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| 20090237339 | LIQUID CRYSTAL DISPLAY DEVICE BASED ON DOT INVERSION OPERATION - An LCD device based on dot inversion operation is disclosed. The LCD device includes a plurality of data lines, a plurality of gate lines, a plurality of common lines, and a plurality of pixel units. Each pixel unit includes a data switch and a storage capacitor. The data switch of each pixel unit is coupled to a corresponding data line, a corresponding gate line, and the storage capacitor of same pixel unit. The storage capacitor of each pixel unit is also coupled to the storage capacitor of a corresponding pixel unit disposed diagonal to the pixel unit via a corresponding common line. The LCD device is capable of writing a plurality of low-voltage data signals having different polarities based on different common voltages into the plurality of pixel units so that the dot inversion operation can be operated with lower gray-scale voltage swing. | 09-24-2009 |
| 20090267655 | ANALOG BUFFER WITH VOLTAGE COMPENSATION MECHANISM - An analog buffer having voltage compensation mechanism is disclosed for use in a source driving circuit of a liquid crystal display. The analog buffer includes a reference voltage generator, a plurality of capacitors, a plurality of switches, and a plurality of transistors. Each of the capacitors is utilized to store the gate-source voltage of the corresponding turn-on transistor for performing gate-source voltage compensation operation based on the reference voltages provided by the reference voltage generator. Each of the switches functions to control gate-source voltage compensation operation and is turned on/off in response to a corresponding control signal. The analog buffer is capable of compensating the gate-source voltages of turn-on transistors for generating an output voltage having an acceptable tiny offset with respect to an input voltage. | 10-29-2009 |
| 20090278776 | METHOD FOR DRIVING AN LCD DEVICE - A method for driving an LCD device having a plurality of sets of gate lines is disclosed. The method includes sequentially enabling odd gate lines of a first set of gate lines in ascending order for writing first-polarity data into corresponding pixels based on a first common voltage during a first interval, sequentially enabling even gate lines of the first set of gate lines in ascending order for writing second-polarity data into corresponding pixels based on a second common voltage during a second interval, sequentially enabling even gate lines of a second set of gate lines in descending order for writing second-polarity data into corresponding pixels based on the second common voltage during a third interval, and sequentially enabling odd gate lines of the second set of gate lines in descending order for writing first-polarity data into corresponding pixels based on the first common voltage during a fourth interval. | 11-12-2009 |
| 20100164850 | Liquid Display Panel Driving Method - A liquid display panel driving method to drive a plurality of pixels of a liquid display panel in a frame period comprising a plurality of data input intervals is provided. Each pixel comprises first and second capacitors coupled to a first and second common electrode respectively. The liquid display panel driving method comprises the steps of: keeping the second common electrode at the same voltage level; modifying the voltage of the first common electrode of each pixel along a row of scan line to perform a first pre-charge before the data input interval; turning on the pixels to make each pixel receive the data voltage from the data lines during the data input interval; and turning off the pixels and modifying the voltage of the first common electrode to further set the voltage of each of the pixels to a target level after the data input interval. | 07-01-2010 |
| 20100321341 | PHOTO SENSOR, METHOD OF FORMING THE SAME, AND OPTICAL TOUCH DEVICE - The present invention provides a photo sensor, a method of forming the photo sensor, and a related optical touch device. The photo sensor includes a first electrode, a second electrode, a first silicon-rich dielectric layer and a second silicon-rich dielectric layer. The first silicon-rich dielectric layer is disposed between the first electrode and the second electrode for sensing infrared rays, and the second silicon-rich dielectric layer is disposed between the first silicon-rich dielectric layer and the second electrode for sensing visible light beams. The multi-layer structure including the first silicon-rich dielectric layer and the second silicon-rich dielectric layer enables the single photo sensor to effectively detect both infrared rays and visible light beams. Moreover, the single photo sensor is easily integrated into an optical touch device to form optical touch panel integrated on glass. | 12-23-2010 |
| Patent application number | Description | Published |
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| 20080252362 | NEGATIVE VOLTAGE CONVERTER - A negative voltage converter includes six transistors. A first end and a control end of a first transistor are coupled to a signal input. A first end of a second transistor is coupled to the signal input, and a control end of which is coupled to a first clock and the first transistor. A first end of a third transistor is coupled to the signal input, a control end of the third transistor is coupled with a second clock and the second transistor. A first end of a fourth transistor is coupled to the second end of the third transistor, a control end of which is coupled with the first clock and the third transistor. A first end of a fifth transistor is coupled to the second end of the third transistor, and a control end of which is coupled with the second clock and the fourth transistor A first end of a sixth transistor is coupled to the second end of the third transistor, and a control end of which is coupled with the first clock and the fifth transistor. | 10-16-2008 |
| 20090175405 | SHIFT REGISTER - A shift register is used for outputting an output pulse at output end in response to a delay of an input pulse received at an input end. The shift register includes a controller, a pre-charging switch, a level shifting switch, and an output generator. The controller is used for generating a level switching signal. The pre-charging switch is used for conducting a first supply voltage to a level shifting node in response to the input pulse. The level shifting switch turns on in response to the level switching signal. The output generator is used for generating the output pulse at the output end, when the level shifting switch turns on. | 07-09-2009 |
| 20090278784 | ANALOG BUFFER CIRCUIT CAPABLE OF COMPENSATING THRESHOLD VOLTAGE VARIATION OF TRANSISTOR - A buffer circuit includes a driving circuit, a biasing circuit, a first switch, a second switch, a third switch, a fourth switch, a fifth switch, a sixth switch, a first capacitor, and a second capacitor. Both the first and second switches are turned on in response to a high voltage level of a first switching signal. Both the third and fourth switches are turned on in response to a high voltage level of a second switching signal. Both the fifth and sixth switches are turned on in response to a high voltage level of a third switching signal. The first capacitor stores a voltage drop of the driving circuit when the first switching signal is at high voltage level, and the second capacitor stores the voltage drop of the driving circuit when the second switching signal is at high voltage level. Output of the buffer circuit is almost identical to input due to an offset of the voltage stored in the second capacitor when the third switching signal is at high voltage level. | 11-12-2009 |
