A butt closure base includes a base housing extending along a longitudinal axis between a first outer surface and a second outer surface, the base housing defining a plurality of cavities between the first and second outer surfaces, the plurality of cavities aligned in an annular array. A first gel is disposed in each of the plurality of cavities. The butt closure base further includes a plurality of wedge assemblies, each of the plurality of wedge assemblies removably insertable into one of the plurality of cavities. Each of the plurality of wedge assemblies includes an outer cover, a second gel, and a main pressure plate in contact with the second gel. The main pressure plate is movable along the longitudinal axis to apply pressure to the second gel.

A wire harness assembly including a first, second, and third shielded wire cable, each having a core conductor surrounded by a shield conductor which is surrounded by a insulative jacket. Portions of the core conductors are sonically welded to one another. The assembly also includes a flexible insulative layer wrapped about the sonically welded core portions, a flexible conductive layer wrapped about the flexible insulative layer and exposed shield portions, and a section of heat shrink tubing in which the flexible conductive layer and portions of the insulative jackets are enclosed. The assembly further including an insulative housing having a longitudinal cavity extending therethrough in which the section of heat shrink tubing, the flexible conductive layer, and portions of the insulative jackets are disposed.

A cable splice for overhead power transmission lines includes a flexible housing. A first casing is positioned in the flexible housing. The first casing is configured to receive and retain a first conductor. A second casing is positioned in the flexible housing. The second casing is configured to receive and retain a second conductor. A connecting member is connected to the first casing and the second casing. The first casing is moveable relative to the second casing.

A cable splice for overhead power transmission lines includes a flexible housing. A first casing is positioned in the flexible housing. The first casing is configured to receive and retain a first conductor. A second casing is positioned in the flexible housing. The second casing is configured to receive and retain a second conductor. A connecting member is connected to the first casing and the second casing. The first casing is moveable relative to the second casing.

A splice sealing device including a first electric cable having an electrical conductor and an insulative cover, a second electric cable having a further electrical conductor and insulative cover, a junction joining the electrical conductors of the first and second electrical cables, a housing which has at least two housing parts mated to each other and which delimits an inner space for accommodating the junction, and a first cable exit in the housing. The first cable extends through the first cable exit, which includes a first chamber accommodating a first cable seal positioned on the first insulative cover of the first cable and sealing the first cable against the housing. The first cable exit is an integral part of a first housing part, and the first cable exit includes an annular wall axially delimiting the first chamber to the outside in extension direction of the first cable.

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.

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 splice sealing device including a first electric cable having an electrical conductor and an insulative cover, a second electric cable having a further electrical conductor and insulative cover, a junction joining the electrical conductors of the first and second electrical cables, a housing which has at least two housing parts mated to each other and which delimits an inner space for accommodating the junction, and a first cable exit in the housing. The first cable extends through the first cable exit, which includes a first chamber accommodating a first cable seal positioned on the first insulative cover of the first cable and sealing the first cable against the housing. The first cable exit is an integral part of a first housing part, and the first cable exit includes an annular wall axially delimiting the first chamber to the outside in extension direction of the first cable.

The present disclosure relates to an electrical cable assembly with a connector, in particular a trunk line cable assembly for a photovoltaic system, and to an assembly consisting of a module inverter and the trunk line cable assembly connected thereto, and also relates to a photovoltaic system comprising a plurality of photovoltaic modules and module inverters and AC side cabling between the module inverters and the trunk line cable assemblies, wherein the drop lines are connected to the trunk line cable by means of the connector, wherein the junction is enclosed by a two-piece connector housing which includes strain relief means for the trunk line cable and is optionally additionally overmolded.

The present disclosure relates to an electrical cable assembly with a connector, in particular a trunk line cable assembly for a photovoltaic system, and to an assembly consisting of a module inverter and the trunk line cable assembly connected thereto, and also relates to a photovoltaic system comprising a plurality of photovoltaic modules and module inverters and AC side cabling between the module inverters and the trunk line cable assemblies, wherein the drop lines are connected to the trunk line cable by means of the connector, wherein the junction is enclosed by a two-piece connector housing which includes strain relief means for the trunk line cable and is optionally additionally overmolded.