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 power distribution connector is configured to connect an electrical cable to at least three electrical interfaces. The connector includes a housing with first and second sections. The first section includes a first electrical interface disposed at a first end of the first section and a second electrical interface disposed at a second end opposite the first end. The second section forms a T-shaped intersection with the first section between the first and second electrical interfaces. The second section includes a distal end opposite the T-shaped intersection, the distal end being configured to receive the electrical cable; and a third electrical interface oriented parallel to the first section, disposed adjacent to the second electrical interface, and extending a distance from an axis of the second section that is less than or equal to a distance from the axis of the second section that the second electrical interface extends.

Systems and apparatuses are provided in which outlets are coupled to a power distribution unit (PDU) or PDU module in various configurations. The outlets may be coupled to a recessed surface within a PDU housing. The outlets and recessed surface may be formed as part of a single mold. The outlets may be coupled to a printed circuit board that is at least partially disposed within the PDU housing. The outlets may extend away from the recessed surface or printed circuit board towards or beyond a front face of the PDU housing.

A solar powered outlet assembly includes a housing that has a spike to penetrate a support surface thereby retaining the housing on the support surface. A pair of female electrical outlets is each integrated into the housing to have a male power cord plugged into the female electrical outlets. A solar panel is coupled to the housing such that the solar panel is exposed to sunlight. The solar panel is in electrical communication with each of the female electrical outlets. In this way the solar panel can supply electrical power to the male power cord that is plugged into the female electrical outlets.

An electrical connector includes an insulating body, a number of first conductive terminals and a metal shell. The insulating body includes a first butting protrusion having a first slot. The metal shell is assembled to the insulating body along an assembling direction. The metal shell includes a top wall, a bottom wall, two side walls and a partition wall. The metal shell includes a first receiving cavity for receiving a first mating plug. The metal shell further includes an installation opening extending downwardly to receive the insulating body. The electrical connector includes a first stop portion provided on the first mating protrusion and adapted for stopping further insertion of the first mating plug.

A leakage current protection device with an illumination function, including a shell, a movement assembly in the shell, power input and output assemblies coupled to the movement assembly, and an illumination assembly disposed inside the shell, which includes: an illumination control board electrically coupled to the power input or output assembly; a sensing unit coupled to the illumination control board and configured to sense an ambient condition outside the shell to generate a sensing output signal; a light emitting unit coupled to the control board, and controlled by the control board to turn on or off in response to the sensing output signal; and a light guide unit, formed by an operating element partially protruding out of the shell and disposed adjacent the light emitting unit, configured to guide the illumination light emitted by the light emitting unit out of the shell. The device is convenient to use and compact.

A novel method and interface are provided to generalize power delivery (PD) solutions and allow OEMs and suppliers to easily replace PD solutions using the same design and layout without having to re-spin the motherboard. This is achieved by defining a new interface and ball-out which support dual port PD solution that meet the system requirements. The embodiments employ an interposer to unify different PD solutions. The interposer is part of a unique Land Grid Array (LGA) soldered down solution with pre-defined interface employing a generic pinout to support PD solutions for dual type-C ports from different vendors. The interposer includes an LGA having a pattern of pads that is coupled to a LGA on a platform PCB with a matching pattern.

A memory module operation system for operating in high stress environments with strong vibration. The application and use of a retainer to reduce and dampen the effects of system vibration and the application of dynamic loads can retain a memory module in place in a memory socket. Further, the retainer can operate to reduce the effects of electromagnetic interference and can act as a heat transport system to reduce thermal stress on components.

Here presented is a series of Direct Connect Unifying Electrical Interface (UEI) based Cartridges (DC-Cartridges) or (DC-Outlets) created to deliver DC electricity originating from a DC-Homegrid System or any independent DC source. They offer a pathway for higher level DC delivery into a building. The DC-Cartridge series is constructed to unmistakably and easily be distinguished between other power delivery outlet formats used in other AC or DC arrangements. This series of cartridges is designed to offer higher DC power level output to a connected device as used in a home, commercial, and industrial applications. This would facilitate the integration of alternative energy supplies in the DC format for heavy load equipment, essential for the DC infrastructure of the future. The DC Cartridges can deliver power levels similar in fashion to the existing AC connectivity. Following in the standard set by the AC infrastructure, various DC levels are offered. A DC cartridge is offered to differentiate between each power level. Nomenclatures such as DCL, DCM and DCH are introduced to distinguish the various cartridge types and levels to set each apart from the other in the DC-Cartridge UEI based family.

Pluggable electrical outlet system is provided including a recessed wall box which may interchangeably receive various mating sockets to provide a universal outlet system. The pluggable electrical outlet system further includes a junction box for distributing power lines, a circuit break box with universal connectors, and extenders. The extenders are configured to run power from the circuit breaker and the junction boxes to the recessed wall boxes. The recessed wall box comprises a female connector structured to interchangeably receive a male connector located on each of the series of sockets.