35th week of 2015 patent applcation highlights part 63 |
Patent application number | Title | Published |
20150243999 | TANTALUM-CONTAINING TIN OXIDE FOR FUEL CELL ELECTRODE MATERIAL - A tantalum-containing tin oxide for a fuel cell electrode material, comprising tin oxide containing tantalum. The tantalum content is 0.001-30 mol %. When the tantalum-containing tin oxide is measured by x-ray diffraction, the value for [I | 2015-08-27 |
20150244000 | CARBON CATALYST, METHOD FOR MANUFACTURING THE CARBON CATALYST, AND ELECTRODE AND BATTERY USING THE CARBON CATALYST - A method of manufacturing a carbon catalyst according to the present invention includes: a first step S | 2015-08-27 |
20150244001 | METHOD AND AN ELECTRODE PRODUCED BY INFILTRATION - The present invention relates to electrodes having Gd and Pr-doped cerium oxide (CGPO) backbones infiltrated with Sr-doped LaCoO | 2015-08-27 |
20150244002 | MODULAR INTRINSICALLY-SAFE FIELD DEVICE POWER MODULE - A modular, intrinsically-safe power module assembly is provided. The assembly includes a rigid conduit adapter configured to mount to a conduit of a field device. A housing, having an interior, is operably coupled to the rigid conduit adapter and is physically supported by the rigid conduit adapter. At least one non-rechargeable battery is disposed within the housing. Intrinsic safety circuitry is coupled to the at least one non-rechargeable battery, and is coupled to a connector that mates with a cooperative connector in the rigid conduit adapter. | 2015-08-27 |
20150244003 | REACTANT FLOW CHANNEL CONFIGURATION TO FACILITATE WATER REMOVAL - An exemplary fuel cell component comprises a reactant distribution plate including a plurality of channels configured for facilitating gas reactant flow such that the gas reactant may be used in an electrochemical reaction for generating electricity in a fuel cell. Each of the channels has a length that corresponds to a direction of reactant gas flow along the channel. A width of each channel is generally perpendicular to the length. A depth of each channel is generally perpendicular to the width and the length. At least one of the width or the depth has at least two different dimensions at a single lengthwise location of the channel. | 2015-08-27 |
20150244004 | COMPOSITION AND PROCESSING OF METALLIC INTERCONNECTS FOR SOFC STACKS - A chromium-iron interconnect includes at least one of Fe rich regions in the interconnect and carbon in the interconnect. | 2015-08-27 |
20150244005 | Alternative Path Cooling Of A High Temperature Fuel Cell - Systems and methods provide for the thermal management of a high temperature fuel cell. According to embodiments described herein, a non-reactant coolant is routed into a fuel cell from a compressor or a ram air source. The non-reactant coolant absorbs waste heat from the electrochemical reaction within the fuel cell. The heated coolant is discharged from the fuel cell and is vented to the surrounding environment or directed through a turbine. The energy recouped from the heated coolant by the turbine may be used to drive the compressor or a generator to create additional electricity and increase the efficiency of the fuel cell system. A portion of the heated coolant may be recycled into the non-reactant coolant entering the fuel cell to prevent thermal shock of the fuel cell. | 2015-08-27 |
20150244006 | FUEL CELL VEHICLE - A fuel cell vehicle is equipped with a fuel cell system including a fuel cell stack, a fuel gas unit, and an oxygen-containing gas unit. In the fuel gas unit, two or more fuel gas system members are assembled together. In the oxygen-containing gas unit, two or more oxygen-containing gas system members are assembled together. Such components are assembled together in a state in which the fuel gas unit is interposed between the fuel cell stack and the oxygen-containing gas unit. | 2015-08-27 |
20150244007 | POWER GENERATION SYSTEM AND METHOD OF OPERATING POWER GENERATION SYSTEM - A power generation system includes a fuel cell, a gas turbine, a first compressed air supply line that supplies the air from a compressor to a combustor, a second compressed air supply line that supplies compressed air from the compressor to the fuel cell, a compressed air circulating line that supplies exhausted air from the fuel cell to the combustor, a detection unit that detects ease of flow of compressed air in the fuel cell, an adjustment unit that adjusts balance between ease of flow of the compressed air in the first compressed air supply line and ease of flow of the compressed air in the second compressed air supply line. | 2015-08-27 |
20150244008 | FLOW CELL WITH SHUNT CURRENT COUNTER ELECTRODE - Counter electrodes are used within the context of a flow cell to attract shunt current depositions during operation. The counter electrodes may be electrically connected with an anode of the flow cell to attract the depositions and then electrically connected with a cathode of the flow cell to remove the depositions. | 2015-08-27 |
20150244009 | BACK-UP FUEL CELL ELECTRIC GENERATOR COMPRISING A COMPACT MANIFOLD BODY, AND METHODS OF MANAGING THE OPERATION THEREOF - A fuel cell electric generator designed for back-up in the absence of network electricity supply. The generator comprises a fuel cell stack, means for supplying the stack with a first and a second reagent flow comprising, in turn, pressure reducing means, and a manifold body to communicate with the stack said first and second reagent flows and at least a flow of coolant fluid via a respective coolant loop. The manifold body comprises inside chambers for the mixing of said reagent flows with corresponding re-circulated product flows and a coolant fluid expansion chamber within which said pressure reducing means of said first and second reagent flows are positioned at least partially drowned by said coolant. Method for the start-up and shutdown of the generator, and a method for detecting the flooding of a fuel cell and a_method for detecting the presence of gas leakages in the generator are also disclosed. | 2015-08-27 |
20150244010 | METHOD AND APPARATUS FOR DIAGNOSING STATE OF FUEL CELL SYSTEM - Disclosed is a technique of diagnosing a state of a fuel cell system. The technique includes configuring a processor to calculate a duty ratio and an average output current, based on real-time driving data for a preset driving period, during operation of a fuel cell vehicle; obtain a reference current value from the calculated duty ratio and the calculated average output current; and determine a state of a fuel cell system by choosing a state graph corresponding to the obtained reference current value among a plurality of state graphs which vary depending on each reference current value. | 2015-08-27 |
20150244011 | Electrochemical Impedance Spectroscopy (EIS) Analyzer And Method of Using Thereof - Systems, methods, and devices of the various embodiments provide a hardware and software architecture enabling electrochemical impedance spectroscopy (“EIS”) to be performed on multiple electrochemical devices, such as fuel cells, at the same time without human interaction with the electrochemical devices. In an embodiment, a matrix switch may connect each cell of a fuel cell stack individually to an EIS analyzer enabling EIS to be performed on any fuel cell in the fuel cell stack. In a further embodiment, the EIS analyzer may be a multi-channel EIS analyzer, and the combination of the matrix switch and multi-channel EIS analyzer may enable EIS to be performed on multiple fuel cells simultaneously | 2015-08-27 |
20150244012 | METHOD FOR SUPPLYING AIR TO A FUEL CELL - A method for supplying air to a fuel cell ( | 2015-08-27 |
20150244013 | CONTROL DEVICE OF FUEL CELL, FUEL CELL SYSTEM AND CONTROL METHOD OF FUEL CELL - A fuel cell has an electrolyte membrane of 5 to 10 μm in thickness. A control device for this fuel cell comprises: a controller configured to control an amount of power generation by the fuel cell according to a required amount of electric power; and a power generation reducer configured to reduce the amount of power generation by the fuel cell at a humidity of an electrolyte membrane of 95 to 98% RH to be lower than the amount of power generation at the humidity of the electrolyte membrane of lower than 95% RH. | 2015-08-27 |
20150244014 | Hydrogen Generator Having Reactant Pellet with Concentration Gradient - A hydrogen generator is provided for generating hydrogen gas for a fuel cell stack. The hydrogen generator includes a container, and a liquid reactant storage area configured to contain a liquid including a first reactant. The hydrogen generator also includes a reaction area within the container, and a solid containing a second reactant within the reaction area and having a concentration gradient that varies along an axis such as length of the solid. The hydrogen generator further includes a liquid delivery member for delivering the liquid to the solid in the reaction area to generate hydrogen. The concentration gradient controls a reaction rate of the first and second reactants. | 2015-08-27 |
20150244015 | METHOD FOR PRODUCING FUEL CELL INCLUDING NANOFIBERS OF METAL OXIDE - A production method for producing a fuel cell, includes spinning a precursor consisting of a salt of at least one metal chosen from Sc, Y, La, Ce, Pr, Nd, Sm, Gd, Dy, Ho, Yb, Sr, Ba, Mn, Co, Mg, and Ga, a solvent, and a macromolecular polymer to produce nanofibers of the precursor containing the salt of the metal. The method further includes calcining the nanofibers of the precursor at a temperature ranging from 550° C. to 650° C. for 2 to 4 hours, and making a solid electrolyte material composed of the nanofibers obtained from the calcining. The resulting solid electrolyte material constitutes a part of a fuel cell. | 2015-08-27 |
20150244016 | METHOD OF MANUFACTURING SECONDARY BATTERY - Disclosed is a method of manufacturing a secondary battery wherein an electrode assembly impregnated with an electrolytic solution is embedded in a battery case,
| 2015-08-27 |
20150244017 | ELECTRODE PLATE AND SECONDARY BATTERY - In a secondary battery including a large-sized electrode group including stacked positive and negative electrode plates, an electrode plate in which failures such as the separation and cracking of an active material layer and the abrasion and cracking of a current collector are unlikely to occur is provided. An electrode plate | 2015-08-27 |
20150244018 | CABLE-TYPE SECONDARY BATTERY - Disclosed herein is a cable-type secondary battery having a horizontal cross section of a predetermined shape and extending longitudinally, comprising: a core for supplying lithium ions, which comprises an electrolyte; an inner electrode, comprising an open-structured inner current collector surrounding the outer surface of the core for supplying lithium ions, an inner electrode active material layer formed on the surface of the inner current collector, and a first electrolyte-absorbing layer formed on the outer surface of the inner electrode active material layer; a separation layer surrounding the outer surface of the inner electrode to prevent a short circuit between electrodes; a second electrolyte-absorbing layer formed on the surface of the separator; and an outer electrode surrounding the outer surface of the second electrolyte-absorbing layer and comprising an outer electrode active material layer and an outer current collector. | 2015-08-27 |
20150244019 | STEPPED ELECTRODE ASSEMBLY HAVING PREDETERMINED A REVERSIBLE CAPACITANCE RATIO IN THE INTERFACE BETWEEN ELECTRODE UNITS, BATTERY CELL AND DEVICE COMPRISING THE SAME - There are provided an electrode assembly, and a battery cell, a battery pack, and a device. The electrode assembly includes a combination of two or more types of electrode units having different areas, wherein the electrode units are stacked such that steps are formed, and electrode units are formed such that a positive electrode and a negative electrode face one another at an interface between the electrode units. | 2015-08-27 |
20150244020 | METHOD FOR MANUFACTURING NONAQUEOUS ELECTROLYTE BATTERY, AND NONAQUEOUS ELECTROLYTE BATTERY - A negative electrode active material layer containing at least one selected from silicon and a silicon compound as a negative electrode active material is formed, and an amount of lithium exceeding an amount corresponding to a theoretical capacity of the negative electrode active material layer is brought into contact with the negative electrode active material layer so as to prepare a negative electrode. A positive electrode containing a lithium-absorption material capable of irreversibly absorbing lithium is prepared. The positive electrode, the negative electrode, a separator, and a nonaqueous electrolyte are enclosed inside an outer enclosure. A chemical conversion treatment of the negative electrode active material is performed with the lithium brought into contact with the negative electrode active material layer. | 2015-08-27 |
20150244021 | SOLID ELECTROLYTE SINGLE CRYSTAL HAVING PEROVSKITE STRUCTURE AND METHOD FOR PRODUCING THE SAME - Provided is a solid electrolyte single crystal having a perovskite structure and a producing method thereof. Provided is a method for producing a solid electrolyte single crystal having a perovskite structure including: a heating step of heating a raw material for producing a single crystal of a solid electrolyte having a perovskite structure to a temperature of a melting point of the solid electrolyte or more to obtain a molten body; and a cooling step of cooling the obtained molten body to a temperature of a solidifying point of the solid electrolyte or less, and the solid electrolyte single crystal having a perovskite structure produced by the method. | 2015-08-27 |
20150244022 | ENTIRE SOLID LITHIUM SECONDARY BATTERY - The present invention provides an entire solid lithium secondary battery comprising: a cathode; an anode; and a solid electrolyte layer interposed between the cathode and the anode. The solid electrolyte layer is formed of a Li | 2015-08-27 |
20150244023 | ENTIRE SOLID LITHIUM SECONDARY BATTERY - The present invention provides an entire solid lithium secondary battery comprising: a cathode; an anode; and a solid electrolyte layer disposed between the cathode and the anode. The solid electrolyte layer is formed of a Li | 2015-08-27 |
20150244024 | SULFIDE SOLID ELECTROLYTE MATERIAL - The main object of the present invention is to provide a sulfide solid electrolyte material with less hydrogen sulfide generation amount. The present invention solves the above-mentioned problem by providing a sulfide solid electrolyte material using a raw material composition containing Li | 2015-08-27 |
20150244025 | SOLID POLYMER ELECTROLYTE COMPOSITION AND LITHIUM SECONDARY BATTERY INCLUDING THE SAME - The present disclosure provides a solid polymer electrolyte composition including a polymer matrix, an organic solvent, and an additive agent containing polyhedral silsesquioxane, and also provides a lithium secondary battery including the same. | 2015-08-27 |
20150244026 | LITHIUM-ION SECONDARY BATTERY AND FORMULA FOR GEL ELECTROLYTE THEREOF - The present invention belongs to the technical field of lithium-ion secondary batteries and in particularly relates to a lithium-ion secondary battery and the gel electrolyte formula thereof. The gel electrolyte formula comprises 90-99.4% by weight of a liquid electrolyte, 0.5-3% by weight of a monomer, 0.25-0.6% by weight of a cross-linking agent and 0.1-1.5% by weight of an initiator, wherein the monomer is modified polyvinyl alcohol and the derivates thereof, the average molecular weight of which is 5×10 | 2015-08-27 |
20150244027 | SOLID-STATE ELECTROLYTES FOR RECHARGEABLE LITHIUM BATTERIES - A lithium ion battery cell. The lithium ion battery cell includes a lithium-based anode, a cathode, and a solid-state electrolyte positioned between the lithium-based anode and the cathode. The cathode comprises an alkylammonium cation lithium phthalocyanine anion complex. The solid-state electrolyte comprises an alkoxyalkylammonium cation lithium phthalocyanine anion complex. | 2015-08-27 |
20150244028 | NONAQUEOUS SECONDARY CELL, AND FIRE-RETARDANT AGENT AND ADDITIVE FOR NONAQUEOUS SECONDARY CELL - A nonaqueous secondary cell comprising a positive electrode, a negative electrode, and a nonaqueous electrolytic solution, wherein the nonaqueous electrolytic solution contains at least a cyclic nitrogen-containing compound represented by the following general formula (1): | 2015-08-27 |
20150244029 | ELECTROLYTE AND RECHARGEABLE LITHIUM BATTERY INCLUDING SAME - Disclosed are an electrolyte for a rechargeable lithium battery including a lithium salt, a non-aqueous organic solvent, and an additive represented by the following Chemical Formula 1, and a rechargeable lithium battery including the same. | 2015-08-27 |
20150244030 | LITHIUM ION SECONDARY BATTERY AND ELECTROLYTE SOLUTION THEREOF - The present disclosure provides a lithium ion secondary battery and electrolyte solution thereof. The electrolyte solution of the lithium ion secondary battery includes a nonaqueous organic solvent, and a lithium salt dissolved in the nonaqueous organic solvent. The nonaqueous organic solvent includes a dicyano ester compound of a structure shown by Formula I, Formula II, or Formula III. Formula I represents dicyano carbonate ester compounds, Formula II represents dicyano sulfite ester compounds, Formula III represents dicyano sulfate ester compounds, and the value n is an integer between 1 and 4. The lithium ion secondary battery according to the present disclosure includes the aforementioned electrolyte solution. At a working voltage of 4.3 V or higher, the lithium ion secondary battery according to the present disclosure can effectively suppress the oxidation of the electrolyte solution and improve the storage performance of the lithium ion secondary battery at high temperature. | 2015-08-27 |
20150244031 | ELECTROCHEMICAL CELL WITH DIVALENT CATION ELECTROLYTE AND AT LEAST ONE INTERCALATION ELECTRODE - The present invention provides a novel electrochemical cell that comprises a cathode, an anode, and an electrolyte, where an ion species present in the electrolyte intercalates into the cathode upon discharge of the electrochemical cell. | 2015-08-27 |
20150244032 | MANUFACTURING METHOD FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERY - A manufacturing method according to the present invention is a method for manufacturing a nonaqueous electrolyte secondary battery including graphite as a negative-electrode active material. The manufacturing method includes: a step of assembling the battery including a positive electrode and a negative electrode; and a step of performing an initial charging process of performing first charging on the battery. In the initial charging process, charging is performed at a relatively large first current value when a gas generation amount caused in the battery during the charging does not depend on a charging current value, and the charging is performed at a second current value smaller than the first current value when the gas generation amount depends on the charging current value. | 2015-08-27 |
20150244033 | METHOD FOR DATA TRANSMISSION ON BATTERY SYSTEMS HAVING A PLURALITY OF CELLS - A method is provided for transmitting measured data from cells of a battery system, having a plurality of individual cells, to a control device, comprising the steps of identifying a first individual cell for which measured data are to be furnished at a first measured-data quality; identifying at least one further individual cell or which measured data are to be furnished at a second measured-data quality; the first measured-data quality being higher than the second measured-data quality; identifying the first-quality measured data; identifying the second-quality measured data; transferring the first-quality measured data to a control device using a data connection; and transferring the second-quality measured data after the first-quality measured data have been transferred. | 2015-08-27 |
20150244034 | BATTERY CHARGER WITH A FAN - A charger has a housing with a receptacle configured to receive a battery, an electrical circuit board, a fan to circulate air within the housing and to cool the battery, and a fan-supporting member to support the fan. The fan is located above the electrical circuit board. A part of the fan-supporting member is positioned between the fan and the electrical circuit board. | 2015-08-27 |
20150244035 | ONBOARD BATTERY - An onboard battery includes an accommodation case that has a hollow cross section formed with multiple cavities | 2015-08-27 |
20150244036 | ENERGY STORAGE SYSTEM WITH HEAT PIPE THERMAL MANAGEMENT - An energy storage system includes: multiple cells, each cell having a first end with anode and cathode terminals, and a second end opposite the first end, the cells arranged so that the second ends are aligned; for each of the cells, electrical connections coupled to the anode and cathode terminals at the first end; and a heat pipe having a flat evaporation surface facing the second ends. | 2015-08-27 |
20150244037 | TRACTION BATTERY THERMAL PLATE WITH LONGITUDINAL CHANNEL CONFIGURATION - A traction battery assembly for a vehicle is provided. The traction battery assembly may include a battery cell array and a thermal plate configured to support the battery cell array. The thermal plate may define an inlet port, two outer channels each having a channel inlet in communication with the inlet port, at least three inner channels disposed between the outer channels, and an outlet port. The ports and channels may be arranged such that fluid traveling through any two adjacent channels flows in opposite directions and fluid, when exiting the thermal plate, empties from one or more of the inner channels into the outlet port without first entering the channel inlets. | 2015-08-27 |
20150244038 | TRACTION BATTERY THERMAL PLATE WITH MULTI PASS CHANNEL CONFIGURATION - A traction battery assembly for a vehicle is provided. The traction battery assembly may include a plurality of battery cells and a thermal plate positioned beneath the battery cells. The thermal plate may be configured for thermal communication with the plurality of battery cells. The thermal plate may define a plurality of multi-pass channel configurations, each corresponding to one of the battery cells. The multi-pass channel configurations may each include a channel inlet and channel outlet on opposite side portions of the thermal plate. The multi-pass channel configurations may each be configured to direct thermal fluid flowing therein to an outlet port of the thermal plate without directing fluid to the channel inlet of another channel configuration. | 2015-08-27 |
20150244039 | TRACTION BATTERY THERMAL PLATE WITH TRANSVERSE CHANNEL CONFIGURATION - A traction battery assembly for a vehicle is provided. The traction battery assembly may include a battery cell array having a plurality of battery cells. A thermal plate may be positioned beneath the battery cells and be configured for thermal communication therewith. The thermal plate may define a plurality of channel configurations within the thermal plate. Each of the channel configurations may correspond to one of the battery cells and include an inlet and outlet on a same side portion of the thermal plate. An inlet plenum may be in communication with the inlets and an outlet plenum may be in communication with the outlets. The channel configurations and plenums may be arranged such that fluid exiting the inlet plenum enters the channel configurations via the outlets and fluid exiting the outlets enters the outlet plenum and not into the inlet of another one of the channel configurations. | 2015-08-27 |
20150244040 | HEATING ASSEMBLIES AND SYSTEMS FOR RECHARGEABLE BATTERIES - Heating assemblies for one or more rechargeable batteries include a flexible heating element positionable about the one or more rechargeable batteries, a temperature sensor configured to sense a temperature adjacent the one or more rechargeable batteries, and a control circuit configured to receive the sensed temperature from the temperature sensor. The control circuit is configured to connect the charger to the flexible heating element for allowing power to flow from the charger to the flexible heating element in response to the sensed temperature adjacent the one or more rechargeable batteries falling below a defined threshold temperature. The temperature sensor is adjacent the flexible heating element. The flexible heating element is configured to receive power from a charger that is operable for charging the one or more rechargeable batteries. Systems including the one or more heating assemblies are also disclosed. | 2015-08-27 |
20150244041 | ELECTRIC VEHICLE PROPULSION SYSTEM AND METHOD UTILIZING SOLID-STATE RECHARGEABLE ELECTROCHEMICAL CELLS - A vehicle propulsion system comprising a plurality of solid state rechargeable battery cells configured to power a drivetrain is disclosed. In accordance with one aspect of the invention, a transportation system that is powered at least in part by electricity stored in the form of rechargeable electrochemical cells. According to an embodiment of the present invention, these cells are combined in series and in parallel to form a pack that is regulated by charge and discharge control circuits that are programmed with algorithms to monitor state of charge, battery lifetime, and battery health. | 2015-08-27 |
20150244042 | THERMOELECTRIC-BASED THERMAL MANAGEMENT SYSTEM - In certain embodiments, a battery thermal management system includes at least one battery, at least one thermoelectric device in thermal communication with the at least one battery, and a conduit comprising an inlet configured to allow a working fluid to enter and flow into the conduit and into thermal communication with the at least one thermoelectric device. The conduit further comprises an outlet configured to allow the working fluid to exit and flow from the conduit and away from being in thermal communication with the at least one thermoelectric device. The battery thermal management system can further include a first flow control device which directs the working fluid through the inlet of the conduit and a second flow control device which directs the working fluid through the outlet of the conduit. The first flow control device and the second flow control device are each separately operable from one another. | 2015-08-27 |
20150244043 | BATTERY MODULE - A battery module includes a first battery cell having a first housing and first and second electrical terminals. The first housing has first, second, third and fourth ends. The first and second electrical terminals extend outwardly from the third and fourth ends, respectively. A distance from the second end of the first housing to a second edge of the first electrical terminal is greater than a distance from the first end of the first housing to a first edge of the first electrical terminal A distance from the second end of the first housing to a second edge of the second electrical terminal is greater than a distance from the first end of the first housing to a first edge of the second electrical terminal. The battery module further includes a cooling fin disposed adjacent to the first battery cell, and a cooling plate coupled to the cooling fin. | 2015-08-27 |
20150244044 | TRACTION BATTERY THERMAL PLATE MANIFOLD - A traction battery system for a vehicle is provided. The system may include a plurality of battery cells, a thermal plate, and an inlet manifold. The thermal plate may support the battery cells and includes a heat exchange region and two lateral sides defining two planes. The inlet manifold may be positioned downstream of an inlet port and upstream of the heat exchange region. The inlet manifold may define distribution channels throughout the inlet manifold and includes an outlet to the heat exchange region having a cross-sectional area defining a third plane. The two planes and third plane define a region normal to the cross sectional area and the inlet manifold may be positioned such that the inlet port is located outside the region. | 2015-08-27 |
20150244045 | BATTERY MODULE - A battery module includes a casing, and a battery assembly, a frequency converting assembly, and a heat dissipation assembly received in the casing. The casing defines a first vent and a second vent. The casing includes a top portion and an opposite bottom portion. The first vent and the second vent are respectively adjacent to the bottom portion and the top portion. The frequency converting assembly is electrically connected to the battery assembly. The heat dissipation assembly includes a fan secured to the casing and facing the second vent. The fan is configured to rotate so as to draw air into the casing via the first vent, cause the air to flow through the battery assembly and the frequency converting assembly, and draw the air out of the casing via the second vent. | 2015-08-27 |
20150244046 | BATTERY MODULE - A battery module includes a casing, and a battery assembly, a frequency converting assembly, and a heat dissipation assembly received in the casing. The heat dissipation assembly includes a heat-conducting unit and a heat-dissipating unit. The heat-dissipating unit includes a first dissipation member independent from the battery assembly and the frequency converting assembly. The battery assembly and the frequency converting assembly are coupled to the first dissipation member via the heat-conducting unit to cause heat generated by the battery assembly and the frequency converting assembly to be conducted to the first dissipation member. | 2015-08-27 |
20150244047 | Battery mounting and cooling system - A battery system is provided in which the batteries are mounted between a pair of substrates, the system further including at least one cooling tube mounted next to the batteries, the cooling tube used to withdraw heat from the batteries via a circulating liquid coolant. | 2015-08-27 |
20150244048 | LOW POWER THRESHOLD INTEGRATED MICRO-PLASMA LIMITER - A plasma power limiter fabricated using wafer-level fabrication techniques with other circuit elements. The power limiter includes a signal substrate having a first side and a second side, an input signal line formed on the first side, a signal transmission line formed on the second side and an output signal line formed on the first side. The power limiter also includes a ground substrate having a first side and a second side, and being bonded to the signal substrate to form a sealed cavity including an ionizable gas therebetween. The ground substrate includes a ground metal layer formed on the second side. A signal propagating on the input signal line at a power level greater than a threshold power level generates a voltage potential across the cavity that ionizes the gas and generates a plasma discharge, and limits power of the output signal coupled to the output signal line. | 2015-08-27 |
20150244049 | Dielectric Waveguide Filter with Direct Coupling and Alternative Cross-Coupling - A dielectric waveguide filter comprising a block of dielectric material including a plurality of resonators defined by a plurality of slots defined in the block of dielectric material. The resonators are arranged on the block of dielectric material in one or more rows and columns. First and second RF signal input/output electrodes are defined on the block of dielectric material. A first direct RF signal transmission path for the transmission of an RF signal is defined by the first and second RF signal input/output electrodes and the plurality of resonators. In one embodiment, internal windows define a first direct RF signal transmission means and additional RF signal transmission means define alternate or cross-coupling paths for the transmission of the RF signal from resonators in one column to resonators in another column. In one embodiment, the filter is comprised of two separate blocks of dielectric material which have been coupled together. | 2015-08-27 |
20150244050 | RF FILTER FOR ADJUSTING COUPLING AMOUNT OR TRANSMISSION ZERO - An RF filter, e.g. RF cavity filter for adjusting coupling amount or transmission zero is disclosed. The RF filter includes a housing member in which cavities are defined by walls, resonators located in the cavities, a cover combined with an upper surface of the housing member, a first tuning element inserted into a first cavity of the cavities through the cover, and a second tuning element inserted into a second cavity of the cavities through the cover. Here, the first tuning element and the second tuning element are connected electrically. | 2015-08-27 |
20150244051 | SYSTEMS, DEVICES AND METHODS RELATED TO RADIO-FREQUENCY STEP ATTENUATORS - Systems, devices and methods related to radio-frequency (RF) step attenuators. In some embodiments, a step attenuator can include an attenuator circuit having stages connected in series between a first node and a second node. The stages can include a plurality of first attenuation steps with each configured to provide switchable attenuation with a first gain. The stages can further include a plurality of second attenuation steps with each configured to provide switchable attenuation with a second gain. The step attenuator can further include a controller in communication with the attenuator circuit. The controller can be configured to control the switchable attenuation of each of the first attenuation steps and the second attenuation steps. | 2015-08-27 |
20150244052 | RADIO FREQUENCY (RF) CONDUCTIVE MEDIUM - Embodiments of the present disclosure provide a radio frequency (RF) conductive medium for reducing the undesirable insertion loss of all RE hardware components and improving the Q factor or “quality factor” of RF resonant cavities. The RF conductive medium decreases the insertion loss of the RF device by including one or more conductive pathways in a transverse electromagnetic axis that are immune to skin effect loss and, by extension, are substantially free from resistance to the conduction of RF energy. | 2015-08-27 |
20150244053 | TUNABLE RADIO FREQUENCY COUPLER AND MANUFACTURING METHOD THEREOF - A tunable radio frequency (RF) coupler and manufacturing method thereof are provided. The tunable RF coupler includes an insulating layer, a first transmission line and a second transmission line. The second transmission line is disposed corresponding to the first transmission line and the insulating layer is disposed between the first transmission line and the second transmission line. The second transmission line includes a plurality of segments separated from each other and arranged along the extension path of the first transmission line. At least one wire is configured to establish an electrical connection between at least two segments, such that the two segments are electrically conductive to each other through the wire. | 2015-08-27 |
20150244054 | Directional Coupler - The embodiments relate to a directional coupler including, in each case, one connection for a first, a second, a third, and a fourth port. The coupler includes a first coupling network for providing the connection for the first port and a second coupling network for providing the connection for the second port. The first and second coupling networks are both connected to the connections for the third and fourth ports, wherein the second coupling network has a first inductance connected between the third port and an electrical reference potential, a first capacitance connected between the fourth port and the electrical reference potential, a second capacitance connected between the third port and the second port, and a second inductance connected between the fourth port and the second port. | 2015-08-27 |
20150244055 | DIRECTIONAL COUPLER AND MICROWAVE HEATER PROVIDED WITH THE SAME - A directional coupler according to the invention includes an opening in a wall surface of a waveguide, and a coupling line on an outer side of the waveguide. The opening is configured to not cross a tube axis of the waveguide in plan view, and to emit a circularly polarized wave. The coupling line includes first and second transmission lines and output parts disposed at both ends, the first and second transmission lines extending across the opening to cross the tube axis in plan view and being opposed to each other across the center of the opening. The first and second transmission lines are interconnected at a position displaced from an area vertically above the opening. | 2015-08-27 |
20150244056 | Cellular Antenna Tower and Equipment Enclosure Based on Shipping Container - An antenna tower structure for wireless communication antennas includes an antenna cupola mounted on a tower based on at least one standardized ISBU shipping container that has been modified and erected to stand upright on a foundation. The modifications may include longitudinal reinforcements along at least two longitudinal edges of the container, mounting hardware at the two ends of the container, an access door on a side of the container, an access hatch in the upper end of the container, a ladder extending longitudinally inside the container, and a floor extending perpendicular to the longitudinal axis of the container. The container provides a weather-protected climate-controlled interior space for sheltering electronics equipment. The cupola has antennas installed on at least one level, and may include shutters, a clock, a bell etc. to hide the antennas and disguise the tower. The exterior of the structure may be finished to match surrounding buildings. | 2015-08-27 |
20150244057 | Receiver Assembly - A receiver assembly for a machine includes a bracket, a mast, and a receiver. The bracket includes a base disposed on the machine, at least one arm extending from the base, and a pivot pin disposed on the arm. The mast is disposed alongside the arm and pivotally supported by the pivot pin. The receiver is releasably engaged to the mast. The receiver and the mast are rotatable around the pivot pin. | 2015-08-27 |
20150244058 | Electronic Device Having Antenna Module - The antenna module includes a transparent substrate and an antenna component disposed on the transparent substrate. The antenna component includes a radiation portion, a feed portion and a grounding portion. The grounding portion is located at a corner of the transparent substrate, and the grounding portion includes a first strip portion and a second strip portion that are connected and integrated. | 2015-08-27 |
20150244059 | ANTENNA DEVICE - A first housing includes a first conductor plate, and a second housing includes a second conductor plate. A rotation mechanism openably and closably attaches the second housing to the first housing. A first driven element and a second driven element are arranged along a rotation axis of the rotation mechanism. Between the first driven element and the second driven element, a continuity structure intersects the rotation axis to establish direct-current or high-frequency continuity between the first conductor plate and the second conductor plate. An antenna device can be provided which can ensure sufficient isolation between a plurality of driven elements. | 2015-08-27 |
20150244060 | PATCH ANTENNA AND WIRELESS COMMUNICATION DEVICE USING THE SAME - A patch antenna includes an irradiation plate, a grounding point and a feeding point. The irradiation plate has a long edge. The grounding point is located at the long edge. The feeding point is located at the long edge. The grounding point and the feeding point are symmetrical with respect to a center of the long edge. | 2015-08-27 |
20150244061 | Wireless Electronic Devices with Metal Perimeter Portions Including a Plurality of Antennas - Wireless electronic devices may include a ground plane and metal antenna portions separated by input connector portions improving the metal look and feel of the wireless electronic device. | 2015-08-27 |
20150244062 | ELECTRONIC DEVICE - An electronic device is provided. The electronic device includes a casing, a display module, and a communication module. The casing includes a first surface and a second surface. The display module is disposed on the first surface and has a display region. The communication module includes a first antenna module and a second antenna module. The first antenna module is disposed close to the display module and is corresponding perpendicularly to at least one part of the display region. The second antenna module is disposed close to the second surface. The communication module selectively receives and transmits a wireless signal along an outward direction extending from the first surface via the first antenna module or along an outward direction extending from the second surface via the second antenna module. | 2015-08-27 |
20150244063 | APPARATUS FOR WIRELESS COMMUNICATION - An apparatus comprising: a ground member; a conductive cover portion defining a first non-conductive aperture and grounded to the ground member; and an antenna configured to couple to radio frequency circuitry, the antenna being positioned at least in part within the periphery of the first non-conductive aperture. | 2015-08-27 |
20150244064 | COMMUNICATION TERMINAL DEVICE - A communication terminal device includes a power feeding coil connected to a power feeding circuit, a planar radiation conductor arranged in the vicinity of the power feeding coil and including a cutout portion overlapping with a coil opening of the power feeding coil when viewed in a plan view, and a rear metal body arranged at a side opposite to the planar radiation conductor with respect to the power feeding coil and in the vicinity of the planar radiation conductor, wherein a punched portion which does not overlap with at least a portion of the power feeding coil when viewed in a plan view and has a shape different from a shape of the cutout portion on the planar radiation conductor is provided on the rear metal body. | 2015-08-27 |
20150244065 | ANTENNA WITH SHIELDING APPARATUS AND MANUFACTURING METHOD - An antenna for wireless communication of a hearing device is shielded efficiently in a simple manner from electrical and magnetic interference fields by providing a coil apparatus and a shielding apparatus. The shielding apparatus has a flexible substrate as its main body and is formed as a single piece. The shielding apparatus is subdivided into three sections by two slits having ends not reaching the edge of the substrate. The coil apparatus is inserted through the two slits in the shielding apparatus in such a way that each of the sections only partially surrounds the coil apparatus in a circumferential direction. The sleeve-type shield can thus be applied on the coil apparatus in a simple manner. A method for manufacturing an antenna for a hearing device is also provided. | 2015-08-27 |
20150244066 | THERMOPLASTIC RESIN COMPOSITION, RESIN MOLDED ARTICLE, AND METHOD FOR MANUFACTURING RESIN MOLDED ARTICLE HAVING A PLATED LAYER - Provided is a thermoplastic resin composition that allows a plated layer to be successfully formed on a surface of resin molded article obtained therefrom under a wide range of laser irradiation condition. A thermoplastic resin composition comprising a thermoplastic resin, and 1 to 30 parts by weight of a laser direct structuring additive and 0.1 to 10 parts by weight of a laser marking additive per 100 parts by weight of the thermoplastic resin, wherein the laser direct structuring additive comprises 70% by weight or more of a tin oxide. | 2015-08-27 |
20150244067 | ANTENNA DEVICE - An antenna device includes: a case; a board which is encased in the case and receives a signal from an antenna element; and a base for which closes a bottom face of the case. The base is integrally provided with a metal fastening member, and includes a sheet metal part for conducting earth connection between an earth electrode of the board and a vehicle panel, and the sheet metal part is surrounded with resin to be integrally molded therewith. | 2015-08-27 |
20150244068 | ARRAY ANTENNA HAVING MECHANICALLY-ADJUSTABLE RADIATOR ELEMENTS - A tri-column antenna array architecture, containing a plurality of active radiating elements that are spatially arranged on a modified reflector structure is disclosed. Radiating elements disposed along (P | 2015-08-27 |
20150244069 | ANTENNA OF MOBILE COMMUNICATION BASE STATION AND METHOD FOR CONTROLLING SAME - The present invention relates to an antenna of a mobile communication base station, comprising; an RET driving unit, an RAS driving unit, and an RAB driving unit, each comprising a driving motor, for driving electrical and mechanical devices for respectively adjusting RET, RAS and RAB; and multi-function equipment for controlling the driving of the RET driving unit, the RAS driving unit and the RAB driving unit by communicating with a main system of a base station such that at least a control signal for controlling the RET, the RAS, and the RAB is received. | 2015-08-27 |
20150244070 | Switchable Antennas for Wireless Applications - Techniques of designing an antenna array with antenna units controlled electronically are described. Through controlling the combination of the reflectors in each of the antenna units, a desired antenna pattern is formed, adapting to the environment, and providing reliable and efficient links between two transceivers. According to one aspect of the present invention, a switch (e.g., a diode) is used to couple two reflectors. The diode is controlled to be on or off so that the reflectors are conductively integrated or separated. | 2015-08-27 |
20150244071 | WIRELESS COMMUNICATION DEVICE AND DIRECTIVITY CONTROL METHOD - A wireless communication device includes a directivity control unit that sets a directivity for a plurality of antennas, a directivity switching unit that switches the directivity for the plurality of antennas, and a reception quality estimation unit that measures the reception quality of a received signal received by the plurality of antennas. The directivity control unit uses the reception quality of a received signal directed to another station among the received signals to set the directivity in a direction in which an influence of interference from the other station is reduced. | 2015-08-27 |
20150244072 | MULTIBAND ANTENNA WITH VARIABLE ELECTRICAL TILT - A feed system for controlling the variable electrical tilt in the vertical plane of arrayed radiating elements of a multiband antenna, comprising a Butler matrix with N inputs and N outputs comprising hybrid couplers, each input being capable of receiving a radio signal and each output being capable of transmitting the signal to at least one radiating element. | 2015-08-27 |
20150244073 | Bi-Directional Magnetic Permeability Enhanced Metamaterial (MPEM) Substrate for Antenna Miniaturization - A bi-directional antenna includes a plurality of unit cells stacked in two perpendicular planes (Y-X and Z-X planes) to form cube shaped unit cells whereby inductive loops are placed on four faces corresponding to the Y-X and Z-X planes. Each unit cell includes a magnetic permeability enhanced metamaterial. The resulting antenna has the ability to couple magnetic fields oriented in both the X and Y directions with increased permeabilities and can be used to realize a variety of different antenna architectures that do not have their magnetic field confined in a single direction. | 2015-08-27 |
20150244074 | MICROWAVE SYSTEM - A microwave system comprising a center fed parabolic reflector; a radio transceiver, said transceiver disposed on a circuit board and coupled to a radiator, said radiator disposed on the circuit board and extending orthogonally from a surface of the circuit board. Embodiments also include directors on the circuit board and a sub-reflector comprising a thin plate disposed on a weather proof cover and said sub-reflector having a substantially concave surface with a focus directed towards the radiator. The circuit board may be physically integrated within the feed mechanism of the center fed parabolic reflector and the radio transceiver is configured to provide OSI layer support. | 2015-08-27 |
20150244075 | INTEGRATED MULTIBAND ANTENNA - An end fed dipole antenna on a circuit board configured to be a multiband, portable radio antenna has, among other features, an integrated diplexer for operating the antenna in multiple frequency bands. | 2015-08-27 |
20150244076 | ANTENNA WITH DIVERGING ANTENNA ELEMENTS - An antenna | 2015-08-27 |
20150244077 | ANTENNA SYSTEM AND METHOD - A device comprising a plurality of metallic conical radiators, said conical radiators substantially hollow having a vertex end and a base end, a first cylindrical portion disposed annularly about the base end of the conical portion, a metallic second cylindrical portion coupled to the vertex of the conical portion, said cylindrical portion having a threaded aperture, and an antenna feed coupled to the threaded aperture. The device may have patches disposed on a substrate as a one or multi-dimensional array. An RF feed may be coupled to the radiators. | 2015-08-27 |
20150244078 | Tapered Slot Antenna Hemispherical Array - A system may include a base portion, first and second support members coupled to the base portion, a first plurality of tapered slot antenna (TSA) pairs coupled to the first support member, and a second plurality of TSA pairs coupled to the second support member. The first plurality TSA pairs are oriented at a non-zero angle about a first axis of the first support member and are oriented at a non-zero angle about a second axis of the first support member, with the second axis being perpendicular to the first axis. The second plurality TSA pairs are oriented at a non-zero angle about a first axis of the second support member and are oriented at a non-zero angle about a second axis of the second support member, with the second axis being perpendicular to the first axis. | 2015-08-27 |
20150244079 | CAVITY-BACKED ARTIFICIAL MAGNETIC CONDUCTOR - An active artificial magnetic conductor includes an array of unit cells, each unit cell including a top face, at least one wall coupled to the top face, a base coupled to the at least one wall, and a crossed slot in the top face. The top face, the at least one wall, and the base form a cavity and are conductive. | 2015-08-27 |
20150244080 | POLARIZATION INDEPENDENT ACTIVE ARTIFICIAL MAGENTIC CONDUCTOR - An active artificial magnetic conductor includes a ground plane and an array of unit cells coupled to the ground plane. Each unit cell includes a low impedance shunt coupled to the ground plane and an impedance element coupled to the low impedance shunt. A plurality of non Foster circuits are coupled in two different directions between impedance elements of adjacent neighboring unit cells in the array of unit cells. | 2015-08-27 |
20150244081 | MESH REFLECTOR WITH TRUSS STRUCTURE - A reflector assembly includes a frame centered about a longitudinal axis, a first curved body extending from the frame, and a second curved body extending from the frame and connected to the first curved body for supporting the first curved body. A reflective mesh has an electromagnetically reflective surface and a support structure secures the reflective mesh to the first curved body and spaces the reflective mesh away from the first body towards the second body. | 2015-08-27 |
20150244082 | Lens Antenna, Method for Manufacturing and Using such an Antenna, and Antenna System - The invention relates to a lens antenna. The invention also relates to an antenna system for transmitting and receiving electromagnetic signals comprising at least one antenna according to the invention. The invention further relates to a method of manufacturing an antenna according to the invention. The invention moreover relates to a method for use in wireless communications by using an antenna according to the invention. The invention additionally relates to a RF transceiver of a wireless communications device comprising at least one antenna according to the invention. The invention further relates to an electronic device comprising an RF transceiver according to the invention. | 2015-08-27 |
20150244083 | ELECTRICAL CONNECTOR - An electrical connector for electrically connecting a first electronic element to a second electronic element, includes an insulating body having multiple receiving holes. Each receiving hole is internally provided with a conducting assembly. The conducting assembly includes a first conductor and a liquid metal conductor. At least one part of the first conductor is a conducting layer arranged at an inner wall of the receiving hole. The liquid metal conductor is made of gallium or gallium alloy. The receiving hole is internally provided with a plug, and a receiving cavity is formed above the plug. One end of the first conductor is formed into a welding portion. The liquid metal conductor is received in the receiving cavity, and electrically connected to the first electronic element and the first conductor. | 2015-08-27 |
20150244084 | TERMINAL FITTING - The present invention concerns a female terminal fitting ( | 2015-08-27 |
20150244085 | COAXIAL CONNECTOR - A coaxial connector includes an inner conductor terminal connected to a core wire of a coaxial cable, a dielectric body that surrounds an outer periphery of the inner conductor terminal, and an outer conductor terminal connected to a shield conductor of the coaxial cable and having a tubular portion surrounding the inner conductor terminal through the dielectric body. A protruding portion protruding toward an inside of the tubular portion and engaged with the dielectric body to thereby restrict a position of the dielectric body is provided integrally with the tubular portion of the outer conductor terminal. The outer conductor terminal is formed by a stereoscopic shaping method to thereby provide the protruding portion in a protruding condition integrally with an inner peripheral wall of the tubular portion. | 2015-08-27 |
20150244086 | COAXIAL CABLE CONNECTOR ASSEMBLY AND A RECEPTOR CONNECTOR - A coaxial cable connector assembly and a receptor connector are provided. The coaxial cable connector assembly is composed at least of one cable end connector and the receptor connector. The receptor connector is formed of an insertion space with a lateral insertion opening to allow one portion of the cable end connector to be inserted into the insertion space through the lateral insertion opening such that the cable end connector and the receptor connector are in electrical connection. The cable end connector will be constrained such that it cannot be detached from the receptor connector in the direction other than the lateral insertion opening. | 2015-08-27 |
20150244087 | FOUR-POST TERMINAL BLOCK WITH THROUGH POSTS - A terminal block, terminal board and terminal board assembly for terminating and testing railroad wires. The terminal block comprises a plurality of through-posts, allowing wiring and other components to be attached on posts on first and/or second sides of the terminal block. A surge protection component, control test link, and first wiring may be pre-installed on one side of the terminal block and terminal board, providing for quick installation prior to installing the terminal board assembly in the field. The through-posts also simplify the mounting of the terminal block to the terminal board, and the grounding for the terminal board. | 2015-08-27 |
20150244088 | ELECTRICAL CONTACTS, FUSIBLE MEMBERS, AND METHODS OF ATTACHING ELECTRICAL CONTACTS TO SUBSTRATES - A contact includes a body section, a tail section arranged at a lower portion of the body section, a peg extending from the tail section such that the peg projects from a front surface of the contact, and a fusible member attached to the contact such that the peg protrudes into the fusible member. A lower portion of the fusible member is offset from a main portion of the fusible member. | 2015-08-27 |
20150244089 | COMPOSITE PANE WITH ELECTRICAL CONTACT-MAKING MEANS - A composite pane with electrical contact-making means is described, having: a first pane and a second pane, which panes are connected to one another over their surface by means of a thermoplastic intermediate layer, at least one electrically conductive coating at least on the inner surface of the first pane, at least one busbar on a region of the electrically conductive coating, and at least one electrically conductive contact strip on at least one region of the busbar, wherein the contact strip is connected to at least one electrical feed line, and at least one region of the contact strip is in direct contact with the busbar. | 2015-08-27 |
20150244090 | CIRCUIT BOARD CONNECTOR - A circuit board connector includes a contact having a mating end with a spring beam having a separable mating interface and a terminating end configured to be terminated to a wire. A housing holds the contact and includes a main body extending between a front and a rear. The housing has a mounting flange extending from the main body. The main body has a contact channel holding the contact and a wire barrel at the front configured to receive the wire. The rear of the main body is positionable on the circuit board such that the spring beam of the contact is aligned with the contact pad. A fastener is coupled to the mounting flange and is used to secure the housing to a substrate independent of the circuit board. | 2015-08-27 |
20150244091 | CONNECTOR AND CONNECTOR ASSEMBLY - A connector is connectable to an object. The object includes a regulated portion, a guided portion and a received portion. The connector includes a housing and a regulating member. The housing has a guide portion and a receive portion which opens forward. The regulating member has a spring portion and a regulating portion. The regulating portion is supported by the spring portion and is vertically movable. When the guided portion is moved rearward along the guide portion under a state where the regulating portion is pressed by the object to be moved downward from an initial position, the receive portion receives the received portion, and the connector is connected to the object. Under a connected state where the connector is connected to the object, the regulating portion returns to the initial position to be located forward of the regulated portion to regulate a forward movement of the regulated portion. | 2015-08-27 |
20150244092 | CONNECTOR - A connector which makes it possible to prevent an object to be connected from being easily removed therefrom. When a flexible printed wiring board is inserted into an insertion portion from an insertion slot of a housing, abutment portions of an operation member are pushed and rotated by the flexible printed wiring board, and are moved in a direction away from the insertion portion, and an operation portion of the operation member is rotated, whereby movable arm portions of first contacts and second contacts are moved in the direction away from the insertion portion. When the flexible printed wiring board is inserted to a predetermined position in the insertion portion, locking portions of the abutment portions are inserted in receiving portions of the housing through receiving portions of the flexible printed wiring board, and the movable arm portions are moved in a direction approaching to the insertion portion. | 2015-08-27 |
20150244093 | CONNECTOR - A connector comprising a first connector provided with first terminals each of which has a movable portion formed so that a dimension in its width direction is larger than a dimension in its thickness direction to be elastically deformed in a fore-and-aft direction (Y direction) of the connector, and a second connector provided with second terminals each of which has a movable portion formed so that a dimension in its thickness direction is larger than a dimension in its width direction to be elastically deformed in a width direction (X direction) of the connector. As compared with a terminal formed so as to be sufficiently elastically deformable in both of the fore-and-aft direction and the width direction of the connector, it is possible to increase a cross-sectional area of each of the movable portions, so that a permissible value of current of each of the terminals can be increased. | 2015-08-27 |
20150244094 | ELECTRICAL CONNECTOR - An electrical connector for electrically connecting a first electronic element and a second electronic element, includes an insulating body having multiple receiving holes, a conducting assembly and an elastic member respectively received in each receiving hole, and an elastic member. The conducting assembly includes a first conductor, a second conductor and a third conductor electrically connected to the first conductor and the second conductor. The elastic member is used for elastically supporting the first conductor and the second conductor. One end of the first conductor is electrically conducted to the first electronic element, and one end of the second conductor is electrically conducted to the second electronic element. The conductor is spherical, which shortens the conducting path, lowers the height and impedance of the electrical connector, and improves the electrical performance. The elastic member can effectively avoid poor contact and instant disconnection. | 2015-08-27 |
20150244095 | ELECTRICAL CONNECTOR - An electrical connector for electrically connecting a chip module to a circuit board, includes an insulation body having a plurality of receiving holes. Each receiving hole runs through an upper surface and a lower surface of the insulation body, and is internally and laterally provided with a receiving space. Each receiving hole is internally provided with a conducting assembly. The conducting assembly includes a first conductor correspondingly conductively connected to the chip module and a second conductor correspondingly conductively connected to the circuit board. The first conductor is conductively connected to the second conductor slidably and obliquely. Each receiving space correspondingly receives an elastomer, and the elastomer elastically supports the first conductors. At least one of the first conductor and the second conductor is in a circular shape. | 2015-08-27 |
20150244096 | ELECTRICAL SOCKET WITH IMPROVED MISALIGNMENT TOLERANCE - A radial socket, including a first a second ring, and conductive contact strips extending between the first and second rings. The conductive contact strips are radially offset at an angle greater than or equal to 50 degrees, providing the radial socket with improved angular and translational misalignment tolerance. | 2015-08-27 |
20150244097 | ELECTRICAL CONNECTOR AND A METHOD OF MANUFACTURING THE SAME - A liquid adhesive sealant for bonding a connector case and a terminal holder is filled in a sealant filled chamber formed in a space surrounded by a first fitting peripheral wall and a bottom surface of a first groove of the connector case made of a primary molding resin, and a second fitting peripheral wall and a bottom surface of a second groove of the terminal holder made of the primary molding resin in an electrical connector. | 2015-08-27 |
20150244098 | ELECTRICAL CONNECTOR HAVING IMPROVED INSULATIVE HOUSING - An electrical connector includes an insulative housing having a mating tongue, a plurality of first contacts retained in the housing and exposed upon a first mating face of the mating tongue, and a plurality of second contacts retained in the housing and exposed upon a second mating face of the mating tongue. The first contacts offset with the second contacts in a front elevational view. The mating tongue defines a receiving room at a front portion thereof and extending in a transverse direction, the receiving room runs through the first mating face to directly face to the first contacts and synchronously runs through the second mating face to directly face to the second contacts, which is suitable for minimization. | 2015-08-27 |