A charging connector comprises a lock lever having a latch, a cooperation portion, a switch mechanism and a temporary maintenance mechanism. The latch is movable between an engageable position and a released potion via a predetermined position. The switch mechanism is located at an initial position when the latch is located at the engageable position. The switch mechanism includes a pressed portion. The temporary maintenance mechanism temporarily maintains the switch mechanism at the initial position when the latch is located between the engageable position and the predetermined position. When the latch is located between the predetermined position and the released position, the cooperation portion presses the pressed portion of the switch mechanism to move the switch mechanism from the initial position against the temporary maintenance mechanism and thereby changes a state of the switch body from the initial state to a released state.

A voltage of a first pin that is one of several pins of an external connector of a system is measured, while the first pin is un-driven except for being pulled to ground through a first resistance, and a second pin of the external connector is being used as a power supply rail of the system. The measured voltage is compared to a short circuit threshold and in response to that threshold being exceeded, the power supply voltage on the second pin is reduced. In such an embodiment, no test stimulus needs to be applied to any of the pins of the external connector. Other embodiments are also described and claimed.

An outlet and nightlight device with a solid base. The base has a front, back, top and two outlets on the front the base. There are two plugs on the back of the base, a light sensor, and a light emitter. The front of the base is attached to a raised section which is attached and in moveable communication with a face plate. In some embodiments the face plate slides across the raised section and in others it can rotate away from the raised section via a hinge on the base plate. The light sensor can trigger to the light emitter to emit light in low light conditions and in some embodiments there is a manual trigger for the light emission. In some embodiments the base has USB port for utilization. In some embodiments the face plate can lock to the base plate. In some embodiments the present invention has ancillary light emitters on the raised plate. In some embodiments of the invention there is a battery back up to supply energy to the light emitter in case of power failure.

A mains plug for connecting a charging system of a motor vehicle to a socket outlet of an alternating current network comprises a contact housing having a first gripping area and a sensor unit having a first sensor electrode embedded in the contact housing. A first section of the contact housing is arranged between a first surface of the first gripping area and the first sensor electrode.

A connector with overvoltage protection, and methods of use, for charging an electric aircraft. The connector includes a housing, at least a current conductor, a protection circuit, at least a sensor and a controller. The housing is configured to mate with an electric aircraft port of the electric aircraft. The at least a current conductor is configured to conduct a current. The protection circuit is configured to control transmission of electrical power through the connector. The at least a sensor is configured to detect an output voltage of the connector. The controller is communicatively connected to the at least a sensor. The controller is configured to determine an overvoltage output as a function of the output voltage, and activate the protection circuit based on detection of the overvoltage output.

This application provides a power supply system. The power supply system includes a first device and a second device. The first device may be one of a control device and a film-and-television light, and the second device may be the other of the control device and the film-and-television light. The first device includes a first housing, a first coupler socket, a power supply circuit and a first set of contacts. The second device includes a second housing, a second coupler socket, a power receiving circuit, and a second set of contacts. In the power supply system. The power supply circuit in the first device and the power receiving circuit in the second device can be electrically connected through the first set of contacts in stalled on the first coupler socket and the second set of contacts installed on the second coupler socket.

A stackable connector interface with magnetic retention for electronic devices and accessories can allow power and data to be transferred between one or more stacked connectors. Each interconnected stackable connector includes one or more magnetic elements, which magnetic elements have poles arranged to facilitate mating with other stackable connectors. The magnetic elements provide a magnetic retention force that holds mated connectors in contact with each other. In some embodiments, the connectors include connection detection circuitry for determining whether the connectors are mated with other connectors, thereby allowing the connectors to prevent live contacts from being exposed at an unmated surface of the connectors. In some embodiments, routing circuitry is included to determine how signals should be transferred between the interconnected stackable connectors and/or corresponding devices.

An insulation piercing connector includes a connector body, a bolt, a piercing pin, and an insulator member that electrically insulates the piercing pin from the bolt. The connector body includes a cable receiving slot and a threaded bore in communication with the cable receiving slot. The bolt includes a threaded shank with a central bore, and a head joined to the threaded shank by a shear-off section. The piercing pin is supported within the central bore by the insulator member and includes opposite first and second ends. The first end is configured to pierce the insulation of an electrical cable extending through the cable receiving slot and contact a conductor. The central bore of the bolt threadingly receives a sensor. The sensor includes a probe that contacts the second end of the piercing pin to obtain information from the conductor, such as voltage, current, and/or thermal information.

An actuator module for locking an electrical connection comprises a lock, a drive unit, and a position detection unit. The lock is movable between an unlocked position and a locked position along a direction of movement. The lock has a trigger. The drive unit moves the lock from the unlocked position to the locked position. The position detection unit has an optical sensor detecting the trigger and determining a position of the lock.

An attachment device for cables is described herein. This attachment device includes a central body formed of a plastic material and defining a cavity configured to receive a temperature probe and a plurality of straps extending from the central body, each strap of the a plurality of straps configured to secure a cable to the central body, wherein the central body defines a wall having a first side configured to be in contact with the temperature probe and a second side in contact with a cable. This attachment device may notably be used in an electrical connection assembly having a connector, a temperature sensor disposed within the device, and at least two cables.