A server enclosure having a plurality of panels abutted to one another and constrained by a connector having a channel and at least one aperture. Each respective panel has at least one perpendicular portion being perpendicular to a face of the respective panel and adjoining a perimeter of the respective panel. Connectivity media coincident to the aperture can affix at least two panels and a connector to one another.

A server enclosure having a plurality of panels abutted to one another and constrained by a connector having a channel and at least one aperture. Each respective panel has at least one perpendicular portion being perpendicular to a face of the respective panel and adjoining a perimeter of the respective panel. Connectivity media coincident to the aperture can affix at least two panels and a connector to one another.

The disclosed embodiments include enclosures for electronic devices formed from RF-transparent, toughened glass materials, such as chemically hardened alkali-aluminosilicate glass. For example, according to the disclosed embodiments, an enclosure for an electronic device may be formed from a plurality of enclosure components joined together along corresponding interfaces to establish an enclosure structure, or alternatively, may be formed from a single enclosure component. In some aspects, the enclosure structure may have corresponding first and second ends, the enclosure structure may have corresponding first and second surfaces, and the second surface may be exposed to an environment. The enclosure may also include first and second cap components disposed at corresponding ones of the first and second ends.

A housing for a vehicle device, the housing at least comprising at least one metal housing lower part having a housing lower part edge having a first joining surface. At least one metal housing upper part has a housing upper part edge having a second joining surface. The housing upper part edge having the second joining surface arranged on the housing lower part edge having the first joining surface so as to form a joint to one another. A seal is arranged in the joint, and the housing upper part edge is integrally bonded to the housing lower part edge at least at one welding portion of the housing via a beam welding process in the joint at least for mechanical stabilization of the housing.

According to embodiments, an electronic device includes: a housing including a face facing a first direction; a circuit board including first and second board faces substantially parallel to the face, and a side board face facing a second direction, the circuit board disposed within the housing; a first component disposed in a first region of the first board face; a second component disposed in a second region of the second board face overlapping with the first region; a first shield including a first side wall formed facing the second direction, the first shield covering the first region; a second shield including a second side wall formed facing the second direction, the second shield covering the second region; and a bonding material formed between the first side wall or second side wall and the side board face. The electronic device as described above may be variously implemented according to embodiments.

A protective cover for a portable computing device includes a first hardshell component, a second hardshell component, and a hinging element. The first hardshell component removably snaps onto a first portion of the portable computing device to protect the first portion of the portable computing device. The second hardshell component removably snaps onto a second portion of the portable computing device to protect the second portion of the portable computing device. The hinging element comprises a flexible material and is attached to the first hardshell component and the second hardshell component such that the hinging element of the protective cover aligns with the hinging structure of the portable computing device. The hinging element flexes to allow the second portion of the portable computing device to remain articulable relative to the first portion of the portable computing device when the protective cover is installed on the portable computing device.

An electronic control unit includes a casing and a cover which are mutually bonded. A drive circuit board which drives a motor unit is fixed to the cover and, on the other hand, a control circuit board which controls the drive circuit board is fixed to the casing. An electrical connector which supplies an electric power to each board and a motor unit is attached on an opening section of the casing. First power supply terminals of this electrical connector and the motor unit and second power supply terminals of the drive circuit board are directly electrically connected by a bonding of both of casing and the cover.

A micro-electronic cover has a planar portion sized and dimensioned to be positionable over and cover electronic components that are electrically connected on a board. The cover has a peripheral edge surrounding the planar portion and the electronic components. The peripheral edge connects the planar portion with the board to define a cover interior. The peripheral edge includes a side opening which provides access for passage of a connector part from a exterior to the cover to a position within the cover interior.

A plurality of parts built, in an electronic apparatus (1) are attached to a frame (20). Further, the frame (20) has a peripheral wall portion (21, 22, 23) formed along an outer peripheral face of the electronic apparatus (1). An upper cover (30) has a rear face portion (32) attached to a rear wall portion (23) of the frame (20) by a screw. Further, a lower cover (40) has a rear face portion (43) attached to the rear wall portion (23) of the frame (20) by a screw. With the structure, insertion locations of the fixtures such as screws can be suppressed from standing out.

A micro-electronic cover has a planar portion sized and dimensioned to be positionable over and cover electronic components that are electrically connected on a board. The cover has a peripheral edge surrounding the planar portion and the electronic components. The peripheral edge connects the planar portion with the board to define a cover interior. The peripheral edge includes a side opening which provides access for passage of a connector part from a exterior to the cover to a position within the cover interior.