The present disclosure relates to a power supply system (1) including a main unit (10) including a protective main housing (11) and a distribution circuit (20) disposed in the protective main housing (11) and a module unit (30) including a protective module housing (31) and a converter module (40) disposed in the protective module housing (31). A protective connection system (CS) is configured to provide a releasable connection between the module unit (30) and the main unit (10); wherein the protective connection system (CS) includes a first connector device (15), a second connector device (35) and a sealing element (53).

A modular power distribution system, comprising a client device configured to be inserted into a host device, and having a series of independently configurable electrical connections and predetermined electrical connections connecting the host device, the client device, and a cable to deliver power from the cable to a peripheral of the client. A modular power distribution system, comprising a host device having first and second compartments, the second compartment being dimensioned to automatically align the client electrical coupler with the host electrical coupler and form a protective barrier while the client electrical coupler is in contact with the host electrical coupler. A modular power distribution system comprising a multi-gang host device and a client assembly, and having a series of independently configurable electrical connections and predetermined electrical connections connecting the multi-gang host device, the client assembly, and a cable(s) to deliver power from the cable the client assembly.

A modular electrical outlet assembly includes an enclosure that can be installed in a wall of a room. The enclosure has a plurality of wiring terminals that can each be electrically coupled to electrical wiring in the room. The enclosure has a plurality of output sockets each being integrated therein. Each of the output sockets is in electrical communication with a respective one of the wiring terminals to receive electrical current from the electrical wiring. A module is insertable into the enclosure and the module has a plurality of input terminals that is each integrated therein. Each of the input terminals electrically engages a respective one of the output sockets in the enclosure when the module is inserted into the enclosure to receive electrical current from the electrical wiring in the wall.

A modular electrical outlet assembly includes an enclosure that can be installed in a wall of a room. The enclosure has a plurality of wiring terminals that can each be electrically coupled to electrical wiring in the room. The enclosure has a plurality of output sockets each being integrated therein. Each of the output sockets is in electrical communication with a respective one of the wiring terminals to receive electrical current from the electrical wiring. A module is insertable into the enclosure and the module has a plurality of input terminals that is each integrated therein. Each of the input terminals electrically engages a respective one of the output sockets in the enclosure when the module is inserted into the enclosure to receive electrical current from the electrical wiring in the wall.

A wire management system for managing electronic wiring in relation to a structure. An elongate mounting track has a spine and locking ribs forming first and second longitudinal locking formations, and a wire management cradle has a panel of mesh forming a central cradle section and first and second attachment sections with receiving channels forming first and second longitudinal locking formations for being selectively attached to the first and second longitudinal locking formations of the mounting track. A proximal portion of one of the attachment sections can be divided into plural segments separated by openings to allow the passage of wires. An accessory rail can selectively and adjustably retain accessories, including wire management clips and power units. The wire management clip and other accessories have retaining formation corresponding in shape to the shape of a retaining formation of the accessory rail.

A wire management system for managing electronic wiring in relation to a structure. An elongate mounting track has a spine and locking ribs forming first and second longitudinal locking formations, and a wire management cradle has a panel of mesh forming a central cradle section and first and second attachment sections with receiving channels forming first and second longitudinal locking formations for being selectively attached to the first and second longitudinal locking formations of the mounting track. A proximal portion of one of the attachment sections can be divided into plural segments separated by openings to allow the passage of wires. An accessory rail can selectively and adjustably retain accessories, including wire management clips and power units. The wire management clip and other accessories have retaining formation corresponding in shape to the shape of a retaining formation of the accessory rail.

An electrical connector has a housing with a front surface, a rear surface, and side surfaces. A first wall extends between the front surface, the rear surface and the side surfaces. A second wall extends between the front surface, the rear surface and the side surfaces, the second wall having a radiused reference surface. An alignment projection extends from the radiused reference surface in a direction away from the first wall. Compression clips extend from the side surfaces. The compression clips have bases, beams and a latching projections, with the beams extending at angles relative to the side surfaces.

Devices and methods for a sealed electrical connector are described herein. Some embodiments include a spring connecting a first PCB to a second PCB, wherein the spring includes a first end portion in contact with the first PCB, a second end portion in contact with the second PCB, and a middle portion extending between the first end portion and the second end portion, a spacer surrounding the middle portion of the spring, a first seal seated in a first groove of the spacer and in contact with the first PCB, and a second seal seated in a second groove of the spacer and in contact with the second PCB.

A connector comprises a housing adapted to be mounted on a mounting panel and a terminal fixed within the housing. The housing includes a body, a base formed on a bottom of the body and a tongue protruding from the bottom of the base. The base is adapted to be fixed on one side of the mounting panel. A first positioning post is formed on the base for mating with a first positioning hole formed in the mounting panel to locate the housing at a predetermined position with respect to the mounting panel. The tongue is adapted to pass through an installation opening formed in the mounting panel to connect a circuit board.

A retention clip includes a clip body having a retention portion configured to releasably engage and releasably secure a plug. The retention portion includes clips extending from the clip body. The clips are configured to engage and releasably secure the clip body to the plug. The clip body further includes at least one post extending from the clip body. The at least one post is configured to secure the clip body to a connector element of a support structure by coupling with the connector element.