An electronic device may include a housing a housing comprising a first surface and an second surface generally parallel to the first surface, the second surface including an opening extending to the first surface, the first and second surface being spaced apart from one another along an axis; a first conductive member being coupled to the first surface; a second conductive member spaced apart substantially from the first conductive member along the axis; and a conductive dome structure disposed between at least a part of the first conductive member and at least a part of the second conductive member and forming an electric path between the first conductive member and the second conductive member.

A light emitting device according to the present embodiment includes a substrate on which a wiring portion is provided; a light emitting element which is provided on the substrate and is electrically connected to the wiring portion; a feeding portion to which an electric power is supplied from the outside; a first connection portion which is provided on the substrate and is electrically connected to the wiring portion; a second connection portion which is joined to the first connection portion through soldering and includes a first opening portion into which the feeding portion is inserted; and a soldering portion which is provided between the first opening portion and the feeding portion.

An electronic device may include a housing a housing comprising a first surface and an second surface generally parallel to the first surface, the second surface including an opening extending to the first surface, the first and second surface being spaced apart from one another along an axis; a first conductive member being coupled to the first surface; a second conductive member spaced apart substantially from the first conductive member along the axis; and a conductive dome structure disposed between at least a part of the first conductive member and at least a part of the second conductive member and forming an electric path between the first conductive member and the second conductive member.

A connector for connecting an electrical termination to a printed circuit. The connector has the shape of a metal plate including: a peripheral area for fastening the connector on the printed circuit; a central orifice for inserting the electrical termination; retaining tabs for retaining the electrical termination, each retaining tab extending from the peripheral area towards the central orifice, and includes an elastically deformable portion attaching the retaining tab to the peripheral area and a free end forming an edge of the central orifice, the free end comprising a curve and a sharp edge, the curve and the sharp edge being respectively positioned opposite to each other so that the curve is oriented towards a first face, called removable assembly face, of the metal plate, and that the sharp edge is oriented towards a second face, called permanent assembly face, of the metal plate, opposite to the first face.

A compression-defined broaching mount for compression-attached memory module (CAMM) includes a plurality of pins configured to retain a plurality of circuit boards in a compressed position. The pins may include a snap-pin, a push-pin, and/or a spring-loaded pin. The pin is removable. The CAMM may include a flat washer and/or a counter-sunk washer configured to receive the pin. The counter-sunk washer may have an opening to a chamber therein, where an inner surface of the chamber has a channel to receive a locking member of the pin. The CAMM may include a compressible material to exert a force when the pin is in a locked position. The compressible material may include an O-ring, a gasket, and/or a film. The CAMM may include a visual compression indicator.