Abstract:
A display panel mounting device is disclosed. The device includes a body with at least one handle having an activation mechanism, and a mounting element operatively connected to the body and having at least one magnet. The mounting element is attachable to a display panel with a metallic element based on the at least one magnet generating a magnetic force to engage with the metallic element and being detachable from the display panel based on the at least one magnet disengaging from the metallic element. The activation mechanism is configured to control generation of the magnetic force by the at least one magnet.
Abstract:
Disclosed herein are a display device with a reduced bezel area and a method for fabricating the same. A wiring electrode disposed on a substrate is electrically connected to a connection electrode disposed on an inclined surface of a circuit board in contact with the substrate, and the connection electrode is electrically connected to a circuit wiring disposed on the circuit board. Therefore, an inactive area such as a pad portion for connecting the substrate with the circuit board is not required, such that the bezel area can be reduced.
Abstract:
A display includes a display panel having elements that allow attachment to a mounting structure therebehind and in alignment with adjacent display panels that collectively form a tiled display screen that has multiple display panels connected to each other with effectively seamless bezels. The elements are configured to allow the display panel to be attached to or detached from the tiled display screen in a particular direction other than a side direction that would only allow for engagement from the sides of the adjacent display panels.
Abstract:
A display includes a display panel having elements that allow attachment to a mounting structure therebehind and in alignment with adjacent display panels that collectively form a tiled display screen that has multiple display panels connected to each other with effectively seamless bezels. The elements are configured to allow the display panel to be attached to or detached from the tiled display screen in a particular direction other than a side direction that would only allow for engagement from the sides of the adjacent display panels.
Abstract:
In a gate driver, a Q node is shared by two channels to output a scan signal at high level, and a QB node is shared by four channels to output a scan signal at low level. Accordingly, the number of thin-film transistors required to configure four channels of a gate-in-panel (GIP) is reduced, such that the bezel size can be reduced. Further, the gate driver includes a compensation capacitor or a discharge transistor disposed in some of the channels sharing the Q node, such that deviation in output characteristics among the channels sharing the Q node can be reduced.
Abstract:
A switchable lens device, a method of manufacturing the same, and a 2-dimensional (2D) and 3-dimensional (3D) image display device using the same are disclosed. The switchable lens device includes a first base film, a first lens layer which is formed on the first base film, has a first refractive index in a first direction, has a second refractive index less than the first refractive index in a second direction vertical to the first direction, and has concave surfaces, a second lens layer which has convex surfaces filled in the concave surfaces of the first lens layer and has the first refractive index, and a second base film attached to the second lens layer.