The present disclosure generally relates to the field of display technology, and in particular to a fingerprint recognition device and a display device having the fingerprint recognition device. A fingerprint recognition device includes a substrate; a plurality of point light sources on the substrate, which are configured to emit light; a plurality of light sensors on the substrate, which are configured to generate an electrical signal based on the light emitted from the plurality of point light sources and reflected from a touch surface, and a display layer on the plurality of light sensors.

A display device includes a substrate, a driving circuit disposed on the substrate and for driving display units, sensing units disposed on the substrate and including a first semiconductor layer, a sensing circuit configured for driving the sensing units and including a second semiconductor layer, and a first passivation layer disposed on the sensing circuit. A thickness of the first semiconductor layer is greater than a thickness of the second semiconductor layer. At least a part of one of the sensing units is disposed in a recess penetrating through the first passivation layer.

A projector includes an image generation section adapted to generate a composite image including a first image based on a first image signal, a second image based on a second image signal, and a boundary line indicating a position to be a boundary between the first image and the second image, a projection section adapted to display the composite image generated by the image generation section on a screen, a position detection section adapted to detect a position of a pointing body with respect to the screen, and a control section adapted to make the image generation section generate a composite image with a boundary line moved based on the position of the pointing body detected by the position detection section.

An assembly for holding and controlling curvature of a glass plate for an optical touch sensitive system is described. The assembly comprising a first frame element extending in a first plane and configured to extend at least partially around a panel; at least one second frame element extending in a second plane and forming a support portion for the plate, and at least one spacing element positioned at least partially between the support portion and the first frame element. The spacing element us configured to control a curvature of the first frame element and wherein the at least one second frame element is configured to engage the plate at the support portion, is attached to the first frame element, and is tiltable, by controlling the curvature of the first frame element with said spacing element, to control a curvature of the plate.

A fingerprint module includes a substrate, a plurality of fingerprint identification components, a fingerprint chip, and a plurality of metal wires. The substrate has an identification area configured to identify a fingerprint and a non-identification area located at a periphery of the identification area. The fingerprint identification components are disposed in the identification area of the substrate. The fingerprint chip is disposed in a non-identification area of the substrate. Each of the fingerprint identification components is electrically connected to the fingerprint chip through a corresponding metal wire.

According to one embodiment, an electronic equipment includes a liquid crystal panel including a display portion, a polarizer superposed on the display portion, and a detection element superposed on the liquid crystal panel and the polarizer to detect infrared rays through the liquid crystal panel and the polarizer.

The invention relates to a display device having an integrated, optically operating proximity sensor system (30) for detecting an object present within an observation space in front of the display device, such as a hand a finger of a hand of a person. The display device is provided with a display unit (22), which has a front side having an information-displaying display surface (20) and having an edge region (18), which adjoins said display surface and is not used for the display of information, and a rear side. The display device also has a proximity sensor system (30) having at least one transmitter (32) for emitting sensor radiation toward the observation space and having at least one receiver (34) for receiving sensor radiation reflected from the observation space. The proximity sensor system (30) is arranged in the edge region (18) of the front side or the at least one transmitter (32) is arranged on the rear side of the display unit (22) or facing the rear side of the display unit (22) or in the display unit (22) and the at least one receiver (34) is arranged on the front side of the display unit (22) in the edge region (18) adjoining the display surface (20).

A method and an apparatus for implementing a virtual paintbrush are provided. The method includes: acquiring a real shooting scene by a camera of a terminal device; forming, based on an operation performed on the terminal device, a handwriting area of the virtual paintbrush in the real shooting scene; and forming handwriting of the virtual paintbrush based on the handwriting area, where the handwriting is fused with the real shooting scene and a fused image is displayed on the terminal device.

An interactive input system with bezel light around an input area provided by optical fiber is described. Two or more cameras have a field of view of at least a portion of the bezel. The optical fiber provides continuous backlight illumination to at least one input object. The optical fiber has at least one nanostmcture therein for diffusing light. At least one light source provides a directional light to an end of the optical fiber.

An interactive input system with bezel light around an input area provided by optical fiber is described. Two or more cameras have a field of view of at least a portion of the bezel. The optical fiber provides continuous backlight illumination to at least one input object. The optical fiber has at least one nanostmcture therein for diffusing light. At least one light source provides a directional light to an end of the optical fiber.