A power conversion device includes a casing, a structural plate, a converter module, an auxiliary circuit board module and a top cover. The casing includes a base plate and a side wall, and the base plate and the side wall form a chamber. The structural plate is located in the chamber. The converter module is located between the base plate and the structural plate. The auxiliary circuit board module is located at a side of the structural plate in the chamber away from the base plate, and is electrically connected with the converter module. The top cover seals the chamber.

In one embodiment, a server enclosure having a plurality of panels abutted to one another and constrained by a connector comprising a channel and at least one aperture. Each respective panel comprises 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 remote garage door opener module for after-market assembly into a vehicle for transmitting signals to a garage door opener includes a bezel positionable against a headliner of the vehicle along an interior surface thereof in a position over a hole in the headliner. The module further includes a housing enclosing a power source and electronic circuitry for transmitting the signals. The housing extends away from a first side of the bezel and is positionable at least partially through the hole in the headliner. The module further includes a button exposed at a second side of the bezel and coupled to the electronic circuitry and a mounting element selectively engageable with the headliner adjacent the hole and coupled with one of the housing or the bezel for coupling the module with the headliner.

A system for occupancy prediction includes one or more occupancy sensors configured to detect a current occupancy state of one or more detection zones including at least one of occupied by one or more occupants or vacant of occupants. The system including one or more occupancy sensors configured to predict a future occupancy state of the one or more zones based on the current occupancy state and one or more historical occupancy states, wherein at least one occupancy sensor of the one or more occupancy sensor is communicatively coupled to an electrical load. The system including at least one occupancy sensor is configured to actuate the electrical load based on the predicted future occupancy state of the one or more zones.

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 display device housing and corresponding receiving bracket may provide a snap-in or screwless configuration to place a monitor into a wall bracket or self-standing display housing. In one example the apparatus includes a display housing that includes an electronic display affixed to a mounting bracket which rests along the perimeter of the electronic display and which comprises at least two spring loaded securing tabs, and a receiving bracket configured to house the display housing and the mounting bracket in a secure position with at least two receiving slots form-fitted to receive the at least two spring loaded securing tabs and provide a secure spring loaded locking position that maintains the display device housing and the mounting bracket in a locked position.

A structure for a cabinet containing electrical materials is disclosed having posts, crossbeams and connecting means. The connecting means are adapted to join one to another at least two crossbeams and one post, and including a base element and a hollow element which is provided with a substantially axial opening. The base element is constrained to the crossbeams and has an inserting portion adapted to be inserted inside the hollow element. Conversely, the hollow element is adapted to be constrained to the post. In particular, the hollow element, the post and the inserting portion are each provided with a bore, the bores being alignable one to another in operative conditions. A joining element provided with a truncatedcone shaped portion is adapted to pass in each of the bores when they are aligned, so that to constrain one to another the hollow element, the post and the inserting portion.

A protective enclosure for an electronic device includes a hard shell cover that fits over the electronic device. The protective enclosure includes a membrane that is attached to the hard shell cover, the membrane configured to cover a portion of the installed electronic device. The membrane is located proximate a sound feature of the electronic device and the membrane can include an acoustic screen attached to an opening of the membrane, the acoustic screen configured to allow the transmission of acoustical waves to or from the electronic device through the membrane while the electronic device is installed in the protective enclosure.

A housing for an electronic device that allows electromagnetic waves to pass through the housing is disclosed. The housing may include a first portion having an opening, a second portion positioned within the opening, and an insert including a protrusion extending into at least a portion of a gap formed between the first portion and the second portion. The housing also may include a first ink layer disposed within the gap and substantially surrounding the protrusion, and a second ink layer disposed within the gap and over the first ink. The first portion, second ink layer, and second portion may cooperate to form a substantially contiguous surface, and the second ink layer may be positioned approximately 5 microns (m) or less below an exposed surface of the first portion and an exposed surface of the second portion.

An adjustable frame includes a first support, a second support, two third supports and two assembling members. The second support is disposed on the first support, and the second support is slidable relative to the first support along a first direction. The two third supports are disposed on the first support. At least one of the two third supports is slidable relative to the first support along a second direction perpendicular to the first direction for adjusting a distance between the two third supports. The two assembling members are respectively disposed on the two third supports, and a distance between the two assembling members is adjustable by movement of the at least one of the two third supports.