Patent ID: 8305316
Filing Date: 2012-11-06
Classification: G02F,G09G

Abstract:
1. A color liquid crystal display device configured to employ a pixel division method in which each pixel of an image displayed in a screen is configured with two or more sub-pixels obtained by spatial or temporal division of one pixel in a division ratio, the device comprising: a plurality of pixel formation portions corresponding to respective pixels of the image, each of the pixel formation portions configured to form a pixel of any of primary colors for color display with the two or more sub-pixels; a drive circuit configured to provide each of the pixel formation portions with applied voltages corresponding to the two or more sub-pixels composing the pixel to be formed by that pixel formation portion, based on a gradation value indicated by an input signal provided from outside as a video signal representing the image; a gamma correction part configured to correct a relationship between the gradation value indicated by the input signal and a luminance value of the pixel to be formed by that pixel formation portion according to the gradation value independently for each of the primary colors for color display; and a common electrode provided commonly at the plurality of pixel formation portions; each of the pixel formation portions including, the drive circuit including, wherein each of the pixel formation portions forms the respective pixel by displaying the two or more sub-pixels with luminance values different from one another based on the applied voltages, wherein the gamma correction part is further configured to correct the relationship such that gradation dependence of chromaticity is suppressed when the screen is viewed from a front thereof, and also corrects the relationship in a vicinity of the gradation value, which is determined by the division ratio in the one pixel and differences in the applied voltages among the two or more sub-pixels, such that the gradation dependence of chromaticity is suppressed when the screen is viewed from an oblique direction, and wherein the gradation value is determined by an area ratio of the first sub-pixel electrode to the second sub-pixel electrode and a difference in the applied voltages between the first auxiliary electrode and the second auxiliary electrode.