The present invention is a connector for connecting two electrical cables having cladding to an aperture in an electrical panel. The assembled connector has a two piece spring, a shell, and a insulator along a longitudinal axis. Each spring has a base from which an insertion tab extends coaxial with the axis and the insulator has two curved portions to prevent over-insertion of the cladding into the connector. The insertion tabs of the spring have hook latches and the insulator has a wall to prevent the electrical cables from interfering with the hook latches. The insulator also has a pressure prong for applying a radial grounding force to the connector.

The present invention is a connector for connecting two electrical cables having cladding to an aperture in an electrical panel. The assembled connector has a two piece spring, a shell, and a insulator along a longitudinal axis. Each spring has a base from which an insertion tab extends coaxial with the axis and the insulator has two curved portions to prevent over-insertion of the cladding into the connector. The insertion tabs of the spring have hook latches and the insulator has a wall to prevent the electrical cables from interfering with the hook latches. The insulator also has a pressure prong for applying a radial grounding force to the connector.

A cable distributor for individual cables that are shielded by an electrically conductive shield. The cable distributor has an electrically insulating outer housing, which receives a connection piece at which at least two individual cables are connected to each another. The shields of the connected individual cables are connected to each other by means of an electrically conductive shield housing, as a result of which a continuous shielding of the current-carrying parts of the cable distributor is achieved. A method for producing such a cable distributor is also proposed.

Example embodiments provide a device that includes one or more of a first half-shell portion of an oval-shaped prism housing including one or more protrusions and one or more receiving slots, and a second half-shell portion of the oval-shaped prism housing including one or more additional protrusions and one or more additional receiving slots, and a number of cable splicer lanes configured to support corresponding cable splicers.

Example embodiments provide a device that includes one or more of a first half-shell portion of an oval-shaped prism housing including one or more protrusions and one or more receiving slots, and a second half-shell portion of the oval-shaped prism housing including one or more additional protrusions and one or more additional receiving slots, and a number of cable splicer lanes configured to support corresponding cable splicers.

An enclosure for a pair of interconnected telecommunications cables, each of the cables including a connector and a boot, and the enclosure including a housing for the pair of interconnected telecommunications cables; and an engagement formation configured to receive each connector and each boot of the pair of interconnected telecommunications cables and to fasten the telecommunications cables to the housing.

An enclosure for a pair of interconnected telecommunications cables, each of the cables including a connector and a boot, and the enclosure including a housing for the pair of interconnected telecommunications cables; and an engagement formation configured to receive each connector and each boot of the pair of interconnected telecommunications cables and to fasten the telecommunications cables to the housing.

A medium or high voltage electrical device includes a housing, a central conductor provided within the housing, and a sacrificial cap configured for mounting on the housing. The sacrificial cap includes an outer housing, an insulated body, and a sacrificial conductor provided within the insulated body, wherein the sacrificial conductor electrically communicates with the central conductor within the housing when the sacrificial cap is mounted on the housing. A voltage test point terminal is provided within the insulated body and accessible via the outer housing of the sacrificial cap to capacitively couple with the sacrificial conductor. The sacrificial cap includes a portion configured to be physically severed to confirm that the electrical connector is de-energized.

A medium or high voltage electrical device includes a housing, a central conductor provided within the housing, and a sacrificial cap configured for mounting on the housing. The sacrificial cap includes an outer housing, an insulated body, and a sacrificial conductor provided within the insulated body, wherein the sacrificial conductor electrically communicates with the central conductor within the housing when the sacrificial cap is mounted on the housing. A voltage test point terminal is provided within the insulated body and accessible via the outer housing of the sacrificial cap to capacitively couple with the sacrificial conductor. The sacrificial cap includes a portion configured to be physically severed to confirm that the electrical connector is de-energized.

A first aspect relates to cable connectors for connecting two multicore cables, namely, two flat cables or one flat cable and one round cable. The cable connector includes a clamping sleeve, having a ceramic insulator with at least two openings, one on each side of the clamping sleeve, for accommodating core conductors. The clamping sleeve includes at least two contact inserts that pass through the clamping sleeve at corresponding openings on both sides. Clamping elements are associated with each of the at least two contact inserts in order to clamp the core conductors on one side or the other side of the contact inserts, and thus to establish electrical contact between the clamping sleeve and the multicore flat cable or round cable, thereby connecting the two cables. The cable connector also includes a heat shrink tube that envelops the entering portions of the cables and the clamping sleeve, and in the shrunken state lies tightly against an outer contour of the clamping sleeve and an outer contour of the portion of the cables that enter the clamping sleeve.

A second aspect relates to a cable termination for the insulating termination of a multicore flat cable. The cable termination includes a clamping sleeve that includes a ceramic insulator with at least two openings on one side of the clamping sleeve for accommodating core conductors. The clamping sleeve includes at least two contact inserts situated behind the openings, a clamping element being associated with each of the at least two contact inserts in order to clamp the core conductors on the contact inserts and thus establish mechanical fixing of the core conductors on the clamping sleeve so as to electrically insulate them from one another, and thus to terminate the cable. The cable termination also includes a heat shrink tube that envelops the entering portion of the cable and the clamping sleeve, and in the shrunken state lies tightly against an outer contour of the clamping sleeve and an outer contour of the portion of the cable that enters the clamping sleeve.