Patent application number | Description | Published |
20090128466 | METHODS AND APPARATUS FOR DRIVING LIQUID CRYSTAL DISPLAY DEVICE - A driving circuit for driving a display panel comprising: (i) a printed circuit board, (ii) an input interface to receive input video signal, (iii) a timing controller to control timing signal for the display panel, (iv) a plurality of first source drivers, and (v) at least one second source driver, and wherein the display cells connected to the i-th data line and the (2j+1)-th or (2j+2)-th gate line, where j=0, 2, 4, . . . , <[Y/2], and i=1, 2, . . . , M, where Y and M are positive integers, receive data signals from corresponding data lines | 05-21-2009 |
20110062507 | SEMICONDUCTOR DEVICE AND A METHOD OF FABRICATING THE SAME - A semiconductor device is provided. The semiconductor device includes a memory device, and the memory device includes a substrate, two stacked gates, two spacers, an insulating layer, and a dielectric layer. The stacked gates having a gap therebetween are located on the substrate. The spacers having a pipe or a seam therebetween are respectively located at sidewalls of each of the stacked gates in the gap. The pipe or the seam is filled with the insulating layer. The dielectric layer is located on the substrate and covers the insulating layer and the stacked gates. | 03-17-2011 |
20120168897 | METHODS OF FORMING SEMICONDUCTOR TRENCH AND FORMING DUAL TRENCHES, AND STRUCTURE FOR ISOLATING DEVICES - Methods of forming a semiconductor trench and forming dual trenches and a structure for isolating devices are provided. The structure for isolating devices is disposed in a substrate having a periphery area and an array area. The structure for isolating devices includes a first isolation structure and a second isolation structure. The first isolation structure has a profile with at least three steps and is disposed in the substrate in the periphery area. The second isolation structure has a profile with at least two steps and is disposed in the substrate in the array area. | 07-05-2012 |
20130187844 | LIGHT SENSITIVE DISPLAY APPARATUS AND OPERATING METHOD THEREOF - A light sensitive display apparatus and an operating method thereof are disclosed herein. The light sensitive display apparatus includes a plurality of pixels, and the operating method of the light sensitive display apparatus includes the following steps. In a writing state, a first data voltage and a first gate voltage are provided to the pixels, and the pixels illuminated by light rays are switched to or kept in a first display state. In an erasing state, a second data voltage and a second gate voltage are provided to the pixels, and the pixels illuminated by light rays are switched to or kept in a second display state. | 07-25-2013 |
20140008646 | TRANSISTOR AND MANUFACTURING METHOD THEREOF - A transistor and a manufacturing method thereof are provided. The transistor includes a first gate, a second gate disposed on one side of the first gate, a first semiconductor layer, a second semiconductor layer, an oxide layer, a first insulation layer, a second insulation layer, a source, and a drain. The first semiconductor layer is disposed between the first and second gates; the second semiconductor layer is disposed between the first semiconductor layer and the second gate. The oxide layer is disposed between the first semiconductor layer and the second semiconductor layer. The first insulation layer is disposed between the first gate and the first semiconductor layer; the second insulation layer is disposed between the second gate and the second semiconductor layer. The source and the drain are disposed between the first insulation layer and the second insulation layer and respectively disposed on opposite sides of the oxide layer. | 01-09-2014 |
20140048679 | LIGHT SENSOR AND DRIVING METHOD OF PHOTO TRANSISTOR THEREOF - A light sensor including a photo transistor is provided. A gate of the photo transistor receives a gate driving signal. The photo transistor senses a light source based on the gate driving signal to generate a light current signal. The photo transistor includes a metal-oxide active layer. The gate driving signal has a first voltage level during a trap period and has a second voltage level during a read period. The first voltage level is higher than the second voltage level. The gate driving signal of the photo transistor introduces a mechanism to rapidly eliminate excess carriers. Accordingly, the photo transistor has a rapid response while maintaining good light responsibility. Furthermore, a method for driving the foregoing photo transistor is also provided. | 02-20-2014 |
20140062899 | DYNAMIC STOP DISPLAY DRIVING MECHANISM FOR TOUCH SENSING - A method for driving a touch display for sensing a touch event and displaying an image characterized with a series of frames includes performing a driving operation for a display device of the touch display to display the image, and a sensing operation for a touch sensing device of the touch display to sense a touch event. The driving operation is configured such that for selected frames of the series of frames, the display device is not driven, and for the other frames of the series of frames, the display device is driven. The sensing operation is configured such that during the selected frames in which the display device is not driven, the touch sensing device is driven, and during the other frames in which the display device is driven, the touch sensing device is not driven. | 03-06-2014 |
20140071588 | CAPACITOR STRUCTURE OF CAPACITIVE TOUCH PANEL - A capacitor structure of capacitive touch panel including a first electrode layer, a first material layer, a second material layer and a second electrode layer is provided. The first material layer is disposed on the first electrode layer, and the material of the first material layer is selected from one of a semiconductor material and an insulating material. The second material layer is disposed on the first material layer, and the material of the second material layer is selected from another one of the semiconductor material and the insulating material. The second electrode layer is disposed on the second material layer. | 03-13-2014 |
20140138677 | THIN FILM TRANSISTOR AND FABRICATION METHOD THEREOF - A thin film transistor and a fabrication method thereof are provided. A metal patterning layer is formed on the metal oxide semiconductor layer of a thin film transistor to shield the metal oxide semiconductor layer from the water, oxygen and light in the environment. | 05-22-2014 |
20140218331 | DYNAMIC POWER ADJUSTMENT OF LEVEL SHIFT FOR NOISE REJECTION IN CAPACITANCE TOUCH SYSTEM - A dynamic power adjustment circuit for noise rejection in a capacitance touch system includes: a power source configured to generate a fixed power voltage V, a voltage adjustment circuit electrically connected to the power source, and a noise detection circuit electrically connected to the voltage adjustment circuit. The voltage adjustment circuit is configured to generate a plurality of different voltage signals VH( | 08-07-2014 |
Patent application number | Description | Published |
20090021460 | Liquid crystal display, driver chip and driving method thereof - A liquid crystal display and the driving method thereof. The LCD includes a timing controller, a plurality of driver chips and a display panel. The driver chips are cascaded together for driving the display panel to display frames. A driver chip includes a differential receiver, a single-ended receiver, a shift register, a differential transmitter, a single-ended transmitter and a pixel driver. The driver chip receives a pixel signal and drives the display panel according to the pixel signal, and outputs the pixel signal to the next driver chip. | 01-22-2009 |
20090122215 | Repair line framework of liquid crystal display - A repair line framework of liquid crystal display is provided. By disposing part of the repair line inside the integrated circuit chip so that the routing of part of the repair line will penetrate through the integrated circuit chip before returning to the panel, or by routing part of the repair line disposed on the substrate within the display region so that the routing is positioned under the black matrix of the color filter, the routing length of the repair line is shortened and the impedance of the repair line is reduced. | 05-14-2009 |
20090153453 | Flat Display Panel and Assembly Process of Driver Components in Flat Display Panel - A flat display panel comprises a plurality of driver ICs and one or more flexible printed circuit, a plurality of common wires formed on the substrate to electrically connect the ICs to the one or more flexible printed circuit, and at least one anisotropic conductive film that connects respective connecting terminals of the driver ICs and flexible printed circuit to terminals pads of the common wires. The anisotropic conductive film is laminated over the substrate to cover the terminal pads. The driver ICs and flexible printed circuit are aligned and attached on the anisotropic conductive layer by thermocompression bonding. | 06-18-2009 |
20090195531 | Liquid crystal display, driver chip and driving method thereof - A liquid crystal display and the driving method thereof. The LCD includes a timing controller, a plurality of driver chips and a display panel. The driver chips are cascaded together for driving the display panel to display frames. A driver chip includes a differential receiver, a single-ended receiver, a shift register, a differential transmitter, a single-ended transmitter and a pixel driver. The driver chip receives a pixel signal and drives the display panel according to the pixel signal, and outputs the pixel signal to the next driver chip. | 08-06-2009 |
20090201240 | Liquid crystal display, driver chip and driving method thereof - A liquid crystal display and the driving method thereof. The LCD includes a timing controller, a plurality of driver chips and a display panel. The driver chips are cascaded together for driving the display panel to display frames. A driver chip includes a differential receiver, a single-ended receiver, a shift register, a differential transmitter, a single-ended transmitter and a pixel driver. The driver chip receives a pixel signal and drives the display panel according to the pixel signal, and outputs the pixel signal to the next driver chip. | 08-13-2009 |
20090201284 | Liquid crystal display, driver chip and driving method thereof - A liquid crystal display and the driving method thereof. The LCD includes a timing controller, a plurality of driver chips and a display panel. The driver chips are cascaded together for driving the display panel to display frames. A driver chip includes a differential receiver, a single-ended receiver, a shift register, a differential transmitter, a single-ended transmitter and a pixel driver. The driver chip receives a pixel signal and drives the display panel according to the pixel signal, and outputs the pixel signal to the next driver chip. | 08-13-2009 |
Patent application number | Description | Published |
20090102778 | Shift register, gate driving circuit with bi-directional transmission function, and LCD with double frame rate - A shift register applied on a double-frame-rate LCD is provided. The LCD includes an upper display area with c gate lines, a lower display area with d gate lines, and a gate driving circuit. The gate driving circuit includes a first shift register coupled to the corresponding x gate lines of the upper display area, a second shift register coupled to the corresponding y lines of the lower display area, and a third shift register coupled to the corresponding (c-x) gate lines of the upper display area and the corresponding (d-y) gate lines of the lower display area. | 04-23-2009 |
20090108768 | BACKLIGHT CONTROL DEVICE AND METHOD FOR CONTROLLING A DRIVING CURRENT OF AN LED - A backlight control device for controlling a driving current of an LED is disclosed. By controlling current outputs from current sources of a plurality of current output units, a display will be able to generate desirable backlight. Then by adjusting currents output by the plurality of current output units, brightness of a plurality of pixels can be dynamically adjusted. The brightness of pixels with higher gray levels can be increased while the brightness of pixels with lower gray levels can be decreased, thereby improving the contrast of image and saving power consumption. | 04-30-2009 |
20090121328 | Glass Substrate of Flat Panel Display and Display Integrated Circuit Chip - An exemplary glass substrate of flat panel display is adapted for an integrated circuit (IC) chip. The IC chip has two opposite long sides and two opposite short sides. The glass substrate includes a display area and a plurality of conductive wires. The display area has a plurality of display elements formed therein. The conductive wires are electrically coupled to the IC chip and the display area, to transmit a signal provided from the IC chip to the display area. The IC chip includes a plurality of output terminals arranged at the long sides and electrically coupled to the respective conductive wires. The present invention also provides a display IC chip for receiving and outputting a first color signal, a second color signal and a third color signal. | 05-14-2009 |
20090153791 | Chip on film structure - The chip on film structure for a liquid crystal display is disclosed. The chip on film structure includes a film substrate, a driver chip disposed on the film substrate, a plurality of the input pad, and a plurality of output pads. The input pads and the output pads are disposed on two opposite sides of the driver chip, and are electrically connect to the driver chip respectively. Each input pad comprises an extending portion extending from the input pads to a first cutting edge respectively, and a width of the extending portion is thinner than a width of the input pad, and the extending portions are cut along the first cutting edge. | 06-18-2009 |
20090160879 | Data driver using a gamma selecting signal, a flat panel display with the same and a driving method therefor - A data driver using a gamma selecting signal, a flat panel display with the same and a driving method therefor are provided. A first to a fourth data lines are electrically connected to a first left sub-pixel, a first right sub-pixel, a second right sub-pixel and a second left sub-pixel, respectively. The data driver includes a first, a second, a third and a fourth gray level generating units for outputting a first set of positive gray voltage, a second set of negative gray voltage, a second set of positive gray voltage and a first set of negative gray voltage, respectively. The data driver drivers these sub-pixels according to the first set of positive gray voltage, the second set of negative gray voltage, the second set of positive gray voltage and the first set of negative gray voltage under the control of a polarity inversion signal and a gamma selecting signal. | 06-25-2009 |
20110292027 | BACKLIGHT CONTROL DEVICE AND METHOD FOR CONTROLLING A DRIVING CURRENT OF AN LED - A backlight control device for controlling a driving current of an LED is disclosed. By controlling current outputs from current sources of a plurality of current output units, a display will be able to generate desirable backlight. Then by adjusting currents output by the plurality of current output units, brightness of a plurality of pixels can be dynamically adjusted. The brightness of pixels with higher gray levels can be increased while the brightness of pixels with lower gray levels can be decreased, thereby improving the contrast of image and saving power consumption. | 12-01-2011 |
20120113163 | DISPLAY INTEGRATED CIRCUIT CHIP - A display IC chip includes a plurality of sides, a plurality of output terminals, two first color short-circuit lines, one second color short-circuit line, one third color short-circuit line, and conductive wires. The two first color short-circuit lines are parallel disposed in the IC chip and coupled to a first output terminal group of the output terminals. The second color short-circuit line is disposed between and parallel with the first color short-circuit lines. The second color short-circuit line is coupled to a second output terminal group of the output terminals. The third color short-circuit line is disposed between and parallel with the first color short-circuit lines. The third color short-circuit line is coupled to a third output terminal group of the output terminals. The conductive wires are coupled the first color short-circuit lines with the first output terminal group do not cross the second and third color short-circuit lines. | 05-10-2012 |
20130100112 | IMAGE PRIVACY PROTECTING METHOD - An image privacy protecting method is provided. Positions of a privacy protecting region and a normal display region are acknowledged first. When a frame of image is processed, a first image data will be displayed in the privacy protecting region is processed in a narrow viewing mode to obtain a narrow viewing driving data, and a second image data will be displayed in the normal display region is processed in a wide viewing mode to obtain a wide viewing driving data. Finally, display operations are performed in the privacy protecting region and the normal display region respectively according to the narrow viewing driving data and the wide viewing driving data. | 04-25-2013 |
20130100182 | COMPENSATION METHOD FOR PRIVACY-IMAGE PROTECTION - A compensation method for privacy-image protection is provided. The compensation method operates a display device in a narrow visual-angle mode, then determines where is data to be displayed according to a relative position between the data to be displayed and a specific object, and finally determines to use which to adjust the data to be displayed according to the determined result, and displays the data. | 04-25-2013 |
20140063386 | PEEP-PROOF DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A peep-proof display apparatus includes a plurality of sub-pixels disposed between a first substrate and a second substrate. Each sub-pixel includes a first conductive layer, a color filter layer, an isolation film, a light modulator layer, a second conductive layer, an insulation film and a third conductive layer. The color filter layer is disposed between the first conductive layer and the isolation film. The light modulator layer is disposed between the isolation film and the second conductive layer. The insulation film is disposed between the second and third conductive layers. In a first display mode, the light modulator layer is applied with an electric field parallel thereto. In a second display mode, the light modulator layer is applied with an electric field parallel thereto and an electric field perpendicular thereto. | 03-06-2014 |
20140191933 | ADJUSTABLE VIEWING ANGLE DISPLAY DEVICE AND METHOD FOR DRIVING THE SAME - Disclosed herein is an adjustable viewing angle display device. The display device includes a display panel composed of a first substrate, a second substrate, a display medium layer interposed therebetween, a first electrode, a second electrode and a third electrode. Pluralities of sub-pixels are defined in the display panel. The first and second electrodes are disposed on the first substrate in the sub-pixels. The first electrode is spaced apart from the second electrode. The third electrode is disposed on the second substrate. When the display device is operated in a narrow viewing angle mode, there exists a non-zero potential difference between the second electrode and the third electrode, and when the sub-pixel is at gray level of zero, the potential difference between the first electrode and the second electrode is not zero. A driving method for driving the display device is disclosed as well. | 07-10-2014 |
20140192091 | DISPLAY DEVICE AND DRIVING METHOD THEREOF - Disclosed herein is a display device with an adjustable viewing angle. The display device at least includes a first sub-pixel and a second sub-pixel adjacent to the first sub-pixel. When the display device is operated in a wide viewing angle mode, the first and second sub-pixels each have an on-axis brightness at a predetermined gray level. When the display device is operated in a narrow viewing angle mode, the first and second sub-pixels respectively have a first on-axis brightness at a first gray level and a second on-axis brightness at a second gray level. The first on-axis brightness at the first gray level is substantially less than the on-axis brightness at the predetermined gray level of the first sub-pixel. | 07-10-2014 |