An undersea connection system for connecting together at least three high voltage or very high voltage undersea electric cables comprises an outer cage defining a connection space; and a connection fitting comprising a conductive connection electrode that presents a junction node from which there extend at least three branches. Each of the at least three branches of the conductive electrode includes a male terminal portion that is connected to a respective one of the electric cables in a connection zone about which there is mounted a connection sleeve made of pre-molded insulating material that receives, via its ends, firstly the male terminal portion of one of the branches of the conductive electrode, and secondly the connection end of one of the electric cables.

Technologies are described for devices and methods to splice two contacts of a cable. The assemblies may comprise a first and second sealing boot each configured to slide onto and form a seal to the cable. The assemblies may comprise a pin contact and a socket contact. A first side of the pin contact may be configured to receive wires from the cable. A second side of the pin contact may be configured to mate with the socket contact. A first side of the socket contact may be configured to receive wires from the cable. A second side of the socket contact may be configured to mate with the pin contact. The assemblies may comprise a housing with a tube shaped body and a grommet at a first and second end. Each grommet may be configured to form a seal to the first sealing boot or the second sealing boot.

Grounding assemblies for cables entering telecommunications enclosures. The grounding assemblies include a cable fixation subassembly and a grounding subassembly that are electrically coupled together to ground strength members and a conductive shield of a cable. The cable fixation subassembly can fixate the cable such that the strength members lie in a plane that is at a non-zero angle relative to each of a horizontal reference plane and a vertical reference plane.

A plug connection kit for connecting a branch line to a through line, comprising a plug housing and a socket housing that enclose contact inserts. Flexible cable ends are molded onto the plug housing and socket housing. The plug housing and socket housing are each manufactured by casting plastic onto a base body with the contact inserts and flexible cable ends connected thereto inserted, thus forming a solid one-piece plug and a solid one-piece socket. The female and male contact inserts are electrically connectable to one another in a contact area between the plug housing and the socket housing. The plug connection kit also includes a sealing sleeve that encases the plug housing, the socket housing, and the contact area between the two housings in order to protect the plug connection kit from penetration of water and/or dust.

A transition joint which blocks insulating oil by connecting a three core HPFF cable and a three core XLPE cable is provided. The transition joint includes three epoxy units which connect independently three first cable cores constituting the three core HPFF cable and three second cable cores constituting the three core XLPE cable, respectively. Each of the epoxy units includes a center electrode connecting an electrode of the first cable core and an electrode of the second cable core, and an epoxy molding part implemented in the form of surrounding an outer wall of the center electrode in order to block the center electrode from the insulating oil.

An in-line connector locking system includes an elongated, generally hollow first sleeve member having an open first end, a closed second end and a plurality of threaded elements positioned along the outside surface. The system also includes an elongated, generally hollow second sleeve member having an open first end, a closed second end and a plurality of complementary threaded elements located along the length of the hollow interior surface. The first and second sleeve members are removably secured together via a twisting motion and encompass an in-line connector. A mounting clip is provided for securing the first sleeve, second sleeve and in-line connector to an external structure.

A power cable adaptor includes a casing that has a receiving space, a retaining sleeve disposed in the casing and conductive members disposed within the retaining sleeve. The conductive members respectively define conductive channels. A cap is detachably connected to the casing and covers the receiving space. A wire dispenser is detachably received in the receiving space. The cap has an opening communicating with the conductive channels through the receiving space. The wire dispenser has wire passages communicating with the conductive channels and the opening of the cap.

The present disclosure relates to an optical termination enclosure having an enclosure housing containing a fiber management assembly. The enclosure housing can define sealed cable ports and can include cable anchor mounting locations in alignment with the cable ports. Cable anchoring and grounding units can be attached at the cable anchor mounting locations. The fiber management assembly can include a fiber break-out arrangement including a resilient grommet used to anchor a protective tube that carries optical fibers from the cable anchor mounting location to the fiber management assembly.

The present disclosure relates to an optical termination enclosure having an enclosure housing containing a fiber management assembly. The enclosure housing can define sealed cable ports and can include cable anchor mounting locations in alignment with the cable ports. Cable anchoring and grounding units can be attached at the cable anchor mounting locations. The fiber management assembly can include a fiber break-out arrangement including a resilient grommet used to anchor a protective tube that carries optical fibers from the cable anchor mounting location to the fiber management assembly.

A cable connector assembly is disclosed. The cable connector assembly includes a housing member having a first end and a second end defining a passage therebetween. The housing member includes a first engaging portion and a second engaging portion coaxially extending from the first end and the second end, respectively. The housing member is adapted to accommodate at least one terminal block to electrically connect a first cable and a second cable. Further, the cable connector assembly includes a first clamping member adapted to be partially inserted in the first engaging portion of the housing member and to coaxially align with the passage to accommodate insertion of the first cable therein. The first clamping member is adapted to elastically deform to clamp the first cable.