A fuse includes a fuse element extending along an axis, the fuse element including two terminals and a melt portion arranged between the two terminals, a casing that accommodates the melt portion and an arc-extinguishing material, the casing including an outer circumferential surface and two end surfaces, the casing being an assembly of at least two segments, and a molded body made of plastic, the molded body including two covers that respectively cover the two end surfaces and including one or more coupling portions that couple the two covers to each other, the two covers and the one or more coupling portions being integrally molded. The casing includes one or more exposed portions on the outer circumferential surface, the one or more exposed portions being exposed without being covered by the coupling portions.

A fuse includes a fuse element extending along an axis, the fuse element including two terminals and a melt portion arranged between the two terminals, a casing that accommodates the melt portion and an arc-extinguishing material, the casing including an outer circumferential surface and two end surfaces, the casing being an assembly of at least two segments, and a molded body made of plastic, the molded body including two covers that respectively cover the two end surfaces and including one or more coupling portions that couple the two covers to each other, the two covers and the one or more coupling portions being integrally molded. The casing includes one or more exposed portions on the outer circumferential surface, the one or more exposed portions being exposed without being covered by the coupling portions.

A high-voltage direct-current thermal fuse includes one or more fusible components each having two fusible alloy support arms, a fluxing agent, a fusing cavity, two pins, and an insulation block. Two fusible alloy support arms are arranged opposite, and the fusible component is U-shaped. The fusible component and the fluxing agent are sealed within the fusing cavity. The two pins are respectively connected to the two fusible alloy support arms. The insulation block is arranged between the two fusible alloy support arms and separates the two pins. A volume ratio of the fluxing agent to the fusing cavity is approximately 50% or less, preferably, 10%-50%. The number of the one or more fusible components is at least two, and the at least two fusible components are arranged separately. The thermal fuse can avoid the burst and quickly cut off the current, which provides effective thermal protection for a circuit.

A solderless surface mount fuse including a base having a floor and a plurality of adjoining sidewalls defining a cavity, a fuse element including a separation portion spanning between two electrode portions, the separation portion and the electrode portions formed of a contiguous piece of material, the separation portion suspended within the cavity below top edges of the sidewalls of the base, and a cap having a ceiling and a plurality of adjoining sidewalls, the cap fitting over the base and the fuse element with bottom edges of the sidewalls of the cap disposed below the top edges of the sidewalls of the base, wherein the cavity of the base contains a fuse filler that completely surrounds the separation portion.

A solderless surface mount fuse including a base having a floor and a plurality of adjoining sidewalls defining a cavity, a fuse element including a separation portion spanning between two electrode portions, the separation portion and the electrode portions formed of a contiguous piece of material, the separation portion suspended within the cavity below top edges of the sidewalls of the base, and a cap having a ceiling and a plurality of adjoining sidewalls, the cap fitting over the base and the fuse element with bottom edges of the sidewalls of the cap disposed below the top edges of the sidewalls of the base, wherein the cavity of the base contains a fuse filler that completely surrounds the separation portion.

A temperature sensor has a heat-sensitive element contained within a chamber, the heat-sensitive element changing from a first configuration to a second configuration at a predetermined temperature, and a biased member biased towards the chamber. The biased member initially is prevented from entering the chamber when the heat-sensitive element is in the first configuration and enters the chamber when the heat-sensitive element is in the second configuration. In some aspects, the first configuration is solid and the second configuration is liquid and a selectively permeable element is provided to allow the heat-sensitive element to exit the chamber in the liquid configuration. An indicator can be provided that has a plurality of feet initially held in a retained configuration by the biased member until the biased member enters the chamber to release the feet for sliding motion of the indicator.

A power fuse includes a housing, first and second conductive terminals extending from the housing, and at least one fatigue resistant fuse element assembly connected between the first and second terminals. The fuse element assembly includes at least a first conductive plate and a second conductive plate respectively connecting the first and second conductive terminals, and a plurality of separately provided wire bonded weak spots interconnecting the first conductive plate and the second conductive plate.

A power fuse includes a housing, first and second conductive terminals extending from the housing, and at least one fatigue resistant fuse element assembly connected between the first and second terminals. The fuse element assembly includes at least a first conductive plate and a second conductive plate respectively connecting the first and second conductive terminals, and a plurality of separately provided wire bonded weak spots interconnecting the first conductive plate and the second conductive plate.

A three phase surge protection device is disclosed. In an embodiment a device include a stack comprising a first varistor, a second varistor and a third varistor, wherein the varistors are electrically connected to form a circuit and a first thermal disconnect configured to interrupt the circuit when a temperature of the first thermal disconnect exceeds a predefined temperature.

A safety fuse for use in a motor vehicle includes which fuse comprises a first contact metal portion, a second contact metal portion and a melting metal section connecting the first contact portion to the second contact portion. The melting section is enclosed by a casing made from a non-conductive material and includes two hollow half-shells provided with mutual coupling elements, each half-shell having an inner surface facing the melting section and an outer surface facing outside of the fuse. At least one of the half-shells is provided on at least part of the inner surface of an alveolar structure with open cells in the direction of the melting section. The alveolar structure is formed by a plurality of walls protruding from the inner surface and intersected with each other.