Example techniques for securing an expansion card in a computing device are disclosed. An example method includes securing a mounting bracket within the computing device. An adjustable retention clip is installed in a preferred location at the mounting bracket. An expansion card is then installed in a space created by the adjustable retention clip and the mounting bracket, and the expansion card is secured to the adjustable retention clip.

Apparatuses, systems, and methods for interfacing with multiple components connected to a printed circuit board. An apparatus includes a plurality of hardware components that each include a first interface. An apparatus includes a printed circuit board that includes a plurality of interfaces that communicatively couple each of the hardware components to the printed circuit board via the first interface. The printed circuit board includes a second interface that communicatively couples the printed circuit board to an information handling device and manages communications between the information handling device and each of the hardware components coupled to the printed circuit board.

Apparatuses and systems associated with expansion card design with a coherent connector to provide for coherent communication are disclosed herein. In embodiments, a circuit card may comprise an integrated circuit (IC), a first connector to couple the IC to a processor of a computer device, the first connector to provide for non-coherent communication between the IC and the processor, and a second connector to couple the IC to the processor, the second connector to provide for coherent communication between the IC and the processor. Other embodiments may be described and/or claimed.

A device for attachment of double-sided adhesive and a method for attachment of the double-sided adhesive are provided. The device includes a driver, a platform and a robot arm provided above the platform. The robot arm is connected with the driver and configured to, under the driving of the driver, place the double-sided adhesive onto a preset position of the platform, strip off the first protective film of the double-sided adhesive at the preset position, press the printed circuit board assembly (PCBA) at the preset position against the double-sided adhesive without the first protective film, and unload the PCBA attached with the double-sided adhesive from the preset position. A positioning structure is provided at the preset position and configured to secure the adhesive layer and the second protective film when the robot arm strips off the first protective film, and release the securing of the adhesive layer and the second protective film when the double-sided adhesive is attached to the PCBA.

A display apparatus includes a display unit, and a stand configured to support the display unit to stand on a horizontal plane, wherein the stand includes a first stand member and a second stand member coupled with each other in a front-rear direction.

A method for producing a composite window pane, particularly a motor vehicle windscreen, includes mounting guide pins and electronic components on traces of a printed circuit board and inserting the printed circuit board between a first and a second glass plate. The guide pins are inserted in passthroughs in the first glass plate.

An electronic device is disclosed, including a hinge connecting to first and second housings as to enable foldability, a flexible display spanning at least a portion of the first housing and the second housing, wherein the flexible display is foldable and unfoldable along with folding and unfolding of the first and second housings, a first sealing member extending as to be disposed between an inner surface of the first housing, an inner surface of the second housing, and an outer surface of the flexible display and an elastic support member disposed between a portion of the flexible display, a portion of the inner surface of the first housing, and a portion of the inner surface of the second housing, within a folding area in which the first housing and the second housing are foldable and unfoldable.

In an example, a card retainer may include a pivot mount, a bracket, and a latch hook. The bracket may be movable or pivotable between a released position and a locked position. The bracket may include a bracket pivot, a locking portion, and a cantilevered latch. The locking portion may engage with an expansion card. Further, the cantilevered latch may engage with the latch hook to retain the bracket in the locked position.

A power adapter for powering portable electronic devices is disclosed. The modifications and enhancements to the power adapter can reduce or eliminate the need for adhesives, flexible circuitry, and/or wiring. The power adapter includes multiple guide rails used to guide a circuit board (carrying components) to electrical springs. The electrical springs provide not only an electrical coupling, but also a mechanical coupling. As a result, wiring and/or adhesives is not required. Additionally, a cap is secured to the enclosure through melting part of the cap by, for example, ultrasonic welding without causing damage to the circuit board, as welding location(s) is/are in locations away from the electrical springs and other sensitive components. The power adapter further includes a connector connected to the circuit board. During assembly, the circuit board can pivot in three dimensions during assembly to align the connector with the cap.

In some examples, a shock absorption bracket includes one or more damping pads coupled to a facing surface of an absorption leg. The absorption leg is attached to a support leg and defines an internal corner with the support leg. The support leg is configured to attach to an equipment cabinet. The shock absorption bracket may be configured to define a gap between the damping pads and one or more support surfaces of the equipment cabinet. The shock absorption bracket may be configured to attach to a rear section of an equipment cabinet having an equipment access in a front section of the equipment cabinet.