Patent application number | Description | Published |
20080218500 | DISPLAY DRIVER - A liquid crystal display device includes, in one of an even row and an odd row of a liquid crystal panel, a switch for short-circuiting, for example, an even signal line and an odd signal line adjacent on the left side to the even signal line, and a switch for short-circuiting the even signal line and an odd signal line adjacent on the right side to the even signal line provided at an output part of the signal-line driver. By controlling these switches, enlarged display equivalent to the bilinear processing is realized in a horizontal direction. By scanning two scanning lines simultaneously, simple enlarged display is realized in a vertical direction on the panel. Further, by stopping supply of a steady current to an operational amplifier applying data voltage to the even signal line, enlarged display at a low cost and at low power consumption is realized. | 09-11-2008 |
20080272999 | DISPLAY DEVICE, DISPLAY DRIVER AND IMAGE DISPLAY METHOD - In a display device and a display driver, when a grayscale of a display image is equal to or lower than a specific grayscale value obtained from a histogram of the display image, a display grayscale is extended with a linear function. On the other hand, when a grayscale of a display image is equal to or higher than the specific grayscale value, histogram equalization of a part higher than the specific grayscale value is performed, and the display grayscale is extended with a non-linear function obtained from the histogram equalization. | 11-06-2008 |
20080315890 | Image Display Device - An image display device includes a black spot defect position determination circuit which determines a position of a black-spot defective pixel of a self-luminous display panel. A detection-use current source in the black spot defect position determination circuit is connected to pixels during a period separate from a display period of data signals thus determining a black spot defect. The position of the black spot defect is stored in a storing circuit and is transmitted to a display and detection control circuit. The display and detection control circuit corrects the data signals to the pixels around the defective pixel based on a black spot defect position, and drives a data line drive circuit based on the corrected data signals thus visually correcting the black spot defect. | 12-25-2008 |
20080316167 | DISPLAY DRIVER - A display driver driving a display panel according to inputted display data comprises: a first circuit changing brightness of a display image by conversion of the display data based on a first reference value and a second reference value, the first reference value being a display data value at a first position in an upper part of a histogram of the inputted display data, and the second reference value being a display data value at a second position in a lower portion of the histogram; a second circuit changing brightness of a illuminating device illuminating the display panel based on the first reference value; and a control circuit performing a processing of making the brightness of the display image high by the first circuit and a processing of making the brightness of the illuminating device low by the second circuit in correlation with the brightness of the display image. | 12-25-2008 |
20090046046 | Display device - An image processing unit ( | 02-19-2009 |
20090060365 | IMAGE DISPLAY DEVICE, IMAGE PROCESSING CIRCUIT, AND IMAGE PROCESSING METHOD - To provide a processing method for reducing motion blur while increasing resolution. By performing a super-resolution process, a resolution-increased image is obtained from an input image in multiple frames. By performing an enlargement process, an enlarged image is obtained from the input image in one frame. A high-frequency image is obtained by subtracting the enlarged image from the resolution-increased image. A high spatial frequency-emphasized image is obtained by adding the high-frequency image to the resolution-increased image. The enlarged image and high spatial frequency-emphasized image are displayed alternately every half frame. | 03-05-2009 |
20090146938 | Display device - In RGB time division drives, there is capacitor coupling due to the effects of fluctuation in the drain lines, and thus, the image quality deteriorates (lateral smearing), so that the display brightness becomes different from the desired display brightness due to delay in the convergence of the fluctuation of the common potential, and thus, it is a goal to prevent the image quality from deteriorating (lateral smearing). | 06-11-2009 |
20090207182 | Display Device - The deterioration (darkness) of image quality due to a reduction in the brightness of a single color as a result of the conversion from RGB pixels to RGBW pixels is prevented and a reduction in the power is achieved. A processing portion for conversion from RGB to RGBW | 08-20-2009 |
20100053224 | PLASMA DISPLAY DEVICE - The characteristics of a filter are controlled based on index information relating to the power consumption of an address driver that drives address electrodes for selecting light emission or no light emission of display cells based on display data, and filtering is performed on the display data in the arrangement sequence of display cells for a direction perpendicular to the direction in which the address electrodes extend on a display screen, thereby controlling the characteristics of the filter so as to suppress high-frequency components in the display data when the power consumption of the address driver is large to reduce the number of changes in the potentials of the address electrodes, enabling reduction of the power consumption of the address driver while suppressing image quality deterioration. | 03-04-2010 |
20100165011 | DISPLAY DRIVER AND DISPLAY DRIVING METHOD - In a display driver, one scanning period is divided into a period P and a subsequent period D. In the period P, a pre-charge voltage equal to an original data voltage is applied in a time-sharing manner to data lines in one block, and in the period D after the period P, the original data voltage is applied again. | 07-01-2010 |
20120249613 | DISPLAY DEVICE - A processing portion for conversion from RGB to RGBW includes a W generating circuit, a sub-pixel rendering circuit, a W intensity calculating portion which transmits a W intensity setting value to a W generating circuit, and a low power backlight control circuit which expands data on the basis of the RGBW pixels generated by the sub-pixel rendering portion and lowers the backlight in accordance with the amount by which the data is expanded. The inputted RGB data is used as the RGBW data with the W intensity calculated by the W intensity calculating portion. A backlight control signal is generated based on the amount of data expansion in the sub-pixel rendering portion. Deterioration (darkness) of image quality due to a reduction in the brightness of a single color as a result of the conversion from RGB pixels to RGBW pixels is prevented and a reduction in the power is achieved. | 10-04-2012 |
20130044146 | DISPLAY DEVICE, DISPLAY DRIVER AND IMAGE DISPLAY METHOD - In a display device and a display driver, when a grayscale of a display image is equal to or lower than a specific grayscale value obtained from a histogram of the display image, a display grayscale is extended with a linear function. On the other hand, when a grayscale of a display image is equal to or higher than the specific grayscale value, histogram equalization of a part higher than the specific grayscale value is performed, and the display grayscale is extended with a non-linear function obtained from the histogram equalization. | 02-21-2013 |
20130120480 | DISPLAY DRIVER - In a display driver, a first backlight control unit using a histogram and a second backlight control unit using an optical sensor can be used in combination. The display driver includes a PWM generating unit setting a control signal value consisting of a product of a luminance rate of X % and a luminance rate of Y % as a luminance rate of a control signal for controlling a backlight with respect to maximum backlight luminance when a luminance rate of a control signal obtained by first backlight control with respect to the maximum backlight luminance is X % and a luminance rate of a control signal obtained by second backlight control with respect to the maximum backlight luminance is Y %. | 05-16-2013 |
20140247291 | DISPLAY DRIVER - In a display driver, a first backlight control unit using a histogram and a second backlight control unit using an optical sensor can be used in combination. The display driver includes a PWM generating unit setting a control signal value consisting of a product of a luminance rate of X % and a luminance rate of Y % as a luminance rate of a control signal for controlling a backlight with respect to maximum backlight luminance when a luminance rate of a control signal obtained by first backlight control with respect to the maximum backlight luminance is X % and a luminance rate of a control signal obtained by second backlight control with respect to the maximum backlight luminance is Y %. | 09-04-2014 |