07th week of 2016 patent applcation highlights part 49 |
Patent application number | Title | Published |
20160049665 | AIR-METAL SECONDARY BATTERY - An air-metal secondary battery has an electrode including a porous carbon material, wherein the porous carbon material has a specific surface area of 280 m | 2016-02-18 |
20160049666 | CATHODE - The present invention provides use of a porous carbon material in a metal air battery, wherein the porous carbon material
| 2016-02-18 |
20160049667 | METAL-AIR CELL WITH PERFORMANCE ENHANCING ADDITIVE - Systems and methods drawn to an electrochemical cell comprising a low temperature ionic liquid comprising positive ions and negative ions and a performance enhancing additive added to the low temperature ionic liquid. The additive dissolves in the ionic liquid to form cations, which are coordinated with one or more negative ions forming ion complexes. The electrochemical cell also includes an air electrode configured to absorb and reduce oxygen. The ion complexes improve oxygen reduction thermodynamics and/or kinetics relative to the ionic liquid without the additive. | 2016-02-18 |
20160049668 | FUEL CELL WITH IMPROVED REACTANT DISTRIBUTION - Systems and methods are disclosed that provide for a bipolar plate for a fuel cell system that includes cross flow channels facilitating reactant flow between primary reactant flow channels. In certain embodiments, the cross flow channels may allow for improved reactant flow distribution across catalyst layers of the fuel cell system. In further embodiments, the cross flow channels may increase a reaction interface area in the fuel system, thereby improving the performance of the system. | 2016-02-18 |
20160049669 | GAS INLET FOR SOC UNIT - Multiple gas inlet or outlets for a SOC unit is provided by stacked layers with cut outs for gas channels which overlap. | 2016-02-18 |
20160049670 | MANUFACTURING METHOD OF FUEL CELL MODULE AND MANUFACTURING METHOD OF FUEL CELL - A manufacturing method of a fuel cell module includes: forming an outer divided body having a frame shape and formed from an uncrosslinked item of solid rubber having adhesiveness in a seal member arrangement portion of a separator to produce an outer temporary assembly, and forming an inner divided body having a frame shape and formed from an uncrosslinked item of solid rubber in a peripheral edge portion of an electrode member to produce an inner temporary assembly; fitting the inner temporary assembly into a frame of the outer temporary assembly to produce a cell assembly temporary assembly; arranging a cell assembly stack, in which a plurality of the cell assembly temporary assemblies are stacked, in a forming die; and pressurizing and heating the forming die to crosslink the uncrosslinked item | 2016-02-18 |
20160049671 | FUEL CELL SYSTEM AND CONTROL METHOD THEREFOR - A fuel cell system comprises a compressor configured to supply the cathode gas to the fuel cell, an intercooler provided downstream of the compressor and configured to cool the cathode gas discharged from the compressor, a pressure regulating valve configured to adjust a pressure downstream of the intercooler, and a controller. The controller computes a first target pressure of the intercooler downstream pressure according to a target output of the fuel cell and computes a second target pressure of the intercooler downstream pressure according to the intercooler downstream temperature. Then, the controller sets smaller one of the first and second target pressures as a target pressure of the intercooler downstream pressure and controls the compressor and the pressure regulating valve according to the target pressure. | 2016-02-18 |
20160049672 | FUEL CELL SYSTEM AND METHOD OF CONTROLLING FUEL CELL SYSTEM - A fuel cell system includes: a compressor configured to adjust a flow rate of a cathode gas to be supplied to a fuel cell; a pressure regulating valve configured to adjust a pressure of the cathode gas to be supplied to the fuel cell; a target pressure calculating unit configured to calculate a target pressure of the cathode gas to be supplied to the fuel cell while taking into consideration a load of the fuel cell and a heat protecting requirement of the fuel cell system; a target pressure calculating unit configured to calculate a target pressure of the cathode gas to be supplied to the fuel cell while taking into consideration a load of the fuel cell and a heat protecting requirement of the fuel cell system; a target flow rate calculating unit configured to calculate a target flow rate of the cathode gas to be supplied to the fuel cell in accordance with the load of the fuel cell and the target pressure of the cathode gas; and a control unit configured to control the compressor and the pressure regulating valve in accordance with the target pressure and the target flow rate of the cathode gas. | 2016-02-18 |
20160049673 | REDOX FLOW BATTERY AND METHOD OF OPERATING THE SAME - A redox flow battery includes: a positive electrolyte storage tank; a negative electrolyte storage tank; a cell stack; a positive electrolyte outward path that sends positive electrolyte to positive electrode chambers in the cell stack; a positive electrolyte return path that sends positive electrolyte to the positive electrolyte storage tank; a negative electrolyte outward path that sends negative electrolyte to negative electrode chambers of the cells; a negative electrolyte return path that sends negative electrolyte to the negative electrolyte storage tank; an entrance open circuit voltage measuring portion that measures an upstream open circuit voltage between the positive electrolyte inside the positive electrolyte outward path and the negative electrolyte inside the negative electrolyte outward path; and an exit open circuit voltage measuring portion that measures a downstream open circuit voltage between the positive electrolyte inside the positive electrolyte return path and the negative electrolyte inside the negative electrolyte return path. | 2016-02-18 |
20160049674 | FUEL CELL STACK, FUEL CELL STACK COMPOSITE, AND FUEL CELL SYSTEM - Provided is a fuel cell stack, comprising: a first fuel cell including a first membrane electrode assembly, and a first fuel supply portion having a first in-cell fuel flow channel; a second fuel cell arranged on a main surface of the first fuel cell, and including a second membrane electrode assembly and a second fuel supply portion having a second in-cell fuel flow channel; and a fuel distribution portion including a liquid fuel inlet, a main flow channel connected thereto, and first and second branched flow channels connecting an end of the main flow channel with the first and second in-cell fuel flow channels, respectively, wherein a total length of the first branched flow channel and the first in-cell fuel flow channel is substantially identical to that of the second branched flow channel and the second in-cell fuel flow channel. Also provided is a fuel cell system using the stack. | 2016-02-18 |
20160049675 | HYDROGEN GENERATING DEVICE AND POWER GENERATING EQUIPMENT - A hydrogen generating device includes a first housing, a porous structure, a first flow-guiding structure and a heating unit. The first housing accommodates a solid reactant. The porous structure is disposed in the first housing. The first flow-guiding structure has first and second end portions opposite to each other. The first end portion is connected to the porous structure. The second end portion protrudes outside the first housing and is connected to the heating unit. A liquid reactant passing through the second end portion is gasified into a gaseous reactant through the heating unit. The gaseous reactant passing through the first end portion reaches to the porous structure and then is diffused from the porous structure into the first housing, so that the gaseous reactant and the solid reactant react and generate a hydrogen gas. A power generating equipment including the hydrogen generating device is also provided. | 2016-02-18 |
20160049676 | APPARATUS AND METHOD FOR PRODUCING FUEL CELL STACK - Disclosed is a method for producing a fuel cell stack. The method for producing a fuel cell stack includes: (a) inserting one or more thin paper between a plurality of GDLs; (b) supplying, by a transfer robot, the GDLs of step (a) to a GDL supply part and supplying, by the transfer robot, MEAs to an MEA supply part; (c) adsorbing, by the transfer robot, the GDL and the thin paper, respectively, one by one; (d) removing, by a thin paper eliminator, the thin paper of step (c); (e) supplying the GDL and the MEA from which the thin paper is removed to a compressor to compress the GDL and the MEA so as to form an integrated part; and (f) cutting the integrated part formed in step (e) to a predetermined size by a trimming press. | 2016-02-18 |
20160049677 | Gas Diffusion Electrode - A gas diffusion electrode for a membrane electrode assembly is provided with expanded metal layers each having a mesh configuration defining a length orientation of the expanded metal layers. The expanded metal layers each have opposed flat sides and are stacked in a layered arrangement such that the flat sides of the expanded metal layers that are neighboring each other in the layered arrangement are facing each other as facing flat sides, respectively. The facing flat sides are connected to each other by pulsed resistance welding at welded contact points. Due to the mesh configuration, the welded contact points are distributed evenly across the entire surface area of the facing flat sides. At least one of the expanded metal layers is oriented with its length orientation so as to be rotated by 90° relative to the length orientation of one of the neighboring expanded metal layers. | 2016-02-18 |
20160049678 | New Method for the Fabrication of Homogenous Blends of Polystyrenesulfonic Acid and Polyvinylidene Fluoride Suitable For The Application In Direct Oxidation Methanol Fuel Cells (DMFCs) - A membrane electrode assembly includes an anode catalyst layer, a cathode catalyst layer, and a polymeric blend proton exchange membrane interposed between the anode catalyst layer and the cathode catalyst layer. The polymeric blend proton exchange membrane includes a scaffold polymer and a polyacid polymer. The polyacid polymer being formed from a polyacid polymer precursor. Characteristically, the scaffold polymer and the polyacid polymer precursor have matching solubility parameters. | 2016-02-18 |
20160049679 | Interpenetrating Network of Anion-Exchange Polymers, Production Method Thereof and Use of Same - The invention relates to a method for producing an anion-exchange polymer material having an IPN or semi-IPN structure, said method consisting in: (A) preparing a homogeneous reaction solution containing, in a suitable organic solvent, (a) at least one organic polymer bearing reactive halogen groups, (b) at least one tertiary diamine, (c) at least one monomer comprising an ethylenic unsaturation polymerizable by free radical polymerization, (d) optionally at least one cross-linking agent including at least two ethylenic unsaturations polymerizable by free radical polymerization, and e) at least one free radical polymerization initiator; and (B) heating the prepared solution to a temperature and for a duration that are sufficient to allow both a nucleophilic substitution reaction between components (a) and (b) and a free radical copolymerization reaction of components (c) and optionally (d) initiated by component (e). The invention also relates to the resulting IPN or semi-IPN material and to the use thereof in electrochemical devices, in direct contact with an air electrode. | 2016-02-18 |
20160049680 | ELECTROCHEMICAL CELL HAVING A PLURALITY OF ELECTROLYTE FLOW AREAS - In one embodiment of the present disclosure, an electrochemical cell includes a positive portion including a cathode and a catholyte half-cell and a negative portion including an anode and an anolyte half-cell, wherein at least one of the catholyte half-cell and the anolyte half-cell has a plurality of electrolyte flow areas; an ion transfer membrane separating the positive portion and the negative portion; and at least one positive current collector in contact with the cathode and at least one negative current collector in contact with the anode. | 2016-02-18 |
20160049681 | FUEL CELL STACK - The present invention provides a fuel cell stack capable of suppressing misalignment between unit cells that causes gas leakage while achieving low cost and a configuration with a small size and small mass. | 2016-02-18 |
20160049682 | SEALING TOOL FOR POUCH TYPE SECONDARY BATTERY - The present invention relates to a sealing tool for a pouch type secondary battery, which seals a pouch provided with an electrode assembly therein, the sealing tool including: a holder elevatably disposed on each of upper and lower sides of the pouch; and a sealing block coupled to the holder to contact the pouch by the elevation of the holder, thereby sealing the pouch. The sealing block and the holder are spaced apart from each other to define a space therebetween. | 2016-02-18 |
20160049683 | SECONDARY BATTERY AND METHOD OF MANUFACTURING THE SAME - A secondary battery and method of manufacturing the same are disclosed. In one aspect, the secondary battery includes an electrode assembly including a first current collector, a second current collector, and an isolation layer interposed between the first and second current collectors, the first current collector, the second current collector, and the isolation layer being wound, each of the first and second current collectors including a body portion and an extension portion extending from the body portion, and the extension portions of the first and second current collectors extending in substantially opposite directions. The battery also includes a first auxiliary current collector formed over the electrode assembly and electrically connected to the extension portion of the first current collector. The battery further includes a second auxiliary current collector formed below the electrode assembly and electrically connected to the extension portion of the second current collector. | 2016-02-18 |
20160049684 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - A non-aqueous electrolyte secondary battery includes battery element formed by laminating and winding positive electrode and negative electrode via separator. Positive electrode includes a positive electrode current-collector-exposed portion, in which the positive electrode current collector is exposed over a length dimension of not less than one turn of the winding of battery element in the outermost circumference and an intermediate layer portion of the winding. The negative electrode in a part facing the positive electrode current collector exposed in the intermediate layer portion includes the negative electrode active material layer laminated on the negative electrode current collector. Negative electrode can be provided with a slit at an exposed side with respect to both exposed ends of the positive electrode current-collector-exposed portion. | 2016-02-18 |
20160049685 | ENERGY STORAGE DEVICE - An energy storage device includes: a flattened electrode assembly formed by winding electrodes such that a hollow portion is formed, the electrode assembly including a pair of curved portions opposed manner in a major axis direction and a pair of flat portions opposed in a minor axis direction; and a case storing the electrode assembly therein, wherein assuming a thickness of the flat portion in the minor axis direction as A, a thickness of the curved portion in a radial direction as B, and a thickness of the hollow portion in the minor axis direction as W, the electrode assembly satisfies A+(W/2)≦B in a state where the electrode assembly is discharged. | 2016-02-18 |
20160049686 | CABLE-TYPE SECONDARY BATTERY - Provided is a cable-type secondary battery extending longitudinally including a lithium ion supplying core comprising an electrolyte, an inner electrode support of a hollow structure formed to surround an outer surface of the lithium ion supplying core, an inner electrode formed on a surface of the inner electrode support and including an inner current collector and an inner electrode active material, a separation layer formed to surround an outer surface of the inner electrode to prevent a short circuit between electrodes, and an outer electrode formed to surround an outer surface of the separation layer and including an outer electrode active material layer and an outer current collector. | 2016-02-18 |
20160049687 | METHODS OF PREPARING ELECTRODE ASSEMBLY AND SECONDARY BATTERY - Provided are a method of preparing an electrode assembly suitable for preparing a secondary battery having a structure that may increase a degree of freedom in the design of a device in which the secondary battery is installed, and a method of preparing a secondary battery. | 2016-02-18 |
20160049688 | GARNET POWDER, MANUFACTURING METHOD THEREOF, SOLID ELECTROLYTE SHEET USING HOT PRESS AND MANUFACTURING METHOD THEREOF - The present disclosure relates to garnet powder, a manufacturing method thereof, a solid electrolyte sheet using a hot press, and a manufacturing method thereof. In particular, the present disclosure provides a method for manufacturing Li | 2016-02-18 |
20160049689 | RECHARGEABLE ELECTROCHEMICAL BATTERY CELL - Rechargeable lithium battery cell having a housing, a positive electrode, a negative electrode and an electrolyte containing a conductive salt, wherein the electrolyte comprises SO | 2016-02-18 |
20160049690 | HIGH-IONIC CONDUCTIVITY ELECTROLYTE COMPOSITIONS COMPRISING SEMI-INTERPENETRATING POLYMER NETWORKS AND THEIR COMPOSITES - The invention relates to high-ionic conductivity electrolyte compositions. The invention particularly relates to high-ionic conductivity electrolyte compositions of semi-interpenetrating polymer networks and their nanocomposites as quasi-solid/solid electrolyte matrix for energy generation, storage and delivery devices, in particular for hybrid solar cells, rechargeable batteries, capacitors, electrochemical systems and flexible devices. The binary or ternary component semi-interpenetrating polymer network electrolyte composition comprises: a) a polymer network with polyether backbone (component I); b) a low molecular weight linear, branched, hyper-branched polymer or any binary combination of such polymers with preferably non-reactive end groups (component-ll and/or component-Ill, for formation of ternary semi-IPN system); c) an electrolyte salt and/or a redox pair, and optionally d) a bare or surface modified nanostructured material to form a nanocomposite. | 2016-02-18 |
20160049691 | ELECTROLYTIC SOLUTION FOR SECONDARY BATTERY AND SECONDARY BATTERY USING THE SAME - A secondary battery having excellent charge and discharge efficiency, good cycle characteristics, and a high capacity retention rate is provided. An electrolytic solution for a secondary battery according to this exemplary embodiment contains at least an aprotic solvent and two particular compounds. | 2016-02-18 |
20160049692 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY - A nonaqueous electrolyte secondary battery is provided with: a positive electrode; a negative electrode that contains lithium titanate; a separator that is interposed between the positive electrode and the negative electrode; and a nonaqueous electrolyte that contains an electrolyte salt and a nonaqueous solvent. The nonaqueous solvent contains propylene carbonate, a chain carbonate A represented by general formula R | 2016-02-18 |
20160049693 | ELECTROLYTES FOR RECHARGEABLE BATTERIES - Provided are novel electrolytes for use in rechargeable lithium ion cells containing high capacity active materials, such as silicon, germanium, tin, and/or aluminum. These novel electrolytes include one or more pyrocarbonates and, in certain embodiments, one or more fluorinated carbonates. For example, dimethyl pyrocarbonate (DMPC) may be combine with mono-fluoroethylene carbonate (FEC). Alternatively, DMPC or other pyrocarbonates may be used without any fluorinated carbonates. A weight ratio of pyrocarbonates may be between about 0% and 50%, for example, about 10%. Pyrocarbonates may be combined with other solvents, such as ethylene carbonate (EC), propylene carbonate (PC), dimethyl carbonate (DMC), diethyl carbonate (DEC), and/or ethyl-methyl carbonate (EMC). Alternatively, pyrocarbonates may be used without such solvents. Experimental results conducted using electrochemical cells with silicon based electrodes demonstrated substantial improvements in cycle life when pyrocarbonate containing electrolytes were used in comparison with pyrocarbonate free electrolytes. | 2016-02-18 |
20160049694 | POSITIVE ELECTRODE ACTIVE MATERIAL FOR SODIUM MOLTEN SALT BATTERIES, POSITIVE ELECTRODE FOR SODIUM MOLTEN SALT BATTERIES, AND SODIUM MOLTEN SALT BATTERY - A positive electrode active material for sodium molten salt batteries includes a sodium-containing metal oxide that can electrochemically intercalate and deintercalate sodium ions, wherein a ratio by mass of sodium carbonate is 500 ppm or less. A ratio by mass of sodium carbonate in the positive electrode active material is more preferably 100 ppm or less. | 2016-02-18 |
20160049695 | BATTERY MODULE - A battery module capable is provided in which a fuse is replaced to improve safety. The battery module includes a battery housing and a voltage sensing part disposed within the housing and configured to sense a voltage within the housing. In addition, a fuse box part is configured to be electrically connected to the voltage sensing part and have a fuse provided therein. | 2016-02-18 |
20160049696 | BATTERY PACK - A battery pack includes a battery cell unit including a first battery cell and a second battery cell, wherein each of the first battery cell and the second battery cell includes electrode tabs, and electrode tabs of the first battery cell and electrode tabs of the second battery cell face each other, a protective circuit module between the first battery cell and the second battery cell, and a fixing case. The protective circuit module may be electrically connected to the electrode tabs of the first battery cell and the electrode tabs of the second battery cell. In addition, a structure including the first battery cell, the second battery cell, and the protective circuit module between the first battery cell and the second battery cell may have a first side, a second side opposite the first side, a first surface, and a second surface opposite the first surface, and the fixing case may cover at least a portion of at least one of the first side, the second side, the first surface, and the second surface. | 2016-02-18 |
20160049697 | BATTERY PACK CONTAINING COMMUNICATION ELECTRONICS - A communication electronics module is provided having a casing like a conventional battery and includes terminals which enable the module to fit into a battery socket. The module may also be incorporated into a single-cell battery or a multiple-cell battery pack. The module communicates with both the battery, the electronic device powered by the battery and other remote electronics devices. | 2016-02-18 |
20160049698 | RECHARGEABLE BATTERY, CHARGING SYSTEM, AND ELECTRONIC DEVICE - A rechargeable battery includes: a battery body including a cylindrical outer peripheral side surface; and a power receiving coil wound in at most a single layer around the outer peripheral side surface, and electrically connected to the battery body. The power receiving coil is helically wound around the outer peripheral side surface while forming a space from which the outer peripheral side surface is exposed. | 2016-02-18 |
20160049699 | METHOD FOR PROCESSING FLUORINE-CONTAINING ELECTROLYTE SOLUTION - A method for processing a fluorine-containing electrolyte solution including a gasification step of gasifying a volatile component of an electrolyte solution including a fluorine compound by heating the electrolyte solution under reduced pressure, a fluorine immobilization step of immobilizing the fluorine component included in the gasified gas as calcium fluoride by allowing the fluorine component to react with calcium, and an organic solvent component collection step of collecting an organic solvent component included in the gasification gas, in which, preferably, after a small amount of water, aqueous mineral acid solution, or the like is added to the electrolyte solution, the volatile component of the electrolyte solution is gasified by heating the electrolyte solution under reduced pressure. | 2016-02-18 |
20160049700 | METHOD FOR REMOVING COPPER AND ALUMINUM FROM AN ELECTRODE MATERIAL, AND PROCESS FOR RECYCLING ELECTRODE MATERIAL FROM WASTE LITHIUM-ION BATTERIES - The present invention provides a method for removing copper and aluminum from an electrode material and a process for recycling electrode material from waste lithium-ion batteries. The method for removing copper and aluminum from the electrode material comprises: subjecting the electrode material containing electrode active material, copper and aluminum to reaction with an aqueous solution, wherein the aqueous solution has a pH value of higher than 10, and comprises base, oxidizing agent and complexing agent. The process for recycling electrode material from waste lithium-ion batteries comprises: a) harvesting an electrode material containing electrode active material, copper and aluminum from waste lithium-ion batteries; b) removing copper and aluminum from the electrode material according to the foresaid method; and c) further purifying and regenerating the electrode active material for reuse in new lithium-ion batteries. The present invention thus provides a practical and efficient method for recycling active materials from waste lithium-ion batteries. | 2016-02-18 |
20160049701 | PROCESS FOR PREPARING AND RECYCLING CATHODE ACTIVE MATERIALS FOR LITHIUM-ION BATTERIES - Herein is disclosed a process for preparing a cathode active material for lithium-ion batteries, comprising preparing a slurry by mixing a lithium-deficient cathode active material for lithium-ion batteries with a solution containing lithium-ions; and applying a direct current in the slurry using a working electrode and a counter electrode. A method for recycling the cathode active material from lithium-ion batteries is also provided. The process of the invention can be used to recycle the cathode active material from used or waste lithium-ion batteries efficiently and at low cost, and the recycled cathode active material can be used to prepare new lithium-ion batteries. | 2016-02-18 |
20160049702 | BATTERY PACK - A battery pack includes a battery module including a plurality of cells, a housing that accommodates the battery module and is thermally coupled to the battery module, and a temperature adjuster that is thermally coupled and attached to the housing. The temperature adjuster changes a temperature of the housing. | 2016-02-18 |
20160049703 | BATTERY MODULE WITH RESTRAINED BATTERY CELLS UTILIZING A HEAT EXCHANGER - A battery module includes a battery module housing, a heat exchanger including a plurality of fins disposed in the housing, a first lithium ion battery cell and a second lithium ion battery cell disposed within the battery module housing. The first lithium ion battery cell and the second lithium ion battery cell are separated by a fin of the plurality of fins. The module includes a temperature sensing component coupled to the fin separating the first and second battery cells. Filler material is disposed within the housing and between the battery cells and the fins to mechanically restrain the battery cells within the battery module housing. The filler materials conduct thermal energy between the battery cells and the fin. The filler material covers a free end of the fin and the temperature sensing component. The temperature sensing component is coupled to a conductor extending out of the filler material. | 2016-02-18 |
20160049704 | Battery Pack Assembly - A battery pack includes a plurality of prismatic format batteries in a stacked configuration. Flexible graphite sheet heat spreaders are interposed between adjacent prismatic batteries in the stack. A heat sink extends the length of the stack of prismatic format batteries. Both heat spreader major surfaces contact the heat sink at contact areas and thereby extend into the heat sink by at least 30 percent of the thru-thickness of the heat sink. | 2016-02-18 |
20160049705 | HEAT-EXCHANGE PANEL FOR BATTERY HEAT MANAGEMENT AND ASSOCIATED PRODUCTION METHOD - A heat exchange plate for battery thermal management is disclosed. The heat exchange plate includes a base having a circuit of ducts for the circulation of heat-transfer fluid or refrigerant between an inlet and an outlet for heat-transfer fluid, and, fixed to the base, a contact plate intended to come into contact with the battery to be thermally regulated and covering said ducts, the base being made of molded plastic material and the contact plate being produced in a thermo-conductive material. A manufacturing method for such a heat exchange plate is also disclosed. | 2016-02-18 |
20160049706 | BATTERY HOUSING - A battery housing for accommodating one or more cell blocks of a battery provides the interstice between an outer wall and an inner wall with supported vacuum insulation composed of a porous support material. This vacuum insulation can be switched between an insulation state and a transient state. The interstice is additionally provided with cooling elements. This battery housing offers crash-safe accommodation of the cell blocks accommodated in the battery housing, for one thing, and furthermore offers passive or controllable and/or regulatable thermal management to the effect that the cell blocks accommodated in the battery housing can be cooled or heated as needed, in any case kept in a permissible temperature range in every operating state. | 2016-02-18 |
20160049707 | INTERMEDIATE TEMPERATURE ALKALI METAL/OXYGEN BATTERIES EMPLOYING MOLTEN NITRATE ELECTROLYTES - High capacity alkali metal/oxygen batteries, e.g. Li/O | 2016-02-18 |
20160049708 | POWER GENERATION SYSTEM, METHOD OF CONTROLLING POWER GENERATION SYSTEM, AND FUEL CELL - Based on the temperature of medium ( | 2016-02-18 |
20160049709 | PHASE SHIFTER, ANTENNA AND RADIO APPARATUS - A phase shifter, which reduces the loss of transmission/reception signals, includes: a linear conductor ( | 2016-02-18 |
20160049710 | THREE DIMENSIONAL TUNABLE FILTERS WITH AN ABSOLUTE CONSTANT BANDWIDTH AND METHOD - A tunable bandpass filter to provide a constant absolute bandwidth across the entire tuning range. The filter comprises of a plurality of tunable resonators, each having an enclosure. A resonating structure extending upwardly from the bottom surface of the enclosure and a tuning screw with a flat head extending downwardly from the top surface of the enclosure, wherein the resonating structure and the flat head of the screw face each other and form a gap. The height of the tuning screw can be adjusted to change the gap between the resonating structure and the flat head. The adjustable gap of the present filter allows for tunable filter operation. | 2016-02-18 |
20160049711 | Methods And Devices For Connecting A Resonator To A Filter Body - A cavity filter includes a threaded resonator and a threaded filter body to improve the coupling of radio frequency signals. | 2016-02-18 |
20160049712 | MULTI-JUNCTION WAVEGUIDE CIRCULATOR USING DUAL CONTROL WIRES FOR MULTIPLE FERRITE ELEMENTS - In at least one embodiment, a circulator module comprises circulators. Each circulator comprises: an internal cavity; ports extending from the internal cavity wherein at least one port connects the circulator to another circulator; and a ferrite element disposed in the internal cavity, the ferrite element including an aperture. The circulator module further comprises a first control wire, wherein a first portion of the first control wire is disposed in an aperture of the ferrite element of the first circulator and wherein a second portion of the first control wire is disposed in an aperture of the ferrite element of the second circulator; and, a second control wire, wherein a first portion of the second control wire is disposed in an aperture of the ferrite element of the first circulator and wherein the second control wire is not disposed in an aperture of the ferrite element of the second circulator. | 2016-02-18 |
20160049713 | Stress Relieved High Power RF Circuit - The present invention is directed to an RF device that includes a laminate structure having a ceramic layer having a predetermined thermal conductivity that is a function of a predetermined RF device operating temperature. The ceramic layer forms a first major surface of the laminate structure and a second major ceramic surface is bonded to a layer of thermoplastic material that is, in turn, bonded to a conductive layer. The thermoplastic material has a coefficient of thermal expansion that substantially matches the conductive layer. A first circuit arrangement is disposed on the first major surface of the laminate structure and it includes a first RF circuit structure having a predetermined geometry and predetermined electrical characteristics. The laminate structure is configured to dissipate thermal energy generated by the at least one first RF circuit structure via substantially the entire second major surface of the laminate structure. | 2016-02-18 |
20160049714 | Transition Between a SIW and a Waveguide Interface - The present invention relates to atransition arrangement ( | 2016-02-18 |
20160049715 | Feed Network Arrangement for Generating a Mutli-Antennae Signal - A feed network arrangement for generating a multi-antennae signal includes a plurality of coupler devices coupled to one another in waveguide technique, and a plurality of adjustable length of line devices. At least one of the plurality of adjustable length of line devices is coupled to at least one of the plurality of coupler devices, where the one of the plurality of adjustable length of line device is configured to calibrate an electrical length of a supply line of the at least one of the plurality of coupler devices, | 2016-02-18 |
20160049716 | COUPLING ARRANGEMENT BETWEEN CAVITY FILTER RESONATORS - One or more adjustable resonators ( | 2016-02-18 |
20160049717 | DIELECTRIC RESONATOR AND DIELECTRIC FILTER - A dielectric resonator and a dielectric filter are provided. The inner wall or the outer wall of the dielectric resonator is plated with silver. With the technical solution, it can be guaranteed that the volume of a dielectric resonant column of which the inner wall or the outer wall is plated with silver is reduced by about 35% as compared with the volume of an ordinary dielectric filter, or the volume of the dielectric resonator is reduced under the condition of the same cavity body. In addition, the dielectric resonator is stable and reliable in filtering performance, simple in production process, and overcomes the defect of large size of the universal dielectric resonator in related art in the low communication frequency band. | 2016-02-18 |
20160049718 | WIRED PIPE COUPLER CONNECTOR - A wired pipe segment includes a body extending from a box end to a pin end and a coupler located in one of the box and pin ends. The coupler includes a carrier having at least one electrical component disposed therein and one or more antennas supported by and spaced from the carrier and being electrically coupled to the carrier through at least one of the electrical components, the antennas being formed in the carrier in a same molding machine. The segment also includes a transmission line extending away from the coupler towards the other of the box and pin end and in communication with the one or more antennas. | 2016-02-18 |
20160049719 | Wireless Communication Device - A wireless communication device includes a metal frame, a mechanical part on which a ground is formed for providing grounding, and at least one antenna, wherein each one of the at least one antenna includes a radiator, a feed terminal electrically connected to the radiator, disposed adjacent to the metal frame and for feeding a radio-frequency signal, a first ground terminal disposed at a first side of the feed terminal for electrically connecting the metal frame with the ground of the mechanical part, and a second ground terminal disposed at a second side of the feed terminal for electrically connecting the metal frame with the ground of the mechanical part, wherein an area enclosed by the metal frame, the mechanical part and the first and second ground terminals forms a first slot. | 2016-02-18 |
20160049720 | ANTENNA OF ELECTRONIC DEVICE - An antenna of an electronic device is provided, which includes a radiator including at least part of a metal housing of the electronic device; a capacitor connected to the radiator; a feeding part connected to the radiator; and a ground part connected to the capacitor. | 2016-02-18 |
20160049721 | ELECTRONIC APPARATUS - An electronic apparatus includes a display; and an antenna including a first element without power feeding that is a structural component made of metal and is disposed on the display or above a display surface of the display in a display direction, a second element which is disposed below the first element and is connected to a power supply, and a GND plate that is disposed below the second element, wherein the first element and the second element are electromagnetically coupled. | 2016-02-18 |
20160049722 | ON-CHIP HELIX ANTENNA - An antenna includes a plurality of upper electrodes in a first metal layer, a plurality of lower electrodes in a second metal layer, a plurality of side electrodes connecting the upper electrodes with the lower electrodes, and a ground structure. The upper electrodes, the lower electrodes and the side electrodes form one continuous electrode. The continuous electrode extends in a first direction away from a reference plane over a substrate. The upper electrodes extend in a second direction different from the first direction. The upper electrodes, the lower electrodes, and the side electrodes are embedded within a waveguide structure that includes a dielectric material. The substrate has a length extending in the first direction greater than a length the continuous electrode extends in the first direction. The waveguide structure includes a portion of the substrate in a region beyond the length of the continuous electrode in the first direction. | 2016-02-18 |
20160049723 | WIRELESS COMMUNICATIONS PACKAGE WITH INTEGRATED ANTENNAS AND AIR CAVITY - Antenna package structures are provided to implement wireless communications packages. For example, an antenna package includes a package carrier and a package cover. The package carrier includes an antenna ground plane and an antenna feed line. The package cover includes a planar lid having a planar antenna element formed on a first surface of the planar lid. The package cover is bonded to a first surface of the package carrier with the first surface of the planar lid facing the first surface of the package carrier, and with the planar antenna element aligned to the antenna ground plane and the antenna feed line of the package carrier, wherein the first surface of the planar lid is disposed at a distance from the first surface of the package carrier to provide an air space between the planar antenna element and the package carrier. | 2016-02-18 |
20160049724 | POWER COMBINERS AND DIVIDERS BASED ON COMPOSITE RIGHT AND LEFT HANDED METAMATERIAL STRUCTURES - Techniques, apparatus and systems that use composite left and right handed (CRLH) metamaterial structures to combine and divide electromagnetic signals at multiple frequencies. The metamaterial properties permit significant size reduction over a conventional N-way radial power combiner or divider. Dual-band serial power combiners and dividers and single-band and dual-band radial power combiners and dividers are described. | 2016-02-18 |
20160049725 | ANTENNA MODULE AND WIRELESS CONTROL SYSTEM INCLUDING THE SAME - An antenna module according to an embodiment of the invention includes a first antenna unit, a second antenna unit symmetrically disposed to the first antenna unit with a wall interposed therebetween, and an antenna connection unit which connects the first antenna unit and the second antenna unit. | 2016-02-18 |
20160049726 | ANTENNA DEVICE AND ANTENNA DEVICE CONTROL METHOD - An antenna unit part is coupled to a housing unit in such a way that the antenna unit part can be relatively oscillated. Acceleration sensors that detect accelerations that occur in an azimuth angle direction and an elevation angle direction are provided in the housing unit. Linear actuators are provided between the housing unit and an antenna unit part so that the linear actuators are able to adjust a relative angle of the antenna unit part with respect to the housing unit. A variation amount calculation unit calculates a variation amount in the elevation angle direction and the azimuth angle direction based on the accelerations detected by the acceleration sensors. A correction amount calculation unit calculates a correction amount to cancel the variation amount calculated by the variation amount calculation unit. The linear actuators are driven based on the correction amount. | 2016-02-18 |
20160049727 | SYSTEMS AND METHODS FOR HIGH POWER MICROWAVE COMBINING AND SWITCHING - Systems and methods for high power microwave combining and switching are provided. In at least one implementation a system includes a plurality of inputs, wherein there are M inputs in the plurality of inputs and a plurality of phase shifters, wherein there are N phase shifters in the plurality of phase shifters and N is a multiple of two times M, wherein a signal received through the plurality of inputs is divided and coupled to N/M phase shifters. The system further includes an N:N Butler matrix coupled between outputs of the N phase shifters in the plurality of phase shifters and a plurality of outputs. | 2016-02-18 |
20160049728 | LOW COST ACTIVE ANTENNA SYSTEM - An antenna array comprising at least three radiating elements arranged in sequence, wherein alternate radiating elements have feeds configured for direct feeding from output ports of corresponding radio frequency transmitters, and wherein each radiating element situated between a pair of directly-connected elements has a feed coupled to the feeds of the adjacent directly-fed elements. | 2016-02-18 |
20160049729 | ANTENNA STRUCTURE - An antenna structure includes an antenna, a first bonding film, and a second bonding film. The antenna is bendable and has a main segment, a first connecting segment connected to the main segment, and a second connecting segment connected to the main segment. The antenna has a first surface and an opposite second surface, and the first and the second connecting segments are respectively configured to connect a ground and a signal source. Each one of the first bonding film and the second bonding film has an adhesive surface and is bendable. The first and second surfaces of the main segment are respectively adhered on the adhesive surfaces of the first and second bonding films. The adhesive surface of the first bonding film is adhered on the adhesive surface of the second bonding film, and the main segment is encapsulated between the first and second bonding films. | 2016-02-18 |
20160049730 | VARIABLE CAPACITANCE DEVICE AND ANTENNA DEVICE - The variable capacitance device includes one or more of directional elements inserted between the third and fourth terminals that allow current to pass only in prescribed directions, such that a diagram formed of current paths from the third terminal to the fourth terminal for the plurality of third-terminal side resistors and the plurality of fourth-terminal side resistors when the third terminal is biased higher than the fourth terminal is line-symmetric to a diagram formed of current paths from the fourth terminal to the third terminal for the plurality of third-terminal side resistors and the plurality of fourth-terminal side resistors when the fourth terminal is biased higher than the third terminal, with respect to the serial chain of variable capacitance elements between the first and second terminals. | 2016-02-18 |
20160049731 | ANTENNA DEVICE - An antenna device is equipped with a power supply part ( | 2016-02-18 |
20160049732 | ANTENNA AND THE MANUFACTURING METHOD THEREOF - A method of manufacturing an antenna is provided. The method includes steps of providing a substrate including a feed-in terminal and a ground terminal; and forming a ground conductor structure on the substrate extended from the feed-in terminal to the ground terminal and including a first conductor extended along a first direction, a second conductor extended from the first conductor along a second direction, a third conductor extended from the second conductor along a third direction, and a fourth conductor extended from the third conductor along a fourth direction, wherein a first obtuse angle is formed between the first direction and the second direction, a second obtuse angle is formed between the second direction and the third direction, and an acute angle is formed between the third direction and the fourth direction. | 2016-02-18 |
20160049733 | Method and Apparatus for Orthogonal-Mode Junction Coupling - An orthogonal mode transducer including: an elongated waveguide conduit for projecting orthogonal polarisation transmissions, the conduit having a proximal emission source end and a distal mouth end having an aperture for signal transmission; and the elongated conduit including a first and a second pairs of diametrically opposed axial ridges, with the first and second pairs being substantially orthogonal to one another, and the first pair of diametrically opposed axial ridges having an asymmetric narrowing of the gap between the ridges towards the proximal emission source relative to the second pair of diametrically opposed axial ridges. The axial ridge increases in circumferential thickness towards the distal end of the conduit. The asymmetric narrowing is provisioned substantially at the proximal emission source end only with the gap between the first pair and the second pair of ridges being substantially the same at the distal mouth end of the conduit. | 2016-02-18 |
20160049734 | ANTENNA DEVICE AND ELECTRONIC DEVICE - An antenna device is provided. The antenna device includes a base plate of a conductive material, at least one slit disposed in at least one area of the base plate and having a form in which a portion of a closed curve is open, and a feeding part configured to supply current to an inner area surrounded by the slit. | 2016-02-18 |
20160049735 | EBG STRUCTURE - An EBG structure of the present invention includes a ground substrate, a first dielectric layer disposed on the ground substrate, a first conductor pattern disposed on the first dielectric layer, and has an outer end and an inner end, the outer end being electrically connected to the ground substrate, a second dielectric layer disposed on the first conductor pattern, and a second conductor pattern disposed on the second dielectric layer, and has a center part and an outer end, the center part being electrically connected to the inner end of the first conductor pattern. | 2016-02-18 |
20160049736 | ANTENNA APPARATUS AND THE MIMO COMMUNICATION DEVICE USING THE SAME - The present invention discloses an antenna apparatus. The antenna apparatus includes a first antenna array and a second antenna array. The first antenna array includes multiple first radiating elements for transmitting radio signals of a first frequency. The second antenna array includes multiple second radiating elements for transmitting radio signals of a second frequency, wherein the first and second radiating elements are arranged in a staggered manner; wherein each of the first radiating elements is disposed between two of the second radiating elements; and wherein each of the second radiating elements is disposed between two of the first radiating elements. | 2016-02-18 |
20160049737 | SPRING-FORCE CLAMPING ELEMENT WITH PIVOTING LEVER - A compact spring-biased connector includes a housing having a chamber containing a conductive bus bar, a clamping spring normally having an expanded clamping condition for biasing a conductor bare end toward electrical engagement with the bus bar, and a release lever pivotally connected with the housing for displacement from a normally closed clamping position toward an open position, such that a lateral projection on the clamping lever operates the clamping spring toward a compressed open condition, thereby permitting removal of the conductor bare end from the housing chamber. The clamping spring is a compression V-shaped leaf spring having a stationary support leg and a movable clamping leg, with the lateral operating projection extending within the chamber to engage the spring clamping leg adjacent its juncture with the support leg. | 2016-02-18 |
20160049738 | Connector Arrangement - A connector arrangement, including a connector including an outer connector, an inner connector and attaching means for attaching the connector to a first object, the connector being movable in relation to the first object; a second connector including a second outer connector, a second inner connector, and second attaching means for attaching the second connector to a second object and a bullet connector including a bullet outer connector and bullet inner connector. The bullet outer connector is configured to make a contact with the first and the second connector to form first and second conductive signal paths from the first connector to the second connector. | 2016-02-18 |
20160049739 | THREAD TO COMPRESS CONNECTOR - A cable connector connects a coaxial cable to an interface port by an outer conductor engager, a body and a coupler. The coupler draws the body over a plurality of resilient fingers of the outer conductor engager to urge the fingers into electrical contact with a peripheral outer surface of a stripped/prepared end of a coaxial cable. | 2016-02-18 |
20160049740 | COAXIAL CABLE AND CONNECTOR WITH CAPACITIVE COUPLING - A connector for a plurality of coaxial cables includes: a conductive common base with a contact surface; a plurality of conductive contact pads embedded in the common base, each of the plurality of contact pads having a contact surface; and a plurality of dielectric pads embedded in the common base, each of the dielectric pads surrounding a respective contact pad to isolate the respective contact pad from the common base. | 2016-02-18 |
20160049741 | COMPLIANT STAPLE PIN FOR CONNECTING MULTIPLE PRINTED CIRCUIT BOARDS - Circuit boards are mechanically connected to each other by a U-shaped pin, the legs of which are forcibly inserted into holes along edges of the circuit boards. The holes are conventional through-holes having metal linings that are electrically connected to circuit board traces that extend to components on the circuit boards. The U-shaped pin thus electrically connects components on the two circuit boards to each other. | 2016-02-18 |
20160049742 | MEMORY CARD - A memory card is provided to include a substrate having two pairs of edges facing each other, a plurality of first row terminals that are arranged adjacent to an edge at an insertion side of the substrate and include a first voltage power terminal for applying a first voltage and a first ground terminal, a plurality of second row terminals that are spaced farther apart from the edge at the insertion side than the plurality of first row terminals and include a second voltage power terminal for applying a second voltage and first data terminals, and a plurality of third row terminals that are spaced farther apart from the edge at the insertion side than the plurality of second row terminals and include second data terminals. | 2016-02-18 |
20160049743 | Method for manufacturing plug-type contacts, plug-type contact and component assembly comprising at least one plug-type contact - The invention relates to a method for manufacturing plug-type contacts, in particular press-in contacts ( | 2016-02-18 |
20160049744 | CONNECTOR, AND HEADER AND SOCKET TO BE USED IN THE SAME - A connector includes: a socket having a socket fitting body provided with socket terminals; and a header having a header fitting body provided with header terminals. At least one of a sidewall surface on an inner side of the socket fitting body and a sidewall surface on an outer side of the header fitting body includes a protrusion in which at least one side surface of the both side surfaces in the width direction faces the corresponding opposite surface formed in the sidewall surface of the other fitting body with the socket and header fitting bodies fitted to each other. | 2016-02-18 |
20160049745 | POKE-IN CONNECTOR - The Present Disclosure relates to a poke-in connector configured so that a wire can be contacted at the same time it is locked to a terminal, solely by the action of pushing the wire into the terminal. More specifically, it relates to a poke-in connector that facilitates locking and unlocking of a wire. The poke-in connector of the Present Disclosure comprises a terminal where a wire is inserted and locked while making contact, and a housing that covers the terminal and is formed as one piece with a locking release lever that releases the wire from the locked state. The locking release lever comprises a flexible extension part that has elasticity and extends from the housing, and a pressing part that is formed on the terminus of the flexible extension part and enables the removal of the wire by spreading the locking part of the terminal to either side when pressed. | 2016-02-18 |
20160049746 | ELECTRICAL CABLE ASSEMBLY - An interposer is configured to receive signal conductors of a cable, and align the received signal conductors with contact pads of an electrical connector. The interposer can be dielectric, or electrically insulative, so as to reduce electrical signal reflections and help to prevent electrical shorting between the signal conductors. | 2016-02-18 |
20160049747 | Electric Connector - An electric connector, comprising: a housing, an insulation body received in the housing, and a plurality of terminals held in a plurality of slots of the insulation body. The insulation body comprises a first half body and a second half body separate from the first half body The first half body and the second half body are configured to be detachably assembled together. Therefore, when connecting cables in field, the insulation body may be separated into the first half body and the second half body first. Then the cables may be connected to the terminals held in the first half body and the second half body. The first half body and the second half body may be assembled together after the cables are connected. Using such a detachable insulation body provides larger operation space, thus easing connecting the cables to the terminals in the field. | 2016-02-18 |
20160049748 | Connection Socket for Oven Temperature Sensor - The present invention discloses a connection socket for oven temperature sensor, including a plug guide hole seat, a shell, an inner ceramic plate, an outer ceramic plate, a long lead, a short lead, a long elastic contact clip and a short elastic contact clip, wherein one end of the shell is sleeved and fixed on the plug guide hole seat, and the other end is internally disposed and fixedly provided with the inner ceramic plate and the outer ceramic plate; the long elastic contact clip and the short elastic contact clip respectively traverse the inner ceramic plate and the outer ceramic plate, and are respectively connected with the long lead and the short lead; since lug bosses between the long elastic contact clip and the short elastic contact clip are clamped by the inner ceramic plate and the outer ceramic plate, which ensures the firmness thereof, the stability of being electrically connected with a temperature sensor plug is thus improved. The present invention has simple structure and good insulativity, and has stable electric connection when being connected with a temperature sensor plug, so that the temperature sensor works stably. | 2016-02-18 |
20160049749 | Connector Device - A connector device including a device body having a first end and a second end, a first plurality of slots formed in the device body, the first plurality of slots having a second plurality of openings formed at the first end of the device body and a third plurality of openings formed at the second end of the device body, the second plurality of openings being adapted for insertion of a first set of conductive wires therein, the third plurality of openings being adapted for insertion of a second set of conductive wires therein, a multiplicity of conductive clamping elements disposed in the first plurality of slots, the multiplicity of clamping elements including a first clamping spring disposed within each of the second plurality of openings for clamping the first set of conductive wires therein and a second clamping spring disposed within each of the third plurality of openings for clamping the second set of conductive wires therein, a first fastening ring rotatable over the first end of the device body for simultaneously rotationally fastening the first set of conductive wires in the second plurality of openings and a second fastening ring rotatable over the second end of the device body for simultaneously rotationally fastening the second set of conductive wires in the third plurality of openings, the first and second sets of conductive wires being mutually electrically connected when so fastened. | 2016-02-18 |
20160049750 | DEVICE AND METHOD PROTECTING A CONNECTOR FROM DEBRIS WHILE VALIDATING CONNECTOR POSITION ASSURANCE ENGAGEMENT - The present arrangement provides for a protection device having a deflector element with a receiving slot on its underside and a CPA assist coupled to the deflector element. The CPA assist is configured to be moved from the first pre-staged position to the second active position by pressing the CPA assist to engage a CPA positioned within the CPA slot. The protection device is configured to be placed onto a connector with the receiving slot configured to be placed over a CPA slot on the connector. | 2016-02-18 |
20160049751 | ELECTRICAL CONNECTOR HAVING LATCHES AND METHOD OF MAKING THE SAME - An electrical connector ( | 2016-02-18 |
20160049752 | CONNECTOR AND MANUFACTURING METHOD THEREOF - An electrical connector and a manufacturing method thereof includes a housing made of plastic material and at least one terminal module fixed in the housing. The housing defines a mating portion extending along a front-to-rear direction and the mating portion defines at least one mating surface in a vertical direction. The terminal module includes a plurality of conductive terminals with contacting portions and an insulating block, the housing is injection molded with the terminal module to form the mating portion so that the contacting portions of the conductive terminals are exposed on the mating surface. It is simple to manufacture and conducive to reduce the manufacturing cost. | 2016-02-18 |
20160049753 | HIGH-SPEED ELECTRICAL CONNECTOR - A high-speed electrical connector employs a plurality of electrical contacts held together by a dielectric frame. The contacts are electrically coupled to a substrate within the connector. A gasket may be disposed between the dielectric frame and the substrate and configured to block the flow of an overmold material between the dielectric frame and the substrate such that voids are formed between the contacts. The dielectric frame and the overmold may be made from materials containing silica aerogel. The voids and the aerogel materials result in reduced parasitic capacitance between the contacts enabling higher data transfer speeds. | 2016-02-18 |
20160049754 | DISCRETE PACKAGING ADAPTER FOR CONNECTOR - An adapter has two conductors each with a U-shaped bend forming upper longer legs and lower shorter legs. The conductors face each other with the longer legs linearly aligned with each other and the shorter legs aligned with each other, thereby forming a first gap between the longer legs and a second gap between the shorter legs. The first gap is substantially smaller than the second gap, so that an electrical package can be placed across the first gap to contact the two upper longer legs, while the two shorter legs are spaced further apart to span a larger gap between conductors of a connector. Thus, the adapter enables the electrical package to be connected to conductors having a gap that is larger than the electrical package. | 2016-02-18 |
20160049755 | WATERPROOF AUDIO JACK CONNECTOR - An audio jack connector ( | 2016-02-18 |
20160049756 | ELECTRICAL CONNECTOR - An electrical connector comprises an external conductive sheet, an upper internal conductive sheet, a lower internal conductive sheet and the necessary others. An insulative base is disposed within a casing and includes a top complex, a center complex, and a bottom complex in sequential connection. The upper internal conductive sheet and the lower internal conductive sheet are fixed to the insulative base. Thereafter, an improving electrical connector interface is provided. | 2016-02-18 |
20160049757 | ELECTRICAL CONNECTOR AND PLUG-IN MODULE FOR THE SAME - The present disclosure discloses an electrical connector and a plug-in module. The plug-in module includes a base, a plurality of input terminals, a plurality of output terminals and a PCB module. The base includes a bottom plate, a front plate and a back plate, and a tongue plate extending from the bottom plate forward beyond the front plate; the plurality of input terminals are fixed to the back plate, and two ends of each of the input terminals extend respectively beyond a top end of the back plate and a bottom end of the bottom plate; the plurality of output terminals are fixed to the tongue plate and the front plate, and two ends of each of the output terminals extend respectively beyond a top end of the front plate and the tongue plate; and the PCB module includes at least one circuit board. | 2016-02-18 |
20160049758 | ELECTRICAL CONNECTOR - A connector including: an electrically conductive shell covering a signal wire of a communication cable; a clip formed by punching a plate; and a frame body covering both the electrically conductive shell grounded to the ground wire of a printed circuit board, and the frame body is grounded to a frame. A tab that can be cut off is formed on the clip. The tab is formed to electrically connect the electrically conductive shell and the frame body by contacting the frame body during assembling of the connector. When the tab of the clip is cut off during the assembling of the connector, the electrical connection between the electrically conductive shell and the frame body is interrupted. In the connector, a grounding mode connection to the printed circuit board and a grounding mode connection to the frame can be freely designed by cutting off the tab of the clip. | 2016-02-18 |
20160049759 | ELECTRICAL BUSWAY SPLICE CONNECTOR - A splice connector for a busway system utilizes individual connectors made of a conductive material and having a u-shaped cross-section that fit over ends of a pair of busbars to be connected to each other, and within which are mounted multi-contact louvers that extend the length of the connectors to establish a low impedance electrical connection between the connector and the respective busbars. The louvers are secured in place by a dovetail groove that retains the louvers within the connectors and causes the individual contact sections of the louvers to bow outwardly so as to press against the busbars when the connector is fitted over the busbars. The connectors are snapped into insulative housing halves or sections that align the connectors with the busbars, and that provide isolation between horizontally aligned pairs of connectors. | 2016-02-18 |
20160049760 | CONNECTION SYSTEM FOR PROTECTION BOARDS OF A DISTRIBUTION SYSTEM AND RACK INCORPORATING SAID SYSTEM - Connection system arranged in a rack, for connecting at least one protection board ( | 2016-02-18 |
20160049761 | MANUAL SERVICE DISCONNECT WITH SCREW COVER - A manual disconnect includes a housing and a base attached to the housing by a fastener. The base includes primary terminals. The manual disconnect also includes a plug assembly that includes fuse terminals and a bolt cover. The plug assembly is movable relative to the base between a disconnected position wherein the fuse terminals are not engaged with respective primary terminals, and a primary circuit engaged position wherein the fuse terminals are engaged with respective primary terminals. When the plug assembly is in the primary circuit engaged position the bolt cover is positioned to prevent the fastener from being removed from the housing. | 2016-02-18 |
20160049762 | ARRANGEMENT FOR ELECTRICAL LINES MOUNTED IN A MOTOR VEHICLE - An arrangement for electrical lines is set forth which is mounted in a steering column switching module and/or in a steering wheel mounted on the module, equipped with its ends electrically conductively connected to one of the electrical components, which is fixedly mounted in the steering wheel switching module or in the steering wheel mounted thereon. At least two of the lines are connected with their other free ends to electrical contacts, which are arranged in at least one coupling body ( | 2016-02-18 |
20160049763 | Electrical Outlet Drying Boot - An apparatus for attaching duct work to an electrical outlet or electrical switch, said apparatus comprising: a generally cylindrical tube having a first end having a first diameter and a second end having a second diameter where said second diameter larger than said first diameter; a tapered wall that connects said first and second ends; at least two slots disposed through said tapered cylindrical wall; a gasket disposed about the perimeter of the said second end; at least one bracket, said bracket comprising at least two tabs, said tabs sized and oriented to be inserted into said slots, where said bracket is disposed across the diameter of said second end; means for selectively and releasably attaching said bracket to an electrical outlet. | 2016-02-18 |
20160049764 | MOUNTING ASSEMBLY AND ARRANGEMENT OF A PLUG OF A BAYONET CIRCULAR CONNECTOR ONTO A PANEL OR A WALL, IN PARTICULAR A PANEL OR WALL OF A CONTAINMENT BOX-SHAPED BODY FOR CONTAINING AN ELECTRIC OR ELECTRONIC DEVICE - The present invention concerns a mounting assembly ( | 2016-02-18 |