Provided is a substrate unit including a case accommodating a circuit board; a bus bar electrically connected to the circuit board, and includes an extending portion extending out of the case; and an external thread portion for electrically connecting the extending portion to a connection terminal of a wire harness, the external thread portion including a shaft portion with an external thread, and a head portion that is noncircular, and protrudes at one end portion of the shaft portion in a radial direction of the shaft portion, wherein the case includes a fitting recess to which the head portion is fitted by sliding the external thread portion in a direction intersecting an axial direction of the external thread portion, and that has an abutment surface by which the head portion is stopped, and, at least on the two sides of the abutment surface, relief recesses that define a gap.

According to one embodiment, in a semiconductor storage device, a conductive cover is provided on a side of the principal surface, and covers at least a part of the memory and the controller. A substrate has a first notched portion and a second notched portion in an outer edge. The conductive cover has a top plate portion, a first side plate portion, a second side plate portion, a first claw portion, and a second claw portion. The first claw portion is extended from a lower end of the first side plate in a direction intersecting with the principal surface. The first claw portion is fitted into the first notched portion. The second claw portion is extended from a lower end of the second side plate in the direction intersecting with the principal surface. The second claw portion is fitted into the second notched portion.

An object of the present invention is to provide an electronic control unit that curbs overflow of a sealant at a three-way junction of the sealant in the vicinity of a connector. The electronic control unit includes a first seal part 51 that seals between a base member 40 and a cover member 30, a second seal part 52 that seals between the base member 40 and a connector housing 20, and a third seal part 53 that is connected to the first seal part 51 and the second seal part 52 and seals between the cover member 30 and the connector housing 20. In a part (three-way junction) where the first seal part 51, the second seal part 52, and the third seal part 53 intersect, a space part 41JA1 that is connected to the recessed part 41 and recessed further from a surface forming the recessed part 41 is formed.

A radar sensor for a vehicular radar sensing system includes a housing structure and at least one printed circuit board (PCB). The housing structure includes a front housing and a rear housing. The PCB is accommodated between the front housing and the rear housing in a cavity established when the front housing and the rear housing are joined together. The rear housing may be joined to the front housing via an intermediate frame disposed between the front housing and the rear housing, with the rear housing secured to the intermediate frame via a plurality of fasteners and with the front housing secured to the intermediate frame via welding.

A shield box includes a top portion, a bottom portion and a socket. The top portion defines an aperture and includes at least one first ridge and at least one first groove. The bottom portion includes at least one second ridge and at least one second groove. The first ridge of the top portion occupies a second space defined by the second groove of the bottom portion, and the second ridge of the bottom portion occupies a first space defined by the first groove of the top portion. The socket is disposed over the bottom portion and accessible through the aperture of the top portion.

Provided is an electronic device capable of preventing stress from being generated in each of joining portions of electronic circuit components joined to a printed circuit board, thereby preventing breakage in each of the joining portions. The electronic device includes a printed circuit board (1), and a housing having the printed circuit board (1) received therein. A rubber packing (4), which is interposed between a case main body (2) and a cover (3), is elastically compressed due to a fastening force of case-and-cover fastening screws (31) so that a packing main body (4a) hermetically seals an inside of the housing. Packing projecting portions (45) of the rubber packing (4) press circuit-board protruding portions (15), to thereby hold the printed circuit board (1) inside the housing.

A circuit assembly is provided with a circuit unit that includes an electrically conducting path on which electronic components are mounted, a heat discharging member that is placed on the circuit unit, and is configured to discharge heat of the circuit unit, and a spacer that is disposed between the circuit unit and the heat discharging member. The spacer is provided with a main portion that is disposed between the circuit unit and the heat discharging member, and accommodating portions that accommodate a part of the circuit unit.

A power adapter is disclosed. The power adapter includes housing parts that carries electronic components. To secure the housing parts together, one housing part includes snaps and another housing part includes protrusions and rails. During assembly, the protrusions slide under the snap, causing the snap to deflect in one direction, while the rails slide over the snap, which keeps the snap partially flat but also causes the snap to deflect in another direction. The engagement (during assembly) of the rails and the protrusions to opposing surfaces of the snap cause bi-directional deflection/bending of the snap. When each protrusion is positioned into an opening of the snap, the snap returns to a flat, non-deflected state, and the housing parts are secured together by the snap, protrusions, and rails. The rails support the snaps by limiting or preventing additional deflection of the snap, which subsequently promotes the housing remaining together.

In a state where an engaging tab and a tab receiver are engaged with each other, the engaging tab is elastically deformed and thus a first end of a second portion applies a force to the tab receiver, the force applied toward a first side of a case.

A case for use with a portable computing device is provided. The case comprises a housing for protecting the portable computing device. The housing is configured to attach to the portable computing device. The case further comprises a multiport hub and/or a data storage device contained within the housing. The multiport hub is configured to be electrically connected to the portable computing device.