Patent application number | Description | Published |
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 |
20120235950 | CIRCUIT FOR DETERMINING POSITIONS OF CONTACTS ON CAPACITIVE POSITION DETECTING PANEL, TOUCH PANEL MODULE AND METHOD FOR DETECTING CONTACTS ON CAPACITIVE POSITION DETECTING PANEL - The invention provides a circuit for determining positions of contacts on a capacitive position detecting panel. The capacitive position detecting panel includes a plurality of sensing lines and driving lines. The circuit includes a plurality of first amplifiers and second amplifiers. The first amplifiers respectively connect to the sensing lines, and the second amplifiers respectively connect to the driving lines. Input nodes of the first amplifiers are connected to a first input signal source, and input nodes of the second amplifiers are selectively connected to the first input signal source or a second input signal source. When the circuit is operated under a first operation mode, the input nodes of the second amplifiers are connected to the first input signal source; and when the circuit is operated under a second operating mode, the input modes of a plurality of specific second amplifiers are connected to the second input signal source. | 09-20-2012 |
20120235965 | LIQUID CRYSTAL DISPLAY DEVICE FREE OF UPPER SUBSTRATE ELECTRODE AND DRIVING METHOD THEREOF - In a liquid crystal display device free of upper substrate, a plurality of independent common lines are provided, and a specified one of the plurality of common lines is electrically coupled to a specified group of pixels. A voltage level of the specified common line is changed from a first level to a second level before data are written into the specified group of pixels; and the voltage level of the specified common line is kept at the second level after the data are written into the specified group of pixels. | 09-20-2012 |
20120249496 | PIXEL ARRAY OF FRINGE FIELD SWITCHING LIQUID CRYSTAL DISPLAY PANEL AND DRIVING METHOD THEREOF - A pixel array of a fringe field switching (FFS) liquid crystal display panel includes a plurality of gate lines, a plurality of data line, a plurality of pixel electrodes, a plurality of common lines, and a plurality of pixel units aligned in an array configuration. The gate lines are disposed parallel to each other along a first direction. The data lines are disposed parallel to each other along a second direction. Each of the pixel units includes at least one sub-pixel region. The common lines are disposed along the first direction and electrically isolated from each other. Each of the common lines includes a plurality of common electrodes extending along the second direction. The two adjacent common electrodes of each common line are respectively disposed in the two adjacent pixel units which are located in different rows. | 10-04-2012 |
20120249943 | PIXEL ARRAY OF FRINGE FIELD SWITCHING LIQUID CRYSTAL DISPLAY PANEL AND DRIVING METHOD THEREOF - A pixel array of a fringe field switching (FFS) liquid crystal display panel includes a plurality of gate lines, a plurality of data line, a plurality of pixel electrodes, and a plurality of common lines. The gate lines are disposed parallel to each other along a first direction. The data lines are disposed parallel to each other along a second direction. A plurality of sub-pixel regions is defined by the gate lines and the data lines. The common lines are disposed along the first direction and electrically isolated from each other. Each of the common lines includes a plurality of common electrodes extending along the second direction. The two adjacent common electrodes of each common line are respectively disposed in the two adjacent sub-pixel regions which are located in different rows. | 10-04-2012 |
20140009457 | LIQUID CRYSTAL DISPLAY PANEL AND DISPLAY DRIVING METHOD - A liquid crystal display panel and a display driving method are disclosed. The liquid crystal display panel includes several pixel units, several scan lines, several common electrode lines coupled with the pixel units and several common electrode control units. The common electrode control units are configured for controlling the voltage levels of the common electrode lines. Each one of the common electrode control units generates a first output signal and a second output signal opposite to the first output signal according to the former common electrode controlling unit and two adjacent scan lines. The to common electrode controlling unit controls a voltage level on one of the common electrode lines according to the first output signal, and outputs the first output signal and the opposite second output signal to the next common electrode control unit. | 01-09-2014 |
20140160096 | DISPLAY HAVING SHARED DRAIN STRUCTURE - A display includes a source driver, a demultiplexer, a first data line, a second data line, a first pixel and a second pixel. The demultiplexer includes a first pixel signal transmission unit and a second pixel signal transmission unit. The first pixel signal transmission unit includes a first sub-pixel signal transmission unit, a second sub-pixel signal transmission unit and a third sub-pixel signal transmission unit. The first sub-pixel signal transmission unit and the second sub-pixel signal transmission unit share a drain. A second pixel signal transmission unit next to the first pixel signal transmission unit includes a fourth sub-pixel signal transmission unit, a fifth sub-pixel signal transmission unit and a sixth sub-pixel signal transmission unit. The fourth sub-pixel signal transmission unit and the fifth sub-pixel signal transmission unit share another drain. | 06-12-2014 |
20140252964 | DISPLAY DEVICE AND COMMON VOLTAGE GENERATOR THEREOF - A voltage generator includes a latch and a first voltage adjustment circuit. The latch includes a latch input terminal, a trigger terminal, a positive latch output terminal and a negative latch output terminal. The latch is configured to have the latch input terminal thereof for receiving an input signal, the trigger terminal thereof for receiving a trigger signal, the positive latch output terminal thereof for outputting a first latch output signal having a phase same as that of the input signal, and the negative latch output terminal thereof for outputting a second latch output signal having a phase opposite to that of the input signal. The first voltage adjustment circuit is electrically coupled to the latch and configured to output a first common voltage signal. A display device using the aforementioned voltage generator is also provided. | 09-11-2014 |
20140267218 | DISPLAY AND METHOD OF TRANSMITTING SIGNALS THEREIN - A display includes first pixels, second pixels, a first de-multiplexer and a second de-multiplexer. The first de-multiplexer transmits a first data signal to the first pixels sequentially in response to first control signals. The second de-multiplexer transmits a second data signal to the second pixels sequentially in response to second control signals. The polarity of the first data signal is different from that of the second data signal. Levels of the first control signals are switched between a first voltage level and a zero voltage level, corresponding to the polarity of the first data signal. Levels of the second control signals are switched between a second voltage level and the zero voltage level, corresponding to the polarity of the second data signal. The first voltage level is different from the second voltage level. A method of transmitting signals in a display is also disclosed herein. | 09-18-2014 |
20150062088 | OPTICAL TOUCH DEVICE AND METHOD OF FORMING PHOTO SENSOR - A method of forming a photo sensor includes the following steps. A substrate is provided, and a first electrode is formed on the substrate. A first silicon-rich dielectric layer is formed on the first electrode for sensing an infrared ray, wherein the first silicon-rich dielectric layer comprises a silicon-rich oxide layer, a silicon-rich nitride layer, or a silicon-rich oxynitride layer. A second silicon-rich dielectric layer is formed on the first silicon-rich dielectric layer for sensing visible light beams, wherein the second silicon-rich dielectric layer comprises a silicon-rich oxide layer, a silicon-rich nitride layer, or a silicon-rich oxynitride layer. A second electrode is formed on the second silicon-rich dielectric layer. | 03-05-2015 |