A battery includes: a plurality of solid-state battery cells; and a connection layer located between the solid-state battery cells. Each of the solid-state battery cells has a structure in which a positive electrode current collector, a positive electrode active material layer, a solid electrolyte layer including an inorganic solid electrolyte, a negative electrode active material layer, and a negative electrode current collector are laminated in this order. The solid-state battery cells are electrically connected in series. The positive electrode current collector of one of a pair of the solid-state battery cells and the negative electrode current collector of the other of the pair of the solid-state battery cells are laminated via the connection layer, the pair of the solid-state battery cells are adjacent solid-state battery cells among the solid-state battery cells. The connection layer includes a conductive material, and the Young's modulus of the connection layer is lower than the Young's moduli of the positive electrode current collector, the positive electrode active material layer, the solid electrolyte layer, the negative electrode active material layer, and the negative electrode current collector.

A battery pack assembly (1) comprising two holding frames (3), wherein the two holding frames (3) hold a plurality of cells (2) between them, each cell (2) being held longitudinally between the two holding frames (3), wherein two or more of the plurality of cells (2) are connected by a conductive means (7), and wherein the two holding frames (3) are reversibly held together by a fastening means (10), wherein the fastening means (10) cause terminals of the cells (2) to be urged against the conductive means (7) and removal or loosening of the fastening means (10) enables the cells (2) to be freed from the assembly (1), at least one holding frame (3) comprising one or more elastomeric protrusions (6) and wherein the conductive means (7) are positioned such that parts of them lie between one or more elastomeric protrusions (6) and one or more cell terminals, such that the urging of the frames (3) together by the fastening means (10) causes the conductive means (7) to be urged into contact by the elastomeric protrusions (6) with said one or more terminals.

The embodiments of the application provide a battery and a device. The battery includes at least two battery units, wherein the battery unit is provided with a casing and two electrode connecting portions which are arranged on two sides of the casing and have opposite polarities, and the battery units include a first battery unit and a second battery unit which are connected in series; a conductive component arranged on one side of the casing and for being electrically connected to one of the two electrode connecting portions of the first battery unit and the casing of one of the first battery unit and the second battery unit; and a signal detection component arranged on the other side of the casing. The embodiments of the application can simplify the wiring of the signal detection circuit, improve reliability of the signal detection circuit, and then improve safety performance of the battery.

The embodiments of the application provide a battery and a device. The battery includes at least two battery units, wherein the battery unit is provided with a casing and two electrode connecting portions which are arranged on two sides of the casing and have opposite polarities, and the battery units include a first battery unit and a second battery unit which are connected in series; a conductive component arranged on one side of the casing and for being electrically connected to one of the two electrode connecting portions of the first battery unit and the casing of one of the first battery unit and the second battery unit; and a signal detection component arranged on the other side of the casing. The embodiments of the application can simplify the wiring of the signal detection circuit, improve reliability of the signal detection circuit, and then improve safety performance of the battery.

A battery includes a housing and multiple electrode core assemblies disposed in the housing. Two adjacent electrode core assemblies are connected in series, each of the electrode core assemblies includes an encapsulation film and one electrode core, and the one electrode core is disposed in an accommodating cavity formed by the encapsulation film. Each of the electrode core assemblies includes a first electrode and a second electrode protruding out of the encapsulation film for leading out a current, a first electrode of a first electrode core assembly is connected to a second electrode of the a second electrode core assembly of the two adjacent electrode core assemblies, a gap between the two adjacent electrode core assemblies is filled with an insulating material to form an insulating spacer between the two adjacent electrode core assemblies, and a connection part of the two adjacent electrode core assemblies is arranged in the insulating spacer.

A battery includes a housing and multiple electrode core assemblies disposed in the housing. Two adjacent electrode core assemblies are connected in series, each of the electrode core assemblies includes an encapsulation film and one electrode core, and the one electrode core is disposed in an accommodating cavity formed by the encapsulation film. Each of the electrode core assemblies includes a first electrode and a second electrode protruding out of the encapsulation film for leading out a current, a first electrode of a first electrode core assembly is connected to a second electrode of the a second electrode core assembly of the two adjacent electrode core assemblies, a gap between the two adjacent electrode core assemblies is filled with an insulating material to form an insulating spacer between the two adjacent electrode core assemblies, and a connection part of the two adjacent electrode core assemblies is arranged in the insulating spacer.

Provided are a battery assembly and a terminal device. The battery assembly includes a battery protection board, a first battery cell, and a second battery cell. The first battery cell has a positive electrode tab disposed on a side thereof close to the battery protection board and connected to the battery protection board, and a negative electrode tab disposed on a side of the first battery cell away from the battery protection board. The second battery cell has a negative electrode tab disposed on a side thereof the close to the battery protection board and connected to the battery protection board, and a positive electrode tab disposed on a side of the second battery cell facing away from the battery protection board. The negative electrode tab of the first battery cell is electrically connected to the positive electrode tab of the second battery cell.

A first portion of a series battery is arranged where the first portion of the series battery produces a first magnetic field and the series battery includes a plurality of charge storage devices, a negative output terminal, a positive output terminal, and a plurality of intradevice connections connecting the plurality of charge storage devices in series. A second portion of the series battery is arranged such that a second magnetic field produced by the second portion of the series battery at least partially cancels out the first magnetic field.

A power storage device includes power storage cells and a bus bar. Each power storage cell includes positive-electrode sheets, negative-electrode sheets, a positive-electrode current collector plate, a negative-electrode current collector plate, and a laminated film. The positive-electrode current collector plate includes a positive-electrode protrusion shaped to protrude from the laminated film, and the negative-electrode current collector plate includes a negative-electrode protrusion shaped to protrude from the laminated film. The power storage cells are stacked such that the positive electrode protrusion in one power storage cell and the negative-electrode protrusion in another power storage cell adjacent to the one power storage cell face each other in the one direction. The bus bar is shaped to extend in the one direction and connects the positive-electrode protrusion to the negative-electrode protrusion.

A power storage unit includes power storages each including a long side portion and a short side portion, each of the power storage being in a longitudinal shape. The power storages include first power storages arranged on one side in a first direction, second power storages arranged on the other side in the first direction, and at least one third power storage arranged between the first power storages and the second power storages. The first power storages and the second power storages are arranged as being aligned in a second direction in horizontal arrangement, and the at least one third power storage is arranged in longitudinal arrangement.