Examples of a silicon cold plate with an integrated PCB are described. An apparatus may include a silicon plate, one or more electrical and thermal connections, and a heat-generating device. The silicon plate may include a first side and a second side opposite the first side, a plurality of edges between the first side and the second side, one or more internal coolant flow channels therein, one or more coolant inlet ports disposed on one or more of the edges and configured to allow a coolant to flow into the one or more internal coolant flow channels, and one or more coolant outlet ports disposed on one or more of the edges and configured to allow the coolant to flow out of the one or more internal coolant flow channels. The one or more electrical and thermal connections may be disposed on the first side of the silicon plate. The heat-generating device may be disposed on the one or more electrical and thermal connections.

A display device and a method of manufacturing the same are provided. The display device includes a backplate, a display panel, and a supporting structure. The backplate includes a first backplate and a second backplate. The display panel includes a first non-bending area, a second non-bending area, and a bending area. The first backplate is configured to support the first non-bending area. The second backplate is configured to support the second non-bending area. The bending area is bent toward the backplate to form a bending space. The supporting structure is filled in the bending space to support the bending area of the display panel.

The invention concerns a functional component (400) for a component construction system (100) for electrical connection to a bridge module (300) which comprises a housing (421) with a component-securing arrangement (401) for securing the functional component (400) to a support profile rail (200).

An accessory is provided that includes power supply module, a first functional module, and a second functional module. The power supply module can be configured to be suspended beneath an overhead support, such as a hub of an umbrella. The first functional module is configured to affix to the power supply module and to be powered by the power supply module to provide a user directed function. The second functional module is configured to be detachably coupled to either the power supply module or the first functional module to receive power from the power supply module directly or through the first functional module.

An expansion card mounting assembly includes a mounting structure and a circuit board coupled to the mounting structure. Expansion cards are mounted on a top side and a bottom side of the circuit board and secured at opposite ends by a moveable plate of the expansion card mounting assembly. The mounting structure includes an opening along a length of the expansion cards that allows air to flow over the expansion cards in multiple directions including a vertical direction. The moveable plate and mounting structure are configured to allow a position of the moveable plate on the mounting structure to be adjusted to mount expansion cards having different lengths in the expansion card mounting assembly.

An electronic device comprises a first case, a resin plate, and a display. The first case has a first surface and a second surface. The resin plate is located inside the first case. The display is located on a side facing the first surface of the first case.

A display device and a display equipment are provided. The display device includes a frame and a flexible screen. A width of the frame is adjustable, and a width of the flexible screen is adjustable.

The disclosed apparatus may include (1) a housing designed to house a field-replaceable unit within a telecommunication system, (2) a connector that is designed to electrically interface the field-replaceable unit with the telecommunication system in the housing, (3) a spring that is coupled to the housing, and (4) a movable injection cam that is coupled to the spring such that, when the field-replaceable unit is installed in the housing by way of an ejection lever that presses against the movable injection cam, the spring applies a force on the movable injection cam that causes the movable injection cam to push the field-replaceable unit toward the connector. Various other apparatuses, systems, and methods are also disclosed.

An electrical service interface system include a configurable device and inverter mounted to an equipment tower, wherein each of the configurable device and inverter include alignment devices configured to rollably mount the configurable device and inverter to corresponding guides mounted to a support pad, and to align the configurable device to the inverter, and the inverter to the equipment tower. In an installed configuration, the configurable device electrically and mechanically couples to the inverter via a DC connector and one or more mounting systems, and the inverter mechanically and electrically couples to the equipment tower via an AC connector and one or more mounting systems.

An electrical service interface system include a configurable device and inverter mounted to an equipment tower, wherein each of the configurable device and inverter include alignment devices configured to rollably mount the configurable device and inverter to corresponding guides mounted to a support pad, and to align the configurable device to the inverter, and the inverter to the equipment tower. In an installed configuration, the configurable device electrically and mechanically couples to the inverter via a DC connector and one or more mounting systems, and the inverter mechanically and electrically couples to the equipment tower via an AC connector and one or more mounting systems.