| Patent application number | Description | Published |
|---|
| 20080266487 | Liquid crystal display and television apparatus - A display device includes: a panel; a light source provided on a surface disposed with facing at an interval of a predetermined distance from the back of the panel of said panel; and at least one optical sheet placed in front of said light source; wherein said optical sheet is placed with predetermined inclination angle to the above back of the panel so that it becomes closer from the top end to the bottom end of the back of the panel of said panel. | 10-30-2008 |
| 20090021178 | Apparatus and method for driving backlight unit - The present invention is directed to a drive apparatus for a backlight unit ( | 01-22-2009 |
| 20090115720 | Liquid crystal display, liquid crystal display module, and method of driving liquid crystal display - A liquid crystal display includes: a light source section including a plurality of lighting sections; a light source driving section for determining a light intensity of each lighting section according to the image signal inputted and driving the light source section so that each lighting section is independently activated with the light intensity determined; a liquid crystal display panel; and a display driving section for driving the liquid crystal display panel based on the image signal. In a case that a display region corresponding to the lighting section includes a high-luminance part and a low-luminance part, the display driving section corrects the image signal in the low-luminance part so that the display luminance of the low-luminance part results in the same level as the display luminance under a maximum light intensity of the corresponding lighting section, and drives the low-luminance part according to the image signal corrected. | 05-07-2009 |
| 20090153464 | DISPLAY UNIT AND BACKLIGHT UNIT - The screen is exempt from variation in brightness due to uneven temperature distribution. | 06-18-2009 |
| 20090207613 | LIGHT SOURCE SYSTEM, LIGHT SOURCE DEVICE, AND METHOD OF CONTROLLING LIGHT SOURCE - Light intensity may be locally increased in light intensity distribution without increasing number of light sources or drive current. A light source system includes a light source, and a diffusion unit varying diffusibility in incident light so that light intensity in a light intensity distribution in a plane, resulted from light emitted from the light source, is locally enhanced. | 08-20-2009 |
| 20090213573 | LIGHT SOURCE UNIT, LIGHT SOURCE DEVICE, AND DISPLAY APPARATUS - A light source unit is used in a multiply combined manner, and includes a light source element having a substrate and one or more light emitting elements disposed on the substrate. The light source unit is configured such that when a plurality of the light source units are arranged in cascade, the light source element in the light source unit comes to in electric connection with another light source element in an adjacent light source unit. Thereby, the plurality of light source units may emit light at the same time. Thus, the structure similar to rod-shaped light source such as CCFL is achieved. | 08-27-2009 |
| 20090295707 | Illuminating apparatus and display apparatus - The present invention provides an illuminating apparatus locally reducing light intensity without depending on the configuration of a light source itself. An illuminating apparatus used as a backlight of a display apparatus having a liquid crystal display panel with a pair of first polarizers, including a light source and a liquid crystal light control panel. The liquid crystal light control panel has a pair of second polarizers and suppresses amount of transmission of light from the light source, thereby allows the light from the light source to have such a light intensity distribution along a plane that light intensity is locally reduced. The polarization degree in the second polarizers is optimized so that transmission light amount ratio of the second polarizers is lower than that of the first polarizers. | 12-03-2009 |
| 20090295839 | Display device, drive method therefor, and electronic apparatus - A display device includes: a light source section having multiple light sources to emit light in illumination colors including three primary colors of light; a display section for displaying an image in monochrome color by modulating the light emitted from the light source section; and a display control section for driving the light source section and the display section in a field sequential system. The display control section includes a determining section for determining a degree of white or a degree of complementary color of the light sources on the basis of an amount of lighting of each of the illumination colors of the light sources, a setting section for setting white components or complementary-color components of a color determined by a mixing ratio of the illumination colors, and an allocating section for allocating the set white components or the complementary-color components to the fields. | 12-03-2009 |
| 20100156926 | IMAGE DISPLAY DEVICE AND IMAGE DISPLAY METHOD - An image display device is provided, with less color breaking in the field sequential method. A color component image with a relatively high luminance level is extracted as a fundamental image from an input image. A differential image is obtained by subtracting color component of the fundamental image from an input image, and is decomposed into a plurality of color components. The differential image for each color component is divided into two. The fundamental image is displayed at a middle timing of a frame period. The half-divided differential images are displayed at timings before and after the middle timing for the fundamental image so that the half-divided differential image with higher luminance level with consideration for visibility characteristic is displayed at a timing closer to the middle timing for the fundamental image. | 06-24-2010 |
| 20100181921 | Apparatus and method for driving backlight unit - The present invention is directed to a drive apparatus for a backlight unit ( | 07-22-2010 |
| 20100188322 | COLOR DISPLAY UNIT - A color display unit is provided, which allows color display to be performed with high efficiency in utilizing light as compared with a prior type using all of RGB color filters. The color display unit includes a light source section having plural kinds of color LEDs, and includes a display section controlling transmissivity of light from the light source section in synchronization with light emission control by the light source section, to achieve desired color display. The display section has a full-color transmittable region and a partially transmittable region. The full-color transmittable region allows all color components of the light to be transmitted, while the partially transmittable region inhibits passage of one or more in the color components of the light. The display section controls the transmissivity of the light independently for each of the full-color transmittable region and the partial transmittable region. | 07-29-2010 |
| 20100265281 | IMAGE DISPLAY DEVICE - The image display device includes a light source section having light emitting subsections; a display panel; and a display control section performing a control. An input frame image is decomposed into a plurality of field images and the field images are displayed in a field sequential manner. A differential image for each of the three primary-color components is obtained by subtracting a common luminance portion from the subsection-drive frame image. The differential image and a common image configured of the common luminance portion are sequentially outputted to the display panel in a time-divisional manner. In the first field period for outputting the differential image of a primary color component, corresponding primary color light is emitted, and in a second field period for outputting the common image, multiple kinds of primary color light, corresponding to the primary-color components configuring the common luminance portion, are emitted together. | 10-21-2010 |
