Exemplary embodiments of the present disclosure of a fuse may include a fuse body having a first portion and a second portion. The first and second portions may be configured to mate together thereby forming an internal cavity. A first inner termination and a second inner termination may be at least partially attachable to the first and second portions of the fuse body at respective first and second ends. A fusible element may be disposed in the cavity of the fuse body and extendable from the first inner termination at the first end of the fuse body to the second inner termination at the second end of the fuse body. The fusible element may be attachable to the first inner termination at a first connection and the second inner termination at a second connection. The first and second connections may be inspectable when the fuse is in an assembled state.

Exemplary embodiments of the present disclosure of a fuse may include a fuse body having a first portion and a second portion. The first and second portions may be configured to mate together thereby forming an internal cavity. A first inner termination and a second inner termination may be at least partially attachable to the first and second portions of the fuse body at respective first and second ends. A fusible element may be disposed in the cavity of the fuse body and extendable from the first inner termination at the first end of the fuse body to the second inner termination at the second end of the fuse body. The fusible element may be attachable to the first inner termination at a first connection and the second inner termination at a second connection. The first and second connections may be inspectable when the fuse is in an assembled state.

A chip-type fuse includes a main body portion composed of an insulating material, a fuse conductor that is disposed inside the main body portion and that has both end portions exposed at the main body portion, and a pair of outer electrodes that cover respective end portions of the main body portion and that are connected to respective end portions of the fuse conductor. A hollow portion is present inside the main body portion, and the fuse conductor has a fusing portion disposed along the wall surface of the hollow portion.

A circuit breaker includes a main protection circuit connected in series with a protected circuit, an auxiliary protection circuit connected in series with the protected circuit, where the main protection circuit is connected in parallel with the auxiliary protection circuit, a mechanical disconnecting device, where the mechanical disconnecting device disconnects the main protection circuit when an over-current occurs in the protected circuit, and a fusing device, where the fusing device is fused after the main protection circuit is disconnected, to disconnect the protected circuit.

A circuit breaker includes a main protection circuit connected in series with a protected circuit, an auxiliary protection circuit connected in series with the protected circuit, where the main protection circuit is connected in parallel with the auxiliary protection circuit, a mechanical disconnecting device, where the mechanical disconnecting device disconnects the main protection circuit when an over-current occurs in the protected circuit, and a fusing device, where the fusing device is fused after the main protection circuit is disconnected, to disconnect the protected circuit.

There is provided an electric-power conversion apparatus in which smoke emission, a burnout, and short-circuiting between a melted material and a peripheral member can be suppressed even when a fuse portion is melted by an excessive current. An electric-power conversion apparatus (1) includes an electric power semiconductor device (14), an electrode wiring member (13), a case (30), a fuse portion (16) formed in the electrode wiring member (13), a fuse resin member (26) disposed between the fuse portion (16) and the case (30), and a sealing resin member (25) that seals the electric power semiconductor device (14), the electrode wiring member (13), the fuse portion (16), and the fuse resin member (26) in the case (30).

There is provided an electric-power conversion apparatus in which smoke emission, a burnout, and short-circuiting between a melted material and a peripheral member can be suppressed even when a fuse portion is melted by an excessive current. An electric-power conversion apparatus (1) includes an electric power semiconductor device (14), an electrode wiring member (13), a case (30), a fuse portion (16) formed in the electrode wiring member (13), a fuse resin member (26) disposed between the fuse portion (16) and the case (30), and a sealing resin member (25) that seals the electric power semiconductor device (14), the electrode wiring member (13), the fuse portion (16), and the fuse resin member (26) in the case (30).

A fuse module including a mounting block having a through-hole extending therethrough, a fuse including an upper portion disposed on a top of the mounting block and having a through-hole, a lower portion disposed on a bottom of the mounting block and having a through-hole, and a fusible element disposed adjacent a sidewall of the mounting block and connecting the upper portion to the lower portion, the fuse module further including a housing having a main body portion encasing the mounting block and the fuse, the main body portion having apertures in top and bottom surfaces thereof aligned with the through-hole of the mounting block, and a cap portion connected to the main body portion and disposed over the fusible element, the cap portion having surface features extending from an interior surface thereof for absorbing energy upon occurrence of an overcurrent condition in the fuse.

A fuse module including a mounting block having a through-hole extending therethrough, a fuse including an upper portion disposed on a top of the mounting block and having a through-hole, a lower portion disposed on a bottom of the mounting block and having a through-hole, and a fusible element disposed adjacent a sidewall of the mounting block and connecting the upper portion to the lower portion, the fuse module further including a housing having a main body portion encasing the mounting block and the fuse, the main body portion having apertures in top and bottom surfaces thereof aligned with the through-hole of the mounting block, and a cap portion connected to the main body portion and disposed over the fusible element, the cap portion having surface features extending from an interior surface thereof for absorbing energy upon occurrence of an overcurrent condition in the fuse.

The present utility model relates to a fuse, a vehicle circuit for an electric vehicle, and an electric vehicle. The fuse has a longitudinal direction and a transverse direction, and includes: a bushing, having a through-hole cavity extending in the longitudinal direction and for accommodating quartz sand and two end surfaces in the longitudinal direction; a fuse body, accommodated in the through-hole cavity; and two contact blades, positioned at two ends of the through-hole cavity and conductively joined to the fuse body. At least one of the contact blades comprises a first section coming into direct sealing contact with one of the end surfaces of the bushing by covering the through-hole cavity, and an overhanging arm section extending from the first section. The overhanging aim section includes a second section extending, in a direction perpendicular to the longitudinal direction, out of the bushing.