A splice case alignment cutout is provided. The splice case alignment cutout may include a body having an interior surface and an outer surface. The body may be configured to have a length and a width, wherein the body is configured to releasably attach to one of a left side distal end or right side distal end of a back cover member. The splice case alignment cutout may further include an endplate seating channel spanning the length of the body along the interior surface of the body. The endplate seating channel may be configured to allow a rim of an endplate to seat into the interior surface of the frame. When the endplate is seated in the endplate seating channel and releasably attached to the back cover member, the endplate seating channel may be configured to align the endplate with respect to the back cover member.

A junction box used for making electrical connections to a photovoltaic panel. The junction box has two chambers including a first chamber and a second chamber and a wall common to and separating both chambers. The wall may be adapted to have an electrical connection therethrough. The two lids are adapted to seal respectively the two chambers. The two lids are on opposite sides of the junction box relative to the photovoltaic panel. The two lids may be attachable using different sealing processes to a different level of hermeticity. The first chamber may be adapted to receive a circuit board for electrical power conversion. The junction box may include supports for mounting a printed circuit board in the first chamber. The second chamber is configured for electrical connection to the photovoltaic panel. A metal heat sink may be bonded inside the first chamber.

A junction box used for making electrical connections to a photovoltaic panel. The junction box has two chambers including a first chamber and a second chamber and a wall common to and separating both chambers. The wall may be adapted to have an electrical connection therethrough. The two lids are adapted to seal respectively the two chambers. The two lids are on opposite sides of the junction box relative to the photovoltaic panel. The two lids may be attachable using different sealing processes to a different level of hermeticity. The first chamber may be adapted to receive a circuit board for electrical power conversion. The junction box may include supports for mounting a printed circuit board in the first chamber. The second chamber is configured for electrical connection to the photovoltaic panel. A metal heat sink may be bonded inside the first chamber.

A termination for electrical cables may include: an outer insulation tubular body having a longitudinal axis; a conductive rod within the body; an elastomeric sleeve within the body and extending about an end portion of the rod; a connecting device within the sleeve, wherein the device is mechanically and electrically connected to the rod and is configured to mechanically and electrically connect to an electrical cable; a conductive tubular element within the body, configured to electrically connect to ground; a semi-conductive element within the tubular element and partially extending inside the sleeve on an opposite side to the rod with respect to the device; and at least one elastic conductive element radially interposed between, and in contact with, the tubular element and semi-conductive element, the at least one elastic conductive element configured to exert elastic force onto the semi-conductive element along at least one radial direction toward the axis.

A snap fitting has a trailing end adapted to be connected to flexible metallic conduit or metal clad cable, and a cylindrical leading end portion. The leading end portion is uniquely formed with a plurality of locking fingers and tensioning fingers adjacent to and on each side of each locking finger. The locking fingers spread radially axially outwardly from near the outboard end of the leading end portion toward the trailing end. The free ends of the fingers have exterior cam surfaces that engage the edge of the box opening when the fitting is inserted into the opening. This causes the locking fingers to flex radially inwardly during assembly of the fitting to the junction box. The snap fitting can be inserted into both sides of the opening of the junction box.

A snap fitting has a trailing end adapted to be connected to flexible metallic conduit or metal clad cable, and a cylindrical leading end portion. The leading end portion is uniquely formed with a plurality of locking fingers and tensioning fingers adjacent to and on each side of each locking finger. The locking fingers spread radially axially outwardly from near the outboard end of the leading end portion toward the trailing end. The free ends of the fingers have exterior cam surfaces that engage the edge of the box opening when the fitting is inserted into the opening. This causes the locking fingers to flex radially inwardly during assembly of the fitting to the junction box. The snap fitting can be inserted into both sides of the opening of the junction box.

Certain types of aggregation enclosures include cable input ports and downwardly angled cable output ports. A cover is pivotally coupled to the body so that the cover moves between an open position and a closed position. A modular component panel may be disposed within the enclosure. The component panel includes one or more distribution components (e.g., fiber distribution components or power distribution components) configured to connect at least a portion of an incoming cable to at least a portion of an outgoing cable.

Certain types of aggregation enclosures include cable input ports and downwardly angled cable output ports. A cover is pivotally coupled to the body so that the cover moves between an open position and a closed position. A modular component panel may be disposed within the enclosure. The component panel includes one or more distribution components (e.g., fiber distribution components or power distribution components) configured to connect at least a portion of an incoming cable to at least a portion of an outgoing cable.

An electrical connection covering apparatus is designed to protect from moisture a connection between a plug of one extension cord and a socket of another extension cord. A compressible and elastic diaphragm is used to form a seal around the cables of the extension cords where they enter the apparatus. The apparatus includes a housing that has at least one aperture. The diaphragm extends across the aperture. The diaphragm projects inwardly with respect to an interior surface of the housing. The compressibility and elasticity of the diaphragm material is greater than that of the housing material.

An electrical connection covering apparatus is designed to protect from moisture a connection between a plug of one extension cord and a socket of another extension cord. A compressible and elastic diaphragm is used to form a seal around the cables of the extension cords where they enter the apparatus. The apparatus includes a housing that has at least one aperture. The diaphragm extends across the aperture. The diaphragm projects inwardly with respect to an interior surface of the housing. The compressibility and elasticity of the diaphragm material is greater than that of the housing material.