Title :
Color Correction in Color Sequential LCDs
Author :
Yuning Zhang ; Jian Wang ; Xiaohua Li ; Wei Lei
Author_Institution :
Sch. of Electron. Sci. & Eng., Southeast Univ., Nanjing, China
Abstract :
Color sequential LCDs benefit from high efficiency and high resolution, but suffer from annoying color breakup. Various methods have recently been proposed to suppress color breakup, e.g., the stencil color sequential and local primary desaturation methods. Most of these approaches apply dimmable and multi-color LED matrix backlights to adjust the intensity and chromaticity of the display in both the spatial and temporal domains. In this paper we summarize the factors for luminance and color control in a color sequential LCD with minimized color breakup. Taking into account the properties of the backlight, LC-panel transmission and LC response, a general algorithm for color rendering in a color sequential LCD is proposed. Specially, the effect of the LC response delay on the luminance and color reproduction accuracy is investigated and a compensation method is proposed.
Keywords :
brightness; colour displays; compensation; liquid crystal displays; LC-panel transmission; color breakup suppression; color control; color correction; compensation method; dimmable LED matrix backlight; display chromaticity; local primary desaturation method; luminance; multicolor LED matrix backlight; stencil color sequential LCD; Bismuth; Color; Delays; Educational institutions; Image color analysis; Light emitting diodes; Spatial resolution; Backlight; color; color break-up; liquid crystal displays (LCDs); spatial-temporal color;
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2014.2311999
