An electrical outlet (10) for power and/or data is disclosed. The outlet 10 has a housing (11) which houses a plurality of moulded sub-components (18, 19) each of which is mounted within the housing (11) to have one or more sockets (8, 9) accessible by corresponding pin(s) of a plug used by a user. Not all of the sub-components (18, 19) are fabricated from the same mould. The sockets of the housed sub-components are covered by a cosmetic plate (17) having an array of openings corresponding to the sockets and sized to permit the pin(s) to pass through the openings and electrically engage the sockets. A method of fabricating such an electrical outlet is also disclosed. Preferably the outlet is authorised for sale and use without the cosmetic plate.

An electrical receptacle contains a plug outlet that has a pair of contacts for electrical connection to respective hot and neutral power lines. A controlled switch, such as a TRIAC, is connected in series relationship between the outlet contact and the hot power line. Sensors in the receptacle outputs signals to a processor having an output coupled to the control terminal of the controlled switch. The processor outputs an activation signal or a deactivation signal to the controlled switch in response to received sensor signals that are indicative of conditions relative to the first and second contacts.

An electrical receptacle contains a plug outlet that has a pair of contacts for electrical connection to respective hot and neutral power lines. A controlled switch, such as a TRIAC, is connected in series relationship between the outlet contact and the hot power line. Sensors in the receptacle outputs signals to a processor having an output coupled to the control terminal of the controlled switch. The processor outputs an activation signal or a deactivation signal to the controlled switch in response to received sensor signals that are indicative of conditions relative to the first and second contacts.

An electrical outlet may be stored (e.g., stocked at a manufacturer and/or a warehouse) in a bulk form and may be constructed to have a desired color, finish, and/or material prior to shipment to a customer. The outlet may comprise a rear bezel portion having a front surface with openings configured to receive blades of a plug of an electrical device for electrically connecting the electrical device to a power source and a front bezel portion configured to be mounted over the rear bezel portion. The rear bezel portion may have openings aligned with the respective openings of the rear bezel portion for receiving the blades of the plug. In addition, the electrical outlet may have a temporary bezel when stocked at the manufacturer and/or the warehouse. The temporary bezel may be removed from the outlet and a permanent bezel may be installed on the outlet prior to shipment.

An electrical wall plate may include one or more of the following features. A face plate comprising at least one electrical device opening extending through the face plate. At least one box mounting screw opening configured to receive at least one box mounting screw to fasten the face plate to an electrical device. A power connector extending in a direction away from the face plate and configured to connect with the electrical device. A camera integrated with the face plate and in electrical connection with the power connector and configured to operate by power obtained from the electrical device when the power connector is connected to the electrical device. A camera movement control feature may comprise externally-engageable components coupled to the face plate and configured to movably position the camera or a camera lens by pan or tilt to point in different directions.

A modular combined socket, which comprises a circuit module, a connection module and at least two socket modules. The circuit module includes a connection module interface and a socket interface with at least four conductive paths connected to each other. The connection module includes a power supply interface and a circuit module interface with at least four conductive paths that are connected to each other and can be connected to the connection module interface of the circuit module through the circuit module interface, and the socket module includes two or three interconnected socket modules. The output socket and line interface of the conductive path, each of the socket modules can be connected to different conductive paths of the socket interface through the line interface. It has the advantages of flexible combination, large load bearing and strong anti-interference. The present invention also provides a modular power supply assembly.

A variety of active cover plate configurations with prongs configured to contact side screw terminals of electrical receptacles are described.

A power extension cord socket includes a first socket device and a control device. The first socket device has plural AC power sockets and AC power switches, and each AC power socket is provided for plugging an external load to forward mains electricity, and each AC power switch is connected to the respective AC power socket for controlling the open circuit or closed circuit of the AC power socket. The control device is coupled to the mains electricity and electrically connected to the first socket device. The control device has a leakage detection processor and a leakage power-off switch and uses the leakage detection processor to detect a current usage status of the first socket device, and turns on the leakage power-off switch in an abnormal status to stop each AC power socket from forwarding the mains electricity to the load.

An electrical control system which controls an electrical device from two or more locations with independent control function, the system including a wall adapter having a first integrated circuit board, a first enclosure, and a second enclosure. The first enclosure includes a first push button, a first synchronizing push button, and a second IC board electrically connected to the wall adapter; and the second enclosure includes a second push button, a second synchronizing push button, and a third IC board. Each of the wall switch, the first synchronizing push button, and the second synchronizing push button is a system power control button and part of a synchronizing circuit that synchronizes the electrical control system to default system power controls upon being pressed by a user. Each of the first and second push buttons is a local button that controls a respective controlled receptable of a respective enclosure.

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.