Patent application number | Description | Published |
20120320022 | Liquid Crystal Display Device and Driving Method Thereof - A liquid crystal display (LCD) device is disclosed. The LCD device comprises a plurality of pixel units arranged in the form of a matrix. Each of the pixel units comprises: a scan line; a data line; a first storage capacitor; a liquid crystal capacitor; and a first TFT, having a source electrically connected to the data line, a gate electrically connected to the scan line, and a drain electrically connected to the first storage capacitor. Each of the pixel units further comprises a second TFT, having a gate, a source electrically connected to the drain of the first TFT, and a drain electrically connected to the liquid crystal capacitor. The gates of the second TFTs are electrically connected with each other to control the second TFTs to be turned on simultaneously so as to tilt the liquid crystal molecules. Because this shortens the time to wait for scanning of the gates is shortened and increases the time duration in which the backlight can emit light, the number of LEDs can be reduced to lower the cost. | 12-20-2012 |
20130027363 | LCD Drive Circuit and Driving Method Thereof - A liquid crystal display (LCD) drive circuit and a driving method thereof are disclosed. The driving method comprises: a. dividing scan lines into a plurality of groups each comprising a plurality of scan lines; b. during displaying of a current image frame, using a scan driver to scan each group of scan lines sequentially, c. during displaying of a next image frame, using the scan driver to scan each group of scan lines sequentially; and d. if each scan line in the group has been scanned once simultaneously with an adjacent scan line within a predetermined time interval, then the step b is executed; otherwise, the step c is executed. The LCD drive circuit and the driving method thereof according to the present disclosure can increase an average charging time of pixel units without compromising the accuracy of image frames. | 01-31-2013 |
20130093755 | Method For Displaying Stereoscopic Image And Corresponding Stereoscopic Image Displaying Device - The present invention discloses a method for displaying stereoscopic image and a stereoscopic image displaying device. The stereoscopic image displaying device includes a display panel, a backlight module, and shutter glasses. The display panel sequentially writes in left-eye image data and right-eye image data. The backlight module is sequentially activated and deactivated in order to scan the left-eye image data and the right-eye image data. The shutter glasses alternately open and shut a left-eye shutter and a right-eye shutter in order to receive the left-eye image data when the left-eye shutter opens to receive the right-eye image data when the right-eye shutter opens. The left-eye image data that are received when the left-eye shutter opens are always image data of first polarity, and the right-eye image data that are received when the right-eye shutter opens are always image data of second polarity. Thus, the left eye of a user always receives image data of the same polarity, and the right eye also always receive image data of the same, opposite polarity, so that the user, when making viewing, does not perceive any flicking phenomenon and the displaying performance is not affected. | 04-18-2013 |
20130106835 | Stereoscopic Display System and Driving Method Thereof | 05-02-2013 |
20130127829 | LCD Panel and LCD Device - A liquid crystal display (LCD) device and an LCD panel are disclosed. The LCD panel comprises charging scanning lines, discharging scanning lines, first data lines, second data lines and pixel units. The charging scanning lines and the discharging scanning lines are arranged alternately and parallel with each other in a first direction. The first data lines and the second data lines are arranged parallel with each other in a second direction and insulatedly intersect the charging scanning lines and the discharging scanning lines. Each pixel unit comprises a charging TFT, a discharging TFT and a pixel electrode. When two adjacent charging scanning lines are being scanned in the LCD panel, two adjacent discharging scanning lines located in other rows different from those of the two adjacent charging scanning lines being scanned are scanned within a same scanning time frame. The LCD panel can extend the charging time of gates. | 05-23-2013 |
20130135289 | Stereoscopic Display System and Driving Method Thereof - A stereoscopic display system and a driving method thereof are disclosed. The stereoscopic display system comprises a display unit, a pair of shutter glasses and a backlight unit. The pair of shutter glasses comprises a left eyeglass and a right eyeglass for watching a left-eye signal and a right-eye signal respectively at different times. Both the left eyeglass and the right eyeglass operate synchronously with the display unit and are turned on and off alternately to watch the left-eye signal and the right-eye signal at different times. The backlight unit provides planar light rays for the display unit. The backlight unit comprises a plurality of light emitting regions which are arranged in a direction identical to a scanning direction of the display unit. The light emitting regions are turned on sequentially in the scanning direction. A turn-on time of each of the light emitting regions corresponds to a transmissivity of the pair of shutter glasses. Light emission brightness of the light emitting regions is distributed asymmetrically in the scanning direction. The stereoscopic display system and the driving method thereof of the present disclosure can reduce the crosstalk and improve the user's experience when using the stereoscopic display system. | 05-30-2013 |
20130135451 | Stereoscopic Image Displaying Apparatus and Corresponding Stereoscopic Image Displaying Method - A stereoscopic image displaying apparatus and a corresponding stereoscopic image displaying method are disclosed. The stereoscopic image displaying apparatus comprises a display panel, a backlight module and a pair of shutter glasses. The display panel is configured to write left-eye image data and right-eye image data according to a timing sequence. The backlight module has a plurality of light source regions, and the light source regions are turned on and off according to a timing sequence to scan the left-eye image data and the right-eye image data. A left-eye shutter and a right-eye shutter of the pair of shutter glasses are turned on and off alternately to receive the left-eye image data when the left-eye shutter is turned on and to receive the right-eye image data when the right-eye shutter is turned on. When data of one image frame are to be written into the display panel, first-type scanning lines of scanning lines are enabled sequentially according to a timing sequence to write first-type image data, and then second-type scanning lines of the scanning lines are enabled sequentially according to a timing sequence to write second-type image data. | 05-30-2013 |
20130135554 | Display Device, Liquid Crystal Module, and Fixing Structure - The present invention discloses a liquid crystal module, which includes a back panel, a circuit board, and a circuit board cover. The circuit board is attached to the back panel by magnetic members. The circuit board cover is attached to the back panel by magnetic members. In addition, the invention discloses a fixing structure and a display device that includes the liquid crystal module. The display device, the liquid crystal module, and the fixing structure thereof disclosed in the present invention use magnetic members to fix the circuit board and the circuit board cover to the back panel. This simplifies the assembling operation, allows of easy maintenance and replacement of the circuit board, makes it possible to efficiently remove the circuit board cover for conducting flaw inspection and related electrical test on the circuit board, improves the production efficiency of liquid crystal display devices, and lowers down the manufacturing cost. | 05-30-2013 |