In accordance with an example embodiment, there is disclosed herein, an apparatus, comprising a bezel, a cover, and a thermally conductive, electrically isolating material. The cover comprises top and side surfaces, a cavity for receiving an optical device, a first opening for the optical device to obtain an image, and a second opening for allowing an electrical conductor to be coupled with the optical device. The thermally conductive, electrically isolating, material, is shaped in accordance with the shape of the optical device. The bezel and the cover protect the optical device from discharge currents. The thermally conductive, electrically isolating, material provides electrical isolation of the optical device from the cover and conducts heat from the optical device to the top and side surfaces of the cover.

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.

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 sealing system for sealing an electronics housing includes, in one example, a one-piece sealing member that seals the perimeter surface of an electronics substrate disposed within the electronics housing. The one-piece sealing member includes a perimeter seal portion that engages the perimeter substrate, a first seal portion that engages a first substrate surface and a second seal portion that engages a second substrate surface of the electronics substrate. The one-piece sealing member also includes a pocket that engages and seals an input and output component adjacent to the electronics substrate, such as an audio connector or Universal Serial Bus connector. The perimeter seal portion of the one-piece sealing member may also include a translucent section that allows light from a light emitting diode to be emitted through the one-piece sealing member.

A housing for a radar sensor module has a back surface and a plurality of side surfaces connected to the back surface. A vent structure is connected to the back surface and at least one of the side surfaces. The vent structure includes an enclosure enclosing a chamber. A first opening in the vent structure penetrates the at least one of the side surfaces of the housing, such that the chamber is exposed to an exterior of the housing. A second opening in the vent structure penetrates the enclosure such that the chamber is exposed to an interior of the housing.

A jobsite communications center including a communications module including an electrical power source, at least one speaker and at least one antenna and a toolbox-like housing for enclosing the communications module and having a handle and first and second connection assemblies, the first connection assembly enabling readily-disconnectable and reconnectable stacking interconnection of the communications center with tool boxes, the second connection assembly enabling readily-disconnectable and reconnectable mounting of the communication center on a toolbox-carrying cart in a manner similar to connection of toolboxes thereto.

An electronic device may have a glass housing structures. The glass housing structures may be used to cover a display and other internal electronic device components. The glass housing structure may have multiple glass pieces that are joined using a glass fusing process. A peripheral glass member may be fused along the edge of a planar glass member to enhance the thickness of the edge. A rounded edge feature may be formed by machining the thickened edge. Raised fused glass features may surround openings in the planar glass member. Multiple planar glass members may be fused together to form a five-sided box in which electronic components may be mounted. Raised support structure ribs may be formed by fusing glass structures to a planar glass member. Opaque masking material and colored glass may be used to create portions of the glass housing structures that hide internal device components from view.

A system, topology, and methods including apparatus for releasably secure attachment to an electronic device. The apparatus or a component of the apparatus may include an electrical energy storage element. The apparatus or a compound of apparatus may be slidably coupled to an electronic device. The apparatus or a component of apparatus may be slidably coupled to an electronic device via a side, top, or base and rear of the electronic device. Other embodiments may be described and claimed.

An apparatus and a system for housing a device are described. The housing may include top and bottom members that may be removably coupled together so as to form the housing. The bottom member includes a bottom peripheral portion having a sound transmission portion configured to allow sound to traverse through the bottom member. The sound transmission portion is positioned on a back surface of the bottom peripheral portion proximate a speaker portion of the mobile computing device when the mobile computing device is encased by the protective encasement. The speaker transmission port includes a plurality of apertures translating from the interior surface of the bottom member to the external surface of the bottom member and an acoustic vent membrane overlaying the plurality of apertures, the acoustic vent membrane configured to allow sound but not water to pass through the acoustic vent membrane.

A display device according to one embodiment of the present invention includes a display module, and a heat dissipation unit which is coupled to a rear side of the display module. The heat dissipation unit includes a core part including a plurality of hollow polygonal columns extending in a front/back direction, a front sheet which is coupled to a front portion of the core part, and a rear sheet which is coupled to a rear portion of the core part. The core part has a thickness of about 40% to about 60% in the front/back direction with respect to a total thickness of the heat dissipation unit in the front/back direction.