Provided is an electronic module including a housing case for housing a relay, a heat transfer sheet placed on an inner surface of a bottom plate of the housing case, a terminal provided on one surface of the relay opposing a bottom plate, and a crank portion in which a first flat plate portion electrically connected to the terminal and a second flat plate portion that is in contact with the heat transfer sheet are coupled in a crank shape.

Provided is an electronic control unit that can be used even in a mounting environment causing severe salt damage. In order to achieve the above-described object, in an electronic control unit according to the present invention, a minimum distance between a wall and a respiratory filter is set to be 3 mm or more.

An electrical connector is adapted to be retained in a non-conducting housing and electrically connecting a first component to a second component spaced from one another. The connector includes a first end having a first contact portion for electrically communicating with the first component. A second end of the connector has a second contact portion for electrically communicating with the second component. The second end has a cantilevered beam adapted to flex at a knee portion to bias the second contact portion against an electrical contact surface of the second component. An attachment portion is disposed between the first and second ends. The attachment portion includes an engagement portion providing an interference fit with a mating groove of the housing in which the connector is retained.

The present disclosure provides an on-board cabinet, an autonomous driving device, and a vehicle. The on-board cabinet includes a cabinet body, at least one shock absorbing assembly, and at least one carrier plate. The cabinet body includes an interior providing a space for accommodating, and the shock absorbing assembly and the carrier plate are disposed inside the cabinet body. The shock absorbing assembly includes an adjusting plate and an elastic element, the adjusting plate is vertically disposed inside the cabinet body by the elastic element, and the carrier plate is movably disposed on the adjusting plate.

A mounting structure for mounting an electrolytic capacitor on a printed circuit board (PCB) of an airbag electronic control unit (ECU) includes a cap for receiving a lead end of the capacitor. The cap includes openings for receiving electrical leads of the capacitor. The cap supports electrical connectors, which electrically contact the electrical leads when a lead end of the capacitor is installed in the cap. The electrical connectors include portions for interfacing with the PCB to electrically connect the electrical connectors to the PCB. The cap also includes a vent that provides fluid communication from inside the cap to outside the cap. The vent is configured to vent dielectric liquids and gases discharged from the lead end of the capacitor during thermal cycles and/or charging cycles of the capacitor.

A moveable seat control apparatus with an automatically chargeable battery, may include a seat including a moving motor engaged to the seat and configured to selectively move the seat along a rail, a battery positioned below the seat, and configured to receive power to perform charge, and to supply the charged power, a controller positioned below the seat and connected to the battery, and configured to monitor a state of charge (SOC) value of the battery to generate SOC information, and to control the moving motor to move the seat to a charge position when the SOC is equal to or less than a predetermined SOC, and a charger connected to the battery and coupled to a power supply terminal to receive the power and to charge the battery.

A method of assembling an electronic control unit comprises assembling a printed circuit board (PCB) substrate with a terminal carrier holding a plurality of terminal pins comprising a right angle bend into a housing using a rotational motion. The terminal carrier generally extends perpendicularly from the PCB substrate. A first end of each of the plurality of terminal pins is inserted into the PCB substrate and a second end of each of the plurality of terminal pins extends through the terminal carrier. The second ends of the plurality of terminal pins generally extend into one or more connector openings in one of four sides of the housing and the terminal carrier interlocks with the housing to hold the PCB substrate with the terminal carrier and the plurality of terminal pins in place.

An electronic control unit for controlling a vehicle part is provided herein. The electronic control unit comprises a housing. The housing has an exterior surface and mounting elements on the exterior surface. The mounting elements are adapted for fastening the housing to a structure of a vehicle.

An electrical arrangement (1), comprising a housing (2) having a housing opening (20), an electrical component (3) within the housing (20), a power supply connection (4), a contact protection cover (5), and a circuit breaker (6) which can be inserted into the housing (2), wherein, in the inserted state, the circuit breaker (6) connects the electrical component (3) to the power supply connection (4) and, in the withdrawn state, the circuit breaker (6) disconnects the connection, wherein the contact protection cover (5) can be fastened to the housing (2) in a locking position in which the contact protection cover (5) covers the housing opening (20), and wherein, in the inserted state, the circuit breaker (6) locks the contact protection cover (5) in the locking position.

In a connector of an electrical junction box, a protruding portion protrudes away from a tubular portion from a bottom wall of the tubular portion whose one end face is open. In a housing box, a tubular first cover portion protrudes outward from a circumferential edge portion of an insertion port, and a second cover portion protrudes from a portion of a front end face of the first cover portion. A portion of the protruding portion of the connector is inserted into the insertion port. The first cover portion covers the protruding portion, and the second cover portion covers the protruding portion with a space interposed between the second cover portion and the protruding portion 22. An adhering member is between the protruding portion of the connector and the first cover portion of the housing box and adheres to the protruding portion and the first cover portion.