Embodiments of an electrical outlet of the present invention generally include one or more sockets which include, in addition to positive, negative, and optionally, grounding electrical connections, at least one coupling/communication component, wherein AC electrical current flows through the outlet only when a plug comprising a complementary coupling/communication component is engaged with the socket, whereby the proximity of the coupling/communication component and the complementary coupling/communication component actuates the outlet to provide electrical current therethrough. In one embodiment, in lieu of a complementary coupling/communication component, a wireless transmission device is used to send a signal to the coupling/communication component to actuate the outlet. In other embodiments, an electrical outlet of the present invention includes a mechanism for maintaining engagement between the outlet and a receptacle/plug that provides for safe disengagement when they are inadvertently separated. Embodiments of a method of using embodiments of apparatuses of the present invention are also provided.

An automobile connection cable is configured with a controller area network (CAN-bus) circuit design and provided with a protocol interface between the J533 connector and USB Type-C. The function of switching between different protocols is achieved through the configuration of the cable assembly, so that the driver-assistance system ensures a better adaptability to the VAG vehicle models of Volkswagen Corporation (VAG). When the vehicle is shut off, the circuit control board can also control the constant power supply system between the external device and the vehicle, thereby reducing power consumption.

Disclosed is a device comprises: a moving block configured to have an inner space open toward one side, and to be capable of moving in forward direction toward a holder, formed on a connector jig, and in backward direction; a matching box, movably mounted in the moving block to be movable, of which shape is such that its movement in the forward direction is blocked by a part of a TPA connector seated in the holder if the part protrudes from the connector surface; and a contact switch configured to change its electrical state when the matching box moves, relative to the moving block, at a predetermined interval in the backward direction, wherein the moving block is configured to move further in the forward direction by at least the predetermined interval even in a state in which the matching box cannot move in the first direction.

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.

This disclosure relates to an access cover detection circuit for an electrified vehicle component and a corresponding method. An exemplary component of an electrified vehicle includes an access cover configured to selectively open and close relative to the component, and a circuit configured to indicate whether the access cover is open. The circuit includes a light sensitive electronic component.

An energy transmission device for a watercraft includes a tower arranged on land, a telescoping boom connected to the tower for pivoting about a horizontal axis and about a vertical axis, said boom including a free end, and a first plug connected to the free end of the boom and designed to electrically contact for transmission of electrical energy a second upwardly oriented plug on the watercraft via a vertical plugging motion from above by pivoting the boom relative to the tower.

A sealed enclosure power control system for controlling power to an electrical component within an enclosure. The sealed enclosure power control system generally includes an electrical component within the sealed enclosure, a first connector on the sealed enclosure adapted to provide a sealed electrical interface to the electrical component. The first connector has at least one first connector conductor element, and the system further includes a battery within the sealed enclosure, and the system also has a second connector, wherein when the first connector and the second connector are connected together, electrical power from the battery is applied to the electrical component, and when the first connector and the second connector are not connected together, the electrical power is not applied to the electrical component.

A connector arrangement includes a plug nose body; a printed circuit board positioned within a cavity of the plug nose body; and a plug cover that mounts to the plug nose body to enclose the printed circuit board within the cavity. The printed circuit board includes a storage device configured to store information pertaining to the electrical segment of communications media. The plug cover defines a plurality of slotted openings through which the second contacts are exposed. A connector assembly includes a jack module and a media reading interface configured to receive the plug. A patch panel includes multiple jack modules and multiple media reading interfaces.

An electrical connector system for assisting in coupling and unmating electrical connectors. The system generally includes an electromagnet to assist in mating and, alternatively, unmating or uncoupling a first electrical connector with a second electrical connector. The system may include a first electrical connector having a first plurality of contacts, an electromagnet on the first electrical connector adapted to produce a magnetic force, and an input device adapted to receive an input and to provide an output that causes an electrical current to be supplied to the electromagnet. When coupled, the first plurality of electrical contacts are conductively engaged with a second plurality of electrical contacts on the second electrical connector.

A plug comprises power contacts and a trip jumper having jumper contacts configured to make a trip connection, during a plugging action with the plug and a receptacle, with mating trip contacts in the receptacle. When the receptacle is connected to electrical power during the plugging action, a current over the trip connection can cause disconnection of a receptacle power contact from the power. A receptacle comprises receptacle power contacts and a trip circuit having receptacle trip contacts configured to make a trip connection, during a plugging action with the receptacle and plug, with mating trip contacts in the plug. When the receptacle is connected to electrical power during the plugging action, a current over the trip connection can cause disconnection of power to a receptacle power contact. A system can have an electrical device with a line cord connected to the plug.