An assembly comprises a first subassembly, a second subassembly, and a conductive grounding element. The first subassembly comprises a first module comprising a first ground plane and a first conductive region in operable communication with the first ground plane. The second subassembly comprises a second module comprising a second ground plane distinct from the first ground plane and a second conductive region in operable communication with the second ground plane. The first and second subassemblies attach to each other along a seam. The conductive grounding element comprises an electrically conductive material including a first portion disposed adjacent to the first conductive region and a second portion disposed adjacent the second conductive region. The conductive grounding element is configured to fill one or more gaps in the seam and to operably couple together the first and second ground planes of the first and second subassemblies into a third common ground plane.

A power receptacle assembly includes a base unit which includes a housing. The housing includes a bottom housing, a housing cover coupled to the bottom housing and first and second end caps coupled to the bottom housing and the housing cover. The bottom housing, the housing cover, and the first and second end caps define a housing interior. The base unit also includes a constant voltage driver disposed within the housing interior. Additionally, the power receptacle assembly includes a plurality of power receptacles electronically coupled to the constant voltage driver though the housing. The power receptacle assembly also a secondary unit including a housing defining an interior, a sled coupled to another power receptacle configured to be disposed within the housing interior and a clamp.

Today, building automation and infrastructure provisioning are discrete deployments and systems such that electrical power distribution for consumption, electrical power and switching for lighting, environmental sensors, security sensors and the like are discrete and fixed. The present disclosure provides receptacles including electrical power outlets and light switches with configurable and reconfigurable additional functionality such that additional functions are distributed as necessary or required within the environment such as sensors, wireless interfaces, and data interfaces through the use of removable inserts. Further, these receptacles and inserts support artificial intelligence-based assisted living functionality through monitoring user activities with the artificial intelligence centralized or distributed locally or remotely accessed. These receptacles and inserts identify other electrical or electronic devices attached to them, allowing increased knowledge of the user's activities, as well as providing additional aspects of artificial intelligence-based assisted living such as power monitoring, and preventive maintenance.

A multi-port Universal Serial Bus Type-C (USB-C) controller with ground and supply cable compensation technologies is described. A USB-C controller includes a first power control circuit (PCU) coupled to a system ground terminal and a first ground terminal and a second PCU coupled to the system ground terminal and a second ground terminal. The first PCU receives a first ground signal indicative of a first ground potential at a first USB-C connector and adjusts a first power voltage line (VBUS) signal on the first VBUS terminal based on the first ground signal and the system ground. The second PCU receives a second ground signal indicative of a second ground potential at a second USB-C connector and adjusts a second VBUS signal on the second VBUS terminal based on the second ground signal and the system ground.

A switched power receptacle that can be programmed to provide power for a user-selected duration in a user-selected cycle. The invention can be plugged into a conventional receptacle, extension cord, or other source of power. One or more user inputs and displays are provided so that the user can program the cycle for switching on the power (once every 2 days, once every 7 days, etc.). One or more user inputs are provided so that the user can select the duration of activation for each cycle (1 hour, 3 hours, etc.). Status indicators are preferably provided so that the user can easily monitor the operation of the device.

A tamper resistant electrical receptacle comprises a housing including a cover having at least one plug outlet formed therethrough, the plug outlet configured to receive both line and neutral blades of an electrical plug. The electrical receptacle further comprises electrical contacts positioned within the housing below the at least one plug outlet, the electrical contacts being configured to be connect to AC power. A shutter disposed within the housing between the cover and the electrical contacts is slidable between a closed position blocking access to the electrical contacts through the plug outlet and an open position allowing access to the electrical contacts through the plug outlet, the shutter being biased toward the closed position. The shutter is configured to slide from the closed position to the open position only upon simultaneous insertion of both the line and neutral blades of the electrical plug in the plug outlet.

A modular power distribution system for use on a vehicle having an electric power source. The system includes a power distribution block having a switch socket with a first format, a device socket having a second format, associated with the switch socket to form a socket pair, a relay electrically coupling the switch socket to the device socket, and input power terminals electrically coupled to the socket pair and the relay, and configured to be electrically coupled to the electric power source. A switch wire harness includes a switch plug having a first complemental format configured to be removably received by the first format of the switch socket. A device wire harness includes a device plug having a second complemental format configured to be removably received by the second format of the device socket.

A power sharing device allows a single high voltage electric socket to be shared with one or more appliances and an EV charger. The device can be easily installed and used without updating the electric circuit of the dwelling. The device senses the load of the appliance socket(s) and automatically disconnects the EV charger socket if significant current is being drawn by the appliance(s). The device may also include a circuit breaker to prevent current overload of the electric circuit. These and other features of the device provide improved safety relative to existing solutions.

The present disclosure relates to wire terminals and/or termination mechanisms arranged and configured for use with a wiring device The wire terminals may be used in any suitable line-voltage wiring device. The wire terminals are arranged and configured to selectively receive a distal end of a wire therein.

A tower system including a column and an electrical power outlet board positioned within the column, the electrical power outlet board having electrical power receptacles positioned on opposite sides of the board, the receptacles being accessible on opposite sides of the column.