An energy storage apparatus includes: an energy storage device which includes an electrode terminal; an outer case; and an external connection terminal. The external connection terminal includes: an external connection part to be connected to an external conductive member; a circuit breaking part; and a bus bar which connects the electrode terminal or the external connection part with the circuit breaking part, and which is formed in the outer case by insert molding. The bus bar includes an outer exposed portion on which the circuit breaking part is detachably mounted from the outside of the outer case.

A power storage device includes a plurality of power storage units and a plurality of disconnection units. The plurality of power storage units are electrically connected in parallel between a pair of connection points. The plurality of disconnection units each connect to a corresponding power storage unit in the plurality of power storage units. Each of the plurality of disconnection units is configured to electrically disconnect between the corresponding power storage unit and at least one of the pair of connection points in accordance with flowing of a current at a value more than or equal to a predetermined value in the corresponding power storage unit.

A capacitor circuit (capacitor device 20, 30, 34, 50) in which a plurality of capacitors (41 to 45) are connected to each other is included, one or two or more capacitors (overvoltage short-circuiting capacitors 40, 40a, 40b, 40c, 40d) in the capacitor circuit have a dielectric breakdown voltage made lower than that of another capacitor, and the one or two or more capacitors having the lower dielectric breakdown voltage are subjected to dielectric breakdown due to application of an overvoltage earlier than the other capacitor so that the capacitor circuit is short-circuited. As a result, the safety of the capacitor device and a device connected thereto can be enhanced.

A capacitor bank which has a plurality of capacitor units, in which each capacitor has a plurality of electrical capacitor elements, and the capacitor units are divided into a plurality of groups of capacitor units. The arrangement has a plurality of group monitoring units, with one of the group monitoring units associated with each group of capacitor units. At least one of the group monitoring units is configured so that it monitors the respective group of capacitor units for a failure of a capacitor element in one of the capacitor units of the group and, when such a failure of a capacitor element is detected, transmits data which describe this failure of the capacitor element to a monitoring receiver.

A capacitor bank which has a plurality of capacitor units, in which each capacitor has a plurality of electrical capacitor elements, and the capacitor units are divided into a plurality of groups of capacitor units. The arrangement has a plurality of group monitoring units, with one of the group monitoring units associated with each group of capacitor units. At least one of the group monitoring units is configured so that it monitors the respective group of capacitor units for a failure of a capacitor element in one of the capacitor units of the group and, when such a failure of a capacitor element is detected, transmits data which describe this failure of the capacitor element to a monitoring receiver.

A system includes a capacitor including: a structure, and one or more capacitive devices at the structure; and an electrically insulating bushing including: a fuse including: a fuse body including a fuse housing, a first fuse end, and a second fuse end, the fuse housing extending from the first fuse end to the second fuse end and defining an interior space, and a fusible element in the interior space, the fusible element electrically connected to the first fuse end and the second fuse end; and an adaptor including: an adaptor body extending from a first adaptor end to a second adaptor end, the adaptor body hermetically sealed to the structure and the second adaptor end configured to receive the first fuse end, and an adaptor connection interface in the adaptor body. The first fuse end is removably connected to the adaptor at the adaptor connection interface.

A method for manufacturing a chip component includes forming an element, which includes a plurality of element parts, on a substrate. A plurality of fuses are formed, for disconnectably connecting each of the plurality of element parts to an external connection electrode. The external connection electrode, which is arranged to provide external connection for the element, is formed by electroless plating on the substrate.

A method for manufacturing a chip component includes forming an element, which includes a plurality of element parts, on a substrate. A plurality of fuses are formed, for disconnectably connecting each of the plurality of element parts to an external connection electrode. The external connection electrode, which is arranged to provide external connection for the element, is formed by electroless plating on the substrate.

Capacitors, including multilayer ceramic capacitors, may be subject to faults and failures that create short circuits between their dielectrics. Capacitors having fuses that protect the capacitors or the electrical devices using the capacitors when such faults occur are described herein. Embodiments include the presence of monolithic and non-monolithic structures including the fuse. Embodiments also include capacitors with multiple fuses that may prevent or mitigate capacitor failure. Methods for manufacturing and using the capacitors are also described.

An energy storage apparatus includes: an energy storage device which includes an electrode terminal; an outer case; and an external connection terminal. The external connection terminal includes: an external connection part to be connected to an external conductive member; a circuit breaking part; and a bus bar which connects the electrode terminal or the external connection part with the circuit breaking part, and which is formed in the outer case by insert molding. The bus bar includes an outer exposed portion on which the circuit breaking part is detachably mounted from the outside of the outer case.