINTED ELECTRONIC METAL TRACES | 06-16-2016 |
| 20160197411 | Method for fabricating and packaging an M x N phased-array antenna on a flexible substrate utilizing ink-jet printing | 07-07-2016 |
| 20160204765 | BOOSTING VARACTOR CAPACITANCE RATIO | 07-14-2016 |
