Low-profile keysets and input devices having such low-profile keysets are described. In one example, the input device includes a support structure having a first and second surface; a bezel having a first and second surface, wherein the first surface of the bezel is adjacent to the first surface of the support structure, and the bezel comprises at least one opening; at least one key cap positioned within the at least one opening of the bezel, wherein each key cap is configured to move between a first and second position to trigger a function of the input device; and a fabric cover layer positioned adjacent to the second surface of the bezel, such that the bezel and the at least one key cap are positioned between the fabric cover layer and the support structure, the fabric cover layer is only adhered to the second surface of the bezel.

One variation of a system includes a substrate including: a first layer including a first spiral trace coiled in a first direction; a second layer arranged below the first layer and including a second spiral trace coiled in a second direction and cooperating with the first spiral trace to form a multi-layer inductor; and a sensor layer including an array of drive and sense electrode pairs. The system also includes: a cover layer arranged over the substrate and defining a touch sensor surface; and a first magnetic element arranged below the substrate and defining a first polarity facing the multi-layer inductor. The system further includes a controller configured to drive an oscillating voltage across the multi-layer inductor to oscillate the substrate in response to detecting an input on the touch sensor surface based on electrical values from the set of drive and sense electrode pairs.

An electronic device and a keyboard module thereof are provided. The keyboard module includes a base plate, a plurality of key structures, a backlight module, and a photocatalyst layer. The base plate includes a plurality of openings. The plurality of key structures is disposed on the base plate and respectively corresponds to the openings. The backlight module is disposed under the base plate and includes a visible light emitting unit and an ultraviolet light emitting unit. The photocatalyst layer is coated on a lower surface of the base plate. An electronic device having the keyboard module is further provided.

Particular embodiments described herein provide for an electronic device, such as a notebook computer or laptop, that includes a circuit board coupled to a plurality of electronic components (which includes any type of components, elements, circuitry, etc.). The electronic device may also include a base portion and a lid portion coupled to the base portion at a hinge configured such that the base portion and the lid portion can rotate between an open configuration of the electronic device and a closed configuration of the electronic device. The lid portion can include at least one segment that is to raise at least a portion of the base portion in response to a rotation toward the open configuration (e.g., opening the lid portion to access a touchpad or a keyboard of the electronic device, or to see a display of the electronic device).

A keyboard including an electronic paper display module, a front light module, a supporting member, a light-transmitting keycap, and an elevating support is provided. The front light module is disposed on the electronic paper display module. The supporting member is disposed on the front light module. The supporting member includes an elastic supporting protrusion and a light guide part embedded in the elastic supporting protrusion, and the elastic supporting protrusion has an opening exposing a portion of the front light module. The light guide part is located in the opening of the elastic supporting protrusion. The light-transmitting keycap is disposed on the elastic supporting protrusion and covers the opening of the elastic supporting protrusion. The elevating support is disposed between the light-transmitting keycap and the front light module.

An information handling system may include a processor; a memory; a PMU; a wireless interface adapter for communicating, via a plurality of transceiving antennas operated by one or more radio frequency (RF) subsystems on a plurality of operating wireless links; a monolithic microwave integrated circuit (MMIC radar) to: scan for human presence around the information handling system; scan for human proximity near any of the plurality of transceiving antennas; an antenna controller to receive tagged telemetry data and execute an antenna proximity event algorithm using the tagged telemetry data as input and comparing the human proximity and movement relative to locations of the plurality of transceiving antennas on the information handling system; and an operating system to execute a privacy detect event module to identify a privacy detect event to secure the information handling system.

A keyboard finger guide device includes an elongated divider this is positionable horizontally between two rows of a keyboard, and a plurality of curvilinear guides that are secured to the divider perpendicularly and are positionable vertically between a plurality of individual keys of the keyboard. The guides extend above the top surface of the keyboard keys to provide a constant guide for the first two fingers of a user's left and right hands in the typing position at rest. A keyboard with an integrated finger guide is also provided. The keyboard including a plurality of keys having protrusions along a top surface to act as a guide for receiving and aligning a users fingers according to a 10-finger typing method.

An electronic device, including a host, a main display, an auxiliary display, and a lifting mechanism, is provided. The main display is pivoted to the host. The auxiliary display is disposed on the host. The lifting mechanism is disposed between the auxiliary display and the host. The lifting mechanism is configured to lift the auxiliary display and maintain a lifting height of the auxiliary display.

One embodiment provides a device, including: a mechanical keyboard; a key state component mechanically co-located with each of a plurality of keys of the mechanical keyboard, wherein the key state component changes state between at least actuated and unactuated; a processor; a memory device that stores instructions executable by the processor to: detect an input to change a state of the key state component for at least one of the plurality of keys; and change, responsive to the input, the state of the key state component for the at least one of the plurality of keys. Other aspects are described and claimed.

An integrated computational interface device includes a housing, at least one image sensor, and a foldable protective cover. The housing has a key region and a non-key region, and a keyboard associated with the key region. The foldable protective cover incorporates the at least one image sensor. The protective cover is configured to be manipulated into a plurality of folding configurations, including a first folding configuration, wherein the protective cover is configured to encase the key region and at least a portion of the non-key region, and a second folding configuration, wherein the protective cover is configured to stand in a manner that causes an optical axis of the at least one image sensor to generally face a user of the integrated computational interface device while the user types on the keyboard.