Patent application number | Description | Published |
20130119857 | ORGANIC ELECTROLUMINESCENT DISPLAY AND METHOD FOR FABRICATING THE SAME - An organic electroluminescent display (OELD) device at least includes a first assembly and a second assembly. The first assembly has a first substrate and an organic electroluminescent unit formed on the first substrate. The second assembly, assembled with the first assembly, includes a second substrate, a color filter layer and a patterned light-shielding layer. The color filter layer is disposed on the second substrate and has plural colored regions with different colors. The patterned light-shielding layer is disposed on the color filter layer and between the colored regions. A part of the patterned light-shielding layer contacts the first assembly to maintain a cell gap between the first assembly and the second assembly. | 05-16-2013 |
20130141369 | SYSTEMS FOR DISPLAYING IMAGES - A system for displaying images is provided. The system includes a touch sensor device including a substrate having a sensing region. The sensing region includes a central portion. A sensing electrode layer is disposed on the substrate in the sensing region and includes a plurality of sensing electrode patterns corresponding to the central portion. Each sensing electrode pattern includes at least one non-linear edge, such that the adjacent sensing electrode patterns are wedged with each other. | 06-06-2013 |
20130141676 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device is provided. The liquid crystal display device includes a first substrate having a pixel unit with a pixel electrode. A second substrate has an opposite electrode. A first polarizer is disposed under the first substrate. A second polarizer is disposed above the second substrate. A liquid crystal (LC) layer with chiral dopants is disposed between the first and second substrates. A parameter of the LC rotations of d/p ratios of the liquid crystal layer with chiral dopants is between 0.2 and 0.3. A parameter of the optical phase retardation factor R of the LC layer with chiral dopants is larger than 0.6 and less than 0.95. | 06-06-2013 |
20130148062 | FILTER LAYER SUBSTRATE AND DISPLAY APPARATUS - A filter layer substrate comprises a substrate, a black matrix layer, a filter layer, a protection layer, a first photoresist spacer, and a second photoresist spacer. The black matrix layer is disposed on the substrate. The filter layer covers the substrate and the black matrix layer. The protection layer is disposed on the filter layer. The first photoresist spacer is disposed on the protection layer corresponding to the black matrix layer. The second photoresist spacer is disposed on the protection layer corresponding to the black matrix layer. A bottom surface of the first photoresist spacer and a bottom surface of the second photoresist spacer have a height difference. A display apparatus containing the filter layer substrate is also disclosed. Accordingly, the liquid crystal margin of the LC filling can be enlarged, and the problems caused by the stress and the external collision or vibration can be avoided. | 06-13-2013 |
20130148071 | VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY - The invention provides a vertical alignment liquid crystal display, including: a first substrate; a plurality of data lines formed on the first substrate; a plurality of gate lines formed on the first substrate, wherein the gate lines intersect the data lines to define a plurality of the pixel regions; a plurality of common electrodes formed on the first substrate, wherein the common electrodes are located on a border of the pixel regions and next to the gate lines; a second substrate oppositely disposed to the first substrate; and a liquid crystal layer formed between the first substrate and the second substrate, wherein the liquid crystal layer includes a plurality of optically active materials. | 06-13-2013 |
20130153872 | THIN-FILM TRANSISTOR SUBSTRATE AND METHOD FOR FABRICATING THE SAME, DISPLAY - The invention provides a thin-film transistor substrate, including: a substrate; a metal lead structure formed on the substrate, wherein the metal lead structure includes: a main conductor layer formed on the substrate, wherein the main conductor has a sidewall; a top conductor layer having a first portion, second portion and third portion, wherein the first portion is formed on the main conductor layer, the second portion is formed on the sidewall of the main conductor layer, and the third portion is formed on the substrate, and a continuous structure is formed by the first portion, the second portion and the third portion. | 06-20-2013 |
20130161612 | DISPLAY DEVICE AND IMAGE DISPLAY SYSTEM EMPLOYING THE SAME - A display device and an image display system employing the same are provided. The display device includes a thin film transistor and a storage capacitor. The thin film transistor includes a channel. The storage capacitor includes a transparent metal electrode made of the same material as the channel, and a pixel electrode disposed on the transparent metal electrode electrically connected to the thin film transistor. | 06-27-2013 |
20130161622 | THIN FILM TRANSISTOR SUBSTRATE MANUFACTURING METHOD THEREOF, DISPLAY - An embodiment of the invention provides a manufacturing method of a thin film transistor substrate including: sequentially forming a gate electrode, a gate insulating layer covering the gate electrode, an active material layer, and a photo-sensitive material layer on a first substrate; performing a photolithography process by using a half tone mask to form a photo-sensitive protective layer which is above the gate electrode and has a first recess and a second recess; etching the active material layer by using the photo-sensitive protective layer as a mask to form an active layer; removing a portion of the photo-sensitive protective layer at bottoms of the first recess and the second recess to expose a first portion and a second portion of the active layer respectively; forming a first electrode connecting to the first portion; and forming a second electrode connecting to the second portion. | 06-27-2013 |
20130162573 | DISPLAY DEVICE AND ITS MOVEMENT DETECTING METHOD FOR REMOTE OBJECT - A display device comprises a display module, at least two sensing devices and a control module. The sensing devices are disposed at the opposite sides or the adjacent sides of the display module. The control module is coupled with the sensing devices to respectively detect coupling capacitances formed between the sensing devices and a remote object, and determines the movement of the remote object according to the coupling capacitances. | 06-27-2013 |
20130189491 | DISPLAY APPARATUS AND COMPOSITE OPTICAL FILM THEREOF AND MANUFACTURING METHOD OF COMPOSITE OPTICAL FILM - A composite optical film is disposed on a substrate. The substrate has a first region and a second region positioned adjacent to each other. The composite optical film includes a first optical film and a second optical film. The first optical film is disposed on the first region, while the second optical film is disposed on the first optical film and above the second region. A display apparatus containing the composite optical film and a manufacturing method of the composite optical film are also disclosed. | 07-25-2013 |
20130201166 | DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A method for driving a display apparatus includes a display panel, which at least includes a scan line, a data line, a control line and a pixel. The pixel has a first sub-pixel and a second sub-pixel. The first sub-pixel is electrically connected with the scan line and the data line. The second sub-pixel has a discharge switch and is electrically connected with the scan line, the data line and the control line. The driving method includes steps of providing a scan signal to drive the first and second sub-pixels through the scan line at a first time and providing a control signal to turn on the discharge switch of the second sub-pixel through the control line at a second time. A time difference between the first and second times is longer than the scan time of a scan line of the display apparatus. | 08-08-2013 |