Disclosed is a printed circuit board (PCB) module including a first PCB comprising a base PCB, a sidewall disposed on a periphery of the base PCB, and conductive vias penetrating the sidewall, a second PCB disposed on the sidewall to cover a cavity formed by the sidewall of the first PCB, and at least one electronic component disposed inside the cavity and located on the first PCB and/or the second PCB, wherein the sidewall comprises a first layer disposed on an upper face of the base PCB and constructed of an insulating member, a second layer disposed on the first layer and comprising a polyimide, a third layer disposed on the second layer and constructed of an insulating member, and a fourth layer disposed on the third layer and comprising a conductive member conductive with respect to the conductive vias.

An electronic device is provided. The electronic device includes a housing which includes a mounting portion and an inner wall portion extending in a first direction with respect to the mounting portion, a printed circuit board which includes an outer wall portion that is parallel to the inner wall portion of the housing, a clip member including a clip portion which is arranged at a position adjacent to the outer wall portion of the printed circuit board to be electrically connected to the printed circuit board and which protrudes toward the inner wall portion, a protruding guide which is spaced apart from the clip portion in a second direction that is opposite to the first direction, and which protrudes from the outer wall portion of the printed circuit board toward the inner wall portion of the housing, and a guide recess formed in the inner wall portion of the housing.

An information handling system, including a chassis; a bottom door coupled to the chassis; an assembly, including a bracket coupled to the chassis, the bracket including an opening; a slider moveably coupled within the bracket, the slider including a cavity at least partially in superimposition with the opening; a nut positioned within the cavity, the nut including a threaded opening; and a fastener positioned through an opening of the bottom door and within the threaded opening of the nut to position the bottom door such that the bottom door abuts the chassis, wherein when the slider is in a first positional state with respect to the bracket, the nut is constrained within the cavity, wherein when the slider is in a second positional state with respect to the bracket, the nut is rotatable within the cavity.

The present disclosure relates to a portable solid-state drive (SSD) module. The portable SSD module includes a case, an SSD, a light-emitting device (LED) module and a main bracket. The case may have a window. The SSD may be arranged in the case. The LED module may be arranged in the case to indicate an operation of the SSD through the window. The main bracket may be arranged in the case to support the LED module. Therefore, the LED module may be readily and firmly combined with the case.

A system and method for cooling components and a chassis in a portable information handling system includes a pressure barrier that divides the chassis into a plurality of zones, an evacuative fan in a first zone to generate airflow across components to cool the components and a hyperbaric fan in a second zone to increase air pressure in the second zone. The pressure barrier may provide thermal isolation, acoustic dampening and electromagnetic insulation. A controller communicatively coupled to the fans can operate each fan independently to cool components for improved performance and maintain a surface temperature of the chassis below a temperature for user comfort.

According to an example, a device housing may have a support structure to hold a removably mounted computing component. The support structure may comprise a first rotatably mounted arm comprising a first post and a resilient biasing element attached to the arm. The resilient biasing element may bias the first arm in a direction towards engagement with the computing component such that the first post such that the first post holds the computing component in place.

According to one embodiment, an electronic device includes a housing formed of an insulator and including an outer surface and a mounting part opened to the outer surface, a conductor member provided in the inside of the housing, an installation component formed of an insulator and can be installed into the mounting part, and a first connector provided on the inner side of the mounting part. The mounting part includes communicating apertures at a position in contact with a gap to be formed between the mounting part and the installation component when the installation component is installed into the mounting part and on the outer surface side with respect to the first connector, and the conductor member is exposed to the gap through the communicating aperture.

Apparatus, systems, and articles of manufacture are disclosed teaching an apparatus comprising an extender including a body and a tab, the tab coupled to the memory device, a first surface of the tab to be aligned with a second surface of the memory device. Examples disclosed herein further include a bracket to extend across the second surface of the memory device and the first surface of the tab, the bracket coupled to the first surface of the tab via fasteners.

According to various embodiments of the present disclosure, an electronic device may include: a housing including a first support member, and a side structure surrounding at least a portion of an area in which the first support member is provided; a first opening extending from an outer surface of the side structure to an internal space of the housing through at least a portion of the side structure; a second opening provided at one side of the first opening and extending from the outer surface of the side structure to the internal space of the housing through at least a portion of the side structure; a vent hole extending from an inner wall of the second opening and having one end exposed to one surface of the first support member; and a waterproof member at least partially accommodated in the second opening. Various other embodiments are possible.

A wearable computing device, including a device body configured to be affixed to a body of a user. The wearable computing device may further include an inertial measurement unit (IMU) and a processor. The processor may receive kinematic data from the IMU while the device body is affixed to the body of the user. The processor may perform a first coordinate transformation on the kinematic data into a training coordinate frame of a training wearable computing device. At a first machine learning model trained using training data including training kinematic data collected at the training wearable computing device, the processor may compute a training-frame velocity estimate for the wearable computing device based on the transformed kinematic data. The processor may perform a second coordinate transformation on the training-frame velocity estimate to obtain a runtime-frame velocity estimate and may output the runtime-frame velocity estimate to a target program.