Apparatus, systems, articles of manufacture, and methods are disclosed for physical keyboards with multi-display computing devices. An example keyboard includes a plurality of keys and a translucent backplate having a first side and a second side. The example keyboard also includes a coating between the first side of the backplate and the plurality of keys, the coating to pass light to illuminate the plurality of keys, and the coating to obscure the plurality keys when viewed from the second side of the backplate.

An apparatus for a foldable electronic device and a method of manufacturing the same. In one embodiment, the apparatus includes a foldable display module for an electronic computing device. The foldable display module includes a left display module portion that is foldable relative to a right display module portion. The apparatus further includes a foldable input module for the electronic computing device. The foldable input module includes a left input portion that is foldable relative to a right input portion. The apparatus further includes a connector that pivotally connects the foldable display module to the foldable input module such that the foldable display module is capable of pivotally opening and closing relative to the foldable input module.

A tablet information handling system keyboard stand stores pairing information in non-transitory memory accessed by an embedded controller upon detection of a physical connection with a tablet information handling system and communicated to an embedded controller in the tablet information handling system through the physical interface. Embedded controller cooperation coordinates configuration of a wireless personal area network interface without wireless communication or power applied to the wireless networking resources.

A computing device is disclosed. The computing device includes a shock mount assembly that is configured to provide impact absorption to sensitive components such as a display and an optical disk drive. The computing device also includes an enclosureless optical disk drive that is housed by an enclosure and other structures of the computing device. The computing device further includes a heat transfer system that removes heat from a heat producing element of the computing device. The heat transfer system is configured to thermally couple the heat producing element to a structural member of the computing device so as to sink heat through the structural member, which generally has a large surface area for dissipating the heat.

A key structure includes a key cap, a bridge assembly, a first supporting part, a second supporting part, an attractable element and a magnet. The bridge assembly includes first and second hinge parts. The first hinge part has a first pivot coupling portion and a first connecting portion. The second hinge part has a second pivot coupling portion and a second connecting portion, wherein the first and second connecting portions are connected on an axis, and the first and second hinge parts rotate with respect to the axis. The first and second supporting parts are coupled to two ends of the first and second pivot coupling portions, respectively. The attractable element is disposed on the second hinge part. The magnet is correspondingly located under the attractable element for providing a magnetic force, so that the attractable element is attracted and positioned by the magnetic force.

A keyboard and a notebook computer with the keyboard are provided. The keyboard includes a membrane circuit board and plural keys. Each key includes a keycap, a bulge and a key frame. The bulge is connected with the keycap. The key frame has a guiding groove corresponding to the bulge. When the keyboard is in a usage status, the bulge is not pushed by the guiding groove and thus the keycap is at a higher position. Since the keycap is at the higher position, the movable distance of the keycap is increased and the tactile feel of depressing the keycap is enhanced. While a top cover of the notebook computer is closed to cover the keyboard, the key frame is moved horizontally. As the bulge is pushed by the guiding surface of the guiding groove, the height of the keycap is lowered.

A portable device, e.g. a laptop, includes a first part (110), e.g. a base element, and a second part (120), e.g. a lid element. The second part (120) contains an optical remote sensing system (300). The second part (120) is pivotably attached to the first part (110) via a hinge means (115), such that the portable device may be arranged in an open and a closed position respectively. The optical remote sensing system (300) is configured to track at least one distinctive feature of a user of the portable device when arranged in the open position. The first and second parts (110; 120) have a respective essentially flat inner surface (111; 121), which when the portable device is arranged in the closed position are parallel and face one another. The first part (110) further includes a recess (112a) which is arranged relative to a position of the optical remote sensing system (300) such that, in the closed position, the optical remote sensing system (300) is at least partly contained in the recess (112a).

A keyboard includes a base plate, plural keycaps, plural scissors-type connecting elements and a sliding plate. Each scissors-type connecting element has a bulge. The gliding plate has plural position-limiting structures. The keyboard is installed on a notebook computer and connected with a top cover of the notebook computer. For operating the keyboard, the bulge is received in a first step part of the position-limiting structure. Consequently, the keycap is at a higher height. Since the keycap is at a higher height, the movable distance of the keycap is large enough to provide better tactile feel. For storing the keyboard, the bulge of the scissors-type connecting element is moved to the second step part of the position-limiting structure. Consequently, the height of the keycap is reduced, and the keyboard has a slim appearance.

A modular display monitor system includes an interchangeable display panel with a panel interface and an interchangeable connector module that has a connecting dock and a connector for interfacing with the panel interface. A user-configurable key comprising a key support mechanical linkage having at least one hinge mounted to a key support surface, a rocker panel operatively coupled to the key support mechanical linkage and including a ferromagnetic portion, a magnet and a magnet holding plate slidably disposed along the key support surface. The magnet holding plate is adjusted via a magnet holding plate position adjuster for sliding the magnet holding plate to move the magnet with respect to a pivot of the rocker panel.

A cover for a portable terminal having a fixing part for fixing the portable terminal and a folder rotating at the fixing part to open and close the portable terminal. The cover includes an input unit and/or a display unit, and a charging unit. The input unit inputs data to the portable terminal. The display unit displays data from the portable terminal. The input unit and display unit are constructed in the folder. The charging unit is constructed in at least one of the fixing part and folder, and supplies power to the portable terminal generated using a solar cell.