A light guide plate includes a main body, stripe structures, and light-adjusting structures. The main body includes a light-incident surface and an optical surface. The stripe structures are disposed on the optical surface. The light-adjusting structures are disposed between two adjacent stripe structures. Each of the light-adjusting structures includes a first light active surface and a second light active surface. The first light active surface faces towards the light-incident surface. The second light active surface faces towards an opposite light-incident surface. The first light active surface and the second light active surface are inclined towards different directions and formed a non-symmetrical shape. A first included angle is formed between the first light active surface and the optical surface. A second included angle is formed between the second light active surface and the optical surface. The first included angle and the second included angle are acute angles.

A planar illumination device according to an embodiment includes a light guide plate, a light source, a top frame, and a plurality of optical sheets. The light guide plate receives light from a light incident side surface. The light source emits light to the light incident side surface of the light guide plate. The top frame covers a light exit surface side of the light guide plate. The plurality of optical sheets are disposed at the light exit surface side of the light guide plate, and an end portion is fixed at a rear side of a frame portion of the top frame.

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.

A display apparatus having high external light transmittance and a manufacturing method of the display apparatus are provided, wherein the display apparatus does not substantially include a common electrode in a transmission region. Particularly, a display apparatus includes a first substrate, a second substrate facing the first substrate, and a display unit interposed between the first substrate and the second substrate.

A method for manufacturing a display device includes the steps of: providing a first display panel including a first indicia and a second indicia; disposing a first window including a third indicia on the first display panel; identifying a position of the first indicia and a position of the third indicia; aligning the first display panel and the first window using the positions of the first and third indicia; coupling the first window and the first display panel to each other; identifying a coupled position defined by positions of the second and third indicia of the first display panel and the first window; correcting a position of a second display panel or a position of a second window based on the coupled position; and coupling the second window and the second display panel to each other.

A display device includes: a display member including a first region, a second region, and a third region defined between the first region and the second region; a first coated layer disposed on a first surface of the first region of the display member; and a second coated layer disposed on a first surface of the second region of the display member, where a first modulus of the first coated layer is smaller than a second modulus of the second coated layer.

Provided is a glass-free stereoscopic image display device herein. The glass-free stereoscopic image display device may include: a display module that displays a stereoscopic image through a cover including a lenticular lens including multiple convex lenses; and a processor that controls the display module, wherein the processor provides a stereoscopic image by controlling a left-eye image pixel and a right-eye image pixel of the display module on the basis of a lens pitch indicating a distance between the multiple convex lenses, and the cover is provided on a front surface of the user device to be combined with the user device.

A portable, electronic device configured to transform between a smartphone usage mode and a keyboard-based usage mode. The device includes (i) a base section and (ii) a top section that includes a touchscreen display that sits over the base section when the device is in the smartphone mode. A sliding carriage system enables the top section to both (i) slide back over the base section, moving parallel to a top surface of the base section, and then fully expose the keyboard, and (ii) then pivot so that the display is at a conventional reading angle to the keyboard.

A magnetic privacy screen comprises a privacy screen which has a front and back side. The privacy screen functions to reduce the visible angle of an electronic display. One or more magnetic components are in communication with the privacy screen. A plurality of magnets disposed within the electronic display releasably engage with the magnetic component of the privacy screen, retaining the privacy screen on the electronic display.

The disclosed liquid lens array may include a plurality of independently operable array sections, each of which may include (1) a transparent base layer, (2) an aperture plate overlapping the transparent base layer, the aperture plate defining a plurality of apertures extending through the aperture plate between an inner surface of the aperture plate facing the transparent base layer and an outer surface of the aperture plate, and (3) a liquid reservoir disposed between the base layer and the aperture plate. The liquid lens array may also include driving circuit for operating at least one array section of the plurality of array sections to change liquid volumes extending from the liquid reservoir at least partially through the apertures defined in the aperture plate of the at least one array section. Various other methods, systems, and devices are also disclosed.