This disclosure relates to a method for manufacturing a battery module that includes the following steps: providing a plurality of battery units; providing a collector plate and an insulation layer disposed on the collect plate; contacting the insulation layer to a plurality of terminals of the plurality of battery units; and performing laser welding on a portion of the insulation layer that is in contact with the plurality of terminals to make the collector plate electrically connect the plurality of terminals.

This disclosure relates to a method for manufacturing a battery module that includes the following steps: providing a plurality of battery units; providing a collector plate and an insulation layer disposed on the collect plate; contacting the insulation layer to a plurality of terminals of the plurality of battery units; and performing laser welding on a portion of the insulation layer that is in contact with the plurality of terminals to make the collector plate electrically connect the plurality of terminals.

Disclosed is a manufacturing method of a battery pack in which multiple battery cells are stacked, and electrodes of adjacent battery cells of the battery cells are connected by a bus bar, the bus bar having two holes that are smaller than the electrodes, and the bus bar being disposed such that the holes overlap the electrodes respectively. The manufacturing method includes welding the bus bar and one of the electrodes, then welding the bus bar and another one of the electrodes in an intermediate region between the two holes of the bus bar, and subsequently welding the bus bar and the other one of the electrodes in an end region adjacent to the intermediate region of the bus bar.

A welding system for welding a first elongated element and a second elongated element together by a laser beam that is emitted from a laser welding head after the ideal welding center point of the aligned first and second elongated elements has been positioned at a focal point of the laser beam that is emitted from the laser welding head.

A welding system for welding a first elongated element and a second elongated element together by a laser beam that is emitted from a laser welding head after the ideal welding center point of the aligned first and second elongated elements has been positioned at a focal point of the laser beam that is emitted from the laser welding head.

A visible light laser system and operation for welding materials together. A blue laser system and operation for welding conductive elements, and in particular thin conductive elements, together for use in energy storage devices, such as battery packs.

The present invention relates to a battery pack capable of securing a welding strength between a tab plate and an electrode tab, and a manufacturing method therefor. As an example, disclosed is a battery pack comprising: a battery cell from which an electrode tab is withdrawn; and a protection circuit module which is electrically connected to the battery cell and which has a circuit board and a tab plate formed on one surface of the circuit board and electrically connected to the electrode tab, wherein the tab plate has a through hole for heating the electrode tab.

A semiconductor device includes: a housing; a substrate inside the housing; first and second semiconductor circuits on the substrate; and first and second planar terminals electrically connected to the first and second semiconductor circuits, respectively, the first and second planar terminals stacked on top of each other, wherein each of the first and second planar terminals extends away from the housing.

A semiconductor device includes: a housing; a substrate inside the housing; first and second semiconductor circuits on the substrate; and first and second planar terminals electrically connected to the first and second semiconductor circuits, respectively, the first and second planar terminals stacked on top of each other, wherein each of the first and second planar terminals extends away from the housing.

A method for the additive manufacturing of an object and a system for manufacturing an object. The method includes depositing a first foil layer, the first foil layer including a first body section, a first support section connected to the first body section, and a second support section connected to the first body section; depositing a second foil layer, the second foil layer comprising a second body section, a third support section, and a fourth support section; aligning the second foil layer and the first foil layer; and applying at least one of heat and pressure to the first foil layer and the second foil layer to form the object comprising the first body section and the second body section.