Patent ID: 8199101
Filing Date: 2012-06-12
Classification: G02F,G09G

Abstract:
1. A transmission liquid crystal display device, comprising: a liquid crystal panel having pixels each of which is divided into four sub pixels as red (R), green (G), blue (B), and white (W) sub pixels; a white active backlight which is capable of controlling its emission luminance; an output signal generation section for generating transmittance signals of the R, G, B, and W sub pixels of each of the pixels of the liquid crystal panel in accordance with (a) input signals which are RGB signals and (b) WR and for obtaining a backlight value of the white active backlight when WR>1, where WR is P2/P1 indicative of a ratio between (i) a display luminance P1 in case where each of the transmittances of the RGB sub pixels is x % and a transmittance of the W sub pixel is 0% and (ii) a display luminance P2 in case where each of the transmittances of the RGB sub pixels is 0% and the transmittance of the W sub pixel is x %; a liquid crystal panel control section for controlling driving of the liquid crystal panel in accordance with the transmittance signals generated by the output signal generation section; and a backlight control section for controlling the emission luminance of the white active backlight in accordance with the backlight value obtained by the output signal generation section wherein the output signal generation section includes: a transmission quantity calculation section for obtaining transmission quantities of the R, G, B, and W sub pixels of the pixel in accordance with the input signals inputted to the pixel and the WR; a backlight value calculation section for obtaining the backlight value, which is the emission luminance of the white active backlight, in accordance with transmission quantities of sub pixels of all pixels positioned in a display region corresponding to the white active backlight; and a transmittance calculation section for obtaining transmittances of the sub pixels in accordance with (I) the backlight value obtained by the backlight value calculation section, (II) the transmission quantities of the sub pixels obtained by the transmission quantity calculation section, and (III) the WR; wherein the transmission quantity calculation section obtains a transmission quantity Wq of the W sub pixel of each of the pixels by selecting a smaller one of (a) a minimum value out of R, G, and B components of the input signals of each of the pixels and (b) a value obtained by dividing a maximum value out of R, G, and B components of the input signals of the pixel by (1+1/WR), and the transmission quantity calculation section subtracts the transmittance of the W sub pixel from the R, G, and B components of the input signals of the pixel so as to obtain transmission quantities Rq, Gq, and Bq of the R, G, and B sub pixels, and the backlight calculation section obtains the backlight value Wb1 by the following expression where N represents the number of all pixels positioned in a display region corresponding to the white active backlight, and transmission quantities of a target pixel positioned in the display region are (