Patent application number | Description | Published |
20080211801 | Display Apparatus Driving Method, Display Apparatus Driving Device, Program Therefor, Recording Medium Storing Program, and Display Apparatus - A control section is disclosed which divides a display screen into small regions, evaluates the relative brightness of each of the small regions in accordance with color data to be inputted as color data by which each pixel is displayed, and determines whether or not the display screen has a first small region that is brighter than the other small regions by a predetermined degree. Furthermore, the control section causes a first generating device to generate gradation data for use in the first small region, and causes a second generating device to generate gradation data for use in the other small regions. Even if the second generating section receives the same color data as the first generating section does, the second generating section limits the luminance of a W sub-pixel as compared to the first generating section. With this, the first small region can be displayed more strikingly brightly, so that a clearer, more realistic, and more appealing image can be displayed. This makes it possible to realize a display apparatus capable of displaying a clearer, more realistic, and more appealing image. | 09-04-2008 |
20090021463 | Display Panel Driving Apparatus, Display Apparatus, Display Panel Driving Method, and Television Receiver - In one embodiment, a display panel driving apparatus which generates, based on an input gray scale, a gray scale of a first sub-frame and a gray scale of a second sub-frame so as to display the input gray scale as a result of a summation of respective display corresponding to the first sub-frame and the second sub-frame into which one frame is divided, and the gray scale of the second sub-frame being greater than the gray scale of the first sub-frame, for a response in which the input gray scale of a subsequent frame is greater than an input gray scale of a previous frame and the input gray scale of the subsequent frame is not less than a first threshold gray scale, a gray scale of the first sub-frame in the subsequent frame is set not more than a second threshold gray scale, regardless of input gray scale of the subsequent frame. Thus, it is possible to reduce jaggy in an edge of a moving image in time-division driving. | 01-22-2009 |
20090046215 | Liquid Crystal Display Apparatus - In a liquid crystal display apparatus realizing a dual view display by bonding a liquid crystal panel and a parallax barrier, the parallax barrier separates display images by treating three pixels including R, G, and B pixels as one unit (one picture element). At this time, luminance variation due to crosstalk concentrates on a right-end pixel among the three pixels constituting the one picture element (in a case where each pixel receives data from a source line immediately on the left of the pixel). Accordingly, the right-end pixel is arranged to be a B pixel that has a low correlation with luminance information and in which influence of crosstalk is hard to be viewed. Further, an applied voltage to be supplied to the display pixel of the B (blue) color and an input gradation are set to have a relationship along a γ curve that makes luminance variation difficult to occur in a low luminance area. | 02-19-2009 |
20090051707 | Liquid Crystal Display Device Drive Method, Liquid Crystal Display Device, and Television Receiver - The method of driving a liquid crystal display in accordance with one embodiment of the present invention is a method of driving a liquid crystal display whereby a first liquid crystal panels produces a display from a first display signal and the second liquid crystal panel produces a display a second display signal derived from the first display signal, the first and second liquid crystal panels being stacked on top of each other. The luminance of the first liquid crystal panel is extended based on the luminance extension ratio obtained from the gray levels for dots contained in the first display signal and a logical maximum gray level of input image data. The luminance of the second liquid crystal panel which produces a display from the second display signal is lowered by the amount by which luminance is extended on the first liquid crystal panel. A liquid crystal display with high display quality is realized by restraining decrease in saturation which would otherwise become obtrusive when two liquid crystal panels are stacked. | 02-26-2009 |
20090147186 | Liquid Crystal Display and Television Receiver - A liquid crystal display of the present invention contains a first panel and a second panel being stacked. Adjacent pairs of polarizers (A to C) disposed on the panels form crossed Nicols. When the first panel produces a display according to a first display signal, the second panel produces a display according to a second display signal obtained from the first display signal. Each of the two joined panels is provided with a light diffusion layer having a light diffusing property. The provision of the light diffusion layers enables reducing moire pattern occurrences which would otherwise markedly increase when two liquid crystal panels are stacked. As a result, the liquid crystal display has high display quality. | 06-11-2009 |
20100085492 | Display Device and Displaying Method - The present invention relates to a hold type display device. | 04-08-2010 |
20100156963 | Drive Unit of Display Device and Display Device - In one embodiment of the present invention, a drive unit of a display device is a drive unit that drives a display device in which one frame is divided into a plurality of sub-frames so that display of input video data is realized by summation of displays of the sub-frames, and the drive unit includes: a sub-frame data generating section generating sets of sub-frame data corresponding to the respective sub-frames; and a sub-frame period fixing section setting at least one sub-frame period to a given value regardless of a type of the input video data. This makes it possible to prevent variations of display quality with respective to various kinds of input video signals. | 06-24-2010 |
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 |
20120119981 | DISPLAY PANEL DRIVING APPARATUS, DISPLAY PANEL DRIVING METHOD, DISPLAY APPARATUS, AND TELEVISION RECEIVER - In a display panel driving apparatus which generates gray scales corresponding to first through nth sub-frames into which one frame is divided, and drives a display panel based on the gray scales thus generated, in a rising response in which a gray scale of a previous frame is Tf and a gray scale of a subsequent frame is Tr, T | 05-17-2012 |