Patent ID: 8970564
Filing Date: 2015-03-03
Classification: G09G

Abstract:
1. An apparatus for driving a liquid crystal display device, comprising: a liquid crystal panel in which the same colors of three-color sub-pixels are arranged in the directions of a plurality of gate lines, three colors are alternately arranged in the directions of a plurality of data lines, and sub-pixels arranged in an odd column and sub-pixels arranged in an even column corresponding to the odd column are commonly connected to one data line; a data driver for driving the plurality of data lines; a first gate driver for sequentially driving ( a second gate driver for sequentially driving ( a timing controller for arranging externally input image data according to odd and even frame periods to supply the arranged data to the data driver, and generating different first and second gate control signals and a data control signal according to odd and even frame periods to supply the first and second gate control signals and the data control signal to the first and second gate drivers and the data driver, respectively, wherein sub-pixels of odd columns located in odd rows among the sub-pixels are connected to the ( wherein the ( wherein the timing controller arranges image data displayed during odd frames through the sub-pixels connected to the ( wherein during the odd frame periods, the sub-pixels connected to the ( wherein during the even frame periods, the sub-pixels connected to the ( wherein the sub-pixels arranged in the odd columns include a first set of R sub-pixel, G sub-pixel, and B sub-pixel arranged in order in the direction of the one data line and connected to the one data line, and include a third set of R sub-pixel, G sub-pixel, and B sub-pixel arranged in order in the direction of the one data line and connected to another data line that is immediately adjacent to the one data line, wherein the sub-pixels arranged in the even columns include a second set of R sub-pixel, G sub-pixel, and B sub-pixel arranged in order in the direction of the one data line and connected to the one data line, wherein the R sub-pixel, G sub-pixel, and B sub-pixel of the first set and the R sub-pixel, G sub-pixel, and B sub-pixel of the second set are arranged respectively side-by-side on opposites sides of the one data line, wherein the R sub-pixel, G sub-pixel, and B sub-pixel of the second set and the R sub- pixel, G sub-pixel, and B sub-pixel of the third set are arranged respectively side-by-side between the one data line and the another data line, wherein the R sub-pixel of the second set and the R sub-pixel of the third set are bounded between the one data line and the another data line, and between the ( wherein each of the R sub-pixel, G sub-pixel, and B sub-pixel of the first set is connected to a different gate line, wherein the ( wherein the sub-pixels connected to the first group gate lines (the (