A fuse arrangement includes a first safety fuse and a second safety fuse connected electrically in parallel with each other. The fuse arrangement also includes an end plate mechanically coupled to the first and second safety fuses to form a structural unit so that both safety fuses must be inserted/removed to/from an electrical power distribution installation at the same time. Furthermore, the electrical parallel connection of the two safety fuses, rather than a single relatively larger safety fuse, may allow the maximum current strength of an electrical power distribution installation to be maintained while the current is split between the two safety fuses so the size of the fuse arrangement may be reduced.

A fusible link (11) includes a fuse element (13) provided with a fusible conductor part (25) which has a melting part (31) provided between parallel inner side edges (21) of a first terminal part (17) and a second planar terminal part (19). The fusible link (11) also includes an insulative housing (15), having a melting part accommodating space (35) to accommodate the melting part (31) therein, which is mounted to a front surface side of the fuse element (13) to cover the inner side edges (21) of the first planar terminal part (17) and the second planar terminal part (19) and the fusible conductor part (25).

A fusible link (11) includes a fuse element (13) provided with a fusible conductor part (25) which has a melting part (31) provided between parallel inner side edges (21) of a first terminal part (17) and a second planar terminal part (19). The fusible link (11) also includes an insulative housing (15), having a melting part accommodating space (35) to accommodate the melting part (31) therein, which is mounted to a front surface side of the fuse element (13) to cover the inner side edges (21) of the first planar terminal part (17) and the second planar terminal part (19) and the fusible conductor part (25).

A terminal for an electrical protection device includes a ferrule having a base and a wall disposed along a periphery of the base, wherein the base extends along a first plane and the wall extends along a direction that is substantially perpendicular to the first plane, whereby the base and the wall form a cup having an interior space. An electrical connector is attached to the ferrule, where the electrical connector extends out from the interior space.

A compact fusible disconnect switch device includes a magnetic arc deflection assembly including at least a pair of magnets disposed about a switch contact assembly. The magnetic arc deflection assembly facilitates reliable connection and disconnection of DC voltage circuitry well above 125 VDC with reduced arcing intensity and duration. Multiple pairs of magnets may apply magnetic fields in directions opposing one another to deflect electrical arcs in different directions at more than one location in the switch contact assembly to facilitate high voltage DC operation.

A compact fusible disconnect switch device includes a magnetic arc deflection assembly including at least a pair of magnets disposed about a switch contact assembly. The magnetic arc deflection assembly facilitates reliable connection and disconnection of DC voltage circuitry well above 125 VDC with reduced arcing intensity and duration. Multiple pairs of magnets may apply magnetic fields in directions opposing one another to deflect electrical arcs in different directions at more than one location in the switch contact assembly to facilitate high voltage DC operation.

A compact fusible disconnect switch device includes a magnetic arc deflection assembly including at least a pair of magnets disposed about a switch contact assembly. The magnetic arc deflection assembly facilitates reliable connection and disconnection of DC voltage circuitry well above 125 VDC with reduced arcing intensity and duration. Multiple pairs of magnets may apply magnetic fields in directions opposing one another to deflect electrical arcs in different directions at more than one location in the switch contact assembly to facilitate high voltage DC operation.

A compact fusible disconnect switch device includes a magnetic arc deflection assembly including at least a pair of magnets disposed about a switch contact assembly. The magnetic arc deflection assembly facilitates reliable connection and disconnection of DC voltage circuitry well above 125 VDC with reduced arcing intensity and duration. Multiple pairs of magnets may apply magnetic fields in directions opposing one another to deflect electrical arcs in different directions at more than one location in the switch contact assembly to facilitate high voltage DC operation.

A fuse terminal includes a central body portion. A first arm extends from the central body portion and defines an arm space that is located on a fuse side of the central body portion. A connector portion also extends from the central body portion and includes a leg that extends on the fuse side of the central body portion.

A fuse terminal includes a central body portion. A first arm extends from the central body portion and defines an arm space that is located on a fuse side of the central body portion. A connector portion also extends from the central body portion and includes a leg that extends on the fuse side of the central body portion.