Patent application number | Description | Published |
20100079080 | Gamma Generator System and Method Adaptable for Backlight Control - A gamma reference voltage generating system and method adaptable for backlight control is disclosed. A gamma reference voltage generator adaptively generates an analog gamma reference voltage under the control of a digital control signal. The digital control signal is specifically arranged to accordingly level-up an upper limit of a gamma curve, thereby improving brightness loss. | 04-01-2010 |
20100079362 | Overdrive Compensation/Update Adaptable to Dynamic Gamma Generator - An overdrive system adaptable for a dynamic gamma generator is disclosed. A current gray-to-voltage converter (G/V) converts image data of a current frame from gray code to voltage level, and a previous gray-to-voltage converter (G/V) converts image data of a previous frame from gray code to voltage level. The voltage level of current frame and the voltage level of previous frame are inputted to an overdrive-voltage lookup table to retrieve an overdrive voltage level. Afterwards, a voltage-to-gray converter (V/G) converts the retrieved overdrive voltage level from voltage level back to gray code, resulting in an overdrive gray code. Accordingly, the overdrive gray code is compensated. Alternatively, the overdrive gray code is used to update an overdrive-gray-code lookup table, an output gray code of which is fed to the source driver. | 04-01-2010 |
20100146528 | Method of Directing a Viewer's Attention Subliminally in Image Display - A method of directing a viewer's attention in an image display to enhance the perceived image quality and thus the viewer's preference of the image is disclosed. An image with an area of interest (AOI) is provided. The AOI is briefly displayed for a first time period. Subsequently, the image is normally displayed in its entirety for a second time period that is longer than the first time period. As a result, the viewer's attention is involuntarily directed to the AOI in a subliminal manner. | 06-10-2010 |
20100289811 | Dynamic Backlight Control System and Method with Color-Temperature Compensation - A dynamic backlight control system and method with color-temperature compensation are disclosed. A dynamic backlight control unit dynamically controls brightness of a backlight unit according to image data. A color-temperature model is provided for mapping the brightness of the backlight unit into color temperature. A color-temperature compensation unit then compensates the image data according to the mapped color temperature. | 11-18-2010 |
Patent application number | Description | Published |
20090051844 | Defect repairing method of liquid crystal display and signal transmission method of source driver and timing controller thereof - A liquid crystal display (LCD) includes a controller, a source driver, first and second data lines and a data transmission path. The controller outputs first and second image data, and the source driver receives and outputs the first and second image data. The source driver includes first and second data channel circuits and a first repair channel circuit. The first and second data channel circuits respectively output first and second sub-pixel data. The first repair channel circuit is coupled to the controller to receive first repairing data. The first and second data lines are respectively coupled to the first and second data channel circuits to receive the first and second sub-pixel data. The data transmission path includes a redundant line, which is for coupling the first repair channel circuit to one of the first and second data lines, and interlaces with the first and second data lines. | 02-26-2009 |
20090102757 | APPARATUS AND METHOD TO COMPENSATE A DRIVING CURRENT OF A LIGHT EMITTING DIODE - The present invention discloses a method for driving a light emitting diode according to a required luminance, wherein an actual luminance of the light emitting diode decays with time and a correlation there between is represented by a life-time curve. The method comprises the following steps. First, the driving current is correlated with the required luminance by an initial coefficient is provided to the light emitting diode. Next, a length of a period of use of the light emitting diode is counted. Then, a slope of the life-time curve corresponding to the required luminance is stored. Finally, a new coefficient from the length of the period of use, the slope of the life-time curve and the initial coefficient is derived. | 04-23-2009 |
20100134470 | Liquid Crystal Display and Source Driving Circuit Thereof - A source driving circuit includes a gamma voltage generator, a common voltage generator and a driver. The gamma voltage generator receives gamma data from a timing controller through reduced swing differential signaling (RSDS) transmission interface to generate corresponding gamma voltages. The common voltage generator receives common voltage data from the timing controller to generate a corresponding common voltage. The driver receives image data from the timing controller through the RSDS transmission interface, the gamma voltages from the gamma voltage generator and the common voltage from the common voltage generator for modifying the image data using the gamma voltages and the common voltage and transmitting the modified image data to a panel of the liquid crystal display. | 06-03-2010 |