Class / Patent application number | Description | Number of patent applications / Date published |
343905000 | With transmission line | 62 |
20090309806 | MULTI-INPUT MULTI-OUTPUT ANTENNA SYSTEM - A multi-input and multi-output antenna system is disclosed. The antenna system includes a predetermined quantity of dual-feed and dual-band antennas that are arranged into a polygon on a plane. The dual-feed and dual-band antenna includes a substrate, a grounding unit disposed on the substrate and having two opposite sides, a first radiating unit disposed on the substrate near one side of the grounding unit, and a second radiating unit disposed on the substrate near the other side. The second radiating unit has a shorting element that is electrically connected to the grounding unit. The polygon is bounded by lengthwise projection lines of the dual-feed and dual-band antennas. | 12-17-2009 |
20110001685 | ANTENNA DEVICE AND METHOD FOR PRODUCING THE SAME - An antenna apparatus includes a coaxial cable body configured by covering the peripheral portion of a core forming the power feed line with a first coating dielectric unit, a ground line and a second coating dielectric unit in that order, a main antenna element in which the core either singly or in combination with the first coating dielectric unit projects and extends from the distal end of the coaxial cable body, and an impedance adjustment element in which the ground line projects singly from the distal end of the coaxial cable body, and the impedance adjustment element maintains an orientation extending in a direction that differs from the extension direction of the main antenna element and is fixed to the distal end of the coaxial cable body. | 01-06-2011 |
20110006970 | WIDE-BAND FEEDER CIRCUIT AND ANTENNA HAVING THE SAME - It is possible to obtain a wide-band feeder circuit a lower conductive plate provided substantially in parallel to an upper conductive plate, a short-circuit portion provided in a concave manner at a central portion of the lower conductive plate, and a countersunk portion provided in a convex manner at a central portion of a short-circuit plate forming a bottom of the short-circuit portion. It is also possible to obtain an antenna including such a wide-band feeder circuit. | 01-13-2011 |
20110074654 | SHORTED MONOPOLE ANTENNA - The present invention is related to a shorted monopole antenna. The antenna includes a ground portion, a radiating portion, a shorting portion, an assembling portion, and a coaxial cable. The ground portion includes a signal grounding point. The radiating portion is located above the ground portion and bent at least once, and includes a signal feeding point. One end of the shorting portion is connected to one of the short edges of the ground portion, and the other end is connected to one edge portion of the radiating portion. The assembling portion is connected to the long edge of the ground portion. The coaxial cable includes an inner conductor and an outer conductor, which are connected to the signal feeding point and the signal grounding point respectively. The antenna invented has good impedance bandwidth and radiation characteristics, can easily be installed inside the housing of an electronic device, and is well suitable for applications in wireless communications devices. | 03-31-2011 |
20110175793 | HIGH-FREQUENCY CIRCUIT PACKAGE AND SENSOR MODULE - Shielding of high-frequency circuits is achieved using a simple and inexpensive configuration not using any lid. A high-frequency circuit mounting substrate ( | 07-21-2011 |
20110273362 | ELECTRONIC MONITORING SYSTEMS, SHIPMENT CONTAINER MONITORING SYSTEMS AND MEHTODS OF MONITORING A SHIPMENT IN A CONTAINER - A shipping container has a passive radio antenna element having internal and external antennas. A connector spanning the wall joins the two antennas. An internal communications device is disposed within the container and an external communications device is disposed external to the container. Another shipping container has a repeater element having internal and external antennas. A repeater unit spans the wall joining the two antennas. A communications device is disposed within the container and another communications device is disposed externally. RF signals are re-radiated by the antennas. Methodology includes emitting RF signals from a communication device disposed at a first location, receiving the signals through an antenna comprised by an antenna element, and re-radiating the signal from a second antenna comprised by the element, where the element spans the wall of a shipping container. The re-radiated signal is received by a second communications device disposed at a second location. | 11-10-2011 |
20110316760 | Multi-Band Antenna - A multi-band antenna includes a connecting conductor, first and second conducting arms, and a loop conductor. The connecting conductor has a feed-in end and a connecting end. The first conducting arm is connected to the connecting end of the connecting conductor. The second connecting arm is connected to the connecting end of the connecting conductor and is substantially perpendicular to the first connecting arm. The loop conductor has first and second radiator sections, each adjacent and substantially parallel to a respective one of the first and second conducting arms. The loop conductor forms a substantially L-shaped gap with the first and second conducting arms, further has a grounding end adjacent to the feed-in end, and extends from the grounding end to the feed-in end. | 12-29-2011 |
20120001826 | ENHANCED METAMATERIAL ANTENNA STRUCTURES - A wireless device having an antenna structure incorporates a conductive structure to extend an effective length of at least one component of the antenna structure. The enhanced 3-D conductive structure is applicable to a variety of antenna types, including, but not limited to, a CRLH structured antenna. | 01-05-2012 |
20120081264 | Multi-band antenna - A multi-band antenna includes a dielectric substrate, and a main antenna member and a metal piece disposed on the dielectric substrate. The main antenna member includes a feed-in portion for feeding with a radio frequency signal, a first conductor arm connected to the feed-in portion and adjacent to a first side edge of the dielectric substrate, a second conductor arm connected to the feed-in portion and having a length shorter than that of the first conductor arm, a third conductor arm connected to the feed-in portion, a fourth conductor arm extending along the third conductor arm, and a grounding portion adjacent to the feed-in portion. The metal piece is disposed at the first side edge and connected to the fourth conductor arm, resonates and couples with the first conductor arm to form a first radiator section, and cooperates with the fourth conductor arm to form a second radiator section. | 04-05-2012 |
20120105302 | ANTENNA - This disclosure provides an antenna having a high degree of design flexibility. In a representative embodiment, the antenna includes a ground conductor to which a ground potential is applied, a linear conductor that transmits a high-frequency signal, an insulating layer configured to isolate the ground conductor and the linear conductor from each other, and a radiation conductor that is connected between the linear conductor and the ground conductor. The radiation conductor has a line width larger than that of the linear conductor between a point of connection to the linear conductor and a point of connection to the ground conductor, and is configured to emit an electric field. | 05-03-2012 |
20120105303 | ANTENNA DEVICE - There is provided an antenna that enables easy soldering of an external conductor of a coaxial cable to a ground pattern. | 05-03-2012 |
20120119975 | MULTI-SECURED RFID ELECTRONIC SEAL - A multi-secured RFID (Radio Frequency Identification) electronic seal includes a bolt, a bolt pedestal and a RFID system. The bolt has a male bolt portion with an electrical connecting point. The bolt pedestal has a female pedestal portion with several nodes to electrically connect with the electrical connecting point to provide plural selections of connecting and disconnecting. The RFID system includes a RFID chip and a transmission conductor embedded in the bolt, and an antenna installed on the bolt pedestal. When the bolt and the bolt pedestal is securely locked together, whether the RFID chip is electrically connects to the antenna depends on if the electrical connecting point connects a preset node, so that a RFID signal may be selectively transmitted by the RFID chip through the antenna. | 05-17-2012 |
20120162047 | FLEXIBLE PRINTED WIRING BOARD AND WIRELESS COMMUNICATION MODULE - There is provided a wireless communication module structured by integrally united forming on a film-like flexible board, a transmitting-receiving antenna section for transmitting and receiving RF signals (high frequency signals), a transmission line section for transmitting the RF signals, and a high frequency circuit section, wherein the film-like flexible board has a plurality of seamless conductor layers formed thereon, and dielectric constants of insulating layers formed between a plurality of the seamless conductor layers or in the vicinity thereof are different between in an area of the transmitting-receiving antenna section and in an area of the transmission line section and the high frequency circuit section. | 06-28-2012 |
20120194409 | Choked Dielectric Loaded Tip Dipole Microwave Antenna - A microwave antenna assembly is disclosed. The antenna assembly includes a feedline having an inner conductor, an outer conductor and an inner insulator disposed therebetween. A radiating portion is also included having an unbalanced dipole antenna including a proximal portion and a distal portion that are of different lengths. The proximal portion includes at least a portion of the inner conductor and the inner insulator and the distal portion includes a conductive member. | 08-02-2012 |
20120218169 | Antenna arrangement apparatus, reception apparatus and method reducing a common mode interference signal - An antenna arrangement apparatus ( | 08-30-2012 |
20120229364 | Antenna - The antenna includes a first ground plate, a first dielectric substrate formed on the first ground plate, a transmission line made of a conductive material formed on the first dielectric substrate, and a plurality of antenna elements electromagnetically coupled to the transmission line. The transmission line is constituted of at least one first line serving as a resonator having a resonator length equal to (2n−1)/2 times (n being a positive integer) a guide wavelength of the transmission line and a plurality of second lines each having an electrical length longer than half the guide wavelength, the first and second lines being disposed alternately at predetermined intervals. Each of the antenna elements is electromagnetically coupled to a corresponding one of the second lines. | 09-13-2012 |
20120235882 | DUAL MODE ROTARY JOINT FOR AN ELECTROMAGNETIC COMMUNICATION SYSTEM - A dual mode rotary joint as described herein can be utilized in an electromagnetic communication system such as a radar system. The dual mode rotary joint can be used to rotatably couple an antenna architecture to its mounting structure. One embodiment of the dual mode joint includes a waveguide configured to propagate radio frequency (RF) signals, and endcaps coupled to the ends of the waveguide. Each endcap is reflective for RF signals and transmissive for optical signals. | 09-20-2012 |
20120299799 | Antenna With Feed Cable Support Member - An antenna with a feed cable support member comprises a first conductor, a pivotal shaft, a second conductor and a feed cable. The first and second conductors respectively connect with two sides of the pivotal shaft. The pivotal shaft enables the first and second conductors to open or close by 0-180 degrees. The support member is connected with one end of the pivotal shaft and disposed inside the slot between the first and second conductors. The feed cable has a high frequency signal feeding terminal fixed to the surface of the support member. Based on the principle of an aperture coupled antenna, the present invention adds the support member into the slot, whereby the high frequency signal feeding terminal can be directly fixed to the surface of the support member, and whereby the operating frequency and impedance matching can be fine tuned via the support member. | 11-29-2012 |
20120306721 | SHORTED PATCH ANTENNA DEVICE AND METHOD OF MANUFACTURING THEREFOR - The present invention relates to a novel shorted patch antenna device that a thickness of a conductor of an antenna, a location of a feeding point and a shape of an antenna element is easily adjustable and can be miniaturized, as well as a method therefor. The shorted patch antenna device includes: an antenna element that is composed of a folded single conductor plate and has a radiation conductor plane ( | 12-06-2012 |
20130002519 | Electronic Device Antenna - Antennas for electronic devices such as portable computers are provided. An antenna may have a dipole structure in which one antenna element serves as a matching element and another antenna element serves as a radiating element. The antenna elements may be mounted on a substrate. The substrate may be mounted on a support structure that is attached to a grounding plate. The grounding plate may be grounded to a conductive housing portion of a portable computer. The antenna may be mounted within the conductive housing in the vicinity of an opening in the housing. The opening may be a slot opening that is used to accommodate optical disks or other storage media. Radio-frequency signals for the antenna may pass through the opening. | 01-03-2013 |
20130057451 | TRANSMISSION LINE FOR HIGH PERFORMANCE RADIO FREQUENCY APPLICATIONS - This disclosure relates to a transmission line for high performance radio frequency (RF) applications. One such transmission line can include a bonding layer configured to receive an RF signal, a barrier layer, a diffusion barrier layer, and a conductive layer proximate to the diffusion barrier layer. The diffusion barrier layer can have a thickness that allows a received RF signal to penetrate the diffusion barrier layer to the conductive layer. In certain implementations, the diffusion barrier layer can be nickel. In some of these implementations, the transmission line can include a gold bonding layer, a palladium barrier layer, and a nickel diffusion barrier layer. | 03-07-2013 |
20130057452 | HIGH-FREQUENCY MODULE AND HIGH-FREQUENCY DEVICE USING THE SAME - On a circuit board of the high-frequency module, an RF circuit and an antenna element are arranged, and transmission lines between both the RF circuit and the antenna element are provided. The transmission line of the RF circuit side among the transmission lines is led-out from the top of the circuit board to a rear surface side of the circuit board through a via hole, and the transmission line of the antenna element side is led-out from the top of the circuit board to the rear surface side through another via hole. Electrical continuity between tip portions of the transmission lines is blocked off on the rear surface of the circuit board; however, when the high-frequency module is mounted on the motherboard, a bridging connection land is soldered to each of the tip portions, so that the transmission lines are connected with each other. | 03-07-2013 |
20130082899 | HIGH-FREQUENCY LINE-WAVEGUIDE CONVERTER - A high frequency line-waveguide converter is provided which includes a first substrate including a first dielectric layer, a first conductive layer formed on a surface of the first dielectric layer, and a conductive pattern formed on the surface of the first dielectric layer that surrounds the second conductive layer. An antenna formed on a bottom surface of the first dielectric layer at a fixed interval from the second conductive layer. The high frequency line-waveguide converter also includes a second substrate including a third conductive layer and a fourth conductive layer separated by a second dielectric layer. An adhesion layer formed between the first substrate and second substrate, a shield conductive part formed by multiple vias between the conductive pattern and the fourth conductive layer, and a conductive waveguide in contact with the fourth conductive layer. | 04-04-2013 |
20130088407 | HYBRID CABLING SYSTEM AND NETWORK FOR IN-BUILDING WIRELESS APPLICATIONS - A hybrid network for in-building wireless (IBW) applications that provides a forward link path and a reverse link path, each on separate media. In particular, a hybrid cabling system for providing wireless coverage in a building comprises a forward link comprising at least one optical fiber to couple a first signal generated at an RF input bank with an RF antenna node, and a reverse link comprising coaxial cable, wherein a portion of the reverse link includes radiating coaxial cable configured to receive a second signal transmitted by a wireless user equipment in the building and pass the second signal to the RF input bank. | 04-11-2013 |
20130176190 | Amplified Television Antenna - An amplified television antenna system is disclosed that receives its power from a non-dedicated source such as a Universal Serial Bus (USB) connection. The USB connection that powers the amplified television antenna can be made with any USB device such as a television, a television receiver, a desktop computer, a laptop computer, a game console, or a USB AC wall adaptor. | 07-11-2013 |
20130194160 | COMPACT, ULTRA-BROADBAND ANTENNA WITH DOUGHNUT-LIKE RADIATION PATTERN - A compact, ultra-broadband antenna with doughnut-like radiation pattern is provided as including a first assembly having first and second ends; a second assembly having first and second ends, the first and second ends each configured to have a substantially hemispherical shape; and a cable configured to extend through the first and second assemblies and out each of the first and second ends. | 08-01-2013 |
20130229323 | INTERCONNECT FEED DEVICES FOR ELECTRICAL COMPONENTS, AND PROCESSES FOR MANUFACTURING SAME - Interconnect feed devices ( | 09-05-2013 |
20130257682 | HIGH-FREQUENCY TRANSMISSION LINE, ANTENNA, AND ELECTRONIC CIRCUIT BOARD - A high-frequency transmission line having low alternate current (AC) resistance is provided. One aspect of the present invention is a high-frequency transmission line disposed along a surface of an insulating support, wherein, letting F [Hz] be the frequency of an AC electric signal transmitted by the high-frequency transmission line and Ms [Wb/m] be the saturation magnetization per unit area, the frequency value F and the saturation magnification value per unit area Ms satisfy the following expression (1): | 10-03-2013 |
20130300631 | ANTENNA WITH FEEDER AND ELECTRONIC DEVICE - An antenna includes a circuit board, a primary antenna, a secondary antenna, and a feeder. The primary antenna is n-shaped and consists of a first middle section, and a first subsection and a second subsection which are connected to the first middle section. The first subsection and the second subsection have different lengths, the first subsection has a first feed point. The secondary antenna has a second feed point which is connected therewith. The primary antenna and the secondary antenna are disposed on the circuit board, and the feeder feeds an electrical signal to the first feed point and the second feed point. | 11-14-2013 |
20130335296 | PANEL ANTENNA - A panel antenna includes a panel portion and a feeder cable. The panel portion includes a first portion and a second portion connected with the first portion to form a L-shape. A first metal sheet is disposed on the first portion. A second metal sheet is disposed on the second portion. The first and second metal sheets connect with each other. The first metal sheet has a feeding point and the second metal sheet has an elongate connecting arm. The overall structure of the first and second metal sheets forms a L-shape The feeder cable includes an inner conductor electrically connecting with the feeding point and an outer conductor extending along the connecting arm. The outer conductor has an exposed part contacted with the connecting arm. | 12-19-2013 |
20140043208 | DIELECTRIC COUPLING SYSTEMS FOR EHF COMMUNICATIONS - Dielectric coupler devices and dielectric coupling systems for communicating EHF electromagnetic signals, and their methods of use. The coupler devices include an electrically conductive body having a major surface, the electrically conductive body defining an elongate recess, and the elongate recess having a floor, where a dielectric body is disposed in the elongate recess and configured to conduct an EHF electromagnetic signal. | 02-13-2014 |
20140085165 | COMBINING SIGNAL POWER USING MAGNETIC COUPLING BETWEEN CONDUCTORS - A system including a plurality of amplifiers, a plurality of first transmission lines, and a plurality of second transmission lines. The plurality of first transmission lines have first ends respectively connected to outputs of the plurality of amplifiers and second ends connected to a reference potential. The plurality of second transmission lines have first ends connected to a conductor and second ends that are unconnected. Signals output by the plurality of amplifiers to the plurality of first transmission lines are respectively magnetically coupled to the plurality of second transmission lines. | 03-27-2014 |
20140139401 | PHASE SHIFTING APPARATUS AND ANTENNA SYSTEM TO WHICH PHASE SHIFTING APPARATUS IS APPLIED - Embodiments of the present invention disclose a phase shifting apparatus, including a first conductor section, a first tapping element, a feeder unit, and a dielectric element, where: the feeder unit is electrically connected to the first tapping element; the first tapping element is electrically connected to the first conductor section; the first tapping element is capable of moving along the first conductor section to change a phase of a signal that flows through the feeder unit, the first tapping element, and the first conductor section; and the dielectric element is disposed at a position near the first conductor section. With the phase shifting apparatus in the embodiments of the present invention, the dielectric element is disposed in order to increase an electrical length of a conductor, which correspondingly reduces a physical length of the conductor, so that the size of the phase shifting apparatus is reduced. | 05-22-2014 |
20140176391 | ANTENNA DEVICE AND ANTENNA MOUNTING METHOD - An antenna device ( | 06-26-2014 |
20140191924 | LOW PASSIVE INTERMODULATION CHOKES FOR ELECTRICAL CABLES - This disclosure relates to chokes for suppressing undesired signals such as such as common mode electromagnetic interference (EMI) and/or radio frequency interference (RFI). The chokes can include an electro-conductive sleeve disposed over an electrical cable and the sleeve can be configured to suppress an undesired signal. In some embodiments, the electro-conductive sleeve and have a half-wave sleeve, which can be electrically open at both ends. Additional insulating material can be included between the electrical cable and the sleeve. Multiple electro-conductive sleeves and be disposed substantially concentrically over the cable. The chokes can be configured to reduce passive intermodulation (PIM). The sleeve can have a longitudinal slot that extends the length of the sleeve. The sleeve can include multiple slots that separate the sleeve into multiple panels, which can be configured to suppress different signals. | 07-10-2014 |
20140292613 | HINGE ANTENNA AND FOLDABLE ELECTRONIC DEVICE USING THE SAME - A hinge antenna comprises a metal hinge, a first metal connecting plate and a second metal connecting plate. The hinge antenna further comprises a microwave substrate, a signal feeding line, and a conductor, wherein the conductor is electrically connected to the microwave substrate and extended from the microwave substrate. Furthermore, the feed line of the signal feeding line is electrically connected to the microwave substrate and the ground line of the signal feeding line is electrically connected to the metal hinge, the first metal connecting plate, the second metal connecting plate, and an outside metal shield so that the metal hinge, the first metal connecting plate, the second metal connecting plate, and the outside metal shield can serve as a ground. The aforementioned configuration is utilized to form an antenna loop. In addition, the configuration of this antenna can be built in the interior space of the foldable electronic device. | 10-02-2014 |
20140292614 | WIDE-BAND COUPLER - A coupling circuit, including: a coupler including a first conductive line and a second conductive line coupled to the first one; at each end of the second line of the coupler, a two-output signal splitter; and at each output of each splitter, a filtering function. | 10-02-2014 |
20140320380 | Flexible Transmission Device and Communication Device Using the Same - A flexible transmission device, for transmitting radio-frequency (RF) signals between a first communication module and a second communication module in a communication device, comprising a flexible substrate; a first metal sheet, formed on a plane of the flexible substrate and coupled between ground terminals of the first communication module and the second communication module; and a second metal sheet, formed on a plane of the flexible substrate different from the first metal sheet, and coupled between signal terminals of the first communication module and the second communication module, for transmitting the RF signals. | 10-30-2014 |
20140327597 | POLYMER-BASED RESONATOR ANTENNAS - Dielectric resonator antennas suitable for use in compact radiofrequency (RF) antennas and devices, and methods of fabrication thereof. Described are dielectric resonator antennas fabricated using polymer-based materials, such as those commonly used in lithographic fabrication of integrated circuits and microsystems. Accordingly, lithographic fabrication techniques can be employed in fabrication. The polymer-based dielectric resonator antennas can be excited using tall metal vertical structures, which are also fabricated using techniques adapted from integrated circuit and microsystems fabrication. | 11-06-2014 |
20140361953 | DIRECTIONAL COUPLER - Microstrip directional couplers and methods of their design are disclosed. According to one aspect, a microstrip directional coupler has a substrate of a first thickness. Disposed upon the substrate is a first microstrip having a first portion of a first length and a second microstrip having a second portion of a second length. The first and second microstrips are positioned to exhibit a gap between the first portion and the second portion. The first and second lengths are less than one sixteenth of a wavelength at the lowest frequency of operation of the directional coupler. The gap is less than a predetermined amount to reduce a difference in phase velocity of even and odd modes of the microstrip directional coupler. | 12-11-2014 |
20140368406 | Compact Broadband Antenna - An antenna including a substrate formed of a non-conductive material, a ground plane disposed on the substrate, a wideband element for coupling having one end connected to an edge of the ground plane and an elongate feed arm feeding the wideband element for coupling and having a maximum width of 1/100 of a predetermined wavelength, the predetermined wavelength being defined by formula (I) wherein λ | 12-18-2014 |
20140368407 | Compact Broadband Antenna - An antenna including a substrate formed of a non-conductive material, a ground plane disposed on the substrate, a wideband element for coupling having one end connected to an edge of the ground plane and an elongate feed arm feeding the wideband element for coupling and having a maximum width of 1/100 of a predetermined wavelength, the predetermined wavelength being defined by formula (I) wherein λ | 12-18-2014 |
20150061965 | ANTENNA DEVICE - An antenna device includes a first triplate line and one or more second triplate lines that are connected to the first triplate line so as to cross the first triplate line. Two ground plates of each second triplate line include respective flange portions that are in contact with and fixed to a surface of one of two ground plates of the first triplate line. At least one of a surface of each flange portion that contacts the one of the ground plates of the first triplate line and the surface of the one of the ground plates of the first triplate line that contacts each flange portion is provided with an irregular portion for reducing a contact area between each flange portion and the one of the ground plates. | 03-05-2015 |
20150084833 | EMBEDDED ANTENNA - An embedded antenna includes: a metal protrusion portion for providing a first resonance frequency; a co-axial cable for providing a second resonance frequency; and a ground portion. The co-axial cable is fixed and electrically connected to the ground portion. The ground portion is fixed and electrically connected to a system ground plane. The ground portion is electrically connected to the metal protrusion portion. | 03-26-2015 |
20150123874 | WIDEBAND ANTENNA STRUCTURE - An antenna structure includes a ground plane, a feeding element, and a coupling radiation element. The feeding element is coupled to a signal source. The feeding element substantially has a T-shape. The coupling radiation element is separate from the feeding element and is adjacent to the feeding element. The coupling radiation element is further coupled to the ground plane and at least partially surrounds the feeding element. | 05-07-2015 |
20150130683 | HIGH-FREQUENCY TRANSMISSION LINE AND ANTENNA DEVICE - An antenna is connected to a first end of a high-frequency transmission line, and a connector is connected to a second end of the high-frequency transmission line. A characteristic impedance of a microstrip line is higher than characteristic impedances of first and second strip lines, and a characteristic impedance of a coplanar line is higher than a characteristic impedance of the second strip line. Thus, at a certain frequency, a standing wave develops in which the position of the microstrip line and the position of the coplanar line are maximum voltage points and three-quarter-wavelength resonance is a fundamental wave mode. Thus, the cutoff frequency of the high-frequency transmission line is high, and an insertion loss of a signal is significantly reduced to be low over a wide band. | 05-14-2015 |
20150303574 | NONPLANAR ANTENNA EMBEDDED PACKAGE STRUCTURE AND METHOD OF MANUFACTURING THE SAME - A nonplanar antenna embedded package structure and a method of manufacturing the same are introduced. The structure includes a nonplanar antenna component. The nonplanar antenna component comprises an antenna substrate, metal wiring, through-hole, and metal bump. The substrate surface covers the metal wiring. The through-hole penetrates the substrate from the antenna substrate bottom side but does not penetrate the metal wiring, and does not affect its appearance. The metal bump is implanted in the through-hole from the antenna substrate bottom side to join the metal wiring. An electronic component having a copper cable is provided. An end of the copper cable protrudes from the electronic component and is inserted into the through-hole of the antenna component to join the metal bump, thereby forming the nonplanar antenna embedded package structure characterized by: preventing the antenna metal wiring from exposing, and reducing interference otherwise arising from antenna resonance frequency and noise. | 10-22-2015 |
20150331213 | CABLE ASSEMBLY HAVING ELECTRICAL POWER CONDUCTORS AND FIBER OPTIC DATA LINES - A cable assembly with electrical conductors and fiber optic lines includes a hybrid cable, electrical tethers, a fiber optic tether, and a joining location thereof that includes a shielding unit establishing an electrical contact between shielding of the hybrid cable and shielding of the respective electrical tether cables. The shielding unit includes a central body of an conductive material surrounding the hybrid and tether cables at the joining location, where the central body is in electrical contact with the shielding of the hybrid cable and with the shielding of each electrical tether. | 11-19-2015 |
20150333396 | MULTI-BAND ANTENNA - A multi-band antenna includes a feeder cable including an inner wire and an outer braider, and an antenna body. The antenna includes a longitudinal grounding portion along a first direction, a first connecting portion and a second connecting portion extending from opposite first and second ends of the grounding portion, a first arm extending from the first connecting portion and a second arm extending from the second connecting portion along the first direction. The second connecting portion defines a signal joint point at a corner near to the first arm and the grounding portion, the inner wire of the feeder cable is soldered to the joint point and the outer braider of the feeder cable is soldered to the grounding portion. The first arm and the second arm are partly overlapped in a second direction perpendicular to the first direction. | 11-19-2015 |
20150333407 | ANTENNA DEVICE AND ANTENNA SYSTEM - An antenna device includes: a ground plate; a first patch, provided on one surface side of the ground plate and including two first power feeding portions provided in a region surrounded by a first contour at positions spaced away from a first position with a first distance, configured to resonate with a first frequency; a second patch, provided between the ground plate and the first patch and including two second power feeding portions provided in a region surrounded by a second contour at positions spaced away from a second position with a second distance and a slit formed in the region, configured to resonate with a second frequency lower than the first frequency; and an inter-patch connection portion configured to electrically couple the first position of the first patch and the second position of the second patch. | 11-19-2015 |
20150364816 | MILLIMETER WAVE INTEGRATED CIRCUIT WITH BALL GRID ARRAY PACKAGE INCLUDING TRANSMIT AND RECEIVE CHANNELS - A millimeter wave integrated circuit (IC) chip. The IC chip comprises an IC die and a wire bond ball grid array package encapsulating the IC die. The wire bond ball grid array package comprises a solder ball array, a millimeter wave transmit channel, and a millimeter wave receive channel, wherein each millimeter wave transmit and receive channel electrically couples the IC die to a signal ball of the solder ball array and is configured to resonate at an operating frequency band of the millimeter wave IC chip. | 12-17-2015 |
20150372364 | DIELECTRIC FILTER, DUPLEXER, AND COMMUNICATION DEVICE - There are provided a dielectric filter with excellent electrical characteristics, a duplexer, and a communication device using the dielectric filter. A dielectric filter includes a dielectric block provided with first through holes; inner conductors disposed on inner surfaces of the first through holes; second through holes; a terminal electrode connected to an inner conductor located at on end; a terminal electrode connected to an inner conductor located at the other end; and an outer conductor surrounding the dielectric block, being connected to a reference potential, wherein the first through holes are located on a second main surface side, and the second through holes are located on a first main surface side with respect to the first through holes. A duplexer and a communication device use this dielectric filter. | 12-24-2015 |
20150372368 | A circuit on a thin carrier for use in hollow conductors and a manufacturing method - A substrate-based circuit ( | 12-24-2015 |
20150372378 | SYSTEMS, DEVICES AND METHODS FOR TRANSMITTING ELECTRICAL SIGNALS THROUGH A FARADAY CAGE - Embodiments of the present disclosure provide devices, methods, and systems that support electrical connection, signal delivery, and/or communication between internal and external portions of a Faraday cage. In some embodiments, devices and methods are provided for transmitting electrical signals through a waveguide port of a Faraday cage. In some embodiments, aspects of the present disclosure are employed to adapt a magnetic resonance imaging system for communications between a scanner room and a control room. | 12-24-2015 |
20150380789 | PHASE SHIFT DEVICE - A phase shift device includes a planar transmission line that is formed by a signal electrode and a ground electrode which are separated by a dielectric substance, whereby the signal electrode of the planar transmission line is divided into several pieces and includes overlapping areas of adjacent pieces that are filled with a tunable liquid crystal material, thereby forming a dielectric tunable component (varactor) with a metal-insulator-metal type capacitor. The several pieces of the signal electrode are arranged at two or more different distance levels with respect to the ground electrode. The tunable liquid crystal material is arranged as a continuous layer between several pieces of the signal electrode that are arranged at two different distance levels. | 12-31-2015 |
20150380813 | WIRELESS COMMUNICATION DEVICE WITH JOINED SEMICONDUCTORS - A joined structure which is configured such that a space between adjacent substrates is filled with a filling material. The joined structure includes a first substrate having a first conductor formed on a surface of the first substrate, a second substrate having a second conductor formed on a surface of the second substrate, arranged so that a surface of the first substrate faces a surface of the second substrate, a connecting conductor which electrically connects the first conductor and the second conductor, and a filling material between the first substrate and the second substrate. The filling material is formed into such a shape that a space is provided which corresponds to at least one of the first conductor, the second and the connecting conductor. | 12-31-2015 |
20160013557 | ANTENNA DEVICE | 01-14-2016 |
20160028162 | CAVITY-BACKED PATCH ANTENNA - Disclosed is a wideband antenna comprising a dielectric-loaded cavity-backed patch antenna driven with a stripline. The antenna includes a dielectric resonator. The stripline feeds a probe disposed within the dielectric resonator. The probe emits EM radiation, which is coupled to the patch antenna for transmission. | 01-28-2016 |
20160049731 | ANTENNA DEVICE - An antenna device is equipped with a power supply part ( | 02-18-2016 |
20160156102 | ANTENNA HAVING ASYMMETRIC T SHAPE COUPLED FEED | 06-02-2016 |
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20160197392 | GUIDED-WAVE COUPLER, COUPLING MODULE AND METHODS FOR USE THEREWITH | 07-07-2016 |