Data clipping method using red, green, blue and white data, and display device using the same

What is claimed is: 1. A data clipping method for an electronic display device comprising: inputting grayscales of Red (R), Green (G), Blue (B) and White (W) input image data for RGBW sub-pixels of the electronic display device; modulating the RGB input image data by multiplying the RGB input image data by a gain to obtain RGB modulated data; clipping the RGB modulated data into RGB clipped data by reducing corresponding data at grayscales; determining a luminance increment by adding the clipped data from each of modulated RGB data; adding the luminance increment to W data; and writing the W data to a W sub-pixel. 2. The data clipping method of claim 1 , wherein, the luminance increment, Wadd, is calculated by the following equation: W add (( R in *gain− R clip )* R RATIO +( G in *gain− G clip )* G RATIO +( B in *gain− B clip )* B RATIO )* W RATIO where, W RATIO =W RATIO pre −( W total −W MAX )*alpha, where gain is frame gain, R in , G in , and B in are red, green, and blue data (hereinafter, ‘RGB data’) of the input image; R clip , G clip , and B clip are RGB data clipped from a histogram at grayscales above a maximum frame value; R RATIO , G RATIO , and B RATIO are predetermined ratios with which to calculate luminance increments for RGB data; W total sum of every W add included in a current frame of an input image, W MAX is a sum of every W add to be permitted, W RATIOpre is a W RATIO of a previous frame, and α(alpha) is a predetermined constant coefficient of a temporal filter, which is in a range from 0 to 1. 3. The data clipping method of claim 1 , wherein, if the modulated R data exceeds the highest grayscale value, the modulated R data is substituted by the highest grayscale, and a red luminance increment is obtained by multiplying the clipped R data by a red luminance ratio, if the modulated G data exceeds the highest grayscale value, the modulated G data is substituted by the highest grayscale, and a green luminance increment is obtained by multiplying the clipped G data by a green luminance ratio, if the modulated B data exceeds the highest grayscale value, the modulated B data is substituted by the highest grayscale, and a blue luminance increment is obtained by multiplying the clipped B data by a blue luminance ratio, and W total is calculated as the sum of the red luminance increment, the green luminance increment, and the blue luminance increment. 4. The data clipping method of claim 3 , wherein, if W total is greater than W MAX , the red luminance increment, the green luminance increment, and the blue luminance increment are decreased. 5. A display device comprising: a display panel including a plurality of pixels in a matrix, each pixel comprising a Red (R) sub-pixel, a Green (G) sub-pixel, a Blue (B) sub-pixel, and a White (W) sub-pixel; and a display panel driver for writing RGBW data to the pixels of the display panel, wherein the display panel driver clips grayscales from an input image, modulates RGBW data of the input image by multiplying clipped data of the input image by a gain, and creates a luminance increment based on the result of subtracting the clipped data from the modulated RGB data, and adds the luminance increment to the W data to be written to a W sub-pixel. 6. The display device of claim 5 , wherein the display panel is for an RGBW-type liquid crystal display device or an RGBW-type organic light emitting diode display device. 7. A method of supplying clipped data to an electronic display device that includes red (R), green (G), blue (B), and white (W) sub-pixels of an electronic display panel, comprising: inputting grayscale Red, Green, and Blue (RGB) input image data into the electronic display device; generating RGBW image data from the RGB input image data; multiplying the RGBW image data by a frame gain to calculate RGB modulated data; clipping the RGB modulated data by setting RGB data at a grayscale above a predetermined grayscale to be equal to data at a maximum grayscale to generate RGB clipped data; subtracting the RGB clipped data from the RGB modulated data to calculate RGB output data; generating a luminance increment based on the RGB output data; adding the luminance increment to the W data to calculate W output data; combining RGB output data with W output data; and outputting the RGBW output data to the electronic display panel. 8. The method of claim 7 , wherein, the luminance increment, Wadd, is calculated by the following equation: W add =(( R in *gain− R clip )* R RATIO +( G in *gain− G clip )* G RATIO +( B in *gain− B clip )* B RATIO )* W RATIO where, W RATIO =W RATIO pre −( W total −W MAX )*alpha, where gain is frame gain, R in , G in , and B in are red, green, and blue data (hereinafter, ‘RGB data’) of the input image; R clip , G clip , and B clip are RGB data clipped from a histogram at grayscales above a maximum frame value; R RATIO , G RATIO , and B RATIO are predetermined ratios with which to calculate luminance increments for RGB data; W total is a sum of every W add included in a current frame of an input image, W MAX is a sum of every W add to be permitted, W RATIOpre is a W RATIO of a previous frame, and α(alpha) is a predetermined constant coefficient of a temporal filter, which is in a range from 0 to 1.