Patent application number | Description | Published |
20080225183 | Display Apparatus, Display Monitor and Television Receiver - When dividing one frame into a plurality of sub-frames to carry out image display, in a gradation range which is able to be displayed using only sub-frames other than the last sub-frame (for example, luminance ½ or less in the case of two-part division, and luminance ¾ or less in the case of four-part division), the luminance of the last sub-frame is set as the minimum luminance, and luminance display is carried out using the other sub-frames. | 09-18-2008 |
20090021534 | DISPLAY DEVICE - A display device has an improved white balance in white display and excellent display quality, and includes a plurality of pixels each including four sub-pixels More specifically, the display device includes a plurality of pixels each including: a sub-pixel pair of a red (R) sub-pixel and a green (G) sub-pixel; and a sub-pixel pair of a blue (B) sub-pixel and a green (G) sub-pixel, wherein in most of the pixels, a product of an aperture area per sub-pixel and a light amount per unit aperture area, in each of the red (R) sub-pixel and the blue (B) sub-pixel, is approximately two times that of the green (G) sub-pixel. | 01-22-2009 |
20090135213 | DISPLAY - A display device includes a pixel defined by a plurality of sub-pixels. The plurality of sub-pixels include first, second, third and fourth sub-pixels. A second hue of the second sub-pixel is closest to a first hue of the first sub-pixel in the chromaticity diagram of the L*a*b* color system, and a third hue of the third sub-pixel is closest to the first hue on the opposite side to the second hue with respect to the first hue in the chromaticity diagram of the L*a*b* color system among the hues. The luminances of the plurality of sub-pixels are set such that while a color displayed by the pixel changes from black via the first color of the first sub-pixel to white, the luminance of the first sub-pixel starts to be increased, and when the luminance of the first sub-pixel reaches a predetermined luminance, the luminance of at least one of the second sub-pixel and the third sub-pixel starts to be increased. | 05-28-2009 |
20090167657 | LIQUID CRYSTAL DISPLAY - A liquid crystal display device includes a pixel defined by at least four sub-pixels. The sub-pixels include at least one sub-pixel belonging to a first group and at least one sub-pixel belonging to a second group, the sub-pixel of the second group being different from that of the first group. The luminances of the sub-pixels are set such that if the colors represented by the pixel change from black into white while being kept achromatic, the first group of sub-pixel starts to increase in luminance first, and the second group of sub-pixel starts to increase in luminance when the luminance of the first group of sub-pixel reaches a predetermined value. | 07-02-2009 |
20090322779 | DISPLAY DEVICE, METHOD FOR GENERATING FOUR OR MORE PRIMARY COLOR SIGNALS, AND PROGRAM CAUSING COMPUTER TO EXECUTE PROCESSING FOR GENERATING FOUR OR MORE PRIMARY COLOR SIGNALS - A display device is designed to conduct a display operation using a number n of primary colors (where n is a natural number that is equal to or greater than four). The display device includes a video signal converting section that receives an m-primary-color signal representing a number m of primary colors (where is m is also a natural number that is smaller than n) and that converts the m-primary-color signal into an n-primary-color signal representing the n primary colors. The n primary colors include a color that is complementary to a particular one of the m primary colors. The video signal converting section generates the n-primary-color signal such that if a color component representing the particular primary color of the m-primary-color signal has a negative level, the complementary primary color has an increased luminance and the other non-complementary primary colors have decreased luminances compared to a situation where the color component representing the particular primary color is zero. | 12-31-2009 |
20100149227 | Display Device, Liquid Crystal Monitor, Liquid Crystal Television Receiver, and Display Method - A display device displaying an image by dividing each frame into subframes. A display section has pixels each containing a first subpixel (SP | 06-17-2010 |
20100164996 | Driving Control Apparatus of Display Apparatus, Display Method, Display Apparatus, Display Monitor, and Television Receiver - In one embodiment of the present invention, to time-divide one frame of an input image signal into a first-half sub frame and a second-half sub frame, the grayscale of the signal in the second-half sub frame is set at a grayscale for dark display and the grayscale of the display signal of the first-half sub frame is adjusted, when the input image signal indicates low brightness. When an image with high brightness is displayed, the grayscale of the display signal of the first-half sub frame is set at a second predetermined value smaller than the maximum value and the grayscale of the display signal of the second-half sub frame is adjusted. Thereafter, in accordance with a combination of the input image signals of the (N−1)-th frame and the N-th frame, overshoot is performed with respect to the display signal of the first-half sub frame, in such a way as to restrain the decrease in the moving image quality on account of an insufficient response of a display module. In doing so, a grayscale within a range from the second predetermined value to the maximum value is used according to the need. As a result, overshoot driving is feasible in the first sub frame, and hence it is possible to restrain the decrease in the moving image quality due to an insufficient response of an image display panel, in all types of combinations of image signals in the current frame and the previous frame. | 07-01-2010 |
20120162545 | DRIVING METHOD OF LIQUID CRYSTAL DISPLAY APPARATUS, DRIVING APPARATUS OF LIQUID CRYSTAL DISPLAY APPARATUS, AND PROGRAM THEREOF - A liquid crystal display apparatus includes a plurality of areas in which response speeds greatly different from each other coexist in a pixel. A first replacement process section replaces the image data of the desired target frame with a first gradation, when a gradation transition from a current frame to a desired target frame corresponds to the above gradation transition. A second replacement process section replaces the image data of the current frame with a second value. The first value is set to a value causing the pixel to respond at a relatively higher speed without the occurrence of the excessive brightness. Without avoiding the deterioration of the image, it is possible to drive a liquid crystal display apparatus including areas whose response speeds are different from each other coexist in the pixel, such as a liquid crystal display apparatus of vertically aligned mode and normally black mode. | 06-28-2012 |
20120206507 | COLOR SIGNAL CONVERTER, DISPLAY UNIT, COLOR SIGNAL CONVERSION PROGRAM, COMPUTER-READABLE STORAGE MEDIUM STORING COLOR SIGNAL CONVERSION PROGRAM, AND COLOR SIGNAL CONVERSION METHOD - A color conversion circuit converts a three-primary-color signal PS | 08-16-2012 |
20130194319 | Color Signal Converter, Display Unit, Color Signal Conversion Program, Computer-Readable Storage Medium Storing Color Signal Conversion Program, And Color Signal Conversion Method - A color conversion circuit converts a three-primary-color signal PS | 08-01-2013 |