52nd week of 2020 patent applcation highlights part 64 |
Patent application number | Title | Published |
20200403202 | SINGLE-LAYER LITHIUM ION BATTERY SEPARATORS EXHIBITING HIGH LOW-SHRINKAGE RATES AT HIGH TEMPERATURES - An insulating (nonconductive) microporous polymeric battery separator comprised of a single layer of enmeshed microfibers and nanofibers is provided. Such a separator accords the ability to attune the porosity and pore size to any desired level through a single nonwoven fabric. Through a proper selection of materials as well as production processes, the resultant battery separator exhibits isotropic strengths, low shrinkage, high wettability levels, and pore sizes related directly to layer thickness. The overall production method is highly efficient and yields a combination of polymeric nanofibers within a polymeric microfiber matrix and/or onto such a substrate through high shear processing that is cost effective as well. The separator, a battery including such a separator, the method of manufacturing such a separator, and the method of utilizing such a separator within a battery device, are all encompassed within this invention. | 2020-12-24 |
20200403203 | SEPARATORS FOR VRLA BATTERIES AND METHODS RELATING THERETO - Improved battery separators, batteries, and systems, as well as methods relating thereto are disclosed herein for use in various lead acid batteries such as valve-regulated lead acid (VRLA) batteries that include one or more AGM layers. The improved battery separators described herein may provide a battery system with an advantage of a significantly decreased acid filling time and a significantly increased acid filling speed. Various improved batteries, methods and systems are described herein using such improved battery separators that increase acid filling speed and decrease acid filling time for a VRLA battery. | 2020-12-24 |
20200403204 | CERAMIC-COATED SEPARATORS FOR LITHIUM-CONTAINING ELECTROCHEMICAL CELLS AND METHODS OF MAKING THE SAME - A ceramic-coated separator for a lithium-containing electrochemical cell and methods of preparing the ceramic-coated separator are provided. The ceramic-coated separator may be manufactured by preparing a slurry that includes one or more lithiated oxides and a binder and disposing the slurry onto one or more surfaces of a porous substrate. The slurry may be dried to from a ceramic coating on the one or more surfaces of the porous substrate so as to create the ceramic-coated separator. The ceramic coating may include one or more lithiated oxides selected from Li | 2020-12-24 |
20200403205 | SEPARATOR FOR LITHIUM SECONDARY BATTERY AND LITHIUM SECONDARY BATTERY COMPRISING SAME - Disclosed are a separator for a lithium secondary battery and a lithium secondary battery comprising same. The separator for a lithium secondary battery comprises: a porous substrate; and a coating layer disposed on at least one side of the porous substrate, wherein the coating layer contains heat-resistant organic particles, an organic heat-resistant binder, and an organic adhesive binder, wherein the heat-resistant organic particles have a thermal decomposition temperature of 150° C. or higher and a particle diameter of 100 nm to 300 nm, the organic heat-resistant binder is a first organic material having a glass transition temperature of 130° C. to 200° C., the organic adhesive binder is a second organic material having a glass transition temperature of −40° C. or lower, and the mixing weight ratio of the organic heat-resistant binder and the organic adhesive binder is 7:3 to 9:1. | 2020-12-24 |
20200403206 | BLADE TERMINAL BUS BAR WITH FINGER-PROOFING - A bus bar assembly includes, among other things, a nonconductive terminal cap that is configured to at least partially surround an electrically conductive terminal. The terminal cap has a perimeter wall that is configured to circumscribe at least a portion of the terminal to provide a gap that is configured to expose the terminal. The terminal cap includes a first attachment feature. The terminal cap also includes a bus bar that has an end that is configured to mechanically and electrically engage the terminal in an assembled condition. The terminal cap further includes a nonconductive shroud that encloses the bus bar. The shroud includes a second attachment feature that is configured to removably engage the first attachment feature in the assembled condition to secure the shroud to the terminal cap. | 2020-12-24 |
20200403207 | BUS BAR MODULE - A bus bar includes a plurality of fastening holes in which a plurality of electrodes of a single cell is fastened with a nut, and a plurality of projections formed between the fastening holes and projecting in a direction away from the single cell. A case includes a bus bar hosing portion in which the bus bar is housed, and a support portion disposed in the projection of the bus bar housed in the bus bar housing portion and abutting against a back surface of the projection to support the bus bar. The support portion includes a base portion protruding in an arrangement direction of the fastening holes. At least a part of both side surfaces of the base portion overlaps with an inner side surface of the projection as viewed from a direction perpendicular to a fastening direction in which the bus bar is fastened to the electrode. | 2020-12-24 |
20200403208 | BUS BAR MODULE - A bus bar includes a plurality of fastening holes in which a plurality of electrodes of a single cell is fastened with a nut, and a plurality of projections formed between the fastening holes and projecting in a direction away from the single cell. A case includes a bus bar hosing portion in which the bus bar is housed, and a support portion disposed in the projection of the bus bar housed in the bus bar housing portion and abutting against a back surface of the projection to support the bus bar. The support portion has a width smaller than an interval between inner side surfaces of side plate portions of the projection. | 2020-12-24 |
20200403209 | ELECTRIC WIRE HOLDING STRUCTURE AND BUS BAR MODULE - An electric wire routing groove portion in which an electric wire is hosed includes a bottom portion; a pair of side wall portions that are erected from the bottom portion and are provided facing each other; and locking pieces that protrude from the side wall portions in directions in which the locking pieces approach each other and are formed with a gap through which the electric wire is passed between distal ends of the locking pieces. The side wall portion includes low edge portions formed on both sides of the locking pieces and provided closer to the bottom portion than a position of the locking piece on a bottom portion side. | 2020-12-24 |
20200403210 | BATTERY CELL WITH SERPENTINE TAB - The disclosed technology relates to an electrical feedthrough for a battery cell. The electrical feedthrough may include a pin configured to form an external battery terminal, an insulator surrounding the pin and configured to electrically isolate the pin, a channel, and a serpentine tab electrically coupled to the pin at a first end. The serpentine tab is nested within the channel to minimize use of space within an enclosure of the battery cell thereby increasing energy capacity of the battery cell by eliminating the need to allot space within the enclosure to accommodate the tab. | 2020-12-24 |
20200403211 | ELECTRODE ASSEMBLY WITH IMPROVED CONNECTION BETWEEN CURRENT COLLECTOR AND ELECTRODE TAB AND METHOD OF MANUFACTURING THE SAME - An electrode assembly with improved connection between current collectors and electrode tabs, and a method for manufacturing the same, for assuring safety with respect to overcharge, and battery capacity by improving a connection structure between the electrode tab and the current collector are provided. The electrode assembly for a rechargeable battery includes: an electrode current collector; an uncoated region in which an electrode active material layer is not formed, and provided on one side of the electrode current collector; an electrode tab disposed in the uncoated region; and a conductive adhesion portion that is disposed between the uncoated region and the electrode tab. The conductive adhesion portion comprises a positive temperature coefficient (PTC) material. | 2020-12-24 |
20200403212 | SEALED BATTERY - A sealed battery with a current breaking mechanism, and a conductor member that is, inside the battery, electrically connected to the current breaking mechanism, and that is, outside the battery, electrically connected to the positive electrode external terminal. The current breaking mechanism includes a thin plate-like inversion plate in which an outer peripheral portion thereof is connected to the positive electrode collector member, and an inner peripheral portion thereof is connected to the conductor member. The inversion plate is, upon an increase in pressure inside the battery, capable of having the inner peripheral portion become displaced so as to be separated from the conductor member. An accommodating recess that receives the inner peripheral portion of the inverted collector member separated and displaced from the conductor member is formed in the positive electrode collector member and in a thickness direction of the positive electrode collector member. | 2020-12-24 |
20200403213 | Assembled Battery - Provided is an assembled battery in which a large number of flat batteries can be stacked easily. An assembled battery | 2020-12-24 |
20200403214 | BATTERY, BATTERY PACK HAVING THE SAME, AND ELECTRIC VEHICLE - A battery, a battery pack having the same, and an electric vehicle are provided. The battery includes: a housing; a cover plate located at an end of the housing, the cover plate having a first side region and a second side region arranged in a lateral direction or a longitudinal direction of the cover plate; a terminal disposed on the cover plate, a part of the terminal being located in the first side region, and another part being located in the second side region; a first pole core and a second pole core located in the housing, the first pole core corresponding to a position of the first side region, having a first tab, and connected to the part of the terminal, the second pole core corresponding to a position of the second side region, having a second tab, and connected to the another part of the terminal. | 2020-12-24 |
20200403215 | SECONDARY BATTERY - A secondary battery includes an electrode body including a positive electrode plate and a negative electrode plate; a battery case containing the electrode body; a positive electrode terminal attached to the battery case; a conductive member having an opening adjacent to the electrode body; a deformation plate that seals the opening, and a current collector. The positive electrode plate and the positive electrode terminal are electrically connected to each other via a first positive electrode current collector, the deformation plate, and the conductive member. The deformation plate has a thick portion, which has a larger thickness than the surrounding area, in a central part. The thick portion of the deformation plate is welded to the first positive electrode current collector to form a weld. | 2020-12-24 |
20200403216 | EARLY TRANSITION METAL STABILIZED HIGH CAPACITY COBALT FREE CATHODES FOR LITHIUM-ION BATTERIES - A cathode for a lithium battery includes LiNi | 2020-12-24 |
20200403217 | BATTERY AND BATTERY PACK - According to one embodiment, a battery is provided. The battery includes a positive electrode, and a negative electrode including a negative electrode active material-containing layer including a niobium-titanium composite oxide and a conductive agent that includes a carbon material. The negative electrode active material-containing layer includes a principal surface facing the positive electrode. Assuming that the thickness of the negative electrode active material-containing layer is A, a ratio (C2/C1) of carbon content ratio C2 at a depth of 0.5 A from the principal surface to carbon content ratio C1 at a depth of 1 μm from the principal surface satisfies 2≤C2/C1≤30. | 2020-12-24 |
20200403218 | POSITIVE ELECTRODE ACTIVE MATERIAL FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERY, METHOD FOR PRODUCING SAME, AND NONAQUEOUS ELECTROLYTE SECONDARY BATTERY USING SAID POSITIVE ELECTRODE ACTIVE MATERIAL - Provided is a method for producing the positive electrode active material for nonaqueous electrolyte secondary batteries, including a first step of mixing a Li-metal composite oxide powder which is represented by the general formula: Li | 2020-12-24 |
20200403219 | ELECTRODE GROUP, BATTERY, AND BATTERY PACK - According to one embodiment, an electrode group is provided. The electrode group includes a positive electrode active material-containing layer and a negative electrode active material-containing layer. The negative electrode active material-containing layer contains at least one titanium-containing composite oxide selected from the group consisting of a monoclinic niobium titanium composite oxide and an orthorhombic titanium-containing composite oxide. The electrode group satisfies the following formula: | 2020-12-24 |
20200403220 | CHARGING METHOD OF NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY, AND CHARGING SYSTEM OF NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - A charging method of a non-aqueous electrolyte secondary battery involves a first charging step in which, defining x as the ratio of the capacity of a silicon compound to the rated capacity Q (0.1≤x≤0.5), charging is performed at a first fixed current value I1st that satisfies the expression below; and a high current charging step in which after completion of the first charging step, charging is performed at a fixed current value I | 2020-12-24 |
20200403221 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY - In a nonaqueous electrolyte secondary battery, a positive electrode active material contains a titanium lithium complex oxide that has a lattice shrinkage in charged state of 98.5% or less. A negative electrode mix layer contains a polyacrylic acid or a salt thereof and includes a first layer and a second layer disposed successively from a negative electrode collector. Each of the first layer and the second layer contains a carbon-based negative electrode active material, and the ratio (B/A) of the D-band/G-band ratio (B) of the Raman spectrum of the second layer to the D-band/G-band ratio (A) of the Raman spectrum of the first layer is 2 to 10. The concentration of the polyacrylic acid or a salt thereof in the first layer is higher than the concentration of the polyacrylic acid or a salt thereof in the second layer. | 2020-12-24 |
20200403222 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - Anon-aqueous electrolyte secondary including a positive electrode, a negative electrode, and an electrolyte. The negative electrode includes a negative electrode active material capable of electrochemically absorbing and releasing lithium, and a binder. The negative electrode active material includes a Si-containing material, and the binder includes an acrylic resin. The electrolyte includes a non-aqueous solvent, and a lithium salt dissolved in the non-aqueous solvent. The lithium salt includes lithium bis(fluorosulfonyl)imide: LFSI. | 2020-12-24 |
20200403223 | POSITIVE ELECTRODE FOR LITHIUM ION BATTERY, LITHIUM ION BATTERY AND METHOD OF PRODUCING POSITIVE ELECTRODE FOR LITHIUM ION BATTERY - A positive electrode ( | 2020-12-24 |
20200403224 | LITHIUM MOLYBDATE ANODE MATERIAL - A high capacity anode material comprising pre-lithiated α-MoO | 2020-12-24 |
20200403225 | MATERIALS AND METHODS FOR ELECTRODE FABRICATION - Provided herein are materials for use and processes of forming a material suitable for use in coating an electrically conductive substrate as used in an electrode for an electrochemical cell. The processes combine a cathode active material, a binder comprising a halogenated hydrocarbon polymer, a solvent, and an additive suitable for reacting with a double unsaturation when formed on the binder, and intermixing the cathode slurry to produce a cathode coating material. The presence of the additive is to react with one or more conjugated dienes formed by reaction of the binder with the cathode active material or portion thereof so as to prevent gelling or unacceptable increases in viscosity during electrode formation or storage of the cathode coating material. | 2020-12-24 |
20200403226 | POSITIVE ELECTRODE ACTIVE MATERIAL, METHOD FOR PRODUCING POSITIVE ELECTRODE ACTIVE MATERIAL, POSITIVE ELECTRODE, AND SECONDARY BATTERY - The invention discloses a positive electrode active material for a magnesium secondary battery or lithium ion secondary battery, including: a particle including a nucleus and a crystal of vanadium oxide grown from the nucleus as a starting point and having a maximum length of 5 μm or less in the major axis direction. | 2020-12-24 |
20200403227 | METHOD OF MANUFACTURING CATHODE COMPOSITE FOR ALL-SOLID-STATE BATTERY AND METHOD OF MANUFACTURING ALL-SOLID-STATE BATTERY COMPRISING SAME - The present disclosure relates to a method of manufacturing a cathode composite for an all-solid-state battery and a method of manufacturing an all-solid-state battery including the same. In particular, the present disclosure relates to a method of manufacturing a cathode composite for an all-solid-state battery in which the cathode composite is manufactured by mixing a solid electrolyte, a conductive material and a cathode active material with a solvent, and then performing two-step vacuum drying, whereby interfacial resistance between the cathode active material, the solid electrolyte and the conductive material is reduced to thus increase ionic conductivity, thereby improving battery performance and capacity, and a method of manufacturing an all-solid-state battery including the same. | 2020-12-24 |
20200403228 | POSITIVE ELECTRODE MATERIAL FOR RECHARGEABLE LITHIUM ION BATTERIES - A bimodal lithium transition metal oxide based powder mixture comprises a first and a second lithium transition metal oxide based powder. The first powder comprises particles of a material A comprising the elements Li, a transition metal based composition M and oxygen. The first powder has a particle size distribution characterized by a (D90−D10)/D50≤1.5. The second powder comprises a material B having single crystal particles, said particles having a general formula Li | 2020-12-24 |
20200403229 | ACTIVE MATERIAL, ELECTRODE, SECONDARY BATTERY, BATTERY PACK, AND VEHICLE - According to one embodiment, there is provided an active material represented by a general formula Li | 2020-12-24 |
20200403230 | NEGATIVE ELECTRODE FOR LITHIUM SECONDARY BATTERY AND MANUFACTURING METHOD THEREOF - A negative electrode for a lithium secondary battery, where the negative electrode includes a negative electrode current collector, a negative electrode active material layer, a lithium layer that is positioned between the negative electrode current collector and the negative electrode active material layer, and a primer layer that is positioned between the negative electrode current collector and the lithium layer, and a manufacturing method thereof. This results in a simple method and a negative electrode with high capacity characteristics. | 2020-12-24 |
20200403231 | Multi-Layered Anode Containing Silicon-Based Compound and Lithium Secondary Battery Including the Same - The present disclosure relates to an anode for a lithium secondary battery and a lithium secondary battery including the same, wherein the anode includes an anode current collector; a first anode active material layer formed on at least one surface of the anode current collector and containing a mixture of natural graphite and artificial graphite in a weight ratio of 13˜34:66˜87 and a first binder as the anode active material; and a second anode active material layer formed on the first anode active material layer and containing a mixture of artificial graphite and a silicon-based compound in a weight ratio of 91˜99:1˜9 and a second binder as the anode active material. | 2020-12-24 |
20200403232 | ENERGY DENSE MATERIALS FOR REDOX FLOW BATTERY - Redox flow battery performance may be improved with a metal containing ionic liquid as a liquid electrolyte. Metal containing ionic liquids are liquids at all temperatures of interest and therefore do not need dilution. As such, voltage separation between the anolyte and catholyte may exceed 0.5 V and therefor rival current state-of-the-art energy storage technologies and with higher voltage separation may attain energy densities above 100 Wh/L. | 2020-12-24 |
20200403233 | Anode Materials For Lithium Batteries And Methods Of Making And Using Same - An electrochemically active material includes an active phase that includes silicon, and at least one inactive phase having a Scherrer Grain Size of greater than 5 nanometers. Each inactive phase of the material having a Scherrer Grain Size of greater than 5 nanometers has a lattice mismatch to Li | 2020-12-24 |
20200403234 | ELECTROCHEMICAL MATERIALS INCLUDING SOLID AND LIQUID PHASES - Electrochemical devices, and associated materials and methods, are generally described. In some embodiments, an electrochemical device comprises an electroactive material. The electroactive material may comprise an alloy having a solid phase and a liquid phase that co-exist with each other. As a result, such a composite electrode may have, in some cases, the mechanical softness to permit both high energy densities and an improved current density as compared to, for example, a substantially pure metal electrode. | 2020-12-24 |
20200403235 | NEGATIVE ELECTRODE ACTIVE MATERIAL FOR LITHIUM SECONDARY BATTERY AND PREPARATION METHOD THEREOF - A negative electrode active material for a lithium secondary battery, which includes a silicon-based particle represented by M-SiO | 2020-12-24 |
20200403236 | CONTINUOUS PROCESSING CHAMBERS - This disclosure is directed to a continuous processing chamber that includes: a material shaft through which the material introduced by an inlet may be transported and discharged through an outlet; optionally an inner gas transfer tube in fluid communication with the material shaft with an inner filtration wall that encases at least a portion of the inner gas transfer tube and is in fluid communication with both the material shaft and the inner gas transfer tube; optionally an outer filtration wall that encases at least a portion of the material shaft and is in fluid communication with the material shaft and associated with an outer gas transfer tube. The continuous processing chamber may be incorporated into methods for treating the material to produce a lithiated product. | 2020-12-24 |
20200403237 | POSITIVE MANGANESE LITHIUM OXIDE-STABILISED ELECTRODE FOR A SECONDARY LITHIUM BATTERY AND A METHOD FOR PRODUCING SAME - The present invention provides the compound LiMn | 2020-12-24 |
20200403238 | CATHODE ACTIVE MATERIAL FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD OF MANUFACTURING CATHODE ACTIVE MATERIAL FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - A cathode active material for a non-aqueous electrolyte secondary battery including primary particles of a lithium nickel complex oxide represented by a general formula: Li | 2020-12-24 |
20200403239 | POSITIVE ACTIVE MATERIAL, METHOD OF PREPARING THE SAME, AND LITHIUM SECONDARY BATTERY INCLUDING THE SAME - Provided is a positive active material in which a compound containing lithium, a transition metal, and oxygen is doped with a doping metal, the positive active material including lithium (Li) layers, in which the lithium layers may include a first lithium layer including only lithium and a second lithium layer in which at least a part of the lithium of the first lithium layer is substituted with a transition metal. | 2020-12-24 |
20200403240 | POSITIVE ACTIVE MATERIAL, METHOD OF PREPARING THE SAME, AND LITHIUM SECONDARY BATTERY INCLUDING THE SAME - Provided is a positive active material. The positive active material includes a secondary particle in which a plurality of primary particles is agglomerated, in which a compound containing nickel, lithium, and oxygen is doped with boron,and a concentration of nickel may be 79 mol % or more. | 2020-12-24 |
20200403241 | Li-Ni COMPOSITE OXIDE PARTICLES AND NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - The present invention provides positive electrode active substance particles comprising a lithium nickelate composite oxide which have a high energy density and are excellent in repeated charge/discharge cycle characteristics when charging at a high voltage, as well as a non-aqueous electrolyte secondary battery. The present invention relates to positive electrode active substance particles each comprising a core particle X comprising a lithium nickelate composite oxide having a layer structure which is represented by the formula: Li | 2020-12-24 |
20200403242 | ANODE SLURRY COMPOSITION - An anode slurry composition that can be applied to the production of anodes to cope with shrinkage and expansion by repeated charge and discharge. The anode slurry composition also provides an excellent binding force between active materials and adhesive force to a current collector. An anode and a secondary battery comprising the anode slurry composition are also provided. | 2020-12-24 |
20200403243 | BINDER COMPOSITION FOR NON-AQUEOUS SECONDARY BATTERY, SLURRY COMPOSITION FOR NON-AQUEOUS SECONDARY BATTERY FUNCTIONAL LAYER, FUNCTIONAL LAYER FOR NON-AQUEOUS SECONDARY BATTERY, BATTERY MEMBER FOR NON-AQUEOUS SECONDARY BATTERY, AND NON-AQUEOUS SECONDARY BATTERY - Provided is a binder composition for a non-aqueous secondary battery containing: a particulate polymer formed of a block copolymer including an aliphatic conjugated diene monomer unit and a block region formed of an aromatic vinyl monomer unit; at least one saturated hydrocarbon selected from the group consisting of a chain alkane having a carbon number of not less than 5 and not more than 8 and a cycloalkane having a carbon number of not less than 5 and not more than 8; and water. The content of the saturated hydrocarbon is not less than 0.001 parts by mass and not more than 0.1 parts by mass per 100 parts by mass of the particulate polymer. | 2020-12-24 |
20200403244 | BINDER, COMPOSITION, ELECTRODE MATERIAL, AND METHOD FOR MAKING ELECTRODE MATERIAL - A binder for an electrochemical battery is provided, which is a copolymer including a first repeating unit and a second repeating unit. The first repeating unit has a first side moiety. The second repeating unit has a second side moiety. A first terminal group of the first side moiety is a polar functional group. A second terminal group of the second side moiety is an epoxy group. A composition including the binder and active material particles, an electrode material for the electrochemical battery, and a method for making the electrode material are further provided. | 2020-12-24 |
20200403245 | MINIATURE ELECTROCHEMICAL CELL HAVING A CASING COMPRISING OPPOSED CERAMIC SUBSTRATES HOUSING AN ELECTRODE ASSEMBLY ACTIVATED WITH A SOLID ELECTROLYTE - A miniature electrochemical cell having a volume of less than 0.5 cc is described. The cell has a casing of first and second ceramic substrates that are hermetically secured to each other to provide an internal space housing an electrode assembly. First and second conductive pathways extend through the ceramic substrates. The pathways have respective inner surfaces that are conductively connected to the respective anode and cathode current collectors and respective outer surfaces that provide for connection to a load. An electrolyte in the internal space of the housing activates the electrode assembly. | 2020-12-24 |
20200403246 | CURRENT COLLECTOR FOR ELECTRICAL STORAGE DEVICE, METHOD FOR PRODUCING THE SAME, AND COATING LIQUID USED IN SAID PRODUCTION METHOD - A current collector for electrical storage device includes a sheet-shaped conductive substrate and a coating layer disposed on one or both sides of the conductive substrate. The coating layer includes a powdery carbon material, acid-modified polyvinylidene fluoride and polyvinylpyrrolidone. The content of the polyvinylpyrrolidone is 0.099 to 5.0 mass %. The content of the powdery carbon material in the coating layer is 15.0 to 45.0 mass %. Also disclosed is a coating liquid for producing the current collector for electrical storage device as well as a method for producing the current collector for electrical storage device. | 2020-12-24 |
20200403247 | PROTECTIVE LAYER FOR AN ANODE OF A LEAD ACID BATTERY - In an aspect, a lead acid battery comprises a sealed casing comprising sulfuric acid; an anode and a cathode that are both at least partially immersed in the sulfuric acid; wherein the anode comprises a current collector, an active layer, and a protective layer located in between the current collector and the active layer; wherein the protective layer comprises an electrically conductive carbon, a crosslinked, acid functionalized polymer, and an aliphatic acid or derivative thereof, wherein the aliphatic acid comprises a C | 2020-12-24 |
20200403248 | REDOX FLOW BATTERY ELECTRODE, AND REDOX FLOW BATTERY - A redox flow battery electrode includes an aggregate of a base containing carbon. When, on a cross section of the base, a circle that is centered at a center of gravity of the base and that has a diameter which is 95% of an isoarea equivalent circle diameter of the base is defined as a reference circle, the base includes a plurality of penetrating holes which extend from a surface toward an interior of the base and whose paths along extension directions of the penetrating holes are partially present within the reference circle. | 2020-12-24 |
20200403249 | LOCALLY ENGINEERED PEM CELLS COMPONENTS WITH OPTIMIZED OPERATION FOR IMPROVED DURABILITY - A PEM fuel or electrolysis cell with an extended lifetime, improved performance and uniform and stable operation is disclosed wherein a membrane electrode assembly is provided with a gradient of one or more properties in combination with a modification of one or more control parameters of the cell during its operation. | 2020-12-24 |
20200403250 | FUEL CELL INTERCONNECT WITH IRON RICH RIB REGIONS AND METHOD OF MAKING THEREOF - A method of making an interconnect for a solid oxide fuel cell stack includes providing an iron rich material containing at least 25 wt. % iron into channels of a mold, providing a powder containing 4-6 wt. % Fe, 0-1 wt. % Y and balance Cr into the mold over the iron rich material containing at least 25 wt. % iron, compacting the iron rich material containing at least 25 wt. % iron and the powder comprising 4-6 wt. % Fe, 0-1 wt. % Y and balance Cr in the mold to form the interconnect, and sintering the interconnect to form a sintered interconnect having iron rich regions having an iron concentration greater than 10% in ribs of the interconnect. | 2020-12-24 |
20200403251 | BATTERY - A battery including: a casing having a cylindrical portion, an end portion configured for covering an opening disposed in an end of the cylindrical portion, and an inner surface defining a chamber in which an electrolyte is disposed therein; a conductive surface located within the chamber adjacent the inner surface of the casing, the conductive surface being configured for electrical communication with an anode terminal of the battery; a permeable separator sheet located within the casing configured for electrically isolating the electrolyte from the conductive surface; a conductive rod having a first end configured for electrical communication with a cathode terminal of the battery, and, a second end of the conductive rod configured for electrical communication with the electrolyte; wherein the end portion and the cylindrical portion are movably attached to each other, the end portion and cylindrical portion being movable relative to each other between at least a first attached position whereby the end portion covers the opening disposed at the end of the cylindrical portion so as to substantially block ingress of a liquid into the casing via the opening, and, a second attached position whereby the end portion is displaced from the end of the cylindrical portion so as to allow ingress of a liquid into contact with the electrolyte in the chamber via the opening so that the electrolyte is suitable for allowing a potential difference to be generated between the conductive surface and the conductive rod of the battery. | 2020-12-24 |
20200403252 | FUEL BATTERY - A porous metal body including a skeleton having a three-dimensional mesh-like structure, the porous metal body having a plate-like overall shape. The skeleton has a hollow structure and includes a primary metal layer and at least one of a first microporous layer and a second microporous layer. The primary metal layer is composed of nickel or a nickel alloy. The first microporous layer contains nickel and chromium and is disposed on the outer peripheral surface of the primary metal layer. The second microporous layer contains nickel and chromium and is disposed on the inner peripheral surface of the primary metal layer, the inner peripheral surface facing the hollow space of the skeleton. | 2020-12-24 |
20200403253 | FUEL CELL STACK - In a fuel cell stack, an electrically insulating frame shaped resin film having a constant thickness is provided on an outer peripheral side of a power generation surface of an MEA. An outer peripheral end of the resin film protrudes outside of a first outer peripheral end of a first metal separator and a second outer peripheral end of a second metal separator over the entire periphery. | 2020-12-24 |
20200403254 | METHOD AND DEVICE FOR FORECASTING SERVICE LIFE AND REMAINING LIFE OF FUEL CELL - Disclosed are a method and device for forecasting the service life and remaining life of a fuel cell. The method comprises: determining an end of life on the basis of the attenuation percentage of the current or power of a fuel cell at a constant voltage, completing the activation of the fuel cell, measuring a first polarization curve of the fuel cell; when the fuel cell runs for a preset time, measuring the second polarization curve of the fuel cell; acquiring the voltage attenuation rate or a current attenuation time constant of the fuel cell, and acquiring the service life and remaining life of the fuel cell via a forecasting formula. | 2020-12-24 |
20200403255 | CPOX REACTOR CONTROL SYSTEM AND METHOD - A fuel reformer module (8005) for initiating catalytic partial oxidation (CPOX) to reform a hydrocarbon fuel oxidant mixture (2025, 3025) to output a syngas reformate (2027) to solid oxide fuel cell stack (2080, 5040). A solid non-porous ceramic catalyzing body (3030) includes a plurality of catalyst coated fuel passages (3085). A thermally conductive element (9005, 10005, 11005, 13005), with a coefficient of thermal conductivity of 50 W/m° K or greater is thermally conductively coupled with the catalyzing body. A first thermal sensor (8030) is thermally conductively coupled with the thermally conductive element. A second thermal sensor is thermally conductively coupled with a surface of the fuel cell stack. A control method independently modulates an oxidant input flow rate, based on first thermal sensor signal values, a hydrocarbon fuel input flow rate, based on second thermal sensor signal values. | 2020-12-24 |
20200403256 | FUEL CELL SYSTEM - A fuel cell system includes a first fuel cell, second fuel cell, first voltage detector, second voltage detector, and controller. The first voltage detector detects voltage of first unit cells of the first fuel cell for every “N” unit cells on average, and the second voltage detector detects voltage of the second fuel cell as a whole, or detects voltage of second unit cells of the second fuel cell for every “M” unit cells on average, where “M” is larger than “N”. The controller determines whether any of the second unit cells is in a fuel deficiency state, based on the detection result of the first voltage detector, when a predetermined condition under which states of the first fuel cell and the second fuel cell are regarded as being close to each other is satisfied. | 2020-12-24 |
20200403257 | FUEL CELL SYSTEM - A fuel cell system includes a first fuel cell having first unit cells stacked together, a second fuel cell having second unit cells stacked together, a first voltage detector, a second voltage detector, and a controller. The first voltage detector detects voltage of the first unit cells for every “N” unit cells on average, and the second voltage detector detects voltage of the whole second fuel cell, or detects voltage of the second unit cells for every “M” unit cells on average. The controller determines whether any of the first unit cells is in a fuel deficiency state, by referring to a detection result of the first voltage detector, and performs a cancellation process to cancel the fuel deficiency state, on the first fuel cell that is in a power generating state, while stopping power generation of the second fuel cell, when an affirmative decision is obtained. | 2020-12-24 |
20200403258 | AMMONIA FUEL CELL SYSTEM AND ELECTRIC DEVICE - An ammonia fuel cell system and an electric device are described. The ammonia fuel cell system includes an ammonia decomposition reaction device, a heating device, a hydrogen fuel cell, a DC/DC converter and an inverter connected successively, a battery pack and a heat exchanger. The heat exchanger of the system, can preheat ammonia gas by energy generated by ammonia decomposition, thereby recycling heat waste. The battery pack supports a quick response and stable output to quickly cope with the acceleration and deceleration of the electric device. This improves the stability of the system operation, and electric energy generated by the hydrogen fuel cell or electric energy in the battery pack can be transferred to the outside. The battery pack or the heating device can provide energy to the ammonia decomposition reaction device, so there is no need to supply outside energy to the ammonia decomposition reaction device. | 2020-12-24 |
20200403259 | Carbon dioxide-Carbonate powered engine - The following is a design for a carbon dioxide-carbonate powered engine, which utilizes the chemical energy derived from the reaction between stored aqueous calcium carbonate (CaCO | 2020-12-24 |
20200403260 | LOW PRESSURE CARBON DIOXIDE REMOVAL FROM THE ANODE EXHAUST OF A FUEL CELL - A fuel cell system for removing carbon dioxide from anode exhaust gas includes: a fuel cell having an anode configured to output an anode exhaust gas comprising hydrogen, carbon monoxide, carbon dioxide, and water; an anode gas oxidizer; and an absorption system configured to receive the anode exhaust gas, the absorption system including: an absorber column configured to absorb the carbon dioxide from the anode exhaust gas in a solvent and to output a resultant gas comprising hydrogen and a hydrocarbon that is at least partially recycled to the anode; and a stripper column configured to regenerate the solvent and to output a carbon dioxide-rich stream. The anode gas oxidizer is configured to receive and oxidize an anode gas oxidizer input stream and at least a portion of the carbon dioxide-rich stream. The anode gas oxidizer input stream comprises a portion of the anode exhaust gas. | 2020-12-24 |
20200403261 | ASSEMBLY COMPRISING A SOEC/SOFC-TYPE SOLID OXIDE STACK, A CLAMPING SYSTEM, AND A HEAT EXCHANGE SYSTEM - An assembly includes an SOEC/SOFC-type solid oxide stack, a clamping system for clamping the stack, including at least two clamping rods that can be used to assemble upper and lower clamping plates, and a coupling system for high-temperature fluid-tight coupling of the stack to a heating system for supplying and discharging gas. The coupling system includes a collector with collection ducts for supplying and discharging gas, each provided with a collecting port positioned facing a corresponding communication port of at least one of the upper and lower clamping plates, and seals each placed between a collecting port and a corresponding communication port. | 2020-12-24 |
20200403262 | CELL STACK AND REDOX FLOW BATTERY - A cell stack including; a stacked body including a plurality of cell frames each having a bipolar plate whose outer periphery is supported by a frame member; and a pair of end plates that tighten the stacked body from both sides of a stacking direction thereof, wherein an area S [cm | 2020-12-24 |
20200403263 | METHOD FOR MANUFACTURING SECONDARY BATTERY - The present invention is a method for manufacturing a secondary battery. An electrode assembly and an electrolyte are accommodated into a body of a battery case. The body of the battery case has an accommodation part and a gas pocket part, and a passage that extends from the accommodation part to the outside discharges an internal gas from the accommodation part through the gas pocket part. The battery case is seated in a seating step on a support block, which has an inclined part on a side surface thereof, to support the battery case. The body is pressed to discharge a gas accommodated in the accommodation part through the gas pocket part in the battery case. This method allows easy discharging of internal gas while reducing discharge of the electrolyte with the gas. | 2020-12-24 |
20200403264 | WOUND ELECTRODE ASSEMBLY - A wound electrode assembly, including a first electrode plate including a first current collector and a second electrode plate including a second current collector, wherein the second electrode plate includes a second empty foil segment, the second empty foil segment surrounds the first electrode plate, the second empty foil segment is configured as a tail segment of the second electrode plate, in the second empty foil segment, a surface of the second current collector opposite to the first electrode plate is coated with active substance, a surface of the second current collector away from the first electrode plate is coated with the active substance. The wound electrode assembly to effectively avoids lithium dendrite while improving the utilization of the battery material and the energy density of the battery, thereby improving the safety performance of the battery. | 2020-12-24 |
20200403265 | COMPOSITE ELECTRODE PLATE AND BATTERY CELL USING THE SAME - A composite electrode plate of increased robustness and with better electrical properties for incorporation in a battery cell includes a composite current collector, a positive active material layer, a negative active material layer, a first isolation layer, and a second isolation layer. The composite current collector is disposed between the positive active material layer and the negative active material layer. The first isolation layer connects to a surface of the positive active material layer away from the composite current collector. The second isolation layer connects to a surface of the negative active material layer away from the composite current collector. | 2020-12-24 |
20200403266 | SOLID ELECTROLYTE, AND PREPARATION METHOD THEREFOR AND APPLICATION THEREOF - The present invention discloses a solid-state electrolyte and a preparation method and application thereof, the solid-state electrolyte comprises membrane material(s) and electrolyte salt(s), the organic phase of the membrane material(s) comprises a three-dimensionally interconnected interface and has a specific interfacial area greater than or equal to 1×10 | 2020-12-24 |
20200403267 | HIGH-VOLTAGE SOLID-STATE LITHIUM-ION BATTERY WITH RATIONAL ELECTRODE-ELECTROLYTE COMBINATIONS - A lithium-ion battery cell is formed of a layer of anode material comprising a mixture of anode active material particles and particles of a first solid electrolyte composition, an electrolyte layer of solid electrolyte particles of a second solid electrolyte composition, and a layer of cathode material comprising a mixture of cathode active material particles and particles of a third solid electrolyte compositions. In the cell, the three solid electrolyte compositions are varied to enhance the performance of the cell. Layers of interlayer material are placed between one or both of the layers of electrode material and the solid electrolyte material and/or between electrolyte layers. And, optionally, the otherwise solid-state cell is infiltrated with a suitable liquid electrolyte. These variables are managed to enhance macro/micro interfaces between the solid materials and layers and to improve the electrochemical performance of the cell, especially for high-voltage cathode material. | 2020-12-24 |
20200403268 | BATTERY SYSTEM AND PRODUCTION METHOD - One variation of a battery unit includes: a substrate including silicon and defining a cell, wherein the cell includes a base encompassed by a continuous wall and a set of posts extending normal to the base; an electrolyte material coating vertical surfaces of each post, in the set of posts, and vertical surfaces of the continuous wall in the cell; a cathode material filling the cell over the electrolyte material, between posts in the set of posts, and between the set of posts and the continuous wall; a seal extending along a top of the continuous wall; and a cathode current collector bonded to the seal, electrically coupled to the cathode material, and cooperating with the substrate to enclose the cell to form a single-cell battery. | 2020-12-24 |
20200403269 | LITHIUM SOLID ELECTROLYTE AND METHOD OF MANUFACTURE THEREOF - A method of manufacturing a lithium solid electrolyte, the method including: providing a composition including a lithium precursor, a lanthanum precursor, and a zirconium precursor; disposing the composition on a substrate having a temperature of 270° C. to 500° C. to form a film; and heat-treating the film at 300° C. to less than 750° C. for 1 hour to 100 hours to manufacture the lithium solid electrolyte. | 2020-12-24 |
20200403270 | ALL SOLID STATE BATTERY AND ALL SOLID STATE BATTERY SYSTEM - A main object of the present disclosure is to provide an all solid state battery with high coulomb efficiency even when the thickness of an anode active material layer is varied due to charge and discharge. The above object is achieved by providing an all solid state battery comprising: a power generation element including a cathode, a solid electrolyte layer, and an anode, in this order, and an exterior body storing the power generation element, and the anode includes at least an anode current collector, and the anode current collector includes a current collection part, and an elastic part placed on other side of the solid electrolyte layer, with respect to the current collection part. | 2020-12-24 |
20200403271 | SULFUR-BASED COMPOSITE CATHODE-SEPARATOR LAMINATIONS AND BATTERY CELLS COMPRISING THE SAME - Composite cathode-separator laminations (CSL) include a current collector with sulfur-based host material applied thereto, a coated separator comprising an electrolyte membrane separator with a carbonaceous coating, and a porous, polymer-based interfacial layer (PBIL) forming a binding interface between the carbonaceous coating and the host material. The host material includes less than about 6% polymeric binder, and less than about 40% electrically conductive carbon, with the balance comprising one or more sulfur compounds. The PBIL can have a thickness of less than about 5 μm and a porosity of about 5% to about 40%. The host material can comprise less than about 40% conductive carbon (e.g., graphene) and have a porosity of less than about 40%. The carbonaceous coating (e.g., graphene) can have a thickness of about 1 μm to about 5 μm. The CSL can be disposed with an anode within an electrolyte to form a lithium-sulfur battery cell. | 2020-12-24 |
20200403272 | ADDITIVE, ELECTROLYTE FOR RECHARGEABLE LITHIUM BATTERY AND RECHARGEABLE LITHIUM BATTERY INCLUDING THE SAME - An additive, an electrolyte for a rechargeable lithium battery, and a rechargeable lithium battery, the additive being represented by Chemical Formula 1: | 2020-12-24 |
20200403273 | ELECTROLYTES FOR RECHARGEABLE METAL-SULFUR BATTERIES - One embodiment disclosed herein is an electrolyte composition comprising:
| 2020-12-24 |
20200403274 | ALL SOLID BATTERY - An all solid battery includes: a solid electrolyte layer of which a main component is oxide-based solid electrolyte; a first electrode layer that is provided on a first main face of the solid electrolyte layer and includes an active material; and a second electrode layer that is provided on a second main face of the solid electrolyte layer and includes an active material, wherein at least one of the first electrode layer and the second electrode layer includes an aggregate of carbon particles and a cavity, wherein the aggregate demarcates at least a part of the cavity. | 2020-12-24 |
20200403275 | POWER STORAGE ELEMENT - A protruding portion of a current collecting foil is provided at one end in a width direction over an entire length in a longitudinal direction. A first end of a positive electrode plate, which is located on a side on which the protruding portion is provided, is located outward of a second end in the width direction, the second end being an end of a positive electrode active material layer in the width direction located adjacent to the protruding portion. An insulating tape is interposed between a positive electrode plate and the negative electrode plate. Regarding a size and a position of the insulating tape, the insulating tape is provided in a region including the second end and the first end in the width direction, and the insulating tape is provided in a region including longitudinal ends of the positive electrode plate in the longitudinal direction. | 2020-12-24 |
20200403276 | NEGATIVE ELECTRODE INCLUDING MICROCAPSULE AND LITHIUM ION SECONDARY BATTERY INCLUDING THE NEGATIVE ELECTRODE - A negative electrode for a lithium ion secondary battery, the negative electrode including a negative electrode current collector and a negative electrode mixture layer that is applied to at least one side of the negative electrode current collector, the negative electrode mixture layer containing a negative electrode active material, a conductive auxiliary, a binder, a polymer particle having a softening point of from 70° C. to 150° C., and a thermally expandable microcapsule having a maximum volume expansion temperature that is higher than the softening point of the polymer particle. | 2020-12-24 |
20200403277 | POWER STORAGE DEVICE DISCHARGE CIRCUIT, POWER STORAGE SYSTEM, AND VEHICLE EQUIPPED WITH SAME - A discharge circuit includes a plurality of burden circuits that are electrically connected in parallel to a plurality of power storage units, respectively. Each of the plurality of burden circuits includes (i) a resistor and a switch that are electrically connected in series between both ends of a corresponding one of the plurality of power storage units, and (ii) a control terminal that controls the switch according to a potential of the control terminal. The plurality of burden circuits are electrically connected in series between a positive electrode and a negative electrode. The control terminal of a n+1-th burden circuit from a reference point is electrically connected, via the switch of the n-th burden circuit from the reference point, to a reference point side terminal of a n-th power storage unit from the reference point. The reference point is the positive electrode or the negative electrode. | 2020-12-24 |
20200403278 | BATTERY SYSTEM FOR A HEAD-MOUNTED DISPLAY - Systems and methods for a flexible, head-mounted display is provided. The head-mounted display system may comprise a base member and one or more arm members that are coupled to the base member. Each of the arm members are coupled to the base member via a hinge that allows the arm members to move with respect to one another. Interior walls of the arm members and base member may define one or more chambers. One or more first batteries are positioned within a chamber in the first arm member and one or more second batteries are positioned within a chamber in the second arm member. One or more wired connections coupled to the batteries extend through the arm member(s) and hinges, and into one or more chambers in the base member, where the one or more wired connections are coupled to a battery monitor. | 2020-12-24 |
20200403279 | ASYMMETRIC BATTERY PACK WITH VARIED ELECTRODE AND CURRENT COLLECTOR PROPERTIES TO ACHIEVE C-RATE BALANCING - The disclosed technology relates to battery packs having battery cells of different designs or capacities with an imbalance in the charging and/or discharging current supplied to and provided by each jelly roll due to differences in capacity specific impedance between the battery cells of a battery pack. The battery pack includes at least a first and second battery cell connected in parallel, with a thickness of an active layer and/or current collector of a battery cell having an altered thickness to reduce an impedance of the battery cell. | 2020-12-24 |
20200403280 | AN ARRANGEMENT FOR COOLING OF ELECTRICAL ENERGY STORAGE UNITS - The present invention relates to an arrangement for cooling of a plurality of electrical energy storage units. The arrangement comprises a tubular element forming a cooling channel for a cooling medium which has an extension between an inlet opening and an outlet opening. The tubular element comprises a first plane wall element and a second plane wall element arranged in parallel at a distance from each other which is smaller than the height of the electrical energy storage units and that the first plane wall element comprises through holes each configured to receive and define a mounting position of an electrical energy storage unit in the cooling channel. | 2020-12-24 |
20200403281 | Thermal Runaway Shield Enclosure for Li-Ion Battery Packs/Cells - An apparatus for a thermal runaway shield enclosure for Li-ion batteries is disclosed. The apparatus comprises a thermal runaway shield (“TRS”) case having rigid walls with openings on at least one side of the case, and a heat-resistant, permeable fabric configured to line interior walls of the TRS case, wherein at least one Li-ion battery is placed inside the TRS case. | 2020-12-24 |
20200403282 | ENERGY STORAGE SYSTEM - An energy storage system has at least one energy storage module. Each module has a plurality of energy storage devices. Each energy storage device has at least one electrically conducting cell tab electrically connected to electrodes of the energy storage device with one end of the cell tab protruding from the energy storage device. The energy storage module further includes a cooler for each energy storage device, the cooler having one or more enclosed cooling channels in contact with one surface of the energy storage device. The cooler has an electrically non-conducting material. The cooler further includes a section of the cooling channels thermally coupled to the protruding end of the cell tab. | 2020-12-24 |
20200403283 | SELF-ACTIVATING THERMAL MANAGEMENT SYSTEM FOR BATTERY PACK - A battery system can include an evaporation chamber and condenser. One or more battery cells can be immersed in a fluid where the battery cells and the fluid are housed in the evaporation chamber. The condenser can be fluid connected to the evaporation chamber through one or more vapor channels and one or more liquid channels. When the battery cells charge and discharge, heat dissipated by the battery cells is absorbed by the fluid, causing the fluid to change from liquid to vapor. The vapor travels through the one or more vapor channels into the condenser where the vapor changes back to liquid and returns to the evaporation chamber through the one or more liquid channels. The thermal management solution is a self-sensing and self-regulating system. | 2020-12-24 |
20200403284 | Heating Device for a Prismatic Battery Cell of a High-Voltage Battery of a Motor Vehicle, Battery Cell, Battery Module, High-Voltage Battery and Motor Vehicle - A heating device for a prismatic battery cell of a high-voltage battery of a motor vehicle includes two sheet-shaped heating elements to be arranged on two opposite lateral outer sides of a cell housing of the battery cell, and two connecting elements to be arranged on a housing cover of the cell housing. The connecting elements are electrically connected to terminals of the two heating elements. The connecting elements are flexibly formed, at least in certain regions, and as a result the heating elements are connected in a hinge-like manner. The heating device can be arranged by arranging the first heating element on the first lateral outer side of the cell housing, swinging the second heating element over the housing cover, and arranging the second heating element on the second lateral outer side on the cell housing. | 2020-12-24 |
20200403285 | POWER STORAGE UNIT AND SOLAR POWER GENERATION UNIT - Disclosed is a power storage unit which can safely operate over a wide temperature range. The power storage unit includes: a power storage device; a heater for heating the power storage device; a temperature sensor for sensing the temperature of the power storage device; and a control circuit configured to inhibit charge of the power storage device when its temperature is lower than a first temperature or higher than a second temperature. The first temperature is exemplified by a temperature which allows the formation of a dendrite over a negative electrode of the power storage device, whereas the second temperature is exemplified by a temperature which causes decomposition of a passivating film formed over a surface of a negative electrode active material. | 2020-12-24 |
20200403286 | DIELECTRIC CAVITY NOTCH FILTER - A band stop filter can include a circuit board having a first surface and an opposing second surface. The circuit board can have a transmission line on the first surface. The band stop filter can include a dielectric cavity resonator physically coupled to the second surface of the circuit board. The dielectric cavity resonator can have a coupling aperture configured to magnetically couple the dielectric cavity resonator to the transmission line, and to cause excitation of the dielectric cavity resonator in a second order transverse electric (TE) mode. | 2020-12-24 |
20200403287 | Dielectric Filter And Communications Device - This disclosure describes a dielectric filter and a communications device. In one example, the dielectric filter includes at least two dielectric resonators, a first through-hole is disposed between at least one pair of adjacent dielectric resonators, and the first through-hole is configured to cut a magnetic field between the at least one pair of adjacent dielectric resonators. In some implementations, a magnetic field distribution in the dielectric filter may be cut via the first through-hole, so that a magnetic field distribution area is reduced, and a high-order harmonic wave frequency can be increased, thereby improving a remote suppression capability and meeting the specification requirements. | 2020-12-24 |
20200403288 | DEVICE FOR ASSEMBLING TWO WAVEGUIDES - An assembly includes a first waveguide and a second waveguide extending longitudinally along a first axis, each having an end, each comprising a first annular groove, the two ends being contiguous along the first axis, and an assembly device for assembling the first waveguide and the second waveguide, wherein the assembly device comprises a sleeve surrounding the ends of the first and second waveguides and having an inner wall comprising two first annular grooves facing the first annular grooves of the first and second waveguides, two reversibly deformable waveguides, each being positioned in a first annular groove of the sleeve and positioned in a first annular groove of the first and second waveguides, so as to block the first and second waveguides in terms of translation along the first axis. | 2020-12-24 |
20200403289 | TRANSMISSION LINE RESONATOR COUPLING - An apparatus includes: a transmission line resonator; and multiple resonators coupled to the transmission line resonator, in which each resonator of the multiple resonators is coupled to the transmission line resonator at a different position X along a length of the transmission line resonator, and in which, for each resonator of the multiple resonators, a coupling position Y along a length of the resonator is selected such that, upon application of a source potential to the resonator, a standing wave established in the resonator is impedance and phase matched to a standing wave established in the transmission line resonator. | 2020-12-24 |
20200403290 | REFLECTIVE MICROSTRIP TUNING CIRCUIT - A reflective microstrip tuning circuit that operatively couples to another circuit to be tuned, in which tuning circuit receives an incident signal from the other circuit and enables adjustment of the amplitude and/or phase of the return signal reflected by the tuning circuit for use in the other circuit. The tuning circuit includes one or more cascaded couplers that divide power from the incident signal unequally among a plurality of adjustable tuning arms, in which the tuning arms may be individually adjusted to change the phase of the signal that is reflected by each arm so that both the amplitude and phase of the signal returned by the tuning circuit is adjusted to achieve the desired tuning result. The difference in the power that is divided among the tuning arms provides a progressive weighting to the adjustment effect of each tuning arm, which provides for a series of coarse through fine adjustments that enables a greater degree of resolution when tuning. | 2020-12-24 |
20200403291 | Foil Laminate Intermediate and Method of Manufacturing - The present invention relates to a method of manufacturing a metal foil laminate which may be used for example to produce an antenna for a radio frequency (RFID) tag, electronic circuit, photovoltaic module or the like. A web of material is provided to at least one cutting station in which a first pattern is generated in the web of material. A further cutting may occur to create additional modifications in order to provide additional features for the intended end use of the product. The cutting may be performed by a laser either alone or in combinations with other cutting technologies. | 2020-12-24 |
20200403292 | Attachment Arrangement Of An Antenna Device For A Vehicle - An antenna device for a vehicle includes a base plate, an expansion element formed by a first expansion element part and a second expansion element part mated with the first expansion element part, and an actuating element cooperating with the base plate and the expansion element. Each of the first expansion element part and the second expansion element part has a flat area, a side arm protruding at an angle from the flat area, and a laterally open breakthrough in the flat area. The laterally open breakthrough of each of the first expansion element part and the second expansion element part when mated forms a single passage opening for the actuating element. | 2020-12-24 |
20200403293 | NETWORK ON INTERCONNECT FABRIC AND INTEGRATED ANTENNA - A system is provided for interconnecting multiple functional dies on a single substrate, including: (1) multiple global links in the substrate; (2) multiple local links in the substrate; and (3) multiple utility dies on the substrate, wherein each of the utility dies is connected to at least one of the global links, the utility dies are configured to communicate with one another through the global links, each of the utility dies is connected to at least one of the local links and is configured to communicate with at least one of the functional dies through the at least one of the local links. In some embodiments, an antenna is integrated into the substrate. | 2020-12-24 |
20200403294 | ANTENNA SYSTEMS AND METHODS FOR PROXIMATE NETWORKS - A system and method for proximate network antennas disposed in cavities in a portion of a seat is disclosed that provides ways to bring antennas closer to the bodies of seat occupants to improve signal to noise ratio and, therefore, throughput and capacity, and to use the bodies of seat occupants to attenuate the signals to improve channel re-use. | 2020-12-24 |
20200403295 | Wireless Handheld Devices, Radiation Systems and Manufacturing Methods - A radiating system for transmitting and receiving signals in first and second frequency regions includes a radiating structure, a radiofrequency system, and an external port. The radiating structure has first and second isolated radiation boosters coupled to a ground plane layer. A first internal port of the radiating structure is between the first radiation booster and the ground plane layer, and a second internal port is between the second radiation booster and the ground plane layer. A distance between the two internal ports is less than 0.06 times a wavelength of the lowest frequency. The maximum size of the first and second radiation boosters is smaller than 1/30 times the wavelength of the lowest frequency. The radiofrequency system includes two ports connected respectively to the first and the second internal ports of the radiating structure, and a port connected to the external port of the radiating system. | 2020-12-24 |
20200403296 | ANTENNA ARRANGEMENT WITH WAVE TRAP AND USER EQUIPMENT - An antenna arrangement for a user equipment is disclosed. The antenna arrangement comprises a first antenna element configured to operate at frequencies above a limit frequency, a second antenna element configured to operate at frequencies below the limit frequency, and a wave trap configured to resonate within a frequency band above the limit frequency. The wave trap is connected to the second antenna element. | 2020-12-24 |
20200403297 | IMAGE DISPLAY DEVICE INTEGRATED WITH ANTENNA AND ANTENNA FOR IMAGE DISPLAY DEVICE - An image display device according to an embodiment of the present invention includes a printed circuit board, an antenna mounted on the printed circuit board, a display panel disposed on the printed circuit board, and a transmission line disposed on the display panel and electrically connected to the antenna. The transmission line is disposed on the display panel to shorten a signal path and reduce noises. | 2020-12-24 |
20200403298 | PACKAGE INTEGRATED WAVEGUIDE - A method of manufacturing a packaged semiconductor device is provided. The method includes attaching a semiconductor die to a package substrate. A bond pad of the semiconductor die is coupled to an antenna radiator formed on the package substrate. A waveguide is attached to the package substrate. An opening of the waveguide includes sidewalls substantially surrounding the antenna radiator. An epoxy material is deposited over at least a portion of the package substrate while leaving the opening void of epoxy material. | 2020-12-24 |
20200403299 | ANTENNA IN PACKAGE DEVICE HAVING SUBSTRATE STACK - An antenna-in-package (AiP) device includes a substrate stack having a ceramic substrate attached to an organic substrate, where a dielectric constant of the ceramic substrate is higher than a dielectric constant of the organic substrate. An antenna is on a top side of the ceramic substrate. An integrated circuit (IC) die is flip chip attached to a bottom side of the ceramic substrate or to a top surface of the organic substrate. The IC die includes a radio circuit including at least a transmitter, and there is at least one interconnect for coupling the radio circuit to the antenna. | 2020-12-24 |
20200403300 | ANTENNA DEVICE AND DISPLAY DEVICE INCLUDING THE SAME - An antenna device according to an embodiment of the present invention includes a dielectric layer, an upper electrode layer disposed on the dielectric layer and including a radiation pattern, a lower electrode layer disposed on the dielectric layer, and a bending connection portion integrally connected to the upper electrode layer and the lower electrode layer on the dielectric layer. An interconnection of a ground layer is implemented with high reliability by the bending connection portion. | 2020-12-24 |
20200403301 | ANTENNA DEVICE AND DISPLAY DEVICE COMPRISING THE SAME - An antenna device according to an embodiment of the present invention includes a dielectric layer, and an antenna pattern disposed on the dielectric layer. The antenna pattern includes a mesh structure in which unit cells defined by a plurality of electrode lines are assembled. A minimum distance between opposite sides facing each other in the unit cell is from 20 μm to 225 μm, and a line width of the electrode line is from 0.5 μm to 5 μm. A visual recognition of electrodes may be suppressed and a signal sensitivity may be enhanced by using the unit cell structure. | 2020-12-24 |