| Patent application number | Description | Published |
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| 20080291120 | HEAD-MOUNTED DISPLAY FOR ADJUSTING THE INTENSITY OF AMBIENT LIGHTS - A head-mounted display includes a body including an optical visualizing device. The optical visualizing device includes a displaying unit, a housing, a polarizing unit and a front cover. The displaying unit is adapted to display an image. The housing is adapted to accommodate the displaying unit and having a front surface. The polarizing unit is disposed in front of the displaying unit accommodated in the housing for adjusting the intensity of ambient lights that enter the displaying unit. The front cover is adapted to cover the front surface of the housing. The polarizing unit is controlled by the viewer to switch between see-through and non-see-through mode. | 11-27-2008 |
| 20090033603 | PROJECTION TYPE DISPLAY APPARATUS - A display apparatus has several light emitting elements and several lenses. The light emitting elements generate light of a first and second part of a frame respectively during a first and second period. The lenses pass through by the light from the light emitting elements, and operate to form images of the first and second part of the frame at a first and second location during the first and second period, respectively. | 02-05-2009 |
| 20090295844 | COLOR-SEQUENTIAL DISPLAY METHOD - A display method for driving a color-sequential display of an electronic device is provided. When the electronic device is not at low power mode, a first image is displayed first by using a second color data and a first color data of the first image sequentially to drive the display. Next, a second image is displayed by using a second color data and a third color data of the second image sequentially to drive the display. When the electronic device is at low power mode, the respective luminance of the first and the second images are obtained. Then, the respective luminance of the first image and the second image are sequentially used to drive the display. | 12-03-2009 |
| 20100117940 | TRANSREFLECTIVE DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A driving method and a transreflective display apparatus are provided herein. In the driving method, a plurality of voltage-to-transparency curves are provided. An ambient light intensity of the display apparatus is detected for determining a display mode, wherein the display mode is either a transmissive mode or a reflective mode. Next, one of the voltage-to-transparency curves is selected according to the display mode and the ambient light intensity for driving the display apparatus. Therefore, by referring a proper voltage-to-transparency curve to drive the display apparatus, the display quality of the display apparatus can be enhanced. | 05-13-2010 |
| 20100289734 | PIXEL CIRCUITRY OF DISPLAY DEVICE AND DISPLAY METHOD THEREOF - A pixel circuitry of a display device and a display method thereof are provided herein. The pixel circuitry includes a scan switch, a storage element, and a sampling circuitry. The scan switch has a first terminal coupled to a data line and configured to be asserted according to a scan signal. The storage element is coupled to a second terminal of the scan switch and configured to store a pixel voltage from the data line. The sampling circuitry is configured to sample the stored pixel voltage of the storage element and to obtain a reference voltage for the display device according to the sampled signal. By sampling the stored pixel voltage of the storage element, whether the pixel voltages with different polarities are symmetry can be detected for avoiding flickers. | 11-18-2010 |
| Patent application number | Description | Published |
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| 20080197342 | Display device and method of manufacturing the same - A display device and its method of manufacture. The display device is formed to include a substrate having an upper surface, a recess region having a bottom surface and sidewalls, a light-emitting element and a switch element. The light-emitting element includes a first electrode disposed on the recess region, a light-emitting layer disposed on the first electrode, and a second electrode disposed on the light-emitting layer. The switch element is disposed on the substrate and electrically connected to the light-emitting element. The bottom surface of the recess region is lower than the bottom surface of the active layer. | 08-21-2008 |
| 20090195526 | DRIVER INTEGRATED CIRCUIT FOR REDUCING COUPLING VOLTAGE AND LIQUID CRYSTAL DISPLAY DEVICE APPLYING THE SAME - A driver integrated circuit (IC) for driving a panel having pixels controlled by gate lines and data lines is disclosed, including a power circuit for generating a high level voltage and a low level voltage, a timing controller, a source driving circuit controlled by the timing controller to drive the data lines, a gate driving circuit controlled by the timing controller to selectively enable one of the gate lines for a line period. The gate driving circuit first asserts the selected gate line with the high level voltage in order to activate the corresponding pixels for receiving the driving signals from the corresponding data lines, and the gate driving circuit subsequently asserts the selected gate line with the low level voltage such that the corresponding pixels are still activated for receiving the driving signals. An LCD device utilizing the driver IC is also provided. | 08-06-2009 |
| 20090212293 | Semiconductor device and method for fabricating the same - A semiconductor device, comprising a substrate, a semiconductive layer and a gate electrode is provided. The semiconductive layer having a crystallization promoting material is formed over the substrate. The semiconductive layer has a channel region, a first doped region and a second doped region. The first doped region has a donor and an acceptor, and the second doped region has a dopant which is selected from one of the donor and the acceptor. The second doped region is disposed between the first doped region and the channel region. The gate electrode is insulated from the channel region. | 08-27-2009 |
