Method for driving liquid crystal display device

摘要

A method of driving a light source unit of a liquid crystal display panel according to an exemplary embodiment of the present disclosure includes the steps of calculating average and maximum values of image signals applied to the liquid crystal panel; calculating a representative value of the image signals using the average and maximum values; determining the luminance of the light source unit according to the representative value and driving the light source unit accordingly. The representative value may be calculated from Lrep=(1−β)×Lavg+β×Lmax, where Lrep is a representative value, Lavg is an average value, Lmax is the maximum value, and β is a value that decreases as a difference between the maximum and average image signal values increases, and has a range between 0 and 1.

主权项

1. A method for driving a light source unit for a liquid crystal display panel, comprising the steps of:
(a) calculating average and maximum values of image signals applied to the liquid crystal panel; (b) calculating a representative value of the image signals from the average and maximum values of the image signals; and (c) determining a luminance of the light source unit based on the representative value of the image signals and driving the light source unit accordingly, wherein the liquid crystal panel comprises a plurality of regions, the average and maximum values of the image signals are calculated for each region, the representative value of the image signals is calculated for each region from
Lrep=(1−β)×Lavg+β×Lmax, wherein Lrep is the representative value of the image signals for a given region, Lavg is the average value of the image signals for the given region, and Lmax is the maximum value of the image signals for the given region, β is a parameter whose value decreases as a difference between the maximum value of the image signals for the given region and the average values of the image signals for the given region increases, and is between 0 and 1, wherein the value of 13 is calculated from
β=βmin+α×(βmax−βmin),wherein βmin and βmax are predetermined values for β, and α is a constant parameter for each region with a value between 0 and 1, and
wherein the value of α decreases as a difference between the maximum value of the image signals for each region and the average value of the image signals for each region increases.