A personal electronic device (e.g., a tablet computer) may be configured to wirelessly charge an accessory (e.g., a stylus) through a display face of the device. At least a portion of the display face may be transparent to facilitate display viewing. A wireless charging assembly disposed within the enclosure may include a core having one or more windings disposed thereon, which may be configured to generate a magnetic flux above the display face to couple to the accessory. The core may be a pot core, a modified pot core, or may have another shape, such as a PQ core. The one or more windings may be disposed on one or more posts of a pot core, or additionally or alternatively, may be disposed on another portion of the core. A metallic shield may be disposed about the wireless charging assembly, thereby surrounding multiple sides of the wireless charging assembly.

A cartridge-based computing system includes a display stand that connects to a compute module cartridge including a first securing member, a second securing member, and a release member coupled to the second securing member. The display stand defines a securing aperture that engages the first securing member when the compute module cartridge is connected to the display stand, which causes the first securing member to engage a securing element on the display stand and move it into engagement with the second securing member to connect the compute module cartridge to the display stand. The securing element may then be engaged by the release member to move it out of engagement with the second securing member, and into engagement with the first securing member to cause the securing aperture to disengage the first securing member and disconnect the compute module cartridge from the display stand.

An information handling system may include a chassis, a cable channel formed within the chassis, and a sleeve within the cable channel and configured to minimize airflow recirculation in the chassis via the cable channel, the sleeve comprising a cable passage opening for passage of a cable and an obstruction configured to create a seal at the cable passage opening in the absence of the cable from the cable passage opening, such seal restricting airflow through the cable passage opening.

A display panel and a method for manufacturing a display panel that includes a front side and a back side, the display panel including a substrate having a plurality of electronical components provided on a front side of the substrate and integrated circuits connected to the plurality of electrical components, the integrated circuits being embedded in the substrate. A plurality of edge contacts is also provided along edges of the substrate, where the plurality of edge contacts is electrically connected with the integrated circuits. An electrically conductive layer covers at least a part of the front side of the substrate and surrounds the plurality of electrical components, where the electrically conductive layer does not physically contact the embedded integrated circuits and provides EMI shielding to different components of the display panel.

A computing device remote control system includes a remote-control device, a remote-control adapter that is communicatively coupled to the remote-control device, and a computing device including a computing device Universal Serial Bus (USB) connector that is connected to the remote-control adapter. A function controller in the computing device is coupled to the computing device USB connector and operates to receive a remote-control message from the remote-control device via the computing device USB connector and the remote-control adapter and, in response, change a control function state stored in the function controller, and generate and transmit an alert. A system controller in the computing device is coupled to the function controller and operates to receive the alert from the function controller and, in response, access the function controller to identify the control function state stored in the function controller, and perform at least one control operation based on the control function state.

An acoustic absorbing panel adapted for use with computers and servers includes a first layer and an opposing second layer, and a core disposed between the first and second layers, the core including walls extending between the first and second layers and defining a series of cells, each cell being at least partially surrounded by a wall, adjacent cells being interconnected via an opening in the at least one wall. The panel includes a through hole in the first layer or the second layer. The hole may be aligned with a cell in a series of cells. The panel has an absorption band at a frequency between 800 Hz and 12000 Hz. The panel may include a flame resistant polymer composition. The panel may be mounted on the frame of an electronics enclosure. The electronics enclosure may be a server rack or a case of a computer or server.

An in-vehicle computer includes a computer casing, an electronic component, a fan, and an air duct. The electronic component and the fan are disposed inside the computer casing. An air inlet of the air duct is located outside the computer casing, and an air outlet thereof is toward or connected to the fan. The fan can generate an airflow for dissipating heat from the electronic component. Therein, the computer casing, the fan, and the air duct therefore form a heat dissipating system. A vehicle includes a vehicle cage and the in-vehicle computer. The in-vehicle computer is disposed inside the vehicle cage. The air inlet of the air duct communicates with the interior space of the vehicle cage, so that when the air conditioner of the vehicle is turned on, the fan can draw the cold air from the cockpit space for enhancing the heat dissipation efficiency.

A light source module includes a transparent conductive substrate, a circuit assembly and a light-emitting element. The circuit assembly is electrically connected with a conductive film of the transparent conductive substrate. The circuit assembly includes a feed terminal. The feed terminal is coupled with a po-go pin. The light-emitting element is installed on the conductive film of the transparent conductive substrate. The present invention also provides a computing device with the light source module.

An in-vehicle computer includes a computer casing, a filtering structure, and a fan. The computer casing has a casing accommodating space and a vent opening communicating with the casing accommodating space. The filtering structure is detachably disposed at the vent opening. The fan is disposed in the casing accommodating space and spaced from the vent opening. A suction port of the fan is toward the vent opening. The fan generates an airflow, for dissipating heat from an electronic component in the casing accommodating space. By the filtering effect of the filtering structure, the particle amount in the airflow can be reduced. A vehicle includes a vehicle cage and the in-vehicle computer, disposed in the vehicle cage. The vent opening communicates with the cockpit space of the vehicle cage, so that the fan can draw lower-temperature air for enhancing the heat dissipation efficiency.

A waveguide connector and a display apparatus including the same having a partition wall provided therein so that each of electromagnetic signals of different phases generated from a circuit board independently forms a waveform are provided. In accordance with an aspect of the present embodiment, a waveguide connector includes a main body including an inner space through which an electromagnetic signal travels; a first opening provided on one surface of the main body so that electromagnetic signals of different phases generated from an antenna provided on a circuit board enter the inner space; a second opening provided on the other surface of the main body so that the electromagnetic signals of the different phases traveling through the inner space enter a waveguide; and a partition wall provided in the inner space of the main body so that each of the electromagnetic signals having the different phases independently forms a waveform.