Patent application number | Description | Published |
20140036184 | POLARITY INVERSION SIGNAL CONVERTING METHOD, APPARATUS AND DISPLAY - The present disclosure provides a polarity inversion signal converting method, a polarity inversion signal converting apparatus and a display, the polarity inversion signal converting method comprises: judging whether a polarity inversion signal is required to be converted currently and generating a judgment result; changing the polarity inversion signal currently output to a data driver, if the judgment result indicates that the polarity inversion signal is required to be converted currently. With the present disclosure, the polarity inversion signal output to the data driver may be changed according to different situations, so that the driving manners of the data driver may vary flexibly. | 02-06-2014 |
20140125674 | Generating Method Of Gamma Value Test Chart Of Display Device And Measuring Method Of Gamma Value Thereof - The present disclosure provides a method for generating a test chart for Gamma value of a display device and a method for testing Gamma value thereof. The method includes: determining a grayscale corresponding to a generated test chart for Gamma value of the display device, and determining luminance of a standard picture area represented by the test chart for Gamma value of the display device; determining a grayscale voltage of a test picture area according to the grayscale corresponding to the standard picture area in the display panel, and determining the luminance of the test picture area displayed by the display panel under the grayscale voltage; comparing the luminance of the test picture area and the luminance of the standard picture area, and determining the Gamma value of the display device according to the result of the comparison. | 05-08-2014 |
20140160098 | ARRAY SUBSTRATE, 3D DISPLAY DEVICE AND DRIVING METHOD FOR THE SAME - The present invention belongs to the field of 3D display, and provides an array substrate, a 3D display device and a driving method for the same. The array substrate comprising a substrate and m rows and 2n columns of pixel units formed on the substrate in a matrix form. The array substrate further comprises data lines each of which corresponds to the pixel units in each row and gate lines each of which corresponds to the pixel units in each column. Each of the data lines is connected to source electrodes of thin film transistors in the corresponding pixel units, and each of gate lines is connected to gate electrodes of the thin film transistors in the corresponding pixel units. The gate lines receive a gate scanning signal according to a predetermined period. | 06-12-2014 |
20140160111 | ARRAY SUBSTRATE, 3D DISPLAY DEVICE AND DRIVING METHOD FOR THE SAME - According to embodiments of the present invention, the gate lines of the array substrate receive the gate scanning signal in a preset time period. Specifically, the gate lines of pixel units in odd rows are receiving the gate scanning signal in the first time interval of the preset time period, and the gate lines of pixel units in even rows are receiving the gate scanning signal in the second time interval of the preset time period. | 06-12-2014 |
20140184967 | METHOD FOR DRIVING LIQUID CRYSTAL PANEL, METHOD FOR TESTING FLICKER AND LIQUID CRYSTAL DISPLAY APPARATUS - A method for driving a liquid crystal panel, a method for testing flicker and a liquid crystal display apparatus are disclosed. They relate to the technical field of liquid crystal display. By changing the driving mode of polarity inversion, it is achieved that the flicker test is performed on the liquid crystal panel with the Z inversion array arrangement on basis of the flicker test pattern of 1+2H. In two adjacent columns of pixel units in the plurality of pixel units, one column common data line is connected with the pixel electrodes located at the opposed sides of the common data line alternatively through the thin film transistors. The method for driving the liquid crystal panel comprises: applying the data line driving signals with opposed polarities to the odd columns of data lines and the even columns of data lines within one frame of picture, wherein the polarities of the data line driving signals are inversed, each time two rows of the gate lines have been scanned, to form a specific polarity arrangement, the initial data line driving signals for two adjacent frames of pictures have opposed polarities. | 07-03-2014 |
20140333594 | DISPLAY DRIVING CIRCUIT, DISPLAY DEVICE AND DRIVING METHOD THEREOF - Provided are a display driving circuit, a display device and a driving method thereof, which are capable of avoiding an influence of a feed through effect on a voltage difference between a pixel electrode and a common electrode and thus improving the quality of a displayed picture. The display driving circuit comprises a gate driving unit for controlling a thin film transistor TFT to be turned on, a source driving unit for outputting a signal to a source of the TFT, and a circuit unit for supplying a power to a common electrode, the circuit unit outputs a first voltage to the common electrode when the TFT is in a turn-on state, and the circuit unit outputs a second voltage to the common electrode when the TFT is in a turn-off state, wherein the first voltage is a voltage different from the second voltage. | 11-13-2014 |
20150103069 | ARRAY SUBSTRATE, 3D DISPLAY DEVICE AND DRIVING METHOD FOR THE SAME - The present invention provides an array substrate, a 3D display device and a driving method for the same, and belongs to the field of 3D display. Wherein, the array substrate comprises: a substrate, and 2n rows of pixel units being arranged on the substrate in a matrix form, the array substrate further comprises gate lines corresponding to the pixel units in each row, and each of the gate lines is connected to the gate electrodes of thin film transistors in corresponding pixel units, wherein the gate line corresponding to pixel units in the (2k−1) | 04-16-2015 |
20150154901 | DISPLAY DRIVING CIRCUIT AND DRIVING METHOD THEREOF, DISPLAY APPARATUS - The present disclosure relates to the display technique. Disclosed is a display driving circuit, including: a gate line driving circuit, configured to separate gate line driving signals of adjacent rows according to a first output enable signal; a shielding signal generation circuit, configured to trigger and generate a shielding signal when the gate line driving signal needs to be turned off; and a gate line shielding circuit configured to shield the first output enable signal according to the shielding signal so as to turn off the gate line driving signal, wherein the first output enable signal is inputted from a first inputting terminal of the gate line shielding circuit, the shielding signal is inputted from a second inputting terminal of the gate line shielding circuit, and an outputting terminal of the gate line shielding circuit is connected to the gate line driving circuit. The display driving circuit, a driving method thereof and a display apparatus according to the embodiments of the present disclosure are capable of shielding the first output enable signal directly according to the shielding signal so as to turn off the gate line driving signal and shield the data on the corresponding gate lines, thereby they can avoid occurring of abnormal statuses with the first output enable signal and also can save the cost and space of the circuit. | 06-04-2015 |
20150156482 | THREE-DIMENSIONAL (3D) LIQUID CRYSTAL DISPLAY (LCD) DEVICE, 3D LCD DISPLAY SYSTEM AND 3D IMAGE DISPLAY DRIVING METHOD - A three-dimensional (3D) liquid crystal display (LCD) device, a 3D LCD system and a 3D image display driving method are disclosed. The 3D LCD device includes a display panel and a timing controller. The display panel includes an array substrate; the array substrate includes a plurality of pixel units defined by gate lines and data ones which are horizontally and vertically intersected; a plurality of the pixel units include left-eye pixels configured to display a left-eye image and right-eye pixels configured to display a right-eye image; and the timing controller is connected with the array substrate and configured to respectively control the display timing of the left-eye pixels and the right-eye pixels. The 3D LCD device can achieve the objective of reducing the crosstalk when applied to active shutter 3D LCD. | 06-04-2015 |