A shutter system includes a substrate having a front surface with a length and a width, and a conductive layer on a portion of the front surface of the substrate; a dielectric layer disposed on the conductive layer; and an electrostatic shutter having a proximal end attached to the dielectric layer such that a portion of the shutter is in direct physical contact with the dielectric layer at a point at or adjacent the attached proximal end. The shutter is configured to transition between extended and retracted configurations. In the same or an alternative embodiment, the system includes a reinforcement configured such that when the shutter is in the extended configuration, an edge at a distal end of the shutter opposite the proximal end remains substantially parallel to the proximal end of the shutter as the shutter transitions from the extended configuration to the retracted configuration.

A privacy filter includes a base having a shape corresponding to a shape of an adherend and formed in a sheet form, a micro-louver portion stacked on one face of the base, wherein the micro-louver portion has a louver pattern in which a light transmitting layer and an opaque layer are alternately arranged with each other in a repeated manner, a first coating formed on one face of the micro-louver portion, a second coating formed on an opposite face of the base to one face of the base, and a foam pad stacked on one face of the second coating, wherein the foam pad is to be adhered to the adherend, and has a predetermined thickness.

The present disclosure provides an optical film layer including a first transparent cover layer, a second transparent cover layer, an ink layer, and a connection layer. The second transparent cover layer is disposed over the first transparent cover layer. The ink layer is disposed on an edge region of a surface of the second transparent cover layer. The connection layer is disposed between the ink layer and the first transparent cover layer and between the surface of the second transparent cover layer and the first transparent cover layer to connect the first transparent cover layer and the second transparent cover layer. By disposing the ink layer between the first transparent cover layer and the second transparent cover layer, a problem of light leaking from an edge of a view area is solved and a display device is thinned, thereby enhancing a display quality of the display device.

An electro-optical device includes a first translucent plate, a display panel, and a second translucent plate that is bonded to a surface of the display panel on an opposite side from the first translucent plate. The display panel includes a first substrate including pixel electrodes provided in a display region, a second substrate including a common electrode, an electro-optical layer which is disposed between the pixel electrodes and the common electrode, and a sealing member that is provided in a sealing region along an outer edge of the display region and between the first substrate and the second substrate, and adheres the first substrate and the second substrate. When seen from a thickness direction of the first translucent plate, an outer edge of the first translucent plate overlaps the outer edge of the display region, or is positioned between the display region and the sealing region.

An array of microstructures or frustums on a substrate for reducing glare for electronic device displays or windows. The microstructures are designed to nearly perfectly align with the pixels on the display to avoid adverse viewing effects, such as Moiré effects. Substantially all light from the environment illuminating the front side of the film containing the microstructures from all angles is not reflected to the primary viewer (often viewing at an angle normal to the film). Light illuminating the microstructure from the environment will reflect off the microstructures at angles greater than a defined threshold outside the primary viewers field of view. Thus, glare to the primary viewer is minimized while glare to other views who view from other angles than the primary viewer is increased. This increased glare for other viewers adds privacy for the viewing by the primary viewer.

A fingerprint identification assembly is disclosed. The fingerprint identification assembly includes first point light sources for emitting first signal light; second point light sources for emitting second signal light after the first point light source emits the first signal light; light sensitive units configured to sequentially receive the first signal light and the second signal light reflected by a finger; and an optical filter layer provided on a light entry side of the light sensitive unit. The optical filter layer includes first filter units, the first filter unit corresponds to a non-imaging area that is formed on the light sensitive units after the first point light source is lit, for preventing the first signal light reflected by the finger from irradiating the non-imaging area of the light sensitive units, and allowing the second signal light reflected by the finger to irradiate the non-imaging area of the light sensitive units.

A display device includes a substrate including a display area, a non-display area, a first additional area connected to the non-display area at a first boundary, and a second additional area connected to the first additional area at a second boundary, pixels on the display area, an encapsulation film on the pixels, electrodes on the encapsulation film, pads on the second additional area, sensing wires connecting the electrodes and the pads, a first sensing insulating film on the encapsulation film, and a second sensing insulating film on the first sensing insulating film. The substrate includes a curved first side in the first additional area and the first additional area decreases in width from the first boundary to the second boundary, and a boundary of the first sensing insulating film is closer to the first side than a boundary of the second sensing insulating film is to the first side.

An anti-peep patch includes a privacy protection film and a magnetic area. The privacy protection film (or privacy filter) stands for an anti-peep film for protecting a user's privacy, and the privacy protection film is provided for controlling a light exit at a predetermined angle to protect a message displayed on screen, so that a message or an image displayed on the screen can be seen from the front side, but cannot be seen clearly from the left and right sides, and the magnetic areas on both left and right sides of the privacy protection film magnetically attract an iPad or a mobile device, and the anti-peep patch can be attached onto or removed from the iPad or the mobile device instantly.

A display device includes a display panel including a display area and a non-display area, a window disposed on the display panel and including a base substrate and a printed layer disposed on a surface of the base substrate and overlapping with the non-display area, and an adhesive layer disposed between the display panel and the window. The adhesive layer includes a first adhesive portion overlapping with the non-display area, and a second adhesive portion adjacent to the first adhesive portion and having a creep value different from a creep value of the first adhesive portion.

A display panel includes: a flexible substrate, and the flexible substrate includes an intermediate region and a preset bending region located at at least one side of a periphery of the intermediate region; a display layer located at a side of the flexible substrate; and a transparent cover film layer located at a side of the display layer away from the flexible substrate, and the transparent cover film layer includes a first portion located at a side of the display layer away from the intermediate region, and a second portion located at a side of the display layer away from the preset bending region. The first portion is connected to the second portion, and the thickness of at least partial region of the second portion progressively decreases in a direction away from the first portion.