The aim of the invention is to provide a component, preferably a component for a vehicle, which is as stable as possible and which has an optimized electromagnetic compatibility. This is achieved by providing a component comprising a base element, which comprises or is made of at least one composite element, and a shielding element for electrically and/or electromagnetically shielding the component, wherein the shielding element comprises or is made of one or more foils, for example one or more metal foils, and is connected to the base element.

The aim of the invention is to provide a component, preferably a component for a vehicle, which is as stable as possible and which has an optimized electromagnetic compatibility. This is achieved by providing a component comprising a base element, which comprises or is made of at least one composite element, and a shielding element for electrically and/or electromagnetically shielding the component, wherein the shielding element comprises or is made of one or more foils, for example one or more metal foils, and is connected to the base element.

Arrangements for retaining coiled battery internals in a coiled orientation within a cell casing, in which end caps and/or sleeves are provided with at least one inward-facing protuberance for engaging and securing the coiled battery internals, and means for securing and aligning pouch cell batteries within a sleeve.

A secondary battery includes an electrode assembly including a first electrode, a second electrode, and a separator between the first electrode and the second electrode, a cap assembly electrically connected to the first electrode, a case accommodating the electrode assembly therein, the case having an opening in which the cap assembly is inserted, a first insulator between the cap assembly and the case, and a second insulator between the first insulator and the cap assembly. In the secondary battery, the second insulator has a higher melting point than the first insulator, thereby improving durability.

Arrangements for retaining coiled battery internals in a coiled orientation within a cell casing, in which end caps and/or sleeves are provided with at least one inward-facing protuberance for engaging and securing the coiled battery internals, and means for securing and aligning pouch cell batteries within a sleeve.

Various embodiments described herein relate to a battery that includes a battery cap with one or more cut-out sections. The battery cap may be used to at least partially cover a circuit board that is proximate an end of a battery cell. In various examples, the cut-out sections may be configured to accommodate one or more cell tabs of the battery that protrude above the circuit board.

A battery cover plate assembly includes a cover plate, an electrode terminal, a current interrupt structure, and an arc extinguishing portion. The electrode terminal is disposed on the cover plate and includes an electrode inner terminal and an electrode outer terminal. The electrode inner terminal and the electrode outer terminal are electrically connected through the current interrupt structure. The current interrupt structure is capable of disrupting the electrical connection between the electrode inner terminal and the electrode outer terminal under the action of a gas pressure. The arc extinguishing portion is configured to reduce an electric arc generated when the current interrupt structure disrupts the electrical connection between the electrode inner terminal and the electrode outer terminal. When the electrical connection between the electrode inner terminal and the electrode outer terminal is disrupted, an arcing effect is generated due to high voltages at positive and negative electrodes of the battery.

Battery housings and batteries are presented for accommodating swelling of an electrode assembly. In one aspect, a battery includes an electrode assembly that includes a cathode and an anode. The battery also includes a receptacle that includes at least one feedthrough disposed through one or more sides of the receptacle. A lid is sealed to the receptacle. The receptacle, the at least one feedthrough, and the lid form a sealed volume in which the electrode assembly and an electrolyte are disposed. The lid is configured to displace from a first position to a second position in response to a swelling of the electrode assembly within the sealed volume. The receptacle is configured to strain less than the lid during the swelling of the electrode assembly. The second position of the lid may correspond to an expanded volume of the electrode assembly that is 15% greater than an initial volume.

Various embodiments described herein relate to a battery that includes a battery cap with one or more cut-out sections. The battery cap may be used to at least partially cover a circuit board that is proximate an end of a battery cell. In various examples, the cut-out sections may be configured to accommodate one or more cell tabs of the battery that protrude above the circuit board.

Provided herein is a battery cell of a battery pack to power an electric vehicle. The battery cell can include a housing and an electrolyte can be disposed in an inner region defined by the housing. A lid can couple with a first end of the housing. The lid can include a first polarity layer that can function as a first polarity terminal and can include a first polarity orifice and a scored region. The lid can include an insulating layer having a first insulated orifice and a second insulated orifice. The lid can include a second polarity layer having a protruding second polarity region that can function as a second polarity terminal and extends through the first insulated orifice and the first polarity orifice. A gasket can couple with edge surfaces of the first polarity layer, the second polarity layer, and the insulating layer.