In one embodiment, an apparatus for mounting a power module to a server chassis includes a first rail member attachable to a server chassis and a second rail member mountable to the first rail member. The second rail member includes several mounting points. The apparatus further includes a power distribution board (PDB) coupled to the second rail member at one of the mounting points. The PDB connects power from a power bus of an electronic rack to a server included in the server chassis populated on the rack. The PDB includes one or more power conversion devices to regulate power to the one or more electronic devices of the server and a set of power clips to attach the PDB to a power bus of an electronic rack. The coupling of the PDB and the rails enable connections to different electronic racks.

A minicomputer (1) comprises a computer monitor (2) configured from a computer monitor (3) by mounting a microcomputer device (25) and a power supply (35) for powering the microcomputer device (25) on a component tray (10) secured to a screen support housing (7) of the computer monitor (3). The microcomputer device (25) comprises a microcomputer board sold under the trade name Raspberry Pi. The microcomputer device (25) is configured to communicate wirelessly with a remote computer with a keyboard (4) and with a mouse (5), and to control a visual display screen (6) of the computer monitor (2) through a screen controller (18), also located on the component tray (10). A card receiving slot (39) of the microcomputer device (25) is accessed through a card accommodating opening (38) formed in the component tray (10) and through a card access opening (42) formed in a rear wall (12) of a rear housing (8) of the computer monitor (3). The card receiving slot (39) of the microcomputer device (25) is configured to receive a Micro SD Card (40), which acts as a hard drive of the microcomputer device (25), for selecting the communications mode and the communications protocol with which the microcomputer device (25) is to communicate with the remote computer.

A portable information handling system modular hybrid architecture separates components between rotationally coupled housing portions to minimize cabling, connectors and materials, and to provide improved durability that supports recycling and reuse of the components. For example, a plurality of display configurations couple to housing portions of different dimensions with opposing couplers and a common keystone element that, when installed, prevents separation of the opposing couplers. Removal of the keystone element provides ready access to the housing portion interior to recycle processing components, such as a main board having a processor and memory.

Various examples herein disclose a system comprising a power source, multiple cards, and a power connector. The power source is mounted on multiple cards. The multiple cards each include an edge configured to fit into a memory slot. The power connector is coupled to the power source and located on a side of the multiple cards other than the edge.

A wearable apparatus and method are provided for capturing image data. In one implementation, a wearable apparatus for capturing image data is provided. The wearable apparatus includes at least one image sensor for capturing image data of an environment of a user, wherein a field of view of the image sensor includes a chin of the user. The wearable apparatus includes two or more microphones, and an attachment mechanism configured to enable the image sensor and microphones to be worn by the user. The wearable apparatus includes a processing device programmed to capture at least one image, identify the chin of the user to obtain a location of the chin, select a microphone from the two or more microphones based on the location, process input from the selected microphone using a first processing scheme, and process input from a microphone that is not selected using a second processing scheme.

The present disclosure includes apparatuses and methods for providing energy information to memory. An embodiment includes determining, by a host, that a charge level of an energy source coupled to the host has reached or exceeded a threshold value, and transmitting, from the host to a memory device coupled to the host, signaling indicative of an energy mode for the memory device, wherein the signaling is transmitted based at least in part on determining that the charge level of the energy source has reached or exceeded the threshold.

The electronic device includes a first housing including a solar battery, a first display device, and a first structure body and a second housing including a second display device, a coil, an electric double-layer capacitor, a signal processing circuit, a charge and discharge control circuit, and a second structure body. The electronic device can be folded so that display surfaces of the first housing and the second housing face each other and the first structure body and the second structure body face each other. The solar battery is provided on a surface of the first housing on the rear side of the first display device. A pixel included in the first display device and a pixel included in the second display device each include a liquid crystal element, a first pixel circuit, a light-emitting element, and a second pixel circuit. The liquid crystal element includes a reflective electrode having an opening and can perform display by reflecting external light. The light-emitting element can perform display by emitting light toward the display surface through the opening.

A power device, including a box body, a power distribution module, at least one power supply module, a handle and a locking member, is provided. The power distribution module is detachably disposed on the box body. The power supply module is detachably disposed on the box body and detachably connected to the power distribution module. The handle is rotatably connected to the power distribution module and adapted to detachably connect the power distribution module to the box body. The locking member is movably disposed on the box body and is adapted to cooperate with the handle to position the power supply module. In addition, a server including the power device is also provided.

A chassis used for an electronic device is disclosed, comprising: a main body (21) suitable for internally accommodating the electronic device, wherein the main body has an opening on at least one of its sides for accommodating the optional accessories of the electronic device; and a panel (22) for enclosing the opening when closed and exposing the opening when opened. The panel (22) is suitable to be connected with a cable (23), the first end of which is suitable for being electrically connected to the electronic device and the second end of which is suitable for being electrically connected to the optional accessories. The panel (22) maintains the cable (23) within the main body (21) when closed, and exposes the second end of the cable (23) when opened. According to an embodiment of the present invention, A UPS arranged inside the chassis described above is provided. A set of SNMP optional accessories are also provided for the UPS, which may be installed only when SNMP function is needed, so that the manufacture cost of the UPS is reduced.

An internal component and external interface arrangement for a cylindrical compact computing system is described that includes at least a structural heat sink having triangular shape disposed within a cylindrical volume defined by a cylindrical housing. A computing engine having a generally triangular shape is described having internal components that include a graphics processing unit (GPU) board, a central processing unit (CPU) board, an input/output (I/O) interface board, an interconnect board, and a power supply unit (PSU).