AU OPTRONICS CORP. Patent applications |
Patent application number | Title | Published |
20150288364 | SHIFT REGISTER CIRCUIT - A shift register circuit includes a pull-down circuit, pull-down control circuit, a driving unit, a primary pull-down circuit and a gate driver circuit. The pull-down control circuit is electrically connected to the pull-down circuit and configured to provide an nth-stage pull-down control signal to the pull-down circuit. The a driving unit is electrically connected to the pull-down control circuit and configured to drive the pull-down control circuit. The primary pull-down circuit is electrically connected to the pull-down circuit. The gate driver circuit is electrically connected to the pull-down circuit and configured to output an nth-stage gate driving signal according to an nth-stage control signal. The driving unit is configured to receive a plurality of high-frequency clock signals and accordingly to pre-enable the pull-down control circuit, and n is a positive integer. | 10-08-2015 |
20150237331 | 3D IMAGE ADJUSTMENT METHOD AND 3D DISPLAY APPARATUS USING THE SAME - A three-dimensional image adjustment method includes: displaying a three-dimensional image, which is composed by a first to Nth two-dimensional images with respective different viewing angles and formed by projecting the N two-dimensional images through a first to Nth viewing angles of a three-dimensional display apparatus, respectively, and the D1th to D2th of the N viewing angles are defined to a normal-viewing zone; and shifting the N two-dimensional images in first or second direction according to positions of first and second viewers, the D1th and D2th viewing angles, and projecting the N two-dimensional images through the first to Nth viewing angles, respectively, when the first and second viewers are located at the L1th and L2th of the N viewing angles, respectively, wherein at least one of the L1th and L2th viewing angle is located out of the normal-viewing zone. A three-dimensional display apparatus is also provided. | 08-20-2015 |
20150235587 | METHOD FOR DRIVING DISPLAY - A driving method for rendering subpixels of each pixel of a display is provided. The display has a plurality of first pixels and a plurality of second pixels. Each second pixel has a first color subpixel and a second color subpixel, but lacks a third color subpixel. Each first pixel has a second color subpixel and a third color subpixel, but lacks a first color subpixel. The first color subpixel, second color subpixel and third color subpixel are used to represent gray levels of a first color, a second color and a third color respectively. Processes of rendering the subpixels of each pixel are performed based on positions, saturations and brightness of neighboring pixels, such that quality of image displayed on the display could be ensured even though each first pixel lacks the first color subpixel and each second pixel lacks the third color subpixel. | 08-20-2015 |
20150234520 | TOUCH PANEL, TOUCH DISPLAY PANEL AND TOUCH SIGNAL SENSING METHOD - A touch panel includes a substrate, a sensing array, a plurality of first connection lines and at least two button sensing pads. The substrate has an active region and a peripheral region disposed on at least one side of the active region. The sensing array is disposed in the active region, which includes a plurality of first sensing electrode series disposed in the active region along a first direction and a plurality of second sensing electrode series disposed in the active region along a second direction. The first and second sensing electrode series intersect and form a plurality of sensing units. The first connection lines are disposed in the peripheral region and electrically connected to the first sensing electrode series respectively. The at least two button sensing pads are disposed in the peripheral region, and electrically connected to at least two first connection lines respectively to form a virtual button. | 08-20-2015 |
20150234491 | Data Transmission System, Data Transmission Method, Data Receiving Method, and Electronic Device - A data transmission system, a data transmission method, a data receiving method, and an electric device are disclosed. The data transmission method is adapted to transmit data of a first device to a second device. The first device includes a first capacitance touch panel, and the second device includes a second capacitance touch panel. The data transmission method includes the following steps. After the data is selected in the first device, the first capacitance touch panel is aligned with the second capacitance touch panel. The first device supplies the data to the first capacitance touch panel to form the capacitive coupling between the first capacitance touch panel and the second capacitance touch panel. The second device obtains the data through the capacitive coupling between the first capacitance touch panel and the second capacitance touch panel. | 08-20-2015 |
20150192831 | DISPLAY PANEL AND DISPLAY DEVICE - A display panel for a display device having a backlight module includes a first substrate, a plurality of data lines, a plurality of pixel electrodes, a dielectric layer, and a common electrode. The data lines are disposed substantially in parallel on the first substrate. The pixel electrodes are respectively disposed between the data lines. The dielectric layer covers the pixel electrodes and the data lines. The common electrode is disposed on the dielectric layer, and the common electrode has two first electrode branches, two second electrode branches, and two third electrode branches. The electrode branches are respectively and correspondingly disposed on the both sides of the pixel electrodes. The first electrode branches, the second electrode branches, and the third electrode branches respectively have a first interval, a second interval, and a third interval therebetween. The first interval is larger than the second interval and the third interval. | 07-09-2015 |
20150103572 | INVERTING APPARATUS AND CONTROL METHOD THEREOF - An inverting apparatus and a control method thereof are disclosed herein. The inverting apparatus includes an inverter. The inverter is configured to convert electrical energy to an output current so as to generate an output terminal voltage. When the output current increases, the output terminal voltage increases correspondingly. The inverter includes a control unit. When the output terminal voltage increases and falls within an alert range, the control unit is configured to control the inverter to decrease the output current or maintain the current output current so as to prevent the output terminal voltage from increasing and exceeding a voltage threshold value that causes the inverter to fall into a trip protection mechanism. | 04-16-2015 |
20150085220 | DISPLAY DEVICE - A display device includes a flexible display panel, a light module and an optical film. The flexible display panel has a first axis and curving about the first axis as an axis of curvature. The light module is located on one side of the flexible display panel. The optical film is located between the flexible display panel and the light module. The optical film includes a substrate and multiple first strip microstructures. The substrate has a first side and a second side that are opposite to each other. The first side faces the light module while the second side faces the flexible display panel. The first strip microstructures are located on the first side of the substrate, and the first strip microstructures extend along a second axis. | 03-26-2015 |
20150084054 | PIXEL STRUCTURE OF INORGANIC LIGHT EMITTING DIODE - This disclosure provides a pixel structure of inorganic light emitting diode. A first power line is disposed between two adjacent first sub-pixel and second sub-pixel, and the first sub-pixel and second sub-pixel are electrically connected to the same first power line. Also, a first reference line is disposed on an opposite side of the first sub-pixel away from the second sub-pixel, and a second reference line is disposed on an opposite side of the second sub-pixel away from the first sub-pixel. The first sub-pixel and the second sub-pixel have substantially the same length. | 03-26-2015 |
20150049853 | Shift Register Circuit - A shift register circuit includes first-type and second-type shift registers, each comprising a pull-down control circuit, a pull-down circuit, a key pull-down circuit, a 3D-mode pull-up circuit, and a 2D-mode pull-up circuit. The pull-down circuit is connected to the pull-down control circuit. The key pull-down circuit, connected to the pull-down circuit, pulls down a driving signal and a gate control signal. When the 2D-mode pull-up circuit operates, a first-type shift register generates a driving signal for a second-type shift register. When the 3D-mode pull-up circuit operates, a first-type shift register generates another driving signal for another first-type shift register. | 02-19-2015 |
20150036085 | DISPLAY DEVICE SWITCHABLE BETWEEN MIRROR MODE AND DISPLAY MODE - Disclosed herein is a display device switchable between a mirror mode and a display mode. The display device includes a display panel, a polarizing element and a reflective polarizer. The display panel has a light-emitting surface for emitting a polarized light. The polarizing element has an absorption axis, and is disposed on a side adjacent to the light-emitting surface. The polarizing element is switchable between a polarizing mode and a non-polarizing mode. When the polarizing element is operated in the polarizing mode, the polarizing element absorbs a polarized light in the polarization direction parallel with the absorption axis. When the polarizing element is operated in the non-polarizing mode, the polarizing element allows the polarized light emitted from the display panel to pass there through. The reflective polarizer is disposed between the display panel and the polarizing element. | 02-05-2015 |
20150028364 | PIXEL STRUCTURE, DISPLAY PANEL AND FABRICATION METHOD THEREOF - A pixel structure includes an active switching device, a patterned common electrode layer, an insulation layer, a patterned oxide electrode layer and a patterned passivation layer. The insulation layer covers the patterned common electrode layer. The patterned oxide electrode layer is disposed on the insulation layer and electrically connected to the active switching device. The patterned oxide electrode layer includes a semiconductor part and a conductive part. The semiconductor part and the patterned common electrode layer substantially overlap to each other in a vertical projection direction. The conductive part and the semiconductor part are connected to each other, the conductive part and the patterned common electrode layer do not overlap to each other in the vertical projective direction, and the conductive part is a pixel electrode. The patterned passivation layer covers the semiconductor part, and the patterned passivation layer has an opening exposing the conductive part. | 01-29-2015 |
20150022428 | SHIFT REGISTER CIRCUIT - A shift register circuit for driving an OLED display panel is provided. The shift register circuit includes a plurality of circuit stages connected in series. Each circuit stage includes two shift registers and an enable-signal generator circuit. Each shift register includes two transistors, an input unit and a disable unit. The enable-signal generator circuit is configured to generate an enable signal according to the signals at the control terminals of the four transistors in the two shift registers. | 01-22-2015 |
20150009634 | ELECTRONIC DEVICE HAVING SELF-EMITTING DISPLAY PANEL - An electronic device includes a self-emitting display panel, a first transparent substrate, a second transparent substrate and two combining elements. The first transparent substrate includes two first edge portions and a first cover portion. The second transparent substrate includes two second edge portions and a second cover portion. The self-emitting display panel is disposed between the first cover portion and the second cover portion. The self-emitting display panel has a first surface facing to and covered entirely by the first cover portion and a second surface facing to and covered entirely by the second cover portion. One of the two combining elements is connected between one of the two first edge portions and one of the two second edge portions, and the other of the two combining elements is connected between the other of the two first edge portions and the other of the two second edge portions. | 01-08-2015 |
20150009435 | LIQUID CRYSTAL LENS DEVICE AND METHOD FOR DRIVING LIQUID CRYSTAL LENS DEVICE - A liquid crystal (LC) lens device and a method for driving the LC lens device are provided. The LC lens device includes an LC lens array and a driving device, and the LC lens array includes LC lenses in parallel. Each LC lens includes a first substrate, first electrodes disposed on the first substrate, a second substrate, second electrodes on the second substrate, and an LC layer disposed between the first electrodes and the second electrodes to form a Fresnel lens. The driving device is electrically connected to the second electrodes of each LC lens, and provides driving voltages respectively to each of the second electrodes in an order starting from the second electrodes disposed at the edges of the Fresnel lens and ending at the second electrode disposed at the middle of a main lobe region of the Fresnel lens, and there is a preset time difference between driven starting times of every adjacent two second electrodes. | 01-08-2015 |
20150009434 | LIQUID CRYSTAL LENS AND 3D DISPLAY USING THE SAME - A liquid crystal (LC) lens includes a first substrate, a second substrate, and a plurality of liquid crystal units disposed between the first substrate and the second substrate. Each liquid crystal unit includes a first sub-unit having a first electrode and a second electrode disposed on the first substrate with a first interval therebetween and a third electrode and a fourth electrode disposed on the second substrate with a second interval therebetween. A first voltage difference is applied between the first electrode and the third electrode, and a second voltage difference is applied between the second electrode and the fourth electrode. The polarity of the first voltage difference is contrary to that of the second voltage difference, and the first interval is not equal to the second interval. A 3D display including the LC lens and a display panel is also provided. | 01-08-2015 |
20140369457 | SHIFT REGISTER CIRCUIT - A shift register circuit includes a first pull-down control circuit, a first pull-down circuit electrically connecting to the first pull-down control circuit, a first inversed pulse signal coupling circuit outputting a first inversed pulse signal, a first pull-up circuit outputting a first gate control signal, and a first main pull-down circuit electrically connecting to the first pull-up circuit. The first pull-up circuit receives a first driving signal and a first pulse signal to output the first gate control signal. The first inversed pulse signal coupling circuit duly outputs the first inversed pulse signal to compensate a surge occurring in the first driving signal. | 12-18-2014 |
20140362069 | DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A display apparatus includes a first pixel, a second pixel and a driving circuit. The first pixel receives a first control signal and a first scan signal and a respective data signal in a first period according to the first scan signal. The second pixel receives the first control signal and a second scan signal in a second period and a respective data signal according to the second scan signal. The first and second periods are different to each other. The first and second pixels both include a light-emitting diode. The driving circuit is electrically coupled to the first and second pixels and provide the first and second scan signals and the first control signal, wherein the first control signal is used for determining whether to allow a current to flow through the respective light-emitting diodes or not. A driving method for a display apparatus is also provided. | 12-11-2014 |
20140362064 | Active Array Substrate, Driving Method Thereof, and Liquid Crystal Display Panel Using the Same - The invention discloses an active array substrate, a driving method thereof, and an LCD using the same. The active array substrate includes a substrate, a plurality of first scan lines and second scan lines alternately disposed on the substrate, a plurality of first data lines and second data lines alternately disposed on the substrate, a plurality of first, second, and third sub-pixel electrodes, and a plurality of switches. The plurality of first scan lines and second scan lines intersect the plurality of first data lines and second data lines. Each of the second sub-pixel electrodes and one of the first sub-pixel electrodes are located at opposite sides of one of the second data lines. Each of the third sub-pixel electrodes and one of the first sub-pixel electrodes are located at opposite sides of one of the first data lines. | 12-11-2014 |
20140360111 | Frame for Supporting Solar Module - A frame for supporting a solar module is disclosed. The frame includes a bar base and a first support. The bar base has at least two positioning holes. The first support is utilized for being engaged with the bar base. The first support includes two first sidewalls, two first extension portions, and a first top plate. Each of the first sidewalls has a first opening. Each of the first extension portions extends from an edge of the corresponding first opening toward an interior of the first support. An angle is included between each of the first extension portions and the corresponding first sidewall. The first top plate is disposed on top of the first sidewalls. Each of the first extension portions is trapped in the corresponding positioning hole when the first support is engaged with the bar base. | 12-11-2014 |
20140355732 | Shift Register Circuit - A shift register is disclosed. The shift register circuit includes a pull up control circuit configured to provide a pull up control signal; a first pull up circuit configured to provide a sensor driving signal in response to the pull up control signal and a second clock signal; a second pull up circuit configured to provide a gate driving signal in response to a first clock signal, the pull up control signal and the second clock signal; a first pull down control circuit configured to output a first pull down control signal; a first pull down circuit configured to pull down the pull up control signal, the sensor driving signal and the gate driving signal in response to the first pull down control signal; and a main pull down circuit configured to pull down the pull up control signal and the gate driving signal. | 12-04-2014 |
20140355731 | SHIFT REGISTER CIRCUIT AND DRIVING METHOD THEREOF | 12-04-2014 |
20140347586 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a first substrate, a second substrate, and a plurality of spacers. The first substrate includes a plurality of pixel units, which include at least two gate lines, and two neighboring thin film transistors connected to two gate lines, respectively. The second substrate is opposed to the first substrate. At least one of the spacers overlaps with at least a part of the first thin film transistor and at least a part of the second thin film transistor in a top view. | 11-27-2014 |
20140347259 | DRIVING METHOD FOR DISPLAY PANEL - A driving method for a display panel is provided. The display panel includes at least a first common signal line, at least a second common signal line and a plurality of pixels arranged as a pixel array. The pixel array includes a first pixel row and a second pixel row electrically connected to the first common signal line and the second common signal line, respectively. The driving method includes steps of: generating a first AC common signal; generating a second AC common signal, wherein the first AC common signal and the second AC common signal are inverse to each other; and providing the first and second AC common signal to the first and second pixel rows through the first and second common signal lines, respectively, by way of N-frame switch, wherein N is a positive integer. | 11-27-2014 |
20140346537 | LIGHT EMITTING DIODE DISPLAY PANEL - A light emitting diode (LED) display panel includes a plurality of pixel units, a plurality of first bar-shaped electrode layers arranged along a first direction and a plurality second bar-shaped electrode layers arranged along a second direction. The first bar-shaped electrode layers are coupled to a first power supply and the pixel units, and the second bar-shaped electrode layers are also coupled to the first power supply. Only a non-complete portion of overlap positions between the first and second bar-shaped electrode layers have first conductive paths configured to couple the first bar-shaped electrode layers to the corresponding second bar-shaped electrode layers. | 11-27-2014 |
20140346472 | METHOD FOR MANUFACTURING AN ORGANIC LIGHT EMITTING DISPLAY PANEL AND RELATED ORGANIC LIGHT EMITTING DISPLAY PANEL - A method for manufacturing an organic light emitting display panel is disclosed. The organic light emitting display panel includes a substrate. The method includes forming a plurality of bank arrays, each of which has a plurality of banks, utilizing a plurality of ink-jet heads, each of which has a plurality of nozzles arranged alternately, to move relative to the substrate along a moving direction perpendicular to a border of the substrate, and utilizing at least one of the plurality of nozzles to drop organic light emitting ink for forming at least one organic light emitting pixel in at least one bank. An oblique angle is formed between an arrangement direction of the plurality of banks and the border of the substrate. Each ink-jet head forms the oblique angle cooperatively with the border of the substrate. | 11-27-2014 |
20140340619 | DISPLAY DEVICE - A display device including a display panel, a first polarizer, a second polarizer, a first phase compensation film, and a second phase compensation film is provided. The first polarizer and the second polarizer are disposed on two sides of the display panel. The first polarizer has a first light-absorption axis, and the second polarizer has a second light-absorption axis. The first phase compensation film and the second phase compensation film are disposed between the first polarizer and the second polarizer. The second phase compensation film obeys a first formula: | 11-20-2014 |
20140340364 | TOUCH DISPLAY PANEL - A touch display panel includes a substrate, touch sensing elements, a light-shielding layer, a first patterned light-shielding layer, and a display module. The substrate has a display zone and a non-display zone. The non-display zone includes at least one first patterned transparent region. The touch sensing elements is disposed in the display zone. The light-shielding layer covers the first patterned transparent region and has a first transmittance rate. The first patterned light-shielding layer partially covers the light-shielding layer and is not disposed in the first patterned transparent region. The first patterned light-shielding layer has a second transmittance rate. The second transmittance rate is substantially less than the first transmittance rate. | 11-20-2014 |
20140340350 | SENSING CIRCUIT FOR TOUCH PANEL AND APPLIED TOUCH MODULE, ELECTRONIC APPARATUS AND CONTROL METHOD THEREOF - A control method for a touch panel is provided. The control method includes: generating the first sensing signal; simultaneously delivering the first sensing signal to the first sensing electrodes in every idle scan period and receiving a plurality of second sensing signals from the second sensing electrodes; and determining whether the touch panel is being touched or not according to the received second sensing signal and switching the touch panel from the idle mode to the normal mode if the touch panel is being touched. Sensing circuit and touch panel are also provided. | 11-20-2014 |
20140340349 | TOUCH DISPLAY AND DRIVING METHOD THEREOF - A touch display includes a plurality of pixels, a plurality of scan lines, a plurality of data lines, a plurality of first conducting layers, and a plurality of third conducting layers. The plurality of scan lines are coupled to the plurality of pixels. The plurality of data lines are coupled to the plurality of pixels and the plurality of first conducting layers to provide a touch driving signal. Each first conducting layer of the plurality of first conducting layers is configured to receive the touch driving signal. The plurality of third conducting layers is configured to output a touch sensing signal according to the touch driving signals outputted by the plurality of first conducting layers. | 11-20-2014 |
20140339998 | LIGHT EMITTING DIODE MODULE - A light emitting diode module includes a light emitting unit and a light emitting diode circuit. The light emitting diode circuit includes four transistors and a storage capacitor. A first transistor includes a first end for receiving a data signal, and a control end. The storage capacitor has a first end coupled to a second end of the first transistor. A second transistor has a first end coupled to a first voltage source, and a control end. A third transistor has a first end coupled to a second end of the second transistor, and a control end coupled to a second end of the storage capacitor. A fourth transistor has a first end coupled to the second end of the storage capacitor, a control end, and a second end coupled to the second end of the second transistor. | 11-20-2014 |
20140334182 | BACK LIGHT MODULE AND DISPLAY DEVICE USING THE SAME - A back light module includes a bezel, a light source assembly and a first circuit board. The bezel has a carrier surface, a first back surface opposite to the first back surface, and a through hole passing through the bezel from the carrier surface to the first back surface. The light source assembly is disposed on the carrier surface, and the first circuit board is disposed on the first back surface. The light source assembly includes a second circuit board and a plurality of light emitting elements. The second circuit board is electrically connected to the first circuit board by its conductive pin set via the through hole. Since the light source assembly is electrically connected to the first circuit board by the conductive pin set, the assembly process is simplified and the cost is decreased. A display device using the back light module is also provided. | 11-13-2014 |
20140333688 | DISPLAY PANEL AND DRIVING METHOD THEREOF - A display panel includes a plurality of pixels, each of the pixels including a main sub-pixel and a secondary sub-pixel; a plurality of first scan lines, each of the first scan lines being coupled to main and secondary sub-pixels of a row of pixels; a plurality of second scan lines, each of the second scan lines being coupled to secondary sub-pixels of a row of pixels; a plurality of first data lines, each of the first data lines being coupled to main and secondary sub-pixels of (N+1)th and (N+2)th rows of pixels; a plurality of second data lines, each of the second data lines being coupled to main and secondary sub-pixels of (N+3)th and (N+4)th rows of pixels; a scan driver for turning on the main and secondary sub-pixels of the pixels; and a data driver for outputting data signals; wherein N is a multiple of 4, and N≧0. | 11-13-2014 |
20140332775 | PIXEL CIRCUIT AND DISPLAY APPARATUS USING THE SAME - A pixel circuit includes one organic light emitting diode, five first transistors and two capacitors. The first and third transistors have terminals coupled to a first voltage. The second transistor has two terminals coupled to another terminal of the first transistor and a second voltage through the organic light emitting diode, respectively. The first capacitor has a terminal coupled to one terminal of the second transistor. The third transistor has a terminal coupled to one terminal of the first capacitor. The second capacitor has two terminals coupled to a control terminal of the second transistor and another terminal of the first capacitor, respectively. The fourth transistor has two terminals coupled to the terminal of the second transistor and a control terminal of the second transistor, respectively. The fifth transistor has a terminal coupled to the another terminal of the second transistor. A display apparatus is also provided. | 11-13-2014 |
20140319546 | ELECTROLUMINESCENT DISPLAY PANEL AND METHOD OF FABRICATING THE SAME - An electroluminescent display panel and method of fabricating the same are provided. The electroluminescent display panel includes a first multiple-layered structural layer, a second multiple-layered structural layer, a passivation layer and a third patterned conductive layer. The first multiple-layered structural layer includes a first patterned conductive layer, a first patterned insulation layer and an oxide semiconductor layer, and the first patterned conductive layer, the first patterned insulation layer and the oxide semiconductor layer have substantially the same shape. The second multiple-layered structural layer includes a second patterned conductive layer. The passivation layer has a plurality of through holes. A portion of the through holes expose the top surface and the lateral surface of the oxide semiconductor layer and the lateral surface of the first patterned conductive layer. The third patterned conductive layer is in contact with the oxide semiconductor layer and the first patterned conductive layer via the through holes. | 10-30-2014 |
20140313244 | METHOD OF DISPLAYING IMAGE OF DISPLAY PANEL - A display panel includes a plurality of pixels. Each of the pixels includes four sub-pixels. After the display panel receives luminance values of four sub-pixels of a pixel, the display panel compares a sub-pixel of the pixel with same color sub-pixels of neighboring pixels. If a luminance value of the same color sub-pixel of neighboring pixel is greater than the luminance value of the sub-pixel by a predetermined threshold, the luminance value of the sub-pixel of the pixel is reduced. | 10-23-2014 |
20140313173 | DISPLAY METHOD AND STEREOSCOPIC DISPLAY SYSTEM THEREOF - A display method and a stereoscopic display system thereof are provided. The stereoscopic display system comprises an image display unit and an image switching unit. The image switching unit is configured on a display surface of the image display unit. The display method comprises the following steps of: driving the image display unit to display a dragging window; driving the image switching unit when the dragging window is executed on a 3D display mode, so that the dragging window can display a 3D image; determining whether the dragging window is moved; executing a 2D display mode and turning off the image switching unit when the dragging window is moved, so that the dragging window can display a 2D image. | 10-23-2014 |
20140307430 | TRANSPARENT DISPLAY DEVICE AND TRANSPARENT DISPLAY PANEL - A transparent display device includes at least a first transparent display panel and a second transparent display panel, each of which has transparent regions and display regions. The arrangements of the transparent regions and display regions of the first transparent display panel and the second transparent display panel are opposite to each other. The transparent display device can apply a high transparency display mode or a lower transparency display mode by arranging the relative position of the first and second transparent display panels. In the lower transparency display mode, the first and second transparent display panels are at least partial overlapped with each other so as to display clear image with high definition. | 10-16-2014 |
20140293178 | TRI-STATE LIQUID CRYSTAL DISPLAY PANEL - A tri-state liquid crystal display panel includes a first substrate, a second substrate, a liquid crystal layer, a first electrode, a second electrode, a third electrode and a fourth electrode. The first substrate and the second substrate are disposed oppositely. The liquid crystal layer disposed between the first substrate and the second substrate includes a plurality of polymer network liquid crystals. The first electrode is disposed between the first substrate and the liquid crystal layer, the second electrode is disposed between the second substrate and the liquid crystal layer, and the first and second electrodes include planar electrodes. The third and fourth electrodes are disposed between the first substrate and the liquid crystal layer, and the third and fourth electrodes include patterned electrodes. The tri-state liquid crystal display panel has a transmission state display mode, a dark state display mode and a haze state display mode. | 10-02-2014 |
20140267212 | DISPLAY PANEL AND METHOD OF DISPLAYING IMAGES - A plurality of pixels of a display panel are driven with a first polarity inversion to display a first image, driven with the first polarity inversion to display a second image after the first image is displayed, driven with a second polarity inversion to display a third image, and driven with the second polarity inversion to display a fourth image after the third image is displayed. The polarity of a first pixel of the first image is opposite to the polarity of a first pixel of the second image. The polarity of a first pixel of the third image is opposite to the polarity of a first pixel of the fourth image. The first polarity inversion is different from the second polarity inversion. | 09-18-2014 |
20140264357 | DISPLAY PANEL - A display device includes a plurality of pixel units. Each of the pixel units at least includes three sub-pixels for displaying different colors. The three sub-pixels are electrically connected to three different gate lines, and at least two of the three sub-pixels are electrically connected to the same data line. | 09-18-2014 |
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 |
20140240307 | LEVEL SHIFT CIRCUIT AND DRIVING METHOD THEREOF - A level shift circuit includes an input end, a decoding circuit, a control circuit, and a plurality of output circuits. The input end is configured to receive a coded signal string including a starting code, a setting code, a clock standard signal and an ending code. The decoding circuit is coupled to the input end for decoding the coded signal string and outputting the starting code, the setting code, the clock standard signal and the ending code respectively. The control circuit is coupled to the decoding circuit for controlling logic levels of a plurality of logic driving signals according to the setting code and the clock standard signal after receiving the starting code, and stopping changing the logic driving signals after receiving the ending code. The plurality of output circuits are coupled to the control circuit for outputting a plurality of clock signals according to the corresponding logic driving circuit. | 08-28-2014 |
20140239159 | OPTICAL SENSING DEVICE - An optical sensing device includes a plurality of scanning lines having a plurality of first scanning lines and a plurality of second scanning lines, a plurality of sensing lines, a plurality of reading lines, and a plurality of optical sensing modules electrically connected to the scanning lines. Each optical sensing module includes a first optical sensing unit and a second optical sensing unit, each of which includes a sensing unit, a charge storage unit, and a reading unit. The optical sensing module further includes a plurality of differential amplifiers electrically connected to the corresponding reading lines, for determining the difference between the reading lines, wherein the difference indicates the ambient light variation. A first transistor of the sensing unit of the first optical sensing unit is different to a first transistor of the sensing unit of the second sensing unit in channel width. | 08-28-2014 |
20140238475 | SOLAR CELL AND FABRICATION METHOD THEREOF - A solar cell includes a base having a first surface and a second surface opposite to the first surface, a lightly-doped region disposed on the first surface of the base, a semiconductor layer disposed on the lightly-doped region, a first electrode disposed on the first surface of the base, and a second electrode disposed on the second surface of the base. The lightly-doped region has a doping type opposite to the doping type of the base. The bottom of the first electrode is substantially aligned with the interface between the first surface of the base and the lightly-doped region. | 08-28-2014 |
20140233257 | LIGHT EMITTING MODULE APPLIED TO DISPLAY DEVICE - A light emitting module includes a first circuit board, a driver chip, two connectors, a second circuit board and a plurality of light emitting units. The driver chip is disposed on the first circuit board. The two connectors are disposed on the first circuit board and electrically connected to the driver chip. The second circuit board has two groups of connecting cables and each group of connecting cables is electrically connected to one of the two connectors. The light emitting units are disposed on the second circuit board and electrically connected to the two groups of connecting cables. | 08-21-2014 |
20140218413 | PIXEL AND DRIVING METHOD THEREOF - A pixel includes a first electrode, a second electrode and a third electrode. The first electrode and the second electrode are formed on a lower substrate. The third electrode is formed on an upper substrate and above a position between the first and second electrodes. Liquid crystals are formed between the upper and lower substrates. A method for driving the pixel includes providing a first data voltage to the first electrode, providing a second data voltage to the second electrode, and providing a common voltage to the third electrode. The common voltage is substantially the mean value of the first and second data voltages. | 08-07-2014 |
20140210699 | LCD DEVICE BASED ON DUAL SOURCE DRIVERS WITH DATA WRITING SYNCHRONOUS CONTROL MECHANISM AND RELATED DRIVING METHOD - An LCD device having dual source drivers and related driving method are disclosed for performing data signal driving operation by making use of a data writing synchronous control mechanism. The operation of the data writing synchronous control mechanism includes furnishing all image data signals to both the first and second source drivers, latching odd and even image data signals by the first and second source drivers respectively, performing a signal processing process on the odd image data signals for generating a first set of analog data signals by the first source driver, performing a signal processing process on the even image data signals for generating a second set of analog data signals by the second source driver, writing the first set of analog data signals into a plurality of first pixel units, and writing the second set of analog data signals into a plurality of second pixel units. | 07-31-2014 |
20140209932 | PIXEL UNIT AND PIXEL ARRAY - A pixel array and a pixel unit thereof adapted in a display panel are provided. The pixel array includes a plurality of pixel units, and each pixel unit includes a first gate line, a second gate line, a data line, a first sub-pixel, a second sub-pixel and a third sub-pixel. The first sub-pixel is electrically connected to the second gate line and electrically connected to the data line through the third sub-pixel. The second sub-pixel is electrically connected to the second gate line and the data line. The third sub-pixel is electrically connected to the first gate line and the data line. | 07-31-2014 |
20140204078 | MULTI-VIEW THREE DIMENSIONAL DISPLAY SYSTEM AND CONTROL METHOD THEREOF - Multi-view three dimensional display system has N views. A control method for the multi-view three dimensional display system includes determining a number M of image frames, which will be displayed in the N views, according to at least one user's viewing position, and displaying the M image frames in the N views of the multi-view three dimensional display system. | 07-24-2014 |
20140204069 | ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND DRIVING METHOD THEREOF - An organic light emitting diode (OLED) display device includes a plurality of OLED pixels, a gate driver, a source driver, and a voltage controller. Each of the OLED pixels includes a current control switch and an OLED. A first end of the current control switch is coupled to a first voltage source. A first end of the OLED is coupled to a second end of the current control switch, and a second end of the OLED is coupled to a second voltage source. The gate driver is configured to output scan signals to sequentially turn on the plurality of OLED pixels. The source driver is configured to output display voltages to the plurality of OLED pixels. The voltage controller is configured to adjust a voltage difference between the first voltage source and the second voltage source according to a maximum grey level value of display data of a frame. | 07-24-2014 |
20140203302 | PIXEL STRUCTURE OF DISPLAY PANEL - A pixel structure of a display panel includes a gate line, a first data line, a second data line, a first active switching device, a second active switching device, a first pixel electrode and a second pixel electrode. The first pixel electrode is electrically connected to the first active switching device. The first pixel electrode includes a first main electrode disposed adjacent to one side of the first data line, and a second main electrode disposed adjacent to one side of the second data line. The second pixel electrode is electrically connected to the second active switching device. The second pixel electrode is disposed between the first main electrode and the second main electrode of the first pixel electrode. | 07-24-2014 |
20140198479 | PIXEL STRUCTURE OF ELECTROLUMINESCENT DISPLAY PANEL - A pixel structure of an electroluminescent display panel includes display pixel units. Each display pixel unit is composed of one first sub-pixel, one second sub-pixel, and one third sub-pixel. Each first sub-pixel is disposed adjacent to another first sub-pixel along a column direction to form a first pixel unit with a first frame. Each second sub-pixel is disposed adjacent to another second sub-pixel along the column direction to form a second pixel unit with a second frame. Each third sub-pixel is disposed adjacent to another third sub-pixel along the column direction to form a third pixel unit with a third frame. Each first, second, and third pixel units respectively have an identical first length along the column direction. Each first pixel unit and one adjacent first pixel unit disposed in a different row are shifted relatively along the row direction by the first length. | 07-17-2014 |
20140184991 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes an upper substrate, a lower substrate, a liquid crystal layer disposed between the upper and lower substrates and including liquid crystal molecules with optical isotropicity, a first polarizer disposed on a surface of the upper substrate, having a first polarization direction, a second polarizer disposed on a surface of the lower substrate, having a second polarization direction, and at least one pixel region defined on the lower substrate. The pixel region includes at least one pixel electrode disposed on the lower substrate, the pixel electrode extending along a first direction in the pixel region and a majority portion of an edge of the pixel electrode substantially being parallel to at least one of the first polarization direction and the second polarization direction. | 07-03-2014 |
20140184532 | DISPLAY SYSTEM AND CONTROL METHOD THEREOF - A display system includes a stylus pen and a touch screen module. The touch screen module includes a touch screen. A control method of the display system includes activating a command input mode of the display system by the stylus pen. An input command from the stylus pen to the touch screen is received by the touch screen after the command input mode is activated. Performer a corresponding operation corresponding to the input command on the touch screen according to which command among a plurality of predetermined commands of the display system to which the input command corresponds. | 07-03-2014 |
20140176483 | DRIVING METHOD OF TOUCH PANEL - A driving method of a touch panel includes providing a touch panel including a plurality of first sensing electrodes arranged along a first direction and a plurality of second sensing electrodes arranged along a second direction different from the first direction; simultaneously outputting driving signals through the plurality of first sensing electrodes for generating a first set of sensing signals on the plurality of second sensing electrodes; simultaneously outputting driving signals through the plurality of second sensing electrodes for generating a second set of sensing signals on the plurality of first sensing electrodes; determining whether the touch panel is touched according to the first set of sensing signals and the second set of sensing signals; and when determining the touch panel is touched, sequentially outputting driving signals through the plurality of first sensing electrodes for generating a third set of sensing signals on the plurality of second sensing electrodes. | 06-26-2014 |
20140168138 | TOUCH PANEL AND TOUCH DISPLAY PANEL - A touch panel includes first sensing pads, first bridge lines, second sensing pads, adjusting electrodes, second bridge lines and third bridge lines. The first sensing pad has a first opening. The first sensing pads and the first bridge lines are arranged alternately along a first direction and electrically connected to each other. The second sensing pads and the second bridge lines are arranged alternately along a second direction and electrically connected to each other. The adjusting electrodes are disposed in the first openings and the second openings, and the adjusting electrodes are electrically disconnected from the first sensing pads and the second sensing pads. Adjacent adjusting electrodes are electrically connected through the third bridge line. The first sensing pads, the second sensing pads and the adjusting electrodes are made of a same patterned conductive layer. | 06-19-2014 |
20140160690 | DISPLAY WITH IMPROVED BENDABLE COVER HAVING LIGHT TRANSMISSIVE AREA - A display is provided. The display includes a frame, a display module, and a bendable cover. The frame includes a bottom surface and a lateral surface, the display module is disposed on the frame, and the bendable cover has a surface layer and an adhesive layer, the adhesive layer is located on the surface layer, a part of the surface layer is adhered to the display module through the adhesive layer, another part of the surface layer is attached to the lateral surface of the frame and adhered to the bottom surface of the frame through the adhesive layer. | 06-12-2014 |
20140160103 | PIXEL DRIVING CIRCUIT, DRIVING METHOD THEREOF, AND PIXEL MATRIX - A pixel driving circuit is electrically coupled between a first data line and a second data line and between a first scan line and a second scan line, and includes a first switch, a second switch, a third switch, a fourth switch, a liquid crystal capacitor electrically connected between the first switch and the second switch, a first capacitor electrically connected to the first switch, a second capacitor electrically connected to the second switch, a first storage capacitor, a second storage capacitor and at least one switching unit. The first storage capacitor is electrically connected to the third switch and supplied by a reference voltage. The second storage capacitor is electrically connected to the fourth switch and supplied by the reference voltage. The at least one switching unit is used for redistributing charges in the pixel driving circuit. | 06-12-2014 |
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 |
20140159799 | MULTIPLEX DRIVING CIRCUIT - A multiplex driving circuit receives m master signals and n slave signals, and includes m driving modules for generating m×n gate driving signals. Each driving module includes a voltage boost stage and n driving stages. The voltage boost stage is used for receiving a first master signal of the m master signals and converting the first master signal into a first high voltage signal, wherein a high logic level of the first master signal is increased to a highest voltage by the voltage boost stage. The n driving stages receives the n slave signals, respectively, and receives the first high voltage signal. In response to the highest voltage of the first high voltage signal, the n driving stages sequentially generates n gate driving signals according to the n slave signals. | 06-12-2014 |
20140152174 | ELECTROLUMINESCENT DISPLAY PANEL - An electroluminescent (EL) display panel includes a substrate, an EL display array, at least one first thin film encapsulation (TFE) layer and a first patterned stress releasing layer. The EL display array is disposed on the substrate. The first TFE layer covers the EL display array. The first patterned stress releasing layer covers the first TFE layer. | 06-05-2014 |
20140146032 | DRIVING CIRCUIT - A driving circuit electrically coupled between a first data line and a second data line and between a first scan line and a second scan line. The driving circuit includes a first switch, a second switch, a third switch, a fourth switch, a first sub-capacitor, a second sub-capacitor, a fifth switch, a sixth switch, a first voltage dividing unit and a second voltage dividing unit. The first voltage dividing unit is coupled between a second end of the fifth switch and a reference voltage end. The second voltage dividing unit is coupled between a second end of the sixth switch and the reference voltage end, for redistributing stored electric charges. | 05-29-2014 |
20140145983 | TOUCH SENSING SYSTEM AND OPERATION METHOD THEREOF - A touch sensing system includes a touch panel, a driving apparatus and a processing circuit. The touch panel includes a plurality of touch sensing units arranged in form of a matrix. The driving apparatus is configured to drive the touch sensing units, receive a sensing signal from each of the touch sensing units, convert each of the received sensing signals to have a digital format and output the digital sensing signals. The processing circuit is configured to define a matrix of sensing value according to values of the received sensing signals and positions of the respective touch sensing units, scan the non-zero elements in the matrix by a predetermined mean, refer all the located non-zero elements to as a part of the contour of the object and calculating a size of a contour of an object. An operation for the touch sensing system is also provided. | 05-29-2014 |
20140140468 | SHIFT REGISTER - A shift register includes a previous signal receiving unit, a next signal receiving unit, a control unit and a voltage stabilizing switch. The shift register controls an outputting signal by continuously stabilized voltage generated from cooperating operation of the units and switch. | 05-22-2014 |
20140140092 | BACK LIGHT MODULE AND DISPLAY DEVICE USING THE SAME - A back light module includes a bezel, a light-guiding plate, an optical film and a fixing element. The bezel includes frame strips defining an accommodating space. Each frame strip has a bottom surface, a carrier surface opposite to the carrier surface, and a lateral surface connected between the bottom and carrier surfaces and facing to the accommodating space. The lateral surface of the frame strips has a first cave extended from the carrier surface through the bottom surface. The light-guiding plate and the optical film are configured in the accommodating space. The optical film has at least a first protrusion within the first cave. The fixing element is configured on the carrier surfaces of the frame strips and a portion of the optical film and corresponds to the boundary between the first protrusion and the first cave. A display device using the back light module is provided. | 05-22-2014 |
20140140055 | DISPLAY DEVICE - A display device includes at least one light-emitting device and a patterned color filter layer. The light-emitting device is used to provide a white light having a white point chromaticity coordinate (Wx, Wy) where 0.2305-22-2014 | |
20140139492 | SENSING DEVICE HAVING PHOTO SENSING ELEMENT ALTERNATELY OPERATED IN DIFFERENT BIASED STATES AND RELATED TOUCH-CONTROLLED DISPLAY DEVICE - The present invention provides a sensing device and a display device utilizing the sensing device. A photo sensing element of the sensing device is alternatively operated in a biased state and a reverse-biased state to prevent the stress issue. Furthermore, the sensing device improves the S/N ratio by generating an output signal through an active component. The display device including the sensing device prevents the stress issue and improves the S/N ratio by using specific driving signals. | 05-22-2014 |
20140139255 | DISPLAY PANEL AND METHOD OF DETECTING DEFECTS THEREOF - A display panel includes a first substrate, a plurality of pixel units, a plurality of first signal lines, a first testing line and a second testing line. The first signal lines are disposed on a peripheral area and electrically connected to corresponding pixel units. The first signal lines include a plurality of first sets of signal lines and a plurality of second sets of signal lines alternatively arranged. The first and second sets of signal lines are formed on different layers. The first testing line is electrically connected to the first sets of signal lines. The second testing line is electrically connected to the second sets of signal lines. | 05-22-2014 |
20140138714 | ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an array substrate includes the following steps. A substrate having pixel region and a peripheral region is provided. A plurality of pixel structures are formed in the pixel region, wherein at least one of the pixel structures is formed by the following steps. A gate electrode, a gate insulating layer, and a source electrode and a drain electrode are formed. A patterned semiconductor layer including a first semiconductor pattern and a second semiconductor pattern is formed. The second semiconductor pattern covers a portion of the drain electrode. A first passivation layer is formed. The first passivation layer has a first opening exposing a portion of the second semiconductor pattern. A transparent conductive pattern is formed on the first passivation layer, and the transparent conductive pattern is electrically connected to the second semiconductor pattern through the first opening. | 05-22-2014 |
20140138649 | ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device comprises a substrate, a first optical structure, a transparent electrode, an organic light emitting structure, a reflecting layer and a second optical structure. The substrate has a first surface and a second surface. The first optical structure is disposed on the first surface and has a first haze. The transparent electrode is disposed on the first optical structure. The organic light emitting structure is disposed on the transparent electrode. The reflecting layer is disposed on the organic light emitting structure. The second optical structure is disposed on the second surface and has a second haze, wherein the first haze is less than the second haze. | 05-22-2014 |
20140133046 | DISPLAY DEVICE - A display device includes a substrate, a light shielding layer, at least one fading pattern and a display module. The display module is disposed on the substrate and has a display area. The light shielding layer is disposed on a periphery of the substrate and has a first side and a second side, wherein the first side is opposite to the second side. The at least one fading pattern is disposed on the substrate, is adjacent to at least one side of the first side and the second side of the light shielding layer, and does not overlap the display area of the display module. Each fading pattern includes N light transmissible areas, the N light transmissible areas are adjacent to each other, and transmittances of the N light transmissible areas are different from each other, wherein N is a positive integer larger than one. | 05-15-2014 |
20140132863 | DISPLAY APPARATUS - A display apparatus includes a display panel, a polarization converting unit, a first micro-lens layer and a second micro-lens layer. The polarization converting unit is disposed on the display panel. The first micro-lens layer is disposed on the polarization converting unit and includes a plurality of first lenticular lenses parallel with and adjacent to each other. A first adjacent edge is formed between each two adjacent first lenticular lenses. The second micro-lens layer is disposed on the first micro-lens layer and includes a plurality of second lenticular lenses parallel with and adjacent to each other. A second adjacent edge is formed between each two adjacent second lenticular lenses. The first and second lenticular lenses are extended in a same direction and have a same width. There is an interval between an axis center line of each second lenticular lens and an axis center line of each first lenticular lens. | 05-15-2014 |
20140132651 | DISPLAY AND METHOD OF GENERATING AN IMAGE WITH UNIFORM BRIGHTNESS - A display includes a plurality of pixels, a plurality of scan lines and a plurality of data lines. Each pixel includes a first color sub-pixel, a second color sub-pixel and a third color sub-pixel. The scan lines and the data lines are coupled to the pixels. Two color sub-pixels in the same row coupled to the same data line are coupled to different scan lines, and all of the second color sub-pixels in the same row are coupled to the same scan line. | 05-15-2014 |
20140132582 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural stages of shift registers. Each stage of shift register includes a pull-up circuit, a first driving circuit and a voltage-stabilizing circuit. The pull-up circuit is used for charging a first node. The first driving circuit is electrically connected with the first node. According to a voltage level of the first node, a corresponding control signal is outputted from an output terminal of the first driving circuit. The voltage-stabilizing circuit is electrically connected with the output terminal of the first driving circuit for stabilizing the control signal from the first driving circuit. Some circuits of some other shift registers are controlled according to the control signal. | 05-15-2014 |
20140127844 | MANUFACTURING METHOD OF ARRAY SUBSTRATE - A manufacturing method of an array substrate includes the following steps. A first conductive layer, a gate insulating layer, a semiconductor layer, an etching stop layer, and a first patterned photoresist are successively formed on a substrate. The etching stop layer and the semiconductor layer uncovered by the first patterned photoresist are then removed by a first etching process. A patterned gate insulating layer and a patterned etching stop layer are then formed through a second etching process. The first conductive layer uncovered by the patterned gate insulating layer is then removed to form a gate electrode. The semiconductor layer uncovered by the patterned etching stop layer is then removed to form a patterned semiconductor layer and partially expose the patterned gate insulating layer. | 05-08-2014 |
20140125632 | OPTICAL TOUCH DISPLAY PANEL - An optical touch display panel includes a plurality of resetting signal lines, a plurality of scanning signal lines, and a plurality of optical sensing touch units. Each optical sensing touch unit includes an optical sensing element and a storage capacitor. The optical sensing elements in a first direction are connected electrically to different scanning signal lines, and are configured to respectively receive a control signal. The optical sensing elements in a second direction includes a plurality of groups, and the optical sensing elements of each group are connected electrically to different resetting signal lines, so that each group receives a reset signal. Each optical sensing element outputs a charging signal corresponding to the reset signal to the storage capacitor according to the control signal, so as to reset a voltage of the storage capacitor. | 05-08-2014 |
20140118052 | SHIFT REGISTER AND GATE DRIVING CIRCUIT THEREOF - An Nth shift register includes a pull up unit, a driving unit, a first pull down unit, a second pull down unit, and a third pull down unit. The pull up unit is used for providing a first pull up signal according to a first clock signal, a second clock signal, and a starting pulse. The driving unit is used for providing a driving signal according to the first pull up signal and providing a gate signal according to the first clock signal and the driving signal. The first pull down unit is used for pulling down the first pull up signal according to the first clock signal. The second pull down unit is used for pulling down the driving signal according to a second pull up signal. The third pull down unit is used for pulling down the gate signal according to the second clock signal. | 05-01-2014 |
20140105351 | SHIFT REGISTER - A shift register includes a plurality of shift register circuits, where an Nth shift register circuit of the shift register includes a driving unit, a boost unit, a pull up unit, and a key pull down unit. The driving unit is for providing a gate signal, a first boost control signal, and a first transmission control signal according a first driving signal and a high frequency clock signal. The boost unit is for boosting the voltage of the first driving signal according to a first boost signal. The pull up unit is for providing a second driving signal according to the first transmission control signal and the gate signal, and is for providing a second boost signal according to the first boost control signal and a second boost control signal. The key pull down unit is for pulling down the first driving signal according to a second transmission control signal. | 04-17-2014 |
20140104547 | PIXEL STRUCTURE OF TRANSPARENT LIQUID CRYSTAL DISPLAY PANEL - A pixel structure of transparent LCD panel includes a pixel, a pixel electrode and liquid crystal molecules. The pixel consists of a first alignment region and a second alignment region having different aligning directions. The pixel electrode includes a main electrode disposed between the first alignment region and the second alignment region, and branch electrodes. The main electrode is a bar-shaped electrode. A portion of the branch electrodes are connected to one side of the main electrode and extending along a first direction to the first alignment region, another portion of the branch electrodes are connected to the other side of the main electrode and extending along a second direction to the second alignment region. The first direction and the second direction are opposite and parallel, the an included angle between the first direction and the gate line is between 45±10 degrees. | 04-17-2014 |
20140104146 | 3D IMAGE DISPLAY APPARATUS AND DRIVING METHOD THEREOF - A 3D image display apparatus includes a display unit, a first polarizer with a polarization axis, a second polarizer and a switching unit. The switching unit includes a first substrate, a second substrate and a liquid crystal layer. The first substrate is disposed with a first conductive layer on an inner surface thereof along a first direction and is electrically coupled to a first voltage source. The second substrate is parallel to the first substrate and disposed with a second conductive layer on an inner surface thereof along a second direction and is electrically coupled to a second voltage source. The first and second directions have an angle therebetween. The liquid crystal layer is disposed between the first and second substrates and includes a plurality of liquid crystals each having a slow axis. | 04-17-2014 |
20140103983 | GATE DRIVING CIRCUIT - A shift register of a gate driving circuit includes a pull-up unit for pulling up a first output signal and a first gate signal to a high voltage level according to a driving voltage and a high-frequency clock signal, a start-up unit for transmitting a second gate signal, an energy-store unit for providing the driving voltage to the pull-up unit according to the second gate signal, a first discharging unit for pulling down the driving voltage to a first voltage level according to a first control signal, a first leakage-preventing unit for turning off the first discharging unit when the first gate signal reaches the high voltage level, a first pull-down unit for respectively pulling down the first output and first gate signals to the first and a second voltage levels according to the first control signal, and a first control unit for generating the first control signal. | 04-17-2014 |
20140102635 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes a first substrate, a second substrate and a sealing material. The first substrate includes an active area and a driving circuit. The driving circuit has a first side facing the active area and a second side opposite to the first side. The second substrate includes a mask layer. A projection of the mask layer on the first substrate at least overlaps the driving circuit from the second side to the first side. The sealing material is between the second substrate and the first substrate, used for sealing the second substrate and the first substrate, and located beside the second side of the driving circuit. | 04-17-2014 |
20140098064 | OPTICAL TOUCH DISPLAY PANEL - An optical touch display panel includes a plurality of light-sensing touch units and a position detecting circuit. Each light-sensing touch unit includes a light-sensing component, a storage capacitor, a signal reading component, and a charging component. The light-sensing component senses a light source to generate a sensing signal. The storage capacitor is connected electrically to the light-sensing component for storing the sensing signal. The signal reading component is connected electrically to the storage capacitor for reading a voltage of the storage capacitor to generate a reading signal. The charging signal is connected electrically to the storage capacitor for charging the storage capacitor to reset an electric charge record of the storage capacitor. The position detecting circuit is connected electrically to the light-sensing touch units for detecting a touch point on the optical touch display panel according to a reading signal output by each of the light-sensing touch units. | 04-10-2014 |
20140098014 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a pixel array, a first shift register, M first output cells, a second shift register, and N second output cells. The first register is disposed on a first side of the pixel array. The M first output cells are coupled to and next to the first shift register for providing M gate signals to M rows of the pixel array according to a first clock signal. The second register is disposed on a second side of the pixel array. The N second output cells are coupled to and next to the second shift register for providing N gate signals to N rows of the pixel array according to a second clock signal. M and N are positive integers. | 04-10-2014 |
20140096821 | SOLAR CELL AND METHOD FOR MAKING THEREOF - A solar cell includes a doped layer disposed on a first surface of a semiconductor substrate, a doped polysilicon layer disposed in a first region of a second surface of the semiconductor substrate, a doped area disposed in a second region of the second surface, and an insulating layer covering the doped polysilicon layer and the doped area. The insulating layer has openings exposing portions of the doped polysilicon layer and the doped layer, and the doped polysilicon layer and doped layer are respectively connected to a first electrode and a second electrode through the openings. The semiconductor substrate and the doped layer have a first doping type. One of the doped polysilicon layer and the doping area has a second doping type, and the other one of the doped polysilicon layer and the doping area has the first doping type which is opposite to the second doping type. | 04-10-2014 |
20140092659 | WIRELESS POWER TRANSMISSION DEVICE - A wireless power transmission device includes a power transmitter, a first transmission unit, a power receiver, a feedback regulator, a receive controller, and a second transmission unit. The power transmitter is for generating power, and the first transmission unit is for wirelessly transmitting power generated by the power transmitter. The power receiver is for receiving and rectifying the power from the first transmission unit. The feedback regulator is for receiving a feedback signal from the power receiver to generate an AC control signal. The receive controller is for receiving the control signal to generate a driving signal. The second transmission unit is for wirelessly transmitting the control signal to the receive controller. | 04-03-2014 |
20140092068 | OPTICAL TOUCH PANEL AND BRIGHTNESS CONTROL METHOD THEREOF - An optical touch panel includes a light source unit and a processing unit, wherein the processing unit is for executing a brightness control method. The brightness control method includes steps below. The light source unit emits at a first intensity in a touch control mode. Responding to a switching condition, the touch panel is switched into a scan mode, and the light source unit emits at a second intensity in the scan mode. | 04-03-2014 |
20140087503 | Method for fabricating a display panel - A method for fabricating a display panel includes the following steps. A surface of a first substrate is adhered to a first supporting substrate with a first adhesive layer. First devices are formed on the other surface of the first substrate. The other surface of the first substrate is adhered to a second supporting substrate with a second adhesive layer. The first adhesive layer and supporting substrate are separated from the first substrate. Second devices are formed on the surface of the first substrate. A second substrate is adhered to a third supporting substrate with a third adhesive layer. The first substrate and the second substrate are assembled, and a display medium layer is interposed between the first substrate and the second substrate. The second adhesive layer and supporting substrate are separated from the first substrate, and the third adhesive layer and supporting substrate are separated from the second substrate. | 03-27-2014 |
20140085703 | PIXEL STRUCTURE - A pixel structure is provided, which includes a first substrate, a second substrate, a plurality of ribs, a plurality of first pixel electrodes, a plurality of second pixel electrodes, a color display medium, a black display medium, a light transmissive medium and a color filter. The ribs are formed between the first and second substrates. The first and second pixel electrodes are formed between the first substrate and the second substrate. The color display medium and the black display medium are formed on the first and second substrates respectively. The light transmissive medium is formed between the first and second substrates. The color filter is formed on the first substrate or on the second substrate. Spectrums, which light is allowed to pass through the color filter and the color display medium in one of sub pixel zones which the ribs divide the pixel structure into, overlap each other partially. | 03-27-2014 |
20140085182 | AUTOSTEREOSCOPIC DISPLAY SYSTEM AND CONTROL METHOD THEREOF - At least one characteristic of an object is captured at a first instant and the at least one characteristic of the object is then captured at a second instant. A moving direction and a moving speed of the object are calculated according to the at least one characteristic of the object captured respectively at the first instant and the second instant. A left view image and a right view image are projected to the object and if the moving speed of the object is greater than a threshold, a center point of the left view image and the right view image deviates from a center line of the object. | 03-27-2014 |
20140080271 | METHOD OF FORMING THIN FILM TRANSISTOR - A method of forming TFT is provided. The TFT includes a gate electrode, a gate insulating layer, a first protective pattern, a second protective pattern, a source electrode, a drain electrode, a semiconductor channel layer, and a passivation layer. The first protective pattern and the second protective pattern are disposed on the gate insulating layer above the gate electrode. The source electrode is disposed on the gate insulating layer and the first protective pattern. The drain electrode is disposed on the gate insulating layer and the second protective pattern. The semiconductor channel layer is disposed on the gate insulating layer, the source electrode, and the drain electrode. In an extending direction from the source electrode to the drain electrode, a length of the first protective pattern is shorter than that of the source electrode, and a length of the second protective pattern is shorter than that of the drain electrode. | 03-20-2014 |
20140077211 | PIXEL STRUCTURE AND THIN FILM TRANSISTOR - A pixel structure including a first thin film transistor (TFT), a second TFT and a storage capacitor is provided. The source electrode of the first TFT is connected to the gate electrode of the second TFT, and the semiconductor layer of the second TFT protrudes out two opposite side of the gate electrode of the second TFT. A thin film transistor including a gate electrode, a capacitance compensation structure, a semiconductor layer, a dielectric layer, a drain electrode and a source electrode is also provided. The capacitance compensation structure is electrically connected to the gate electrode. The semiconductor layer partially overlaps the gate electrode, and extends to overlap the capacitance compensation structure. | 03-20-2014 |
20140072724 | METHOD OF FABRICATING FLEXIBLE SUBSTRATE STRUCTURE - A method of fabricating a flexible substrate structure includes the following steps. A supporting carrier is provided, and a release layer is formed on the supporting carrier, where the release layer includes a photo-sensitive adhesive layer. A local modification process is performed to form a bonding region with adhesion property in modified parts of the release layer, and to form a release region without adhesion property in unmodified parts of the release layer. The local modification process includes performing a local exposure process with a light source to form the bonding region with adhesion property in illuminated parts of the release layer, and to form a release region without adhesion property in unilluminated parts of the release layer. | 03-13-2014 |
20140071038 | METHOD FOR GENERATING MOVEMENT POSITION COORDINATE AND HUMAN-MACHINE INTERFACE INPUT SYSTEM USING THE SAME - A method for generating a movement position coordinate adapted to be used in a human-machine interface input controller is provided. The method includes steps of: sequentially generating a plurality of position coordinates by detecting a movement of an object; reading and storing the position coordinates; performing, when the number of the stored position coordinates reaches to a predetermined value, an operation on the position coordinates to obtain a movement position coordinate; and modulating the predetermined value in accordance with a change of a movement rate of the object. | 03-13-2014 |
20140065323 | POLYMERIZABLE MONOMER AND LIQUID CRYSTAL MATERIAL APPLIED TO DISPLAY PANEL - A polymerizable monomer adopted to a display panel is represented as following chemical formula: | 03-06-2014 |
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 |
20140062986 | DRIVING CIRCUIT CHIP AND DRIVING METHOD FOR DISPLAY - A driving method for a display apparatus used in a driving circuit chip, includes: receiving first and second voltages; outputting the first and second voltages to a first input-stage circuit of a first amplifier and a second input-stage circuit of a second amplifier, respectively, in a first period; outputting the first and second voltages to the second input-stage circuit and the first input-stage circuit, respectively, in a second period; receiving a third voltage outputted from the first input-stage circuit and a fourth voltage outputted from the second input-stage circuit; outputting the third and fourth voltages to the first and second output-stage circuits, respectively, in the first period; and outputting the third and fourth voltages to the second and first output-stage circuits, respectively, in the second period. A driving circuit chip is also provided. | 03-06-2014 |
20140062913 | METHOD FOR DETECTING TOUCH POINT OF MULTI-TYPE OBJECTS - A method for detecting touch points of multi-type objects includes: determining whether or not there existing a touch point by a detection of an energy variation below a first effective value; referring the touch point having an area smaller than a first predetermined value as a first-type touch point; referring the touch point having an area larger than a second predetermined value as a second-type touch point; detecting, if there exists the second-type touch point, the energy variation below a second effective value; and determining the coordinate position of the second-type touch point according to the detecting result obtained from the energy variation below the second effective value. The second effective value is larger than the first effective value. | 03-06-2014 |
20140062847 | SHIFT REGISTER CIRCUIT AND DRIVING METHOD THEREOF - A shift register circuit includes a first shift register string and a second shift register string. The first shift register string is configured to receive a first start signal and output a first-stage control signal. The second shift register string, electrically connected to the first shift register string, is configured to receive the first-stage control signal and a second start signal and output the first pulse of a first-stage scan signal according to the first-stage control signal and the second start signal and consequently output the second pulse of the first-stage scan signal according to the second start signal; wherein the first and second pulses are configured to have different pulse widths. A driving method of a shift register circuit is also provided. | 03-06-2014 |
20140060629 | SOLAR CELL AND METHOD FOR FABRICATING THE SAME - A solar cell includes a substrate, a first lightly-doped region, a second lightly-doped region, a second heavily-doped region, a first electrode and a second electrode. The first lightly-doped region having a first doping type is disposed in a first surface of the substrate. The second lightly-doped region and the second heavily-doped region having a second doping type different from the first doping type are disposed in a second surface of the substrate. The first electrode is disposed on the first surface of the substrate, and the second electrode is disposed on the second surface of the substrate. | 03-06-2014 |
20140055502 | METHOD OF COMPENSATING COLOR GAMUT OF DISPLAY - A method of compensating the color gamut of a display includes establishing a plurality of color gamut boundaries of four color hues, generating m sets of original luminance, chrominance and hue values according to m sets of tricolor grey level values, adjusting the chrominance of n sets of luminance, chrominance and hue values of the m sets of luminance, chrominance and hue values exceeding the plurality of color gamut boundaries with four color hues to generate n sets of corrected luminance, chrominance and hue values, generating m sets of four color grey levels according to the n sets of corrected luminance, chrominance and hue values and (m−n) sets of uncorrected luminance, chrominance and hue values, and displaying images on the display according to the m sets of four color grey levels. | 02-27-2014 |
20140055435 | IMAGE DISPLAYING METHOD FOR DISPLAY DEVICE - An exemplary image displaying method for a display device includes steps of: providing display data to pixels of the display device for displaying images; taking a special amount of frame of images as an image group, making polarities of a same pixel being of adjacent two frame of images in the image group and using a same polarity inversion in the adjacent two frame of images be different from each other, and making polarities of a same pixel being of the last frame of image in a former one of adjacent two image groups and of the first frame of image in a latter one of the adjacent two image groups and using the same polarity inversion in the last and first frame of images be the same with each other. | 02-27-2014 |
20140054624 | DISPLAY PANEL - A display device includes a plurality of pixel units. Each of the pixel units at least includes three sub-pixels for displaying different colors. The three sub-pixels are electrically connected to three different gate lines, and at least two of the three sub-pixels are electrically connected to the same data line. | 02-27-2014 |
20140051200 | METHOD FOR FABRICATING PHOTO DETECTOR - A photo detector and related fabricating method are disclosed. The photo detector includes a substrate, a first patterned semiconductor layer, a dielectric layer, a patterned conductive layer, an inter-layer dielectric, a second patterned semiconductor layer, two first electrodes disposed on the inter-layer dielectric and two second electrodes disposed on portions of the second semiconductor layer. The first patterned semiconductor layer having a first doping region and a second doping region is disposed on a transistor region. The dielectric layer is disposed to cover the substrate and the first semiconductor layer. The patterned conductive layer is disposed on the dielectric layer. The inter-layer dielectric having at least two openings adapted to expose the first doping region and the second doping region is disposed to cover the dielectric layer. The second patterned semiconductor layer is disposed on a photosensitive region. The first electrodes are electrically connected to the first patterned semiconductor layer. | 02-20-2014 |
20140050870 | BLOCKING ELEMENT AND ITS USE IN PROTECTIVE STRUCTURE - The disclosure provides a blocking element and its use in a protective structure. The blocking element includes a base and a first blocking plate. The base includes a surface and a recession formed downwardly towards the surface. The first blocking plate is connected to a first cross-connect part of the recession. The first blocking plate is used for pivoting on the first cross-connect part and includes a first blocking position and a first closing position in relative to the first cross-connect part. When the first blocking plate is at the first blocking position, a first blocking part of the first blocking plate protrudes from the surface. When the first blocking plate is pressed towards the recession to the first closing position by an external force, at least one portion of the first blocking part is contained in the recession. | 02-20-2014 |
20140050052 | METHOD AND SYSTEM FOR DETECTING SPATIAL POSITION OF INDICATOR OBJECT BY USING SOUND WAVE - A method for detecting a spatial position of an indicator object by using sound waves. The method is adapted to be used with a sound wave transceiver device and a plurality of sound wave receiving devices. The method includes steps of: obtaining a relative position of the sound wave transceiver device to each one of the sound wave receiving devices; obtaining a plurality of reflection times respectively indicating time periods from the sound wave transceiver device emitting the sound wave to the sound wave transceiver device and the sound wave receiving devices receiving the reflected sound wave from the indicator object; and calculating a position of the indicator object according to the relative positions and the reflection times. A system for detecting a spatial position of an indicator object by using sound waves is also provided. | 02-20-2014 |
20140048498 | SOLAR DEVICE AND FRAME ASSEMBLY THEREOF - A frame assembly including a frame and a bracket is disclosed. The frame has a sliding groove and a first engaging groove, wherein the sliding groove is formed at one side of the frame and the first engaging groove is formed in the sliding groove. The bracket has a body and a first engaging part, wherein the first engaging part is extended from the body. When the body is disposed in the sliding groove, the first engaging part is engaged in the first engaging groove. | 02-20-2014 |
20140043550 | DISPLAYING PANEL AND DISPLAYING APPARATUS THEREWITH - A displaying panel and a displaying apparatus therewith are disclosed. The displaying panel includes a first substrate, a second substrate joined onto the first substrate, a light-masking structure, and a plurality of light modulation units. The light-masking structure and the light modulation units are disposed between the substrates. An edge of the second substrate is aligned with or beyond a corresponding edge of the first substrate. The light modulation units are disposed corresponding to a plurality of light-penetrating portions of the light-masking structure, for controlling whether light passes through the displaying panel to generate plane images. The light-masking structure wholly covers an edge portion including the edge of the second substrate. Therefore, the displaying panel can directly use the light-masking structure to perform as a border frame for shielding the interior structure and light emitted from the interior without external covers or frames. | 02-13-2014 |
20140035970 | DISPLAY AND METHOD OF DISPLAYING AN IMAGE WITH A PIXEL - A pixel includes four sub-pixels. The pixel is used to receive a plurality of signal values to display an image. The signal values are N-bit signal values, and the largest value of the signal values is (2 | 02-06-2014 |
20140035968 | PIXEL CIRCUIT, PIXEL STRUCTURE, 2D AND 3D SWITCHABLE DISPLAY DEVICE AND DISPLAY DRIVING METHOD THEREOF - A two-dimension (2D) and three-dimension (3D) switchable display device and display driving method thereof are provided. Each pixel unit of the 2D and 3D switchable display device includes a first sub-pixel, a second sub-pixel and a third sub-pixel. The first sub-pixel, driven by a first gate line, has a first sub-pixel voltage, and the third sub-pixel, driven by a second gate line, has a third sub-pixel voltage different from the first sub-pixel voltage. The charge of the second sub-pixel is shared by a first gate line of an adjacent pixel unit, and the second sub-pixel has a second sub-pixel voltage different from the first sub-pixel voltage and the third sub-pixel voltage. The first sub-pixel, the second sub-pixel and the third sub-pixel of the pixel unit can be driven in a pre-charge driving manner. | 02-06-2014 |
20140029302 | BACKLIGHT MODULE AND ASSEMBLY METHOD THEREOF - A backlight module includes a light guide plate with at least one light incident surface, and a light source structure arranged at a side of the light guide plate. The light source structure includes a reflection cover and at least one light emitting module. At least one positioning pin is arranged on the reflection cover. The at least one light emitting module is installed on the reflection cover and corresponding to the at least one light incident surface. The at least one light emitting module is fixed on the positioning pin in a rotatable manner, such that the at least one light emitting module can rotate around the positioning pin as an axis when the reflection cover is combined with the light guide plate, so as to allow the at least one light emitting module facing the at least one light incident surface. | 01-30-2014 |
20140022271 | IMAGE SIGNAL PROCESSING METHOD - Provide a set of first RGB (red, green, blue) brightness levels of a set of pixels in a display panel. Generate a set of saturation levels according to the set of first RGB brightness levels. Generate a set of mapping ratios according to the set of saturation levels and the set of first RGB brightness levels. Generate a set of second RGB brightness levels according to the set of first RGB brightness levels and a minimum mapping ratio of the set of mapping ratios. Generate a set of RGBW (red, green, blue, white) brightness levels according to the set of second RGB brightness levels and a set of brightness levels of white sub-pixels of the set of RGBW brightness levels. And convert the set of RGBW brightness levels to generate a set of RGBW gray levels of the set of pixels. | 01-23-2014 |
20140022145 | CONTROL METHOD FOR IMAGE DISPLAYING AND DISPLAY SYSTEM USING THE SAME - A control method for image displaying applicable for use to a dual-side transparent display. The control method includes the following operations each required to be executed at least one time in a display period. The operations are: providing a left-eye signal of an image displayed on a first display surface of the dual-side transparent display, to a first side thereof; providing a right-eye signal of an image displayed on the first display surface of the dual-side transparent display, to the first side thereof; providing a left-eye signal of an image displayed on a second display surface of the dual-side transparent display, to a second side thereof; providing a right-eye signal of an image displayed on the second display surface of the dual-side transparent display, to the second side thereof; and configuring the dual-side transparent display to present a transparent state. A display system is also provided. | 01-23-2014 |
20140015871 | DISPLAYING METHOD FOR FIELD SEQUENTIAL COLOR DISPLAYS USING TWO COLOR FIELDS - A displaying method for field sequential color displays using two color fields to produce a full color image is disclosed. The displaying method includes: providing a target full color image, displaying a first color field and displaying a second color field. The target full color image is formed by a first color image optical stimulus, a second color image optical stimulus and a third color image optical stimulus. The first color field displays the first color image optical stimulus and a first part of the third color image optical stimulus, while the second color field displays the second color image optical stimulus and a second part of the third color image optical stimulus, which compensates the shortage of the third color image optical stimulus in the first color field. The target full color image is generated by displaying the first and second color fields in sequence, so as to decrease the displaying frequency of field sequential color displays. | 01-16-2014 |
20140015801 | PHOTO SENSOR TYPE TOUCH PANEL - A photo sensor type touch panel includes a plurality of readout lines electrically connected in parallel. The overall capacitance of a coupling capacitor between the readout lines connected in parallel and adjacent data lines having one type of polarity is equal to the overall capacitance of a coupling capacitor between the readout lines connected in parallel and adjacent data lines having the other type of polarity. | 01-16-2014 |
20140015797 | TOUCH DISPLAY PANEL AND TOUCH SENSING UNIT THEREOF - A touch display panel includes a display panel and a touch sensing unit. The touch sensing unit includes first sensing series, and second sensing series. Each of the first sensing series includes a plurality of first transparent sensing pads and a plurality of non-transparent bridge lines disposed along a first direction. Each of the non-transparent bridge lines is disposed between two adjacent first transparent sensing pads, overlapping with two adjacent first transparent sensing pads, and electrically connected to two adjacent first transparent sensing pads. The line width of each non-transparent bridge line is substantially between 0.5 micrometers and 10 micrometers, and the reduction of aperture ratio in a pixel region of the touch display panel caused by the non-transparent bridge lines is substantially between 0.1% and 5%. Each non-transparent bridge line and the long axis of each sub-pixel region are disposed in a non-parallel manner with each other. | 01-16-2014 |
20140015739 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a substrate, gate lines, data lines, pixel electrodes, an insulating layer, patterned common electrodes and connection lines. Each pixel electrode includes a transparent electrode. The insulating layer covers the pixel electrodes. The patterned common electrodes are disposed on the insulating layer. Each patterned common electrodes includes a plurality of electrode branches, and at least one slit disposed between two adjacent electrode branches. The patterned common electrode includes a transparent electrode. The connection line is disposed on the insulating layer, and each connection line is in contact with and electrically connects to the patterned common electrodes of two adjacent sub-pixel regions. | 01-16-2014 |
20140010341 | SHIFT REGISTER - A shift register for providing a plurality of gate signals includes an Nth stage shift register unit and an (N+1)th stage shift register unit. The Nth stage shift register unit includes a first pull up unit, a first driving unit, a first control unit and a first auxiliary pull down unit. The (N+1)th stage shift register unit includes a second pull up unit, a second driving unit, a first pull down unit and a second auxiliary pull down unit. The first and second pull up units are both coupled to the first and second driving units for controlling the first and second driving units to generate gate signals. The first and second auxiliary pull down units are both coupled to the first control unit for pulling down the gate signals. | 01-09-2014 |
20140009848 | DISPLAY PANEL AND COLOR FILTER THEREOF - A display panel including an active device array substrate, a color filter and a display medium layer is provided. The color filter is disposed above the active device array substrate and includes a substrate and a yellowish photoresist. The yellowish photoresist is disposed between the substrate and the active device array substrate. The yellowish photoresist includes a first fluorescent material, and the optical transmittance in the optical transmitted spectrum of the yellowish photoresist corresponding to the wavelength between 600 nm and 800 nm is greater than 1. The display medium layer is disposed between the active device array substrate and the color filter. | 01-09-2014 |
20140009408 | NOISE FREQUENCY DETECTION METHOD AND TOUCH APPARATUS - A noise frequency detection method includes steps of: providing a frequency of system clock; fixing an operation frequency band of a sensing signal; adjusting a pulse width of the sensing signal and sampling a noise, wherein each pulse width of the sensing signal corresponds to a noise value of the noise; and referring the pulse width corresponding to a preset value of the noise to as a critical value, and obtaining a noise frequency from dividing the frequency of system clock by the critical value. A touch apparatus is also provided. | 01-09-2014 |
20140009375 | LIQUID CRYSTAL DISPLAY DEVICE AND RELATED ALIGNMENT METHOD - A liquid crystal display device includes a display panel, a multiplexer, an alignment circuit and a short bar circuit. The multiplexer is configured to provide a plurality of output data signals according to a plurality of switch control signals and an input data signal. During the alignment period, the alignment circuit is configured to provide a curing voltage to the display panel, and the short bar circuit is configured to couple the multiplexer to a predetermined voltage. | 01-09-2014 |
20140003091 | BACKLIGHT MODULE | 01-02-2014 |
20140000186 | SOLAR DEVICE AND FASTENER MECHANISM THEREOF | 01-02-2014 |
20130342500 | Touch-sensing Display panel module and related driving method - An embedded sensor of a touch panel includes at least a readout unit and a reset unit. The total readout length or the total reset length during each sensing period may be larger than the pixel refresh period by introducing other readout units, introducing other reset units, or increasing the enabling period of the gate driving signals, thereby enhancing the sensibility of the touch panel. | 12-26-2013 |
20130336003 | BACKLIGHT MODULE - A backlight module is disclosed in the present invention. The backlight module includes a light guiding plate, a light source, a transformer and a constrainer. The transformer is disposed between the light guiding plate and the light source. The transformer is for transforming a first beam emitted from the light source into a second beam, so as to transmit the second beam to the light guiding plate, wherein a spectrum of the first beam is different from a spectrum of the second beam. The constrainer is connected to the light source for constraining a movement of the transformer. The constrainer includes a first fixing portion disposed on the light source and a second fixing portion connected to the first fixing portion, the second fixing portion being disposed on the transformer to fix the transformer relative to the light source. | 12-19-2013 |
20130334976 | LIGHT EMITTING DIODE DRIVING CIRCUIT AND DRIVING METHOD THEREOF - A LED string driving circuit includes a plurality of LED strings; a power supply unit configured to receive an input voltage and accordingly output a driving voltage to the LED strings; a comparison unit configured to receive the input voltage and output a first control signal according to a relationship between the input voltage and a predetermined voltage; a control unit configured to receive the first control signal and generate a second control signal according to a potential level of the first control signal; and a switch unit including a plurality of switch elements, and each are controlled by the second control signal and thereby forming various electrical loops and thereby configuring the LED strings corporately to form either a parallel loop or a series loop via the switch unit with respective electrical loops. A LED string driving method is also provided. | 12-19-2013 |
20130328849 | DISPLAY WITH WIRELESS CHARGING FUNCTION, OPERATION METHOD THEREOF AND CORRESPONDING PORTABLE ELECTRONIC APPARATUS - A display with wireless power charging function, an operation method thereof and a corresponding portable electronic apparatus are provided. The display includes a RFID read/write module and is applicable to electrically charge a portable electronic apparatus with a RFID tag. The operation method includes steps of: displaying an image on the display surface of the display panel of the display; transmitting data between the Radio Frequency Identification read/write module of the display and the Radio Frequency Identification tag of the portable electronic apparatus and electrically charging the energy storage unit of the portable electronic apparatus while the portable electronic apparatus is placed in the readable/writable area; and adjusting, while the portable electronic apparatus is placed in the readable/writable area, the image to an updated image having no overlap with the readable/writable area if the image has an overlap with the readable/writable area. | 12-12-2013 |
20130328848 | PIXEL DRIVING CIRCUIT, DRIVING METHOD THEREOF AND DISPLAY PANEL - A pixel driving circuit includes a first switch, a capacitor, a second switch and at least one organic light emitting diode. The first switch includes a first end for receiving data voltage, a control end for receiving a first scan signal, and a second end for outputting the data voltage. The capacitor includes a first end coupled to the second end of the first switch, and a second end. The second switch includes a first end coupled to the second end of the first switch, a control end for receiving a second scan signal, and a second end. The at least one organic light emitting diode includes a first end coupled to the second end of the second switch, and a second end coupled to the second end of the capacitor. | 12-12-2013 |
20130325480 | REMOTE CONTROLLER AND CONTROL METHOD THEREOF - A remote controller includes a housing, a direction sensor, a microphone, a controller, and a wireless transmitter. A control method of the remote controller includes detecting an angle between an axis of a remote controller and a vertical axis, enabling a microphone of the remote controller when the angle is within a predetermined range in order to generate a voice signal according to a voice command, and generating a first control signal according the voice signal and transmit the first control signal wirelessly. | 12-05-2013 |
20130323889 | METHOD OF FABRICATING PIXEL STRUCTURE - The present invention provides a pixel structure including a substrate, a patterned electrode disposed on the substrate, a first insulating layer disposed on the patterned electrode, a common electrode disposed on the first insulating layer, a second insulating layer disposed on the common electrode, and a drain disposed on the second insulating layer. The first insulating layer has a first through hole, and the second insulating layer has a second through hole. The drain includes a first portion electrically connected to the patterned electrode via the first through hole and the second through hole, and a second portion extending onto the common electrode. The common electrode is coupled with the patterned electrode to form a first storage capacitor and is coupled with the second portion to form a second storage capacitor. | 12-05-2013 |
20130321372 | SHIFT REGISTER CIRCUITRY, DISPLAY AND SHIFT REGISTER - A shift register circuitry includes plurality stages of shift registers. An Nth stage shift register of the plurality stages of shift registers includes an input unit, an output unit, a control unit, a first pull-up unit, a second pull-up unit and a compensation circuit. The output unit is used to output an unmodified Nth stage scan signal. The input unit and the first pull-up unit are used to control the voltage level of a register control end. The control unit is used to receive a low reference voltage, a high reference voltage and the voltage level of the register control end, and control the voltage level of an output end of the control unit. The second pull-up unit is used to control the voltage level of an output end of the Nth stage shift register. The modification circuit is used to generate a modified Nth stage scan signal. | 12-05-2013 |
20130314625 | TOUCH SENSING DISPLAY PANEL AND TOUCH SENSING LIQUID CRYSTAL DISPLAY PANEL - A touch sensing display panel includes a first substrate, a second substrate, a touch sensing device, a patterned electrode layer, an insulating layer, and a sealant. The first substrate has a touch sensing region, and a sealant region surrounding the touch sensing region. The touch sensing device is disposed on an inner surface of the first substrate in the touch sensing region. The patterned electrode layer is disposed on the inner surface of the substrate in the sealant region, and the patterned electrode layer includes a plurality of connecting lines electrically connected to a touch sensing device, and an auxiliary electrode. The auxiliary electrode is not directly electrically connected to the connecting lines and the touch sensing device. The sealant is disposed between the first substrate and the second substrate in the sealant region, and at least one of the connecting lines and the auxiliary electrode overlap the sealant. | 11-28-2013 |
20130314623 | CAPACITIVE TOUCH MODULE AND DISPLAY HAVING CAPACITIVE TOUCH MODULE - A capacitive touch module includes a first glass layer, a second glass layer, a liquid crystal layer, a first insulating layer, a second insulating layer, a plurality of first electrodes, second electrodes and third electrodes. The liquid crystal layer is arranged between the first glass layer and the second glass layer. The first insulating layer is formed between the first glass layer and the liquid crystal layer. The second insulating layer is formed between the liquid crystal layer and the second glass layer. The plurality of first electrodes are formed between the liquid crystal layer and the first insulating layer along a first axis. The plurality of second electrodes are formed between the second insulating layer and the second glass layer along the first axis. The plurality of third electrodes are formed between the first insulating layer and the first glass layer along a second axis. | 11-28-2013 |
20130314389 | DISPLAY APPARATUS AND OPERATION METHOD THEREOF - A display apparatus with a display panel is provided. The display panel is initially driven to have the data voltages on any two consecutive data lines thereon with different polarities. If a to-be-displayed image contains a predetermined pattern constituted by pixels in row and two adjacent pixels therein have a gray-level difference therebetween greater than a predetermined value, a timing control circuit of the display apparatus divides the associated data lines into a plurality of data line groups each constituted by four consecutive data lines and configure the data voltages on the two middle data lines in one data line group to have a first polarity and the data voltages on the rest two data lines in the same data line group to have a second polarity. An operation method of the display apparatus is also provided. | 11-28-2013 |
20130314310 | DISPLAY APPARATUS AND OPERATION METHOD THEREOF - A display apparatus and an operation method thereof are provided. The display apparatus includes a display panel. The display panel includes a plurality of data lines, a plurality of scan lines and a plurality of pixels. The pixels are arranged in a matrix manner, and each pixel is electrically connected to one of the data lines and one of the scan lines. The operation method includes steps of: dividing the scan lines into N scan line groups, wherein N is an integer from 2 to the number of the scan lines; and in N frame periods sequentially driving the N scan line groups of scan line respectively and thereby sequentially updating display data of the pixels electrically connected to the N scan line groups of the scan line respectively. | 11-28-2013 |
20130314305 | PIXEL CIRCUIT, LIGHT EMITTING DIODE DISPLAY USING THE SAME AND DRIVING METHOD THEREOF - A pixel circuit of a light emitting diode display includes a light emitting diode, six transistors and two capacitors. The effect of the variation of the threshold voltage of the transistor in the pixel circuit on the display quality can be improved through supplying specific the first to fourth control signals and the first to third reference voltages to the pixel circuit. A light emitting diode display using the aforementioned pixel circuit and a driving method of the aforementioned pixel circuit are also provided. | 11-28-2013 |
20130312820 | SOLAR CELL AND MANUFACTURING METHOD THEREOF - A solar cell includes a semiconductor substrate and a first antireflective layer. The semiconductor substrate has a first-type semiconductor surface and a second-type semiconductor surface opposite to each other. The first antireflective layer includes a plurality of refraction convexes and a coverage layer. The refraction convexes are formed on the second-type semiconductor surface. Each refraction convex includes a first refraction part and a second refraction part. The first refraction parts are conformally coated with the respective second refraction parts, and the first refraction part is configured to have a refractive index greater than the refractive index of the second refraction part. The coverage layer is formed to cover the second-type semiconductor surface and the refraction convexes, and the coverage layer is configured to have a refractive index smaller than the refractive index of the second refraction part. A solar cell manufacturing method is also provided. | 11-28-2013 |
20130308337 | BACKLIGHT MODULE - A backlight module includes a light source, a photoluminescence layer, and an optical film. The light source is used to provide a light beam. The photoluminescence layer is excited by the light beam from the light source and generates an excitation light. The optical film overlaps the photoluminescence layer along a vertical projective direction. The optical film includes a substrate and a plurality of two-dimensional symmetrical micro-structures. The two-dimensional symmetrical micro-structures are disposed on at least one surface of the substrate. The excitation light is emitted through the two-dimensional symmetrical micro-structures. | 11-21-2013 |
20130300973 | DISPLAY MODULE - A display module, which includes a display panel, a backlight unit and a bezel. The backlight unit is disposed opposite to the display panel. The bezel includes a bottom, a plurality of sidewalls and a plurality of extension structures. The bottom is configured to support the backlight unit. These sidewalls are configured to corporately enclose the display panel and the backlight unit, and each sidewall has a first end and a second end opposite to each other; wherein the first end is connected to the bottom. The extension structures each extend from the second end of the respective sidewall and include a supporting portion, disposed between the backlight unit and the display panel and opposite to the bottom, configured to support the display panel. | 11-14-2013 |
20130300706 | TOUCH DISPLAY AND METHOD FOR DRIVING TOUCH DISPLAY - A touch display includes a display panel, a plurality of sensing electrodes and a driving circuit module. The display panel includes a plurality of pixels. The plurality of sensing electrodes are stacked with the display panel and are used for detecting a touch input and generating a sensing signal in response to the touch input. The driving circuit module is electrically coupled to the display panel and the plurality of sensing electrodes, for controlling the pixels of the display panel according to an image data, and generating a touch signal for indicating whether the touch display is touched or not in response to the image data and the sensing signal. | 11-14-2013 |
20130293011 | SOLAR POWER SYSTEM, SOLAR CELL MODULE AND POWER PROVIDING METHOD THEREOF - A solar power system includes a solar cell module, a main system and at least one sub system. The solar cell module includes at least one first solar cell unit and one second solar cell unit coupled in series. The first solar cell unit is configured to have an available maximum output current greater than that of the second solar cell unit. The main system is electrically coupled to the solar cell module and simultaneously supplied with electrical power by the first solar cell unit and the second solar cell unit both. The at least one sub system is electrically coupled to the solar cell module and supplied with electrical power by the first solar cell unit only. A solar cell module and a power providing method thereof are also provided. | 11-07-2013 |
20130286682 | LIGHTING DEVICE AND BACK LIGHT MODULE THEREWITH - A lighting device and a back light module therewith are disclosed. The back light module includes a light-guiding structure and a lighting device. The light-guiding structure includes two light-guiding parts and a reflection sheet disposed therebetween. The lighting device is disposed close to the light-guiding structure and includes an insulation carrier and two light sources disposed on the insulation carrier. The insulation carrier includes a positioning groove structure where an edge of the reflection sheet is disposed such that the two light sources correspond to the two light-guiding parts respectively and light emitted by the two light sources is capable of entering the corresponding light-guiding parts. Thereby, the invention uses the single-structure lighting device to simultaneously provide required light to the two light-guiding parts respectively, and uses the positioning structure formed on the lighting device to improve the assembly preciseness of the light-guiding structure with the lighting device. | 10-31-2013 |
20130285936 | METHOD FOR A TOUCH PANEL TO GENERATE A TOUCH SIGNAL - A touch panel includes a plurality columns of sensing partitions, a plurality of driving lines, a plurality of sensing lines and a memory. A method for the touch panel to generate a touch signal includes sequentially inputting driving signals to the plurality of driving lines, reading a plurality of voltage values of one of the plurality columns of sensing partitions through one of the plurality of sensing lines, converting the plurality of voltage values into a plurality of digital values, calculating a mean of the digital values, and storing the coordinate of at least one digital value in a memory. The difference between the at least one digital value and the mean is larger than a predetermined value. | 10-31-2013 |
20130278494 | THREE-DIMENSIONAL INTERACTIVE SYSTEM - A three-dimensional interactive system includes at least one image capturing device, a processor and a display. The at least one image capturing device is used for sensing positional changes of an object with time along three axes in three-dimensions. The processor is used for generating image data according to the positional changes of the object with time along the three axes. The display is used for displaying the image data. | 10-24-2013 |
20130271396 | SENSING MODULE WHICH CAN PERFORM PROXIMITY DETECTION AND DISPLAY STRUCTURE HAVING SENSING ELECTRODES - A display includes a display module and a sensing module including a proximity sensing electrode, a set of sensing electrodes, a touch circuit, a proximity circuit and a processor. The sensing electrodes are configured to sense a touch input during a first period and sense a proximity input during a second period. The touch circuit is coupled to the sensing electrodes for controlling the sensing electrodes to sense the touch input in the first period, and converting a two-dimensional analog touch signal transmitted from the set of the sensing electrodes to a two-dimensional digital touch signal. The proximity circuit is coupled to the sensing electrodes and the proximity sensing electrode for controlling the sensing electrodes and the proximity sensing electrode to sense the proximity input, and converting a three-dimensional analog proximity signal transmitted from the set of sensing electrodes and proximity unit to a three-dimensional digital proximity signal. | 10-17-2013 |
20130263488 | DISPLAY DEVICE AND ASSEMBLY METHOD THEREOF - A display device includes a frame, an adhesive tape, a curing adhesive and a display panel. The frame has a top surface, an inner surface and an outer surface. The top surface is connected between the inner surface and the outer surface. The top surface has a first adhesive region and a second adhesive region which are adjacent to each other. The first adhesive region is located between the inner surface and the second adhesive region. The adhesive tape is adhered to the first adhesive region. The display panel is adhered to the top surface of the frame by the adhesive tape. The curing adhesive is adhered to at least one side surface of the display panel, the second adhesive region and the adhesive tape. A display device assembly method is also provided. | 10-10-2013 |
20130258613 | TOUCH PANEL AND TOUCH DISPLAY PANEL - A touch panel includes a substrate, a transparent sensor electrode pattern, a patterned compensation electrode, a passivation layer, a transparent shielding electrode and at least one connection structure. The substrate has a surface and includes a sensor region and a peripheral region. The transparent sensor electrode pattern is disposed on the surface of the substrate and in the sensor region. The patterned compensation electrode is disposed on the surface of the substrate and in the peripheral region, and the patterned compensation electrode and the transparent sensor electrode pattern are electrically isolated. The passivation layer is disposed on the surface of the substrate, covers the transparent sensor electrode pattern, and at least partially exposes the patterned compensation electrode. The transparent shielding electrode is disposed on the passivation layer. The connection structure is electrically connected to the transparent shielding electrode and the patterned compensation electrode exposed by the passivation layer. | 10-03-2013 |
20130257810 | TOUCH DISPLAY DEVICE - A touch display device includes a display panel, a touch panel, a plurality of first light sources, a plurality of light sensors and at least one second light source. The display panel has a display surface. The touch panel is disposed above the display panel and includes a transparent part, a plurality of light guide parts configured to protrude from the surface of the transparent part thereby corporately forming a touch region on the surface. The first light sources and first light source is reflected by the light guide parts so as to emit above the touch region and be received by the light sensors. The second light source is configured to emit visible light beams, which is emitted out via the touch panel. | 10-03-2013 |
20130256707 | ARRAY SUBSTRATE AND PIXEL UNIT OF DISPLAY PANEL - An array substrate and a pixel unit of a display panel include a plurality of subpixels arranged in a pixel array (N row*M column). Only one data line is disposed in a portion of two adjacent columns of subpixels in the pixel array, and two data lines are disposed in another portion of two adjacent columns of subpixels in the pixel array. | 10-03-2013 |
20130250072 | 2D/3D DISPLAY AND METHOD FOR FORMING 3D IMAGE - A display capable of providing 2D and/or 3D images. The display comprises a liquid crystal display device and a self-emissive display device. The self-emissive display device is disposed on the rear of the liquid crystal display device, in which the liquid crystal display device provides a first image and the self-emissive display device a second image and a backlight source. One of the first and second images comprises a parallax barrier pattern for forming a three-dimensional (3D) image, and the other is a 2D image. | 09-26-2013 |
20130249966 | LIQUID CRYSTAL DISPLAY HAVING COMMON-VOLTAGE COMPENSATION MECHANISM AND COMMON-VOLTAGE COMPENSATION METHOD - A liquid crystal display having common voltage compensation mechanism includes a liquid-crystal capacitor common electrode for receiving a liquid-crystal capacitor common voltage, a storage capacitor common electrode for receiving a storage capacitor common voltage, a common voltage generator for providing the liquid-crystal capacitor common voltage according to a preliminary common voltage, a common voltage compensation circuit electrically connected to the liquid-crystal capacitor common electrode and the storage capacitor common electrode, and a timing controller electrically connected to the common voltage compensation circuit. The common voltage compensation circuit is utilized for generating the storage capacitor common voltage through performing a ripple inverting operation according to the liquid-crystal capacitor common voltage, the preliminary common voltage and a compensation control signal. The timing controller is employed to analyze an image input signal for generating the compensation control signal. | 09-26-2013 |
20130249924 | DISPLAY DRIVING CIRCUIT AND DRIVING METHOD OF DISPLAY UNIT - A driving method of a display unit includes: executing a first display procedure, for displaying a first frame on a display unit of the display driving circuit, and executing a counting mechanism; determining, if a second display procedure for displaying a second frame on the display unit is confirmed to be executed, whether or not a counting value of the counting mechanism is larger than a predetermined value; sequentially executing a specific display procedure and the second display procedure if the counting value is larger than the predetermined value; and directly executing the second display procedure if the counting value is equal to or smaller than the predetermined value. A display driving circuit applicable to be used by the display unit is also provided. | 09-26-2013 |
20130249892 | LIQUID CRYSTAL DISPLAY DRIVING APPARATUS AND METHOD THEREOF - A liquid crystal display (LCD) driving apparatus and the method thereof is disclosed. The method receives a pixel and drives a pixel of the LCD according to the pixel value in a frame period, wherein the frame period is divided into a precharge field and a compensation field. Firstly, a precharge pixel value is decided according to the pixel and a reference value. A compensation pixel value is decided according to the precharge pixel. Next, a precharge driving voltage is determined according to the precharge pixel value. Afterwards, a compensation driving voltage is determined according to the compensation pixel value. Finally, the pixel is driven according to the precharge driving voltage and the compensation driving voltage respectively during the precharge field and the compensation field. | 09-26-2013 |
20130242240 | DISPLAY PANEL - A display panel has a portion of a color filter or patterned color layer with a thickness of at least half of the cell gap of the display panel, wherein the repair method includes providing a energy light beam to the portion of the color filter or the patterned color layer in the sub-pixel region with a bright point defect to make the portion of the color filter or patterned color layer have porous structure so that bright point is repaired to become a grey point or a dark point. | 09-19-2013 |
20130239383 | Low-Pressure Process Apparatus - A method for disassembling a low-pressure process apparatus. The method provide a transmission device and a low-pressure process apparatus; and moves the housing to a transmission device in a first horizontal direction via the first roller set. | 09-19-2013 |
20130229383 | Sensing Structure of a Display - A sensing structure includes a display module, a sensing unit, an electronic component and a cover lens. The display module includes an active area. The sensing unit is disposed on the display module and overlaps at least part of the active area. The electronic component is disposed on the display module and outside the active area. | 09-05-2013 |
20130229260 | ELECTRONIC TAG SYSTEM - An electronic tag system includes a point of sale host, a client host, a coordinator, a router and an electronic tag group. The point of sale host is configured for transmitting textual data. The client host is configured to provide image data corresponding to the textual data received from the point of sale host. The coordinator is configured for transmitting the image data received from the client host. The router is configured for transmitting the image data received from the coordinator. The electronic tag group includes a plurality of electronic tags for displaying images according to the image data received from the router. | 09-05-2013 |
20130222735 | BACKLIGHT MODULE AND DISPLAY DEVICE USING THE SAME - A backlight module includes a frame, at least one optical film and a flexible fixing-element. The frame includes a bottom plate and a sidewall connected to the bottom plate. The frame has an inner surface and an outer surface. The inner surface has an accommodation fillister. The frame further has a hole disposed between the accommodation fillister and the bottom plate and configured to connect the inner and outer surfaces to each other. The optical film(s) is disposed in the frame and includes a main body and a lug. The lug is inserted in the accommodation fillister and has a first opening. The flexible fixing-element has a first end and a second end. The flexible fixing-element is suitable to pass through the hole and the first opening. The first end of the flexible fixing-element is fixed on the outer surface. A display device adopting the backlight module is also provided. | 08-29-2013 |
20130215641 | BACKLIGHT MODULE - A backlight module includes a light guide plate, a light source disposed at a side of the light guide plate, a diffuser sheet positioned over the light guide plate but not directly contacting the light guide plate, and a light mixing space positioned between the light guide plate and the diffuser sheet so that light emitted from the light guide plate mixes in the light mixing space before being emitted out of the backlight module. | 08-22-2013 |
20130214794 | MISALIGNMENT DETECTION DEVICES - A misalignment detection device comprising a first substrate, at least one integrated circuit, a second substrate, a third substrate, and at least one detection unit. The at least one integrated is disposed on the first substrate in a first pressing region. The third substrate is disposed on the first substrate in a second pressing region and on the second substrate on the second substrate in a third pressing region. The at least one detection unit outputs a fault signal in response to a positioning shift occurring in at least one of the first, second, and third pressing regions. | 08-22-2013 |
20130188393 | BACKLIGHT MODULE - A backlight module includes a light guide plate, a light coupling unit and a plurality of light emitting devices. The light guide plate has a light incident side. The light coupling unit includes a plurality of light coupling devices arranged in a side-by-side manner. Each light coupling device has a first side and a second side, and the first and second sides are opposite to each other. The second side is adjacent to the light incident side. Each light coupling device is configured to have a thickness gradually decreasing from the first side toward the second side. The light emitting devices are disposed beside the first sides of the light coupling devices. Another backlight module is also provided. | 07-25-2013 |
20130173870 | BIDIRECTIONAL SHIFT REGISTER AND THE DRIVING METHOD THEREOF - A bidirectional shift register includes a first register circuit and a second register circuit. The first register circuit includes a first register stage and a first output buffer stage with n numbers of scanning signal output ends. The first register stage is electrically coupled to a third voltage source. The first output buffer stage is electrically coupled to a second voltage source and a first voltage source. The second register circuit has a similar circuit structure to the first register circuit; wherein the first register circuit and the second register circuit each use n+1 numbers clock signal lines, and the n is a positive integer. | 07-04-2013 |
20130171902 | METHOD OF FABRICATING FLEXIBLE DISPLAY DEVICE - A method of fabricating flexible display device includes providing a flexible display panel having an uneven surface, and forming at least one filling layer on the uneven surface of the flexible display panel. The filling layer includes an organic filling layer polymerized by a precursor layer, or an inorganic filling layer including nanometer-scale carbon structure. | 07-04-2013 |
20130170213 | LIGHT-EMITTING DIODE MODULE - An LED module includes a single-sided circuit board, a plurality of LED strings and signal wires. The single-sided circuit board has a surface defined with a first and second areas. A long edge of the surface has a wiring outlet located at a position corresponding to a boundary of the first and second areas. The LED strings are divided into a first and second groups disposed in the first and second areas, respectively. The signal wires each are disposed on the surface and routed to have its one end joined to the wiring outlet, and its another end electrically connected to a first end of one LED string or a second end of one LED string. In addition, some signal wires each are further routed to have a segment thereof passed through a gap formed between the two groups of LED strings. | 07-04-2013 |
20130170187 | DIRECT TYPE BACKLIGHT MODULE AND DISPLAY DEVICE INCLUDING SAME - A direct type backlight module includes a bezel, a light source, a reflecting plate and least one buffering liner plate. The bezel includes a bottom plate and a plurality of sidewalls connected to the bottom plate, and defines a receiving space therein. Each of the sidewalls includes a connecting portion and an extending portion. One end of the connecting portion is connected to the bottom plate, and the extending portion extends from another end of the connecting portion. The light source and the reflecting plate are disposed within the receiving space. The reflecting plate includes a stopping portion and a reflecting potion disposed between the light source and the bezel. The stopping portion extends outwardly from the reflecting portion and is fixed on the corresponding extending portion. The buffering liner plate is disposed on at least one of the extending portion and adjoins to an edge of the stopping portion. | 07-04-2013 |
20130169611 | PIXEL STRUCTURE, DRIVING METHOD THEREOF AND SELF-EMITTING DISPLAY USING THE SAME - A pixel structure, driving method thereof and self-emitting display using the same is disclosed. The pixel structure includes four transistors and two capacitors to compensate illuminating effect in both of a non-synchronous display mode and a synchronous display mode. | 07-04-2013 |
20130169596 | THREE-DIMENSIONAL INTERACTION DISPLAY AND OPERATION METHOD THEREOF - A three-dimensional interaction display includes a display panel having a plurality of light sensing devices, a first light emitting device, a second light emitting device, and a processing circuit. The first light emitting device includes a first light emitting surface including a first pattern, and the first pattern includes a first shape boundary having a first total length. The second light emitting device includes a second light emitting surface including a second pattern, and the second pattern includes a second shape boundary having a second total length. The processing circuit is electrically connected to the plurality of light sensing devices for processing an image obtained by the light sensing devices, calculating the total length of the shape boundary of each of the patterns shown in the obtained image, and determining the corresponding light emitting device according to the total length of the shape boundary of each of the patterns. | 07-04-2013 |
20130169170 | LIGHT EMITTING DIODE CIRCUITRY, METHOD FOR DRIVING LIGHT EMITTING DIODE CIRCUITRY AND DISPLAY - A light emitting diode circuitry includes a first transistor, a second transistor, a third transistor, a fourth transistor, a storage capacitor, a fifth transistor, a sixth transistor and light emitting diodes. The first transistor is used for receiving a first control signal. The second transistor is used for receiving a second control signal. The third transistor is electrically coupled to the second transistor and the first transistor. The fourth transistor is used for receiving a data signal and a third control signal. The storage capacitor is electrically coupled to the second transistor. The fifth transistor is used for receiving a fourth control signal. The sixth transistor is used for receiving a fifth control signal. The light emitting diodes are coupled to the sixth transistor and a power source. | 07-04-2013 |
20130168707 | ARRAY SUBSTRATE STRUCTURE OF DISPLAY PANEL AND METHOD OF MAKING THE SAME - An array substrate structure of a display panel includes a substrate, a plurality of first wirings, a first patterned insulating layer, a plurality of second wirings, a plurality of first protective patterns, and a plurality of second protective patterns. The substrate has a wiring region. The first wirings are disposed in the wiring region. The first patterned insulating layer is disposed on the first wirings. The second wirings are disposed on the first patterned insulating layer. The first protective patterns are disposed in the wiring region and disposed on the corresponding second wiring, respectively, where the first protective pattern includes a semiconductor material. The second protective patterns are disposed on the corresponding first protective pattern, respectively, where the second protective pattern includes an inorganic insulating material. | 07-04-2013 |
20130163204 | DISPLAY DEVICE AND ASSEMBLY METHOD THEREOF - A display device includes a rear bezel, a display panel and at least two heat dissipation sheets. The display panel is disposed on the rear bezel. The display panel includes at least one power line having an extension direction. The heat dissipation sheets are disposed between the rear bezel and the display panel. The heat dissipation sheets have at least one seam formed therebetween. The at least one seam is substantially parallel to the extension direction of the at least one power line. | 06-27-2013 |
20130161625 | ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an array substrate includes the following steps. A first conductive layer, a gate insulating layer, a semiconductor layer, an etching stop layer, and a first patterned photoresist are successively formed on a substrate. The etching stop layer and the semiconductor layer uncovered by the first patterned photoresist are then removed by a first etching process. A patterned gate insulating layer and a patterned etching stop layer are then formed through a second etching process. The first conductive layer uncovered by the patterned gate insulating layer is then removed to form a gate electrode. The semiconductor layer uncovered by the patterned etching stop layer is then removed to form a patterned semiconductor layer and partially expose the patterned gate insulating layer. | 06-27-2013 |
20130155689 | LIGHT EXTRACTION FILM AND LIGHT EMITTING DEVICE USING THE SAME - The present invention provides a light extraction film including a micro-lens array film and at least one optical film. The micro-lens array film has a first surface and a second surface opposite to each other, and has a plurality of micro-lenses disposed on the first surface. The optical film covers the first surface, and the optical film includes a plurality of optical particles and a thin film layer. The optical particles are disposed in the thin film layer. | 06-20-2013 |
20130155654 | DISPLAY DEVICE AND RESILIENT FRAME THEREOF - A display device includes a display module and a frame. The frame is made of a resilient material. The frame includes a sidewall, a first securing portion and a second securing portion. The first securing portion extends from a top end of the sidewall. The second securing portion extends from a bottom end of the sidewall, and the second securing portion is opposite to the first securing portion. A containing space enclosed by the first securing portion, the second securing portion and the sidewall is configured to contain sides of the display module. The frame secures the display module through resilience of the resilient material. | 06-20-2013 |
20130155057 | THREE-DIMENSIONAL INTERACTIVE DISPLAY APPARATUS AND OPERATION METHOD USING THE SAME - A three-dimensional interactive display apparatus includes a display panel, two light source generators and a processing circuit. The two light source generator generators are configured to respectively emit two lights according to a predetermined sequence, and emission periods of the two second light source generators are configured to not overlap. The processing circuit is configured to sequentially obtain a plurality of images through sensing the two lights by a plurality light sensors, determine the corresponding light source generator of each one image according to the predetermined sequence, and further determine position information of the corresponding light source generator according to image information of the one image. An operation method of the aforementioned three-dimensional interactive display apparatus is also provided. | 06-20-2013 |
20130155035 | METHOD FOR DRIVING PIXEL CIRCUITS - A method for driving a pixel circuit, which is adapted to drive a first pixel circuit coupled to a first gate line and a second pixel circuit coupled to a second gate line, is disclosed. The first pixel circuit receives display data before the second pixel circuit does. The method provides only one first enable pulse to the first gate line in a frame, and provides a second enable pulse and a third enable pulse to the second gate line in the same frame. The starting time of the second enable pulse is in an enabled time period of the first enable pulse, and the enabled time period of the third enable pulse is after the enabled time periods of the first and second enable pulses. | 06-20-2013 |
20130153753 | LIGHT SENSING APPARATUS AND ADJUSTMENT METHOD THEREOF - A light sensing apparatus includes a light sensing module, a signal conversion module and a processing module. The light sensing module is configured to output a first and second sense signals according to a light intensity emitting thereon. The signal conversion module is electrically coupled to the light sensing module and configured to receive the first and second sense signals and output a sense value according to a relative difference between the first and second sense signals, The comparison module is electrically coupled to the signal conversion module and configured to adjust a light sensing characteristic of the light sensing module according to the sense value so as to adjust a light sensing characteristic of the light sensing module. An adjustment method for a light sensing apparatus is also provided. | 06-20-2013 |
20130153270 | FLEXIBLE DISPLAY - A flexible display including a flexible substrate, an array circuit layer, a protection film, and an adhesive layer is provided. The flexible substrate has a first surface and a second surface, disposed opposite to each other. The array circuit layer is disposed on the second surface of the flexible substrate. The protection film is disposed on the first surface of the flexible substrate. The adhesive layer is disposed between the protection film and the flexible substrate, and has a thickness, substantially greater than or equal to 30 micrometers. | 06-20-2013 |
20130152993 | SOLAR CELL AND SOLAR CELL MODULE - The present invention provides a solar cell including a substrate, a first front bus, and a first rear bus. The substrate has a front surface and a rear surface. The first front bus is located on the front surface of the substrate along a first direction for collecting current generated by the substrate, and for providing a first front contact electrode. The first rear bus is located on the rear surface of the substrate along a second direction different from the first direction for collecting current generated by the substrate, and for providing a first rear contact electrode. | 06-20-2013 |
20130147782 | DATA DRIVING APPARATUS AND OPERATION METHOD THEREOF AND DISPLAY USING THE SAME - A data driving apparatus includes two data driving circuits, each including a timing controller with a clock generator and configured to receive a specific portion of data corresponding to a row of pixel in an image frame, and, after receiving the specific portion of the data, process the portion of the data; wherein the two timing controllers have different data operation times. One timing controller outputs an enable command to another one once the processing of the respective portion of the data is complete. Then, another timing controller starts to process the respective portion of the data and output an output command to the first data driving circuit in response to a finish of the processing of the second portion of the data and thereby controlling the two data driving circuits to output the processed data. An operation method thereof and a display using the same are also provided. | 06-13-2013 |
20130147689 | PIXEL STRUCTURE OF ELECTROLUMINESCENT DISPLAY PANEL - A pixel structure of electroluminescent display panel has a first sub-pixel region, a second sub-pixel region, and a third sub-pixel region. The pixel structure of electroluminescent display panel includes a first organic light-emitting layer, and a second organic light-emitting layer. The first organic light-emitting layer is disposed in the first sub-pixel region for generating a first primary color light in the first sub-pixel region. The second organic light-emitting layer is disposed in the second sub-pixel region, and the third sub-pixel region for generating a second primary color light in the second sub-pixel region, and for generating a third primary color light in the third sub-pixel region. The first sub-pixel region, the second sub-pixel region, and the third sub-pixel region have different cavity lengths. | 06-13-2013 |
20130140535 | PIXEL STRUCTURE OF AN ELECTROLUMINESCENT DISPLAY PANEL - A pixel structure of an electroluminescent display panel includes a first sub-pixel region, a second sub-pixel region, a third sub-pixel region and a fourth sub-pixel region having different cavity lengths. The first sub-pixel region and the second sub-pixel region share a first organic light-emitting layer, which can generate a first primary color light in the first sub-pixel region, and a second primary color light in the second sub-pixel region. The third sub-pixel region and the fourth sub-pixel region share a second organic light-emitting layer, which can generate a third primary color light in the third sub-pixel region, and a fourth primary color light in the fourth sub-pixel region. The first primary color light, the second primary color light, the third primary color light and the fourth primary color light have different spectra of wavelength. | 06-06-2013 |
20130140533 | PIXEL STRUCTURE OF ELECTROLUMINESCENT DISPLAY PANEL - A pixel structure of electroluminescent display panel has a first sub-pixel region, a second sub-pixel region and a third sub-pixel region. The pixel structure of electroluminescent display panel includes a first organic light-emitting layer and a second organic light-emitting layer. The first organic light-emitting layer, which includes a first organic light-emitting material, is disposed at least in the first sub-pixel region and the second sub-pixel region. The second organic light-emitting layer, which includes a second organic light-emitting material and a third organic light-emitting material, is disposed at least in the second sub-pixel region and the third sub-pixel region. The first organic light-emitting layer and the second organic light-emitting layer overlap in the second sub-pixel region. The first sub-pixel region and the third sub-pixel region have different cavity lengths. | 06-06-2013 |
20130134425 | ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREOF - A manufacturing method of an array substrate includes the following steps. A gate electrode and a gate insulator layer are successively formed on a substrate. A semiconductor layer, an etching stop layer, a hard mask layer, and a second patterned photoresist are successively formed on the gate insulator layer. The second patterned photoresist is employed for performing an over etching process to the hard mask layer to form a patterned hard mask layer. The second patterned photoresist is employed for performing a first etching process to the etching stop layer. The second patterned photoresist is then employed for performing a second etching process to the semiconductor layer to form a patterned semiconductor layer. The etching stop layer uncovered by the patterned hard mask layer is then removed for forming a patterned etching stop layer. | 05-30-2013 |
20130128616 | FOAMING MATERIAL FRAME AND DISPLAY STRUCTURE USING THE SAME - A foaming material frame is provided and can be utilized in a display structure. The foaming material frame includes a base plate and a sidewall. The base plate includes a loading portion and a suppressing portion connected to at least one side of the loading portion. A reflectance of the suppressing portion is smaller than a reflectance of the loading portion. An area of the loading portion is equal to or greater than a display zone of the display structure. The sidewall stands upright around the base plate. A display structure using the foaming material frame is also provided. | 05-23-2013 |
20130128445 | ELECTRONIC PRODUCT WITH VIDEO DISPLAY AND METHOD FOR ASSEMBLING THE SAME - An electronic product with a video display comprises a protection sheet, a display device and a shell, wherein the display device comprises a display panel and a driver unit. The display panel has a peripheral circuit area and a display surface attached to the protection sheet. The driver unit is fixed on the protection sheet and electrically connected to the peripheral circuit area. The shell which has a bottom surface and an opening opposite to the bottom surface is used to contain the display device and the protection sheet, wherein the protection sheet covers the opening, and the display device is disposed between the protection sheet and the bottom surface of the shell. | 05-23-2013 |
20130127818 | PIXEL CIRCUIT AND DRIVING METHOD THEREOF - A driving method of a pixel circuit, implemented with five transistors and two capacitors, includes steps of: supplying three control signals and a gate signal to the pixel circuit; modulating an operation state of each control signal and keeping the gate signal being disable so as to reset data of the pixel circuit and have an voltage compensation effect on the pixel circuit; and enabling the gate signal so as to operate the pixel circuit in a data writing period, and supplying, in the data writing period, a data voltage to the pixel circuit so as to change a terminal voltage of a driving transistor, which is used to drive the light-emitting device. A pixel circuit is also provided. | 05-23-2013 |
20130127801 | DISPLAY PANEL - A display panel includes a plurality of first driving switches installed at a first side of the display panel, a plurality of second switches installed at a second side of the display panel, a plurality of first data lines, a plurality of second data lines, a plurality of scan lines, and a plurality of pixels. Each of the first driving switches includes a first input end and a plurality of first output ends. Each of the second driving switches includes a second input end and a plurality of second output ends. The first data lines are electrically connected to the first output ends. The second data lines are electrically connected to the second output ends. The plurality of pixels are electrically connected to the plurality of first data lines, second data lines and scan lines for displaying images. The first data lines and the second data lines are arranged interlacedly. | 05-23-2013 |
20130127792 | ELECTRONIC WRITING SYSTEM AND OPERATING METHOD THEREOF - The present disclosure provides an electronic writing system including a holder, a light guide plate, at least one light source, and at least one optical film. The light guide plate is disposed in the holder, and the light guide plate has at least one light entrance surface and a light exit surface. The light source is disposed on the light entrance surface of the light guide plate, and is used for generating a light. The light enters the light guide plate through the light entrance surface, and the light emits out of the light guide plate from the light exit surface. The optical film covers the light exit surface of the light guide plate. | 05-23-2013 |
20130127374 | ORGANIC LIGHT-EMITTING DEVICE AND CONTROL METHOD THEREOF - An organic light-emitting device includes a first transparent substrate, an organic light-emitting diode and a bi-stable light control element. The organic light-emitting diode is disposed under the first transparent substrate. The bi-stable light control element is disposed under the organic light-emitting diode. The bi-stable light control element is configured to change an optical state thereof according to a received control signal and thereby changing the amount of lights capable of emitting through the bi-stable light control element. A control method for the aforementioned organic light-emitting device is also provided. | 05-23-2013 |
20130121021 | COMPOSITE OPTICAL FILM AND BACKLIGHT MODULE USING THE SAME - The present disclosure provides a composite optical film including a brightness enhancement film, a high refractive-index layer, and an intermediate layer. The brightness enhancement film has a plurality of brightness enhancement structures parallel to each other, and a top surface and a bottom surface opposite to each other. The brightness structures are disposed on the top surface. The high refractive-index layer is disposed on the bottom surface, and includes a film and a plurality of inorganic nano-particles disposed within the film. The intermediate layer is disposed between the brightness enhancement film and the high refractive-index layer. | 05-16-2013 |
20130120681 | LIQUID CRYSTAL DISPLAY DEVICE - An exemplary liquid crystal display device includes a data line, a pixel, a first gate line, a second gate line, an additional electrode and an additional gate line. The pixel includes a first sub-pixel and a second sub-pixel. The first gate line is electrically coupled to the first sub-pixel. The second gate line is electrically coupled to the second sub-pixel. The first sub-pixel is electrically coupled to the data line to receive a signal provided from the data line. The second sub-pixel is electrically coupled to the first sub-pixel through the additional electrode and to receive a signal provided from the data line through the first sub-pixel. The additional gate line is arranged crossing over the additional electrode and whereby a compensation capacitance is formed between the additional gate line and the additional electrode. | 05-16-2013 |
20130114783 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural shift register stages for providing plural gate signals. Each shift register stage includes a pull-up unit, a pull-up control unit, an input unit, a first pull-down unit, a second pull-down unit, and a pull-down control unit. The pull-up control unit generates a first control signal according to a driving control voltage and a first clock. The pull-up unit pulls up a corresponding gate signal according to the first control signal. The input unit is utilized for inputting the gate signal of a preceding shift register stage to become the driving control voltage according to a second clock having a phase opposite to the first clock. The pull-down control unit generates a second control signal according to the driving control voltage. The first and second pull-down units pull down the corresponding gate signal and the first control signal respectively according to the second control signal. | 05-09-2013 |
20130114290 | DISPLAY MODULE - A display module includes a metal rear bezel, a backlight module, a driver circuit board and a heat dissipation film. The metal rear bezel includes a carrier surface and a back surface opposite to the carrier surface. The backlight module includes a light reflective sheet disposed on the carrier surface. The light reflective sheet includes a light reflective sheet and a heat dissipation surface opposite to the light reflective sheet. The driver circuit board is attached to the back surface of the metal rear bezel. The heat dissipation film is disposed on the heat dissipation surface. At least a portion of the heat dissipation film is overlapped with the driver circuit board. | 05-09-2013 |
20130113686 | DISPLAY DEVICE - A display device includes a substrate, a plurality of pixels, a plurality of gate lines, and a plurality of data lines. The plurality of pixels is formed on the substrate. The plurality of gate lines is formed on the substrate and for deciding whether to enable the pixels. The plurality of data lines is formed on the substrate and intersecting with the gate lines and for supplying display data to the pixels. Each two neighboring ones of at least a part of the data lines has one or multiple gate fan-out lines arranged therebetween, and each of the gate fan-out lines is electrically coupled to a corresponding one of the gate lines and for supplying driving signals to the corresponding gate line. | 05-09-2013 |
20130113384 | LIGHTING SYSTEM HAVING INTERLACED DRIVING MECHANISM - A lighting system includes a first lighting unit for generating output light according to a first current, a second lighting unit for generating output light according to a second current, a third lighting unit for generating output light according to a third current, a fourth lighting unit for generating output light according to a fourth current, a first power driving unit electrically connected to the first and third lighting units, and a second power driving unit electrically connected to the second and fourth lighting units. The second lighting unit is disposed between the first and third lighting units. The third lighting unit is disposed between the second and fourth lighting units. The first power driving unit is employed to drive the first and third currents. The second power driving unit is employed to drive the second and fourth currents. | 05-09-2013 |
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 |
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 |
20130100103 | DRIVING METHOD OF BI-STABLE DISPLAY PANEL - A driving method of a bi-stable display panel includes: providing a handwriting period; and configuring, at an end of the handwriting period, the bi-stable display panel to be driven by dc non-balance to display an image to be displayed. | 04-25-2013 |
20130100080 | OPTICAL TOUCH CIRCUIT AND LIQUID CRYSTAL DISPLAY DEVICE USING SAME - In an exemplary optical touch circuit and a LCD device using the same, an optical sensing unit is turned on or off according to an irradiation light intensity and accordingly generates a first signal. A first signal readout unit is electrically coupled to the optical sensing unit and turned on or off according to a first operation timing sequence and accordingly outputs the first signal. A touch reference unit is for providing a reference voltage. A second signal readout unit is turned on or off according to a second operation timing sequence and accordingly outputs the reference voltage. The touch sensing unit is electrically coupled to the first and second signal readout units and uses a voltage difference between the first signal and the reference voltage as a basis to determine that whether the optical touch circuit is touched or not. | 04-25-2013 |