A multi-functional human interface device includes a control unit and a first multi-functional input button. The first multi-functional input button includes a cover unit configured to receive a touch input of a user's finger, an electrode unit including a transmitter and a receiver to form an electric field, an elastic unit configured to move from a first height to a second height when a first pressure is applied from the cover unit and configured to move back to the first height when the first pressure from the cover unit is released, and a switch unit configured to generate an electric signal representing an input of a predetermined letter.

Dual, ergonomically ideal, neutral-posture, wireless-and-programmable, joinable keys-input devices/housings (FIGS. 1A and 1B): with hinged ratcheted bases to allow additional operator-preferred keys-input planes of key-address; with hypothenar- and palm-rests; with customizable domed keys set in a customizable four-stair-stepped-key-ledges-configuration to match the natural curl and reach of operators' relaxed fingers; with the same domed keys arrayed to provide closer reach for the fingers with less extension of said fingers; with elevated and dedicated little-finger keys for ease of access; with two-way scalloped thumb-levers operable by simply dropping the relaxed thumbs; with joiner-rings for uniting the devices/housings; with built-in bolts-accesses for attachment to chair- or desk-arms; with embedded lenses for wireless transmission, projection, or remote control, or other; with integrated microphone for voice commands or recording; with a plurality of keys for possible alphanumeric input; with additional utility keys. Other embodiments obtain.

A light-emitting keyboard includes a bracket, a keycap, a circuit layer, a composite light-emitting layer and a spacing layer. The bracket has an opening. The keycap is disposed on the bracket and connected to the bracket via a support assembly. The circuit layer is disposed between the keycap and the bracket. The composite light-emitting layer is disposed under the bracket, and includes a substrate, a circuit disposed on the substrate and a light source located under the keycap and electrically connected to the circuit, wherein light emitted from the light source is transmitted upwardly to the keycap. The spacing layer is disposed between the composite light-emitting layer and the bracket, wherein the spacing layer includes a hole corresponding to the opening of the bracket, and the light source is located in the hole of the spacing layer.

A multi-functional human interface device includes a control unit and a first multi-functional input button. The first multi-functional input button includes a cover unit configured to receive a touch input of a user's finger, an electrode unit including a transmitter and a receiver to form an electric field, an elastic unit configured to move from a first height to a second height when a first pressure is applied from the cover unit and configured to move back to the first height when the first pressure from the cover unit is released, and a switch unit configured to generate an electric signal representing an input of a predetermined letter.

An input apparatus includes a reflection layer, a light guide plate, a first light source, a second light source and a light absorption member. The light guide plate is disposed on the reflection layer and includes a first light guide region and a second light guide region connected with each other by a junction, a first area of the first light guide region is different from a second area of the second light guide region. The first light source corresponds to the first light guide region. The second light source corresponds to the second light guide region, the light guide plate has a first opening structure disposed between the first light source and the second light source. The light absorption member is disposed at a position corresponding to the first opening structure.

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.

This invention adds a touch screen to a hardware keyboard as additional input from handwriting for a PC or a laptop. The new keyboard with a small size touch screen provides convenient ways for handwriting notes, drawing graph or painting, converting handwritten characters to formal text. The new keyboard with a large size touch screen can work with a PC/laptop as a PC/laptop with the advantage of input from touch screen over traditional PC/laptop. The new keyboard with a large size touch screen can work with a PC/laptop as a tablet with the advantage of input from hardware keys and mouse over a regular tablet. The new keyboard with a large size touch screen can work with a PC/laptop as a PC/laptop and a tablet simultaneously, either PC/laptop or tablet with the advantage of additional said input ways over a traditional PC/laptop or a tablet. An optional fingerprint sensor provides fingerprint for security application, e.g., account login, document sign and identity verification.

Disclosed herein is system for buffering processor interrupts from active input devices, such as Bluetooth devices, so that they are aligned with a video refresh rate. The system may include a processor that operates in a first operating mode (e.g., a low power mode) and, in response to an interrupt request, switch to a second operating mode (e.g., a higher power mode). The first operating mode may be different from the second operating mode (e.g., each with a different level of power consumption). The system may also include a video subsystem, in communication with the processor, that provides video information at a refresh rate. The system may also include an input subsystem, such as a wireless communication system, in communication with the processor, that receives an activity trigger representing an activity of a input device, such as a human input device, and provides, based on the refresh rate, the activity trigger to the processor as the interrupt request.

User interfaces for virtual reality, augmented reality, and mixed reality display systems are disclosed. The user interfaces may be virtual or physical keyboards. Techniques are described for displaying, configuring, and/or interacting with the user interfaces.

A key unit and a keyboard using the same are provided. The key unit includes a circuit board, a supporting assembly, a keycap, and a floating conductive structure. The circuit board includes a capacitance sensing circuit embedded therein, and the capacitance sensing circuit includes a pair of sensor electrodes which are spaced apart from each other. The supporting assembly is disposed on the circuit board. The keycap is moveably disposed above and spaced apart from the circuit board. The supporting assembly disposed between the keycap and the circuit board allows the keycap to be moved between a non-depressed position and a depressed position with respect to the circuit board. The floating conductive structure is disposed on the supporting assembly, and an orthogonal projection of the floating conductive structure on the circuit board overlaps with the pair of sensor electrodes.