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AN APPARATUS AND METHOD TO PROVIDE POWER TO ELECTRONIC LOADS AND FOR CHARGING ENERGY STORAGE DEVICES

Resumen de: CN120858503A

An apparatus and method for charging by a charging circuit having a first terminal connected to an energy source, a second terminal connected to an electronic load, a third terminal connected to an energy storage device, an inductor, and a controller. The method includes generating, by the controller, a control signal related to the output voltage to regulate a current in the inductor, where the control signal has an enable signal portion and a disable signal portion. During the enable signal portion, the first terminal is coupled to the second terminal, to the third terminal, or to both the second terminal and the third terminal via the inductor. And decouple the first terminal from the second terminal and the third terminal during the disabling signal portion.

PROCESS

Resumen de: MX2025010639A

A process for the at least partial conversion of a bisfluorsulfonimide (HFSI) to a metal bisfluorsulfonimide (MHFSI), comprising: feeding a composition comprising a metai bicarbonate, a solvent and a composition comprising bisfluorsulfonimide into a reactor to form an admixture thereof; and allowing the metal bicarbonate and bisfluorsulfonimide to react together.

A TRAY AND A SYSTEM FOR HOUSING AT LEAST ONE BATTERY MODULE AND A METHOD FOR COOLING AT LEAST ONE BATTERY MODULE HOUSED IN A TRAY OF A SYSTEM

Resumen de: WO2024213356A1

The present invention relates to a tray for housing at least one battery module, the tray comprising a bottom wall and side walls defining a receiving space for the at least one battery module, and at least one coolant inlet and at least one coolant outlet, wherein at least one of the side walls and/or the bottom wall comprises a plate shaped base part, and a first thermoplastic-based layer, preferably a polyolefin-based layer, particularly preferably a polyolefin-based film, attached to or positioned against the base part, and a second thermoplastic-based layer, preferably a polyolefin-based layer, particularly preferably a polyolefin-based film, bonded to the first layer, wherein at least one channel is provided between the first layer and the second layer for a flow of a coolant medium, wherein the channel is in connection with the at least one coolant inlet and with the at least one coolant outlet such that a coolant medium can flow through the channel, wherein the wall concerned is oriented in the tray such that the second layer faces the receiving space. The invention also relates to a system for housing at least one battery module and to a method for cooling at least one battery module housed in a tray of a system.

A TRAY AND A SYSTEM FOR HOUSING A PLURALITY OF INDIVIDUAL BATTERY MODULES, AND A METHOD FOR COOLING A PLURALITY OF BATTERY MODULES HOUSED IN A TRAY OF SUCH A SYSTEM

Resumen de: WO2024213355A1

The present invention relates to a tray for housing a plurality of individual battery modules, the tray comprising a bottom wall and side walls defining a receiving space for the plurality of individual battery modules, wherein the tray has one or more inner walls extending between opposite side walls and subdividing the receiving space in a plurality of individual battery module receiving chambers each bounded by a part of the bottom wall and by one or more side walls and/or inner wall or walls, and a coolant inlet and a coolant outlet, wherein at least one of the side walls and/or at least one of the one or more inner walls comprises a plate shaped base part made of a thermoplastic material and comprising a wall-channel for a flow of a coolant medium on at least one plate side of the base part, wherein the wall-channel is in connection with the coolant inlet and with the coolant outlet such that a coolant medium can flow through the wall-channel, and a thermoplastic-based layer bonded to the base part such that it covers and thereby closes off the wall-channel, wherein the wall concerned is oriented in the tray such that it faces one or more of the battery module receiving chambers with a plate side thereof having the layer bonded thereto, and wherein the bottom wall comprises a plate shaped base part made of a thermoplastic material and comprising a bottom-channel for a flow of a coolant medium on at least one plate side of the base part, wherein the bottom-channel is in c

A TRAY AND A SYSTEM FOR HOUSING A PLURALITY OF INDIVIDUAL BATTERY MODULES, AND A METHOD FOR COOLING A PLURALITY OF BATTERY MODULES HOUSED IN A TRAY OF SUCH A SYSTEM

Resumen de: WO2024213354A1

The present invention relates to a tray for housing a plurality of individual battery modules, the tray comprising a bottom wall and side walls defining a receiving space for the plurality of individual battery modules, wherein the tray has one or more inner walls extending between opposite side walls and subdividing the receiving space in a plurality of individual battery module receiving chambers each bounded by a part of the bottom wall and by one or more side walls and/or inner wall or walls, and a coolant inlet and a coolant outlet, wherein at least one of the side walls and/or at least one of the one or more inner walls comprises a plate shaped base part made of a thermoplastic material and comprising a wall-channel for a flow of a coolant medium on at least one plate side of the base part, wherein the wall-channel is in connection with the coolant inlet and with the coolant outlet such that a coolant medium can flow through the wall-channel, and a thermoplastic-based layer bonded to the base part such that it covers and thereby closes off the wall-channel, wherein the wall concerned is oriented in the tray such that it faces one or more of the battery module receiving chambers with a plate side thereof having the layer bonded thereto. The invention also relates to a system including one or more of said trays and a cooling system as well as to a method for cooling a plurality of battery modules.

FRAME FOR VEHICLE BATTERY

Resumen de: WO2024188929A1

Aspects of the present invention relate to a frame, a solid state cell, a battery subassembly, a battery module, a battery pack and a vehicle. The frame (300) is retaining at least one cell (210) of a vehicle battery. The frame (300) comprises: a first member (310) comprising a first joining portion (312) and a first clamping portion (314) and a second member (320) comprising a second joining portion (322) and a second clamping portion (324). The first member (310) and second member (320) are arranged to co-operate, in use, to retain a first cell (210) of the vehicle battery between the first clamping portion (314) and the second clamping portion (324) through a clamping force applied by securing the first joining portion (312) to the second joining portion (322). The first member (310) defines a first channel (316) through the first member for a flow of coolant.

CONFIGURABLE BATTERY SYSTEM

Resumen de: WO2024186252A1

Embodiments of invention relates to a configurable battery system (100) comprising: at least one port (110) for connecting the configurable battery system (100) to a power source (200) and/or a power consumer (300); and a set of battery modules (120) connected to each other via a set of conductive interfaces to form a set of interconnected battery modules, wherein a battery module (122) in the set of battery modules (120) comprises: a battery (170) connected between an input (132) and an output (134) of a conductive interface, a communication interface comprising an input (142) configured to receive one or more data bits (D1, D2) at a clock signal (C1 ) and an output (144) configured to output the one or more data bits (D1, D2) at a subsequent clock signal (C2); and wherein the battery module (122) is configured to operate in a first mode (M1 ) in which the battery (170) of the battery module (122) is connected in series with a battery (170') of a neighbouring battery module (122') or in a second mode (M2) in which the battery (170) of the battery module (122) is connected in a bypass state with the battery (170') of the neighbouring battery module (122') based on a value of the one or more data bits (D1, D2).

BATTERY SYSTEM AND USE THEREOF

Resumen de: WO2024188821A1

The present invention relates to a battery system comprising a battery cell and a reversibly compressible body having a deformation sensor, and to the use of the compressible body in a battery system.

PROCESS FOR PREPARING PARTICLES OF SULFIDE SOLID MATERIAL

Resumen de: WO2024188825A1

The present disclosure relates to a process for preparing particles of sulfide solid material comprising at least Li, P, S and X elements, comprising the steps of: a) providing a powder of lithium sulfide (Li2S) having a D50-value ranging from 20 µm to 500 µm as measured by laser diffraction in para-xylene, a specific surface area equal or more than 5 m²/g as measured by nitrogen gas adsorption according to Brunauer-Emmet-Teller (BET) method, b) reacting Li2S powder of step a) with at least P2S5 and LiX, to obtain the Li, P, S and X containing sulfide solid material particles; wherein X is selected from the list consisting of F, Cl, I, Br, CN, NC, OCN, NCO, SCN, NCS and N3, or a combination thereof. It also relates to particles obtained by said process and their use for the preparation of an electrode, of an electrolyte layer of an electrode or of a separator.

PROCESS FOR PREPARING A POWDER OF LITHIUM SULFIDE

Resumen de: WO2024188824A1

The present disclosure relates to a process for preparing a powder of lithium sulfide (Li2S powder) comprising the steps of: a) providing a powder of lithium hydroxide (LiOH powder A), or a powder of lithium carbonate (Li2CO3 powder A') presenting a residual water content below 5 wt %; b) reacting such LiOH powder A or Li2CO3 powder A' with H2S present in a reagent gas (RG1) to obtain Li2S powder, optionally carbon dioxide and water vapor; wherein reagent gas (RG1) comprises H2S, water in an amount ranging from 0.5 to 5.0 wt% of the total weight of the reagent gas and optionally an inert carrier. The present disclosure also relates to the powder of lithium sulfide obtained from such process and to the use of such Li2S powder to prepare a solid compound of formula (I): LiaPSbXc (I) wherein - X represents at least one halogen element; - a represents a number from 3.0 to 6.0; - b represents a number from 3.5 to 5.0; and - c represents a number from 0 to 3.0.

METHOD FOR MANUFACTURING A LGPS-TYPE SOLID SULFIDE ELECTROLYTE

Resumen de: CN120712663A

The present invention relates to a method for manufacturing an LGPS-type solid sulfide electrolyte. The inventors of the present invention surprisingly found that the solid sulfide electrolyte can be obtained with high purity and short reaction time by heat treating a mixed set of precursors at this high temperature and pressure.

ROLL MAP GENERATION SYSTEM AND METHOD FOR GENERATING ROLL MAP

Resumen de: EP4679512A1

A method for generating a roll map includes: cutting a cutting position of an electrode sheet that moves between an unwinder and a rewinder so as to provide a first lot; and identifying a correcting section of the electrode sheet. The correcting section is between the cutting position of the electrode sheet and a portion of the electrode sheet sensed by a sensing unit at the time the electrode sheet is cut.

CONNECTOR AND BATTERY MODULE INCLUDING SAME

Resumen de: EP4679610A1

The present invention relates to a connector and a battery module including the connector. The connector electrically connects members within a battery module to each other, the connector including one or more metals, and a dielectric. The dielectric has a dielectric constant (k) with an upper limit of 50 and a lower limit of 2.

SINGLE BATTERY

Resumen de: EP4679612A1

The present application relates to the technical field of batteries, and discloses a single battery, comprising battery cells, a top cover, and connection members. Tabs extend out from one end of each battery cell; the top cover comprises conductive terminals; the connection members each comprise a base body and a thinned region, and the thickness of the thinned region is smaller than that of the base body; the conductive terminals are welded to the thinned regions; and the tabs are welded to the base bodies. The connection members are connected to the conductive terminals by means of the thinned regions, and are connected to the tabs by means of the base bodies. The thickness of the base bodies does not affect the welding between the thinned regions and the conductive terminals. Therefore, the structure and thickness of the thinned regions can be rationally configured according to welding requirements. The thickness of the base bodies is rationally configured according to current passing requirements, thereby avoiding the effect of the increase in the current passing area of the connection members on the yield of welding between the connection members and the conductive terminals. In addition, the thinned regions realize the reduction of local thickness, thereby reducing the amount of a material, facilitating the reduction of the material cost, reducing the weight, facilitating the improvement of the weight energy density of single batteries, and implementing high-energy-den

ELECTROCHEMICAL DEVICE AND ELECTRONIC DEVICE

Resumen de: EP4679619A1

An electrochemical apparatus includes a housing, an electrode assembly, and an insulating sleeve. The electrode assembly is a wound structure, where a first electrode plate of the electrode assembly includes a current collector and a tab. The current collector includes a first side and a second side oppositely disposed in a first direction. The tab includes a first connection region connected to the first side and a second connection region connected to the first connection region. The electrode assembly includes a first end face and a second end face oppositely disposed in the first direction, where the second connection region forms the first end face. The insulating sleeve includes a first region and a second region integrally connected. The first region covers the first connection region, and the second region is disposed on the second connection region and has a first opening. The electrode assembly includes a first portion and a second portion connected in a second direction, where the first portion includes the first connection region, and the second portion is separated from the insulating sleeve. A width of the first portion is less than a width of the second portion. An electronic apparatus is further provided. This application can improve the reliability and service life of the electrochemical apparatus.

HOLDING MECHANISM FOR ELECTRODE LAMINATE

Resumen de: EP4679543A1

A holding structure (1) for a laminated body (10) includes the laminated body (10) in which a plurality of electrodes are laminated, and a holder (40) that holds the laminated body (10) to fix the plurality of electrodes to one another. The holder (40) includes an upper cover (50) that covers an upper surface (10a) of the laminated body (10) and covers left and right side-surfaces (10c, 10d) of the laminated body (10), and a lower cover (60) that covers a lower surface (10b) of the laminated body (10) and covers the left and right side-surfaces (10c, 10d) of the laminated body (10). The upper cover (50) and the lower cover (60) are joined together on the left and right side-surfaces (10c, 10d) of the laminated body (10).

ELECTRODE MATERIAL, ELECTRODE SLURRY, PRODUCTION METHOD FOR ELECTRODE MATERIAL, ELECTRODE, AND PRODUCTION METHOD FOR ELECTRODE

Resumen de: EP4679532A1

An electrode material 1 for a secondary battery, which is capable of suppressing a decrease in an electrode capacity and having excellent cycle characteristics, includes an electrode active material 10, and the entire surface or part of the surface of the electrode active material 10 is covered in a shell shape with a nonaqueous binder 20.

ADHESIVE-TAPE AFFIXING DEVICE AND WINDING APPARATUS

Resumen de: EP4679544A1

A winding apparatus includes a tape bonding device. The tape bonding device is arranged on a conveying path of a pole piece. The tape bonding device includes: a pulling-apart mechanism; a pole piece cutting mechanism and a tape bonding mechanism. The pole piece cutting mechanism is configured to cut the pole piece so that the pole piece is divided into a first pole piece and a second pole piece. The first pole piece and the second pole piece each has a first free end and a second free end that are oppositely arranged. The pulling-apart mechanism is configured to pull the first pole piece and/or the second pole piece so that a gap is formed between the first free end and the second free end in a conveying direction of the pole piece. The tape bonding mechanism includes a first tape feeding assembly, a tape bonding assembly and a first tape storing assembly.

HOT-PRESSING DEVICE

Resumen de: EP4679545A1

Disclosed is a hot-pressing apparatus, which comprises a hot-pressing drive mechanism, a first hot-pressing mechanism, a second hot-pressing mechanism, a diaphragm clamping mechanism and a jacking mechanism. Before transferring the battery cell, the supporting assembly may be driven first to jack a part of the diaphragm, thus forming the transferring-supporting surface above the second hot-pressing plate. The jaw first places the battery cell on the transferring-supporting surface, the transferring-supporting surface may contact only a part of the battery cell to allow the jaw to be suspended, and once the jaw is released, it can be withdrawn. Next, the jacking mechanism withdraws to flatten the diaphragm, and the battery cell will be borne on the diaphragm steadily. As the hot-pressing drive mechanism drives the first hot-pressing plate and the second hot-pressing plate close to each other, the first hot-pressing plate may press the diaphragm and the battery cell borne on the diaphragm against the second hot-pressing plate. It is clear that in a process of transferring the battery cell to the second hot-pressing plate, the use of the diaphragm for transferring may prevent the battery cell from shaking or tilting, thus placing the battery cell steadily. (FIG. 1)

BATTERY PACK AND ELECTRIC APPARATUS

Resumen de: EP4679594A1

Provided are a battery pack and an electric apparatus, which relates to the technical field of batteries. The battery pack includes a box (10), a cold plate (22) and a cell assembly (30). The box (10) is provided with an accommodation space. The cell assembly (30) is located in the accommodation space and includes multiple cells (31). The multiple cells (31) are arranged in a horizontal plane and are disposed at equal spacing. A potting adhesive is filled in the cell assembly. The cold plate (22) fits an upper side and/or a lower side of the cell assembly (30) and the potting adhesive.

Insulating edge coating

Resumen de: GB2642468A

An electrode comprises a conductive foil 1, an active layer 5 and an insulating edge coating 6. The active layer comprises an active material, a binder and optionally a conductive additive. The insulating edge coating comprises polyurethane or polyurethane urea binder, and hydrogenated nitrile butadiene rubber binder, and optionally antioxidant. The conductive foil comprises a first region 2, a third region 4, and a second region 3 located between the first and third regions. The active layer is coated on the first region. The insulating edge coating is coated on the second region and overlaps 7 the interface between the active layer and the second region. The third region is not coated with active layer or insulating edge coating. A method of preparing the insulating edge coating may comprise combining the binder composition, the ceramic and solvent to form a slurry, and then depositing the slurry by slot-die coating.

Battery safety system

Resumen de: GB2642490A

A system for improving the safety of a battery 300 comprises a first passive cooling system having a support structure and a cooling circuit that comprises a plurality of parallel cooling plates 364. The support structure comprises one or more chassis members 320A that define a plurality of enclosures for housing a plurality of battery modules and one or more thermal bridge members 320B that are in thermal communication with the chassis member(s) and cooling plates. Accordingly, thermal energy emitted by a battery module is removed by the first passive cooling system without propagating to neighbouring battery modules. The system preferably includes a second passive cooling system comprising a respective vent gate for each of the plurality of enclosures and an exhaust duct (figure 6), and may include a fire suppressant module and/or dry break couplings for providing fire suppressant material. The battery preferably comprises Li-ion cells and is used in a marine vessel (figure 1).

FLEXIBLE SUBSTRATE PASSIVATION

Resumen de: WO2024191662A1

In one embodiment, a flexible substrate processing system is provided comprising: a pickup hub; a calendering unit comprising a first calender roller and a second calender roller; and a passivation unit having an interior volume, the pickup hub configured to rotate and assist in conveying a flexible substrate through the interior volume of the passivation unit after the flexible substrate passes between the first calender roller and the second calender roller, the passivation unit including one or more ultraviolet (UV) lamps configured to direct UV radiation towards the flexible substrate when the flexible substrate is conveyed through the interior volume of the passivation unit.

COOLANT TANK FOR A BATTERY MODULE, BATTERY MODULE, BATTERY PACK, AND VEHICLE

Resumen de: CN120836103A

Disclosed is a battery module (3; the invention relates to a coolant tank (1, 1 ') comprising a plurality of wall segments (w1-w6, w1'-w6 ') of the coolant tank (1, 1'), where the coolant tank (1, 1 ') is configured to contain coolant in an internal volume (V, V') delimited by a plurality of wall segments (w1-w6, w1 '-w6') of the coolant tank (1, 1 '), where one wall segment (w1, w1') of the plurality of wall segments (w1-w6, w1 '-w6') forms a plurality of recessed configurations (4, 4 '), each comprising an outer surface (6, 6') delimiting the internal volume (V, V ') of the coolant tank (1, 1') and an inner surface (4, 4 ') delimiting a plurality of battery cells (8, 8 '). The disclosure also relates to a battery module (3, 3'), a battery pack (10) and a vehicle (2).

SECONDARY BATTERY ELECTROLYTE, MANUFACTURING METHOD THEREFOR, AND LITHIUM SECONDARY BATTERY COMPRISING SAME

Nº publicación: EP4679551A1 14/01/2026

Solicitante:

SK ON CO LTD [KR]
SK On Co., Ltd

Resumen de: EP4679551A1

An electrolyte for a lithium secondary battery according to embodiments of the present disclosure may include a composite membrane including a lithium salt, an organic polymer, and an inorganic electrolyte, and a flame retardant compound including a phosphorus-containing functional group. The weight ratio of the flame retardant compound to the composite membrane may be 0.004 to 0.3. Accordingly, the flame retardancy and electrical properties of the secondary battery may be improved.