A screen assembly is applied to the electronic device, and includes at least one light-transmitting layer capable of transmitting light, an optical surface structure is formed at a part of the light-transmitting layer, to form a first lens element at the part of the light-transmitting layer, and the first lens element serves as a lens element of a camera module of the electronic device.

Optical Device and Manufacturing Method An optical device (380) is disclosed, the device comprising a substrate (330), first electrically-conductive element (325) formed as a pattern on the substrate, a layer of material extending over at least a portion of the first electrically-conductive element and forming an optical element (370), and a second electrically-conductive element (355) extending through the layer of material and coupled to the first electrically-conductive element. Also disclosed is an associated method of manufacturing the optical device (380), and an apparatus (600) comprising at least one of the disclosed optical devices, a camera (605), and processing circuitry (615) communicably coupled to the at least one optical device and to the camera.

Optical Device and Manufacturing Method An optical device (380) is disclosed, the device comprising a substrate (330), first electrically-conductive element (325) formed as a pattern on the substrate, a layer of material extending over at least a portion of the first electrically-conductive element and forming an optical element (370), and a second electrically-conductive element (355) extending through the layer of material and coupled to the first electrically-conductive element. Also disclosed is an associated method of manufacturing the optical device (380), and an apparatus (600) comprising at least one of the disclosed optical devices, a camera (605), and processing circuitry (615) communicably coupled to the at least one optical device and to the camera.

An imaging device acquires images of a plate-like specimen container having a rectangular shape as seen in top view. The imaging device includes a table, a position reference member, and a holding mechanism. The position reference member includes a first extension and a second extension which intersect at right angles to each other. The holding mechanism includes a rotating plate extending horizontally in plate-like form, and a main body portion for pivoting the rotating plate forwardly in a circumferential direction by means of elastic force of a spring. The rotating plate includes a front wing portion, and a protruding portion protruding forwardly in the circumferential direction from the front wing portion. The specimen container is urged in a second direction to align along the first extension when the rotating plate is pivoted to bring the front wing portion into contact with the specimen container. The specimen container is urged in a first direction to align along the second extension when the protruding portion comes in contact with the specimen container. Thus, the specimen container is aligned and placed in a previously determined position in the imaging device.

An imaging device acquires images of a plate-like specimen container having a rectangular shape as seen in top view. The imaging device includes a table, a position reference member, and a holding mechanism. The position reference member includes a first extension and a second extension which intersect at right angles to each other. The holding mechanism includes a rotating plate extending horizontally in plate-like form, and a main body portion for pivoting the rotating plate forwardly in a circumferential direction by means of elastic force of a spring. The rotating plate includes a front wing portion, and a protruding portion protruding forwardly in the circumferential direction from the front wing portion. The specimen container is urged in a second direction to align along the first extension when the rotating plate is pivoted to bring the front wing portion into contact with the specimen container. The specimen container is urged in a first direction to align along the second extension when the protruding portion comes in contact with the specimen container. Thus, the specimen container is aligned and placed in a previously determined position in the imaging device.

A camera device is provided. The camera device includes a light emitting portion configured to change a light path of light according to a first control signal and output the light along a first light path or a second light path, a light receiving portion configured to receive the light reflected by an object and generate an electrical signal, and a control portion configured to generate the first control signal which controls the light path of the light to be changed to the first light path or the second light path. Here, the light emitting portion outputs the light with a first pattern along the first light path or outputs the light with a second pattern along the second light path.

An array substrate carrying a display area and a camera area surrounded by the display area provides connections to both areas free of electrical interference. The camera area includes a transparent area and a routing area surrounding the transparent area. The array substrate includes a first conductive layer and a second conductive layer. The first conductive layer includes first wires and first capacitance compensation patterns. The second conductive layer includes second wires. Each first capacitance compensation pattern is between adjacent first wires. Along a thickness direction of the array substrate, a projection of each first capacitance compensation pattern on the substrate overlaps with a projection of at least one second wire. A display panel and a display device are also disclosed.

The present invention discloses a display device and a manufacturing method thereof, the display device has a camera region and a displaying region surrounding the camera region, and has a cover plate; a transparent release agent layer disposed on the cover plate and is located in the camera region; a display function structural layer disposed on a surface of the cover plate with the transparent release agent layer; a protective adhesive layer disposed on the display function structural layer, and the protective adhesive layer having a first through hole corresponding to a region of the transparent release agent layer; the display function structural layer having a second through hole corresponding to the region of the transparent release agent layer.

The present invention discloses a display device and a manufacturing method thereof, the display device has a camera region and a displaying region surrounding the camera region, and has a cover plate; a transparent release agent layer disposed on the cover plate and is located in the camera region; a display function structural layer disposed on a surface of the cover plate with the transparent release agent layer; a protective adhesive layer disposed on the display function structural layer, and the protective adhesive layer having a first through hole corresponding to a region of the transparent release agent layer; the display function structural layer having a second through hole corresponding to the region of the transparent release agent layer.

Systems and methods are provided for displaying a first portion of a video, the first portion comprising a subset of the video that fits in a display area of a computing device. The systems and methods further detect movement of the computing device during playback of the first portion of the video, calculate a rotation of the display of the first portion of the video based on a direction of the movement, and cause the display of the first portion of the video to rotate relative to the direction of movement to display a second portion of the video, the second portion comprising a subset of the video that is associated with the direction of movement and that was at least partially not visible in the first portion of the video when displayed in the display area of the computing device.