Patent application number | Description | Published |
20080316412 | LIQUID CRYSTAL DISPLAY PANEL AND PIXEL ARRAY STRUCTURE THEREOF - A liquid crystal display (LCD) panel including a first substrate, a second substrate, a liquid crystal layer, and a pixel array structure is provided. The first substrate includes a plurality of scan lines and a plurality of data lines, and the second substrate includes a common electrode. The liquid crystal layer is disposed between the first substrate and the second substrate. The pixel array structure includes a plurality of pixel units and a plurality of protrusions. The pixel units are arranged as an array, and each pixel unit includes an active device and a pixel electrode electrically connected the active device, wherein the pixel electrode has a plurality of electrode sections. The protrusions are substantially located in at least one junction region of the electrode sections. The liquid crystal molecules in the LCD panel have fast response speed and correct arrangement direction. | 12-25-2008 |
20090066893 | PIXEL STRUCTURE AND LIQUID CRYSTAL DISPLAY PANEL - A pixel structure disposed on a substrate and electrically connected to two scan lines and a data line is provided. The pixel structure includes a reflective electrode, a first transparent electrode, a second transparent electrode and a semiconductor layer. The first transparent electrode is electrically connected to the reflective electrode and is insulated from the second transparent electrode. The semiconductor layer has two first conductive regions, a second conductive region and two first channel regions, wherein the first conductive regions are respectively electrically connected to the reflective electrode and the second transparent electrode, the second conductive region is located between the first conductive regions and electrically connected to the data line, a part of the semiconductor layer overlapped with the scan lines is defined as first channel regions and each of the first channel regions is respectively electrically connected between the second conductive region and each first conductive region. | 03-12-2009 |
20090103024 | Dual-View Display Panel Structure and Method for Producing the Same - A dual view display structure and a method for producing the same are provided. First, a display panel is provided. Then, a patterned barrier layer is formed on a transparent substrate. The transparent substrate with the patterned barrier layer is attached to the display panel. Because there is a gap between the display panel and the patterned barrier layer, a liquid transparent material is injected into the gap to form a transparent material layer to fill the gap. The invention can not only increase the viewing angles of the dual view display, but also increase the production yield. | 04-23-2009 |
20090141201 | THREE-DIMENSION DISPLAY AND FABRICATING METHOD THEREOF - A three-dimension display suitable for a viewer wearing a pair of eyeglasses is disclosed. The eyeglasses have two circular polarized eyeglass lenses with different polarizations. The three-dimension display includes a flat display panel, a quarter-wave plate and a patterned half-wave plate. The flat display panel has a plurality of pixels arranged in an array, wherein the flat display panel is suitable to display a linear polarized image. The quarter-wave plate is disposed between the flat display panel and the eyeglasses. The patterned half-wave plate is disposed between the flat display panel and the eyeglasses, wherein the patterned half-wave plate corresponds to a part of the pixels. The present invention also provides a fabrication method of a three-dimension display. | 06-04-2009 |
20090168397 | Optical Film of a Display, Method for Producing the Same and Said Display - An optical film of a display and a method for producing the same are provided. The display includes a light source and an optical film. The light source provides the first light. The optical film includes at least one coating layer. The coating layer has a first surface and a second surface opposite to the first surface. The coating layer is adapted to absorb the first light from the first surface to excite a second light to emit through the second surface. The intensity of the second light is larger than that of the first light. | 07-02-2009 |
20090173942 | PIXEL STRUCTURE - A pixel structure formed on a substrate and electrically connected with a scan line and a data line, and including a semiconductor pattern and a pixel electrode is provided. The semiconductor pattern includes at least two channel areas, at least one doping area, a source area, and a drain area. The channel areas are located below the scan line and have different aspect ratios. The doping area is connected between the channel areas. The pixel electrode electrically connects the drain area, the source area is connected between one of the channel areas and the data line, and the drain area is connected between the other channel area and the pixel electrode. The scan line has different widths above different channel areas, and a length of each channel area is substantially equal to the width of the scan line. | 07-09-2009 |
20100025692 | PIXEL STRUCTURE - A pixel structure formed on a substrate and electrically connected with a scan line and a data line, and including a semiconductor pattern and a pixel electrode is provided. The semiconductor pattern includes at least two channel areas, at least one doping area, a source area, and a drain area. The channel areas are located below the scan line and have different aspect ratios. The doping area is connected between the channel areas. The pixel electrode electrically connects the drain area, the source area is connected between one of the channel areas and the data line, and the drain area is connected between the other channel area and the pixel electrode. The scan line has different widths above different channel areas, and a length of each channel area is substantially equal to the width of the scan line. | 02-04-2010 |
20100165273 | COLOR FILTER SUBSTRATE AND LCD UTILIZING THE SAME - An LCD including a color filter substrate, an array substrate, and a liquid crystal layer therebetween is provided. This color filter substrate has a plurality of color filters with overlap regions acting as a black matrix. Subsequently, patterned regions are defined in part of the overlap regions. After formation of a planarization layer and a conductive layer, spacers are formed in the patterned regions. The spacers may not shield the transparent region of the color filters, thereby enhancing the aperture ratio of the color filter substrate. Additionally, the thickness of the planarization layer in the patterned regions is not influenced by the overlap of the color filters, such that the spacers thereon have a uniform height. Furthermore, the at least one spacer of the color filter substrate and at least one data line of the array substrate are overlapped. | 07-01-2010 |
20110002037 | THREE-DIMENSION DISPLAY - A three-dimension display suitable for a viewer wearing a pair of eyeglasses is disclosed. The eyeglasses have two circular polarized eyeglass lenses with different polarizations. The three-dimension display includes a flat display panel, a quarter-wave plate and a patterned half-wave plate. The flat display panel has a plurality of pixels arranged in an array, wherein the flat display panel is suitable to display a linear polarized image. The quarter-wave plate is disposed between the flat display panel and the eyeglasses. The patterned half-wave plate is disposed between the flat display panel and the eyeglasses, wherein the patterned half-wave plate corresponds to a part of the pixels. The present invention also provides a fabrication method of a three-dimension display. | 01-06-2011 |
20110286076 | Electrophoretic Display Device - The present invention in one aspect relates to a solar cell formed on a substrate, a bottom electrode member formed on the solar cell, an electrophoretic display panel formed on the bottom electrode member, having a plurality of electrophoretic cell structures spatially arranged in a matrix form, each electrophoretic cell structure containing a plurality of charged particles movable in the electrophoretic cell structure responsively to applied fields, and a top electrode member formed on the electrophoretic display panel, where at least one of the bottom electrode member and the top electrode member includes a plurality of in-plane switching (IPS) electrodes. Each IPS electrode is positioned in relation to a corresponding electrophoretic cell structure for controlling movements of the charged particles therein along a horizontal direction parallel to the electrophoretic display panel. | 11-24-2011 |