Various embodiments include device housing for an electrical device comprising: an inner housing with a first lower shell and a first upper shell; and an outer housing with a second lower shell and a second upper shell. There is a cable insertion opening defined by a cable seating profile in the first lower shell and a flush cable cover profile in the first upper shell for a cable routed to the device; a clamping body retained by the inner housing; and a friction and/or form-fitting contact between the clamping body and the cable can be effected by means of the outer housing when the clamping body is pressed onto an outer surface of the cable by the upper shell of the outer housing.

A connector holding structure is provided with a plurality of connectors to be connected to a plurality of mating connectors arranged in an arrangement direction, a plurality of wires drawn out from the plurality of connectors, and a connector holding member including a plurality of connector mounting portions for respectively holding the plurality of connectors, the connector holding member collectively holding the plurality of connectors. The connector holding member includes a deflectable and deformable flexible portion between adjacent ones of the plurality of connector mounting portions.

In a first embodiment, cable sealing device is described herein for use in a port structure of fiber terminal, telecommunication enclosure, or a bulkhead. The exemplary cable sealing device comprises a unibody construction comprising a rigid body portion, the rigid portion having a generally tubular shape that includes an interior passageway extend from a first end to a second end of the rigid body portion; and an elastomeric body portion over molded onto and extending from an end of the rigid body portion, the elastomeric body portion comprises a front end having an interior sleeve that extends into interior passageway at the second end of rigid body portion and an exterior sealing sleeve that is formed over the second end of rigid body portion, and a closed end disposed opposite the open end, wherein the closed end includes a removable portion.

In a first embodiment, cable sealing device is described herein for use in a port structure of fiber terminal, telecommunication enclosure, or a bulkhead. The exemplary cable sealing device comprises a unibody construction comprising a rigid body portion, the rigid portion having a generally tubular shape that includes an interior passageway extend from a first end to a second end of the rigid body portion; and an elastomeric body portion over molded onto and extending from an end of the rigid body portion, the elastomeric body portion comprises a front end having an interior sleeve that extends into interior passageway at the second end of rigid body portion and an exterior sealing sleeve that is formed over the second end of rigid body portion, and a closed end disposed opposite the open end, wherein the closed end includes a removable portion.

A cable assembly includes an insulating housing, a center plate fastened in the insulating housing, and a terminal assembly fastened in the insulating housing. The center plate has a base plate. Rears of two opposite sides of the base plate are connected with two connecting feet. A pair of the bending arms are connected with the rears of the two opposite sides of the base plate. The pair of the bending arms have two bending portions, two extending arms and two hooking portions. The two extending arms include two first extending portions, two connecting portions and two second extending portions. The two hooking portions have two first bending feet, two second bending feet and two third bending feet. The two connecting portions and the two second extending portions are exposed out of the insulating housing. The two first bending feet are exposed out of the insulating housing.

A gland assembly includes a gland body (3) and a cap nut (5) connected by screw threads (25). A cable holding device (11) is received within the cap nut (5) and has a plurality of fingers (19) configured to apply a gripping force to a cable (7) extending through the gland assembly in response to a torque applied to the cap nut (5). The fingers (19) are configured to increase the gripping force on the cable (7) in response to a linear force applied to the elongate member.

A gland assembly includes a gland body (3) and a cap nut (5) connected by screw threads (25). A cable holding device (11) is received within the cap nut (5) and has a plurality of fingers (19) configured to apply a gripping force to a cable (7) extending through the gland assembly in response to a torque applied to the cap nut (5). The fingers (19) are configured to increase the gripping force on the cable (7) in response to a linear force applied to the elongate member.

The invention relates to an attenuation element and to a cable including an attenuation element. The attenuation element includes a resiliently deformable body having a first end and a second end opposite the first end. The body has a length that is defined by the distance between the first end and the second end in a direction parallel to a longitudinal axis of the body. The body has at least one cavity, which extends from the first end to the second end. The at least one cavity is provided in the body in such a way that the length of the at least one cavity is greater than the geometric length.

The invention relates to an attenuation element and to a cable including an attenuation element. The attenuation element includes a resiliently deformable body having a first end and a second end opposite the first end. The body has a length that is defined by the distance between the first end and the second end in a direction parallel to a longitudinal axis of the body. The body has at least one cavity, which extends from the first end to the second end. The at least one cavity is provided in the body in such a way that the length of the at least one cavity is greater than the geometric length.

A connection interface includes a base bracket and a cable connection carrier (e.g., module, panel, etc.). The cable connection carrier has a front wall to which one or more cable connection components (e.g., optical components, electrical components, and/or hybrid components) are mounted. The cable connection carrier may angle the cable connection components relative to an open front of the base bracket. Some cable connection carriers may be snap-fit to the base bracket for easy installation. Other cable connection carriers are movable (e.g., pivotal) relative to the base bracket.