Patent application number | Description | Published |
20130162509 | Thin-Film Transistor Liquid Crystal Display Device, Substrate,and Manufacturing Method - The present invention discloses a thin-film transistor liquid crystal display device, a substrate, and a manufacturing method. The thin-film transistor liquid crystal display device includes: a substrate and a signal line, a scan line, a pixel electrode, and a thin-film transistor that are formed on the substrate. The signal line and the scan line are arranged to intersect each other. The pixel electrode is located in a pixel display zone enclosed by the intersected signal line and scan line. The thin-film transistor includes a gate terminal, a source terminal, and a drain terminal. The gate terminal is electrically connected to the scan line. The drain terminal is electrically connected to the signal line. The source terminal is arranged at a position corresponding to the intersection of the signal line and the scan line and is electrically connected to the pixel electrode. With the above arrangement, the present invention can significantly reduce the amount of area of the pixel electrode occupied, increases the opening ratio of the pixel, and greatly reduces the influence on the alignment of the liquid crystal molecules thereby reducing asymmetry of the pixel quadrant and improving image quality. | 06-27-2013 |
20130215348 | Thin Film Transistor Liquid Crystal Display Device, Substrate,and Manufacturing Method Thereof - The present invention discloses a thin-film transistor (TFT) liquid crystal display device, a substrate, and a manufacturing method thereof. The TFT substrate includes: a glass substrate and signal lines, scan lines, a first pixel electrode, a second pixel electrode, a common electrode, and the TFT. The first pixel electrode and the second pixel electrode at least partially overlap each other. The second pixel electrode forms a plurality of horizontally arranged slits and the first pixel electrode forms a hollow structure in a portion overlapping the second pixel electrode. Through the above method, the present invention increases transmittance, improve view angle color shift, and improve the quality of image. | 08-22-2013 |
20140078033 | Driver Circuit for Reducing IC Malfunction and Liquid Crystal Display Panel Comprising Same - A driver circuit and a liquid crystal display panel for reducing IC malfunction are provided. The driver circuit includes a source driver IC, a gate driver IC, and a wire on array, wherein the source driver IC and the gate driver IC connects through the wire on array. The source driver IC provides a signal to the gate driver IC through the wire on array. The driver circuit further includes a negative feedback module electrically connected with the wire on array to be configured to keep the wire on array voltage constant. This invention also provides a liquid crystal display panel using the driver circuit. Through the above method of this invention the driver circuit and a liquid crystal display panel for reducing IC malfunction can avoid the gate driver IC to generate the malfunction caused by the voltage fluctuation of the array and improve the display quality of the liquid crystal display panel. | 03-20-2014 |
20140078186 | Array Substrate and Liquid Crystal Display - An array substrate includes a plurality of data lines arranged along a row direction to input data signal, a plurality of scanning lines arranged along a column direction to input scanning signals, and a plurality of pixels. Each of the pixels includes a first sub-pixel, a second sub-pixel, a third sub-pixel, and a fourth sub-pixel horizontally arranged along the data lines in turn. And each of the sub-pixels respectively connects to one data lines and one scanning lines. When entering a 3D display mode, the data lines cooperatively operates with the scanning lines so that one of the sub-pixels displays a black image to form an equivalent black matrix. A liquid crystal device including the array substrate is also disclosed. The above array substrate and the liquid crystal device may satisfy the view angle requirement and reduce the crosstalk between two eyes. | 03-20-2014 |
20140087290 | Manufacturing Method of Transparent Electrode and Mask Thereof - The present invention provides a manufacturing method of transparent electrode and mask thereof. The method includes: forming a film on a glass substrate, and coating photo-resist on film; irradiating photo-resist through mask, wherein the mask at corresponding active area of liquid crystal panel forming, from outer area to inner area, at least a first area and a second area, gap of pattern corresponding to transparent electrode in first area being first gap, gap of pattern in second area being second gap, first gap being greater than corresponding default gap, difference between first gap and corresponding default gap being greater than difference between second gap and corresponding default gap: and performing photolithography and etching processes on substrate after exposure to form transparent electrodes on substrate. As such, the present invention can reduce gap errors of formed transparent electrodes in entire active area to improve display effect. | 03-27-2014 |
20140098327 | STRUCTURE OF POLARIZER AND LIQUID CRYSTAL PANEL - The present invention provides a structure of polarizer and liquid crystal panel. The polarizer includes, from top down, polarizer main body, electrostatic adsorption film and release film. The LC panel includes a polarizer of the structure. Because the polarizer replaces the PSA of the known polarizer with the electrostatic adsorption film, the electrostatic adsorption film uses electrostatic adsorption to attach the polarizer main body to the substrate of the LC panel without using any adhesive. Therefore, when reprocessing is required, no residual adhesive on substrate is left to removal and the cleaning is convenient. Also, electrostatic adsorption film will not damage the polarizer when removed from the substrate so that the polarizer can be reused to effectively save the cost. | 04-10-2014 |
20140111556 | Array Substrate and Liquid Crystal Device with the Same - An array substrate is disclosed. Data lines directly pass through the area where a secondary pixel electrode is located to input, data signals to the secondary pixel electrode. First scanning lines, second scanning lines and switches are arranged between the adjacent pixels in an up-down direction. The area between the pixels is a dark area corresponding to an opaque area. Under a 3D display mode, a difference of the default voltages exists between a main pixel electrode and a secondary pixel electrode. In addition, a liquid crystal display is provided. By adopting the above design, the crosstalk and the color shift under the 3D display mode may be reduced. In addition, the reliability of the liquid crystal panel may be enhanced,. | 04-24-2014 |
20140247407 | Patterned Retarder 3D Liquid Crystal Display and the Manufacturing Method Thereof - A patterned retarder 3D liquid crystal display is disclosed. The liquid crystal display includes a display panel, a polarizer, and a patterned retarder film. The display panel includes a first substrate and a second substrate spaced apart from each other. The second substrate includes an up stutter and a down surface, and the up surface is farther to the first substrate than the down surface. A black matrix is arranged on the down surface of the second substrate. A mask is arranged on a first surface or the second surface of the polarizer. The first surface of the polarizer is adjacent to the patterned retarder film and the second surface of the polarizer is adjacent to the second substrate. The mask. corresponds to portions of the black matrix. In addition, a manufacturing method of the patterned retarder 3D liquid crystal display is also disclosed. | 09-04-2014 |
20150069398 | TFT Switch and Method for Manufacturing the Same - The present invention proposes a TFT switch and a method for manufacturing the same. The TFT switch includes a gate, a drain, a source, a semiconductor layer and a fourth electrode. The drain is connected to a first signal, the gate is connected to a control signal to control the switch on or off. The source outputs the first signal when the switch turns on. The fourth electrode and the gate are respectively located at two sides of the semiconductor layer. The fourth electrode is conductive and is selectively coupled to different voltage levels, thereby reducing leakage current in a channel to improve switch characteristic when the switch turns off. | 03-12-2015 |
20150069510 | THIN FILM TRANSISTOR, ARRAY SUBSTRATE, AND DISPLAY PANEL - A TFT, an array substrate, and a display panel are disclosed. The TFTs includes a gate, a first insulation layer arranged above the (late, a second insulation layer arranged above the first insulation layer, a semiconductor layer, a source, and a drain arranged between the first insulation layer and the second insulation layer, and a conductive layer arranged above the second insulation layer. The conductive layer and the gate are electrically coupled to each other such that when the TFT is in a turn-on state. A turn-on current generated in conductive channels of the semiconductor layer is increased. When the TFT is in a turn-off state, a turn-off current generated in the conductive channels is decreased. In this way, the ratio of the turn-on current to the turn-off current is increased. | 03-12-2015 |
20150085090 | THREE-DIMENSIONAL DISPLAY DEVICE AND THREE-DIMENSIONAL DISPLAY METHOD THEREOF - The present invention provides a 3D display device and 3D display method thereof. The method includes the steps of: providing a first signal to the display panel sequentially for providing left-eye image and right-eye image sequentially, and providing a second signal at the time of switching the left-eye image and the right-eye image for inserting a black image, wherein the different 3D display quality being obtained through adjusting the insertion time of the black image. The present invention can adjust the insertion time of the black image to meet demands of higher 3D display luminance or lower 3D cross-talk for various 3D display qualities to improve viewing experience. | 03-26-2015 |