A system for detecting a presence of a feature or function of an output device used with an electronic device. The system includes a connector associated with the output device, the connector having a magnetic region comprising one or more magnetized members to provide a magnetic field. The system further includes a magnetic sensor associated with the electronic device, the magnetic sensor being positioned proximate a connection port of the electronic device, the connection port being configured to receive the connector to enable the magnetic sensor to detect a presence of the magnetic field and to determine the feature or function of the output device. The system further includes control logic associated with the magnetic sensor, the control logic controlling the electronic device based on the presence of the magnetic field and according to the determined feature or function of the output device.

A printed circuit board is housed in a connector. A temperature sensor is mounted on the printed circuit board between two connection pads located on one of the faces of the printed circuit board. A contact housed in the connector is placed in thermal continuity with two thermal conduction lands, one of which is arranged on the same face of the printed circuit board as the connection pads and the other of which is arranged beneath the temperature sensor. Each of the connection pads is connected to a temperature measurement circuit.

The present disclosure relates to an electric vehicle charging connector, in which a heat sink is provided to effectively cool the electric vehicle charging connector during charging of an electric vehicle, heat generated in an interface between an electric vehicle cable and a conductor of a connector connection unit is quickly absorbed by the heat sink, and a cooling fluid flows in the heat sink to cool an electric vehicle charging cable and is collected in an electric vehicle charger after cooling of the heat sink, and an electric vehicle charging assembly.

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 terminal equipped electric wire includes an electric wire including: a conductor and an insulating sheath covering the conductor, a part of the conductor extending out of an end portion of the insulating sheath being an exposed portion, a terminal fitting having an electric wire connection portion at a rear side of the terminal fitting, the electric wire connection portion being connected to the exposed portion, a water stop shrinkable tube covering the electric wire connection portion connected to the exposed portion in a watertight manner, a sensor disposed on an outer surface of the water stop shrinkable tube, the sensor contacting the outer surface of the water stop shrinkable tube and a sensor fixing shrinkable tube covering and fixing the sensor on the outer surface of the water stop shrinkable tube.

A connector includes a terminal, a housing, a temperature sensor, and a holding structure. The holding structure holds the temperature sensor so as to be movable in at least a first orthogonal direction in a space portion (housing formation space portion). The housing has the base portion and the pressing arm portion extending from the base portion in the contact direction and elastically deformable with respect to the first orthogonal direction orthogonal to the contact direction. The pressing arm portion has a protrusion portion that protrudes into the space portion and comes into contact with the temperature sensor. When the protrusion portion comes into contact with the temperature sensor, the pressing arm portion is elastically deformed to press the temperature sensor located in the space portion with respect to the first orthogonal direction, and the pressed temperature sensor is brought into contact with the terminal.

A load contact module for a charging plug-in connection includes: a load contact, which is designed to electromechanically contact a load contact to be inserted and/or slid on; a mounting portion, which is designed to connect the load contact module to a support of a charging plug and/or of a charging socket; and a temperature sensor for the temperature monitoring of a charging process, wherein the temperature sensor has a distance from the mounting portion.

A detection device for detecting an insertion depth of a terminal of a cable connector inside a housing of the cable connector includes a positioning assembly and a detection assembly. The positioning assembly positions the housing of the cable connector. The detection assembly includes a first driving device, a sensing element mounted on the first driving device and movable by the first driving device, and a displacement sensor mounted on the first driving device and movable in a moving direction of the sensing element by the first driving device. The displacement sensor is connected to the sensing element and senses a displacement of the sensing element.

A circuit assembly for mounting on a vehicle assembly is provided. The circuit assembly may be a mountable sensor assembly. The assembly may include a housing with a cavity that houses a circuit, for example a sensor circuit. The circuit may be sealed in the cavity of the housing by epoxy. The housing may include a connector recess with terminals extending into the connector recess. The terminals may provide an electrical connection to the circuit. The housing may have openings between the cavity and the connector recess through which the terminals extend. One or more of the openings may have a cross sectional profile larger than the cross sectional profile of the terminal such that a passage is formed between the cavity and the recess after the terminal is inserted through the opening.

A high-voltage plug connection part for a high-voltage plug connector of a high-voltage electrical system of a motor vehicle, the high-voltage electrical system, and the motor vehicle are disclosed herein. The high-voltage plug connector can be coupled to at least one high-voltage line. The high-voltage plug connection part has at least one integrated temperature sensor which is designed to detect a sensor signal that characterizes the temperature of the at least one high-voltage line and provide the detected sensor signal to an analysis device in order to monitor the temperature of the at least one high-voltage line.