| AU OPTRONICS CORP. Patent applications |
| Patent application number | Title | Published |
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| 20120129286 | PIXEL STRUCTURE OF DISPLAY AND METHOD FOR MANUFACTURING THE SAME - A pixel structure of a display including a first substrate, a second substrate, and a liquid crystal (LC) layer disposed therebetween. The pixel structure comprises a plurality of first, second, and third sub-pixels; a plurality of alignment controlling patterns, respectively formed in the first, second and third sub-pixels for controlling alignment direction of LC molecules of the LC layer; a plurality of opaque regions, respectively formed in the first, second, and third sub-pixels, and substantially aligned with the portion of the alignment controlling patterns, so that the alignment controlling patterns are shielded by the substantially corresponded opaque regions having different areas in at least two of the colored sub-pixels. | 05-24-2012 |
| 20120120130 | Displayer and Pixel Circuit Thereof - A displayer and a pixel circuit thereof are provided. The displayer comprises the pixel circuit and a driving circuit for supplying a driving voltage to the pixel circuit. The pixel circuit belongs to a two data lines and one gate line architecture and comprises two pixel electrodes at least. The two pixel electrodes belong to the same pixel type and are positioned adjacent to each other. Thereby, the pixel circuit can improve the color shift effectively. | 05-17-2012 |
| 20120120117 | DRIVING METHOD OF HALF-SOURCE-DRIVING (HSD) DISPLAY DEVICE - A HSD display device is adapted to receive data from a signal source and includes multiple pixel sets. Each pixel sets includes first pixel and second pixel. The first pixel is electrically coupled to a first data line and a first gate line. The second pixel is electrically coupled to the first pixel and a second gate line. The first gate line and the second gate line respectively are for controlling the first pixel and the second pixel whether to receive the data. In a driving method of the HSD display device, a common voltage is provided to the first and second pixels, and the common voltage is modulated to have two different voltage levels at a same side of a data central voltage. The data central voltage is an average of data voltages with different polarities from the signal source for displaying a same gray level. | 05-17-2012 |
| 20120120035 | LCD PANEL - A LCD panel with an improved pixel array configuration is provided. The LCD panel uses a column inversion driving method to drive the data lines so as to achieve a stable common voltage. Moreover, by cross-connecting the layout traces of the wiring zone in a specified manner, the gate pulses outputted from every two gate lines neighboring the sub-pixel are not overlapped with each other, so that the frame can be normally displayed. | 05-17-2012 |
| 20120120034 | LCD PANEL - A LCD panel includes an invisible zone and a visible zone. The invisible zone includes a gate driver and a wiring zone, wherein the gate driver sequentially outputs six pulse signals. By the wiring zone, a first pulse signal is converted into a first gate driving signal of the visible zone, a second pulse signal is converted into a fourth gate driving signal of the visible zone, a third pulse signal is converted into a fifth gate driving signal of the visible zone, a fourth pulse signal is converted into a second gate driving signal of the visible zone, a fifth pulse signal is converted into a third gate driving signal of the visible zone, and a sixth pulse signal is converted into a sixth gate driving signal of the visible zone. | 05-17-2012 |
| 20120119675 | POWER CONVERSION CIRCUIT FOR LIGHT EMITTING DIODE - A power conversion circuit for light emitting diode includes a voltage converter. The voltage converter has two receiving terminals and two output terminals. The two receiving terminals of the voltage converter are electrically coupled to the direct current power supply, and the output terminals output corresponding direct current signals according to the received direct current power supply, to drive a light emitting diode string. One of the output terminals has a positive potential, and another output terminal has a negative potential. | 05-17-2012 |
| 20120115265 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A substrate comprising a thin-film-transistor (TFT) region, a pixel region, a gate-line region and a data-line region is provided. A transparent conductive layer and a first metal layer are orderly formed on the substrate. A conductive stack layer is formed within each of the TFT/pixel/gate-line regions and the end of the data-line region. Next, a first insulating layer and a semiconductor layer are orderly formed, and a patterned first insulating layer and a patterned semiconductor layer are formed above the conductive stack layer within the TFT region. Then, a second metal layer and a first photoresist layer are respectively formed. Afterwards, the second and the first metal layers are patterned by using the first photoresist layer as a photomask. Finally, the first photoresist layer is reflowed by heat, and part of the reflowed first photoresist layer covers a channel formed within the TFT region. | 05-10-2012 |
| 20120113351 | BACKLIGHT MODULE - A backlight module is disclosed, which includes an outer frame having a sidewall and a hole formed on the sidewall, an inner frame disposed inside of the outer frame, and an adhesive device. The inner frame includes a block wall and a support. The block wall has an inner surface, an outer surface, and a rework section. The outer surface is in contact with the sidewall, and the rework section is disposed corresponding to the hole. The adhesive device is disposed on the support. | 05-10-2012 |
| 20120113070 | GATE DRIVER CIRCUIT AND ARRANGEMENT METHOD OF THE SAME - An arrangement method, applied to a plurality of gate driver modules coupled in series and arranged on two sides of a panel, includes steps of: placing a first gate driver module on a first side of the panel; placing a gate driver set on a second side of the panel; and placing a fourth gate driver module on the first side of the panel. The gate driver set includes a second gate driver module and a third gate driver module serially connected. The output terminal of the first gate driver module is electrically coupled to the second gate driver module and the output terminal of the third gate driver module is electrically coupled to the fourth gate driver module. A gate driver circuit and an arrangement method applied to a plurality of shift register sets coupled in series and arranged on two sides of a panel are also disclosed. | 05-10-2012 |
| 20120105438 | THREE-DIMENSIONAL IMAGE INTERACTIVE SYSTEM AND POSITION-BIAS COMPENSATION METHOD OF THE SAME - A position-bias compensation method, applied to a three-dimensional image interactive system, includes steps of: displaying a three-dimensional image and setting a trigger position in a preset interactive coordinate system according to a default position of a user; obtaining a position-bias of a user's position from the default position; and resetting the trigger position according to the position-bias. | 05-03-2012 |
| 20120105403 | OPTICAL SENSE-CONTROL SYSTEM - An optical sense-control system, for receiving a first and second lights, includes: a first and a second optical filters, wherein the transmission of the first light having a majority intensity in a first wave-length band is greater than the that of the second light having a majority intensity in a second wave-length band in the first optical filter, the first wave-length band is less than the second wave-length band, and the transmission of the second light is greater than the that of the first light in the second optical filter; and a optical detection module, arranged in a side of the first and the second optical filters, for creating a first control signal while detecting the first light emitting through the first optical filter at a first zone and creating a second control signal while detecting the second light emitting through the second optical filter at a second zone. | 05-03-2012 |
| 20120105338 | SHIFT REGISTER AND TOUCH DEVICE - A touch device includes gate lines, pixels, sense control lines and sense units. Each pixel is connected to one of the gate lines and is decided whether to receive data according to a voltage on the gate line. Each the sense unit is connected to one of the sense control lines and is decided whether to perform a touch sense operation according to a voltage on the sense control line. The touch device further includes a shift register string including cascade-connected shift registers. Each shift register has first and second output terminals. The first output terminal provides an output to one of the gate lines according to a first clock signal to control the voltage on the gate line. The second output terminal provides an output to one of the sense control lines according to a second clock signal to control the voltage on the detection control line. | 05-03-2012 |
| 20120104936 | ILLUMINATION DEVICE - An illumination device includes a transparent substrate and multiple first metal lines. The transparent substrate includes an emitting area and a peripheral area and the emitting area includes multiple sub-emitting areas. The first metal lines are disposed on the transparent substrate, each first metal line has an end connected to a corresponding one of the sub-emitting areas and an opposite end connected to the peripheral area. Each sub-emitting area includes an insulating layer, a second metal line and an OLED layer. The second metal line is disposed between the transparent substrate and the OLED layer, the insulating layer is between the first metal lines and the second metal line, each first metal line is overlapped with the second metal line in vertical projection. One of the first metal lines, which is connected to a first one of the sub-emitting areas, passes through a second one of the sub-emitting areas. | 05-03-2012 |
| 20120104400 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A lower substrate for a liquid crystal display device and the method of making the same are disclosed. The method includes steps of: (a) providing a substrate; (b) forming a patterned transparent layer having plural recess on the substrate; (c) forming a first barrier layer on the surface of the recess; (d) coating a first metal layer on the first barrier layer and making the surfaces of the first metal layer and the transparent layer in substantially the same plane; and (e) forming a first insulated layer and a semi-conductive layer in sequence. The method further can optionally comprise the steps of: (f) forming a patterned second metal layer, wherein part of the semi-conductive layer is exposed, thus forming the source electrode and the drain electrode; and (g) forming a transparent electrode layer on part of the transparent layer and part of the second metal layer. | 05-03-2012 |
| 20120093276 | GATE-ON ARRAY SHIFT REGISTER - A gate-on array shift register includes a signal-input unit, a control transistor and at least three stable modules. The signal-input unit receives and outputs a previous-stage output signal. The control terminal of the control transistor is electrically coupled to the signal-input unit for receiving the previous-stage output signal. The control transistor outputs corresponding output signal on output terminal of the shift register according to the previous-stage output signal. Each of the stable modules is electrically coupled to the control terminal of the control transistor and the output terminal of the shift register to stabilize voltage of the terminals. | 04-19-2012 |
| 20120087152 | Light Guiding Structure of a Light Guide Plate - A light guiding structure of a light guide plate is provided. The light guiding structure comprises a plurality of protrusion ridge portions extending along a longitudinal direction. The height or the vertex angle of each protrusion ridge portion periodically or randomly varies along the longitudinal direction. | 04-12-2012 |
| 20120086694 | PIXEL CIRCUIT AND DISPLAY PANEL WITH IR-DROP COMPENSATION FUNCTION - A pixel circuit and a display panel with an IR-drop compensation function are disclosed. The display panel includes multiple pixel circuits and multiple compensation circuits. Each of the pixel circuits includes a detecting switch. After a real work voltage of a pixel circuit is transmitted to a corresponding compensation circuit through a corresponding detecting switch, a data transmitted to the pixel circuit is adjusted by the compensation circuit according to a relationship between the real work voltage and an original work voltage. | 04-12-2012 |
| 20120086011 | DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A display panel includes a substrate having a display area and a blank area. The blank area includes at least one of a non-metal line region and a metal-line region. The non-metal line region includes a plurality of insulating patterns and a first conductive pattern layer formed on the substrate. The insulating patterns are isolated from each other by the first conductive pattern layer. The metal-line region includes an insulating multilayer formed on the substrate and a conductive pattern layer formed on the insulating multilayer. Several isolated zones are formed by the conductive pattern layer on the surface of the insulating multilayer. | 04-12-2012 |
| 20120080951 | POWER SOURCE CIRCUIT AND POWER SOURCE MANAGEMENT METHOD THEREOF - A power source circuit includes a power source detection unit, a control unit and a switch unit. The power source detection unit detects whether a plurality of power sources including a green power source is supplied to the power source circuit, and detects and outputting a power value of the green power source. In addition, the control unit is electrically coupled to the power source detection unit and a load, and the control unit further detects a power consumption value of the load, to generate a switch signal to the switch unit according to the power consumption value of the load and a result detected by the power source detection unit. Therefore, the switch unit selects the green power source and at least one of other power sources thereof to supply electric power to the load when necessary. | 04-05-2012 |
| 20120077297 | Conductor Structure, Pixel Structure, and Methods of Forming the Same - A method for forming a conductor structure is provided. The method comprises: ( | 03-29-2012 |
| 20120070607 | IMPACT-RESISTIVE DISPLAY DEVICE - A display device includes a display panel, a polarizing sheet, a transparent adhesive layer and a transparent protective layer. The polarizing sheet is attached onto a surface of the display panel and has a cut corner. The transparent adhesive layer covers a surface of the polarizing sheet distal from the display panel. The transparent protective layer is attached to the polarizing sheet through the transparent adhesive layer and completely covers the polarizing sheet. Area of the polarizing sheet is smaller than that of the transparent protective plate. | 03-22-2012 |
| 20120069256 | PIXEL STRUCTURE, VERTICAL ALIGNMENT MODE LIQUID CRYSTAL DISPLAY DEVICE AND PIXEL DRIVING METHOD OF LIQUID CRYSTAL DISPLAY DEVICE - A pixel structure adapted to a vertical alignment (VA) mode liquid crystal display (LCD) device is provided. The pixel structure includes a plurality of comb-shaped electrodes and a plurality of pixel transistors. The comb-shaped electrodes are interdigitated in a pairwise manner and thereby constitute at least one comb-shaped electrode pair. The pixel transistors respectively are electrically coupled to the comb-shaped electrodes. The comb-shaped electrodes respectively are electrically coupled to receive a plurality of data voltages through the respective pixel transistors and whereby at least a part of the data voltages are different, and the data voltages received by the two comb-shaped electrodes of each comb-shaped electrode pair are different from each other. Moreover, a VA mode LCD device using the pixel structure and a pixel driving method adapted thereto are also provided. | 03-22-2012 |
| 20120063070 | VIBRATILE DISPLAY DEVICE - A vibratile display device includes a back plate, a panel assembly and at least one flexible pin. The back plate has a plurality of first fixing holes. The panel assembly is fixed to the back plate and includes a base and a display panel. The base has a carrier portion and a plurality of lugs extending outward from the carrier portion. Each lug has at least one second fixing hole corresponding to the first fixing holes. The display panel is disposed on the carrier portion of the base. An insert portion of the flexible pin is inserted into the first fixing hole of the back plate, and a neck portion of the flexible pin is inserted into the corresponding second fixing hole. A lean portion of the flexible pin is located between the base and the back plate. A top portion of the flexible pin protrudes a surface of the lugs. | 03-15-2012 |
| 20120062534 | COMPENSATION CIRCUITRY OF GATE DRIVING PULSE SIGNAL AND DISPLAY DEVICE - A compensation circuitry of gate driving pulse signal is adapted to receive a gate driving pulse signal and includes a pre-processing circuit, a peak detector, a discharge circuit, a voltage buffer and a charge pump circuit. The pre-preprocessing circuit performs a pre-processing operation to the gate driving pulse signal to adjust a voltage thereof. The pre-processed gate driving pulse signal then is transmitted to the peak detector for obtaining a peak voltage after a charging operation, and also is transmitted to the discharge circuit to determine whether to enable the discharge circuit so that providing the peak detector with a discharge loop when the discharge circuit is enabled. The charge pump circuit acquires the peak voltage through the voltage buffer and then modulates a waveform of the gate driving pulse signal according to the peak voltage. A display device using the above compensation circuitry also is provided. | 03-15-2012 |
| 20120062508 | TOUCH SENSING APPARATUS AND TOUCH SENSING METHOD THEREOF - A touch sensing apparatus and a touch sensing method are provided. The touch sensing apparatus includes a plurality of capacitance touch sensors and a post-processing circuit. Each of the capacitance touch sensors determines a value of an output current according to a distance between two electrodes of a touch sensing capacitor thereof. The post-processing circuit performs an integration operation for output currents to obtain a plurality of voltage values. The post-processing circuit further judge whether a touch event occurs according to a voltage difference between two voltage values corresponding to two capacitance touch sensors thereof, to further determine whether calculating a coordinate of a touch position. There is a linear relation between a variation of each of the voltage values and a variation of a distance between the two electrodes of the corresponding touch sensing capacitor. | 03-15-2012 |
| 20120062250 | CAPACITIVE TOUCH SENSOR AND CAPACITIVE TOUCH APPARATUS - An exemplary capacitive touch sensor includes a first wire-like electrode and a second wire-like electrode. The first wire-like electrode includes at least a first main wire and multiple first sub-wires, the first main wire continuously extends along a first direction, and the first sub-wires are electrically connected with the first main wire. The second wire-like electrode includes at least a second main wire, and the second main wire continuously extends along a second direction different from the first direction. Moreover, the first wire-like electrode and the second wire-like electrode are electrically insulated from each other and each is made of an opaque conductive material. The second main line is arranged crossing over the first main wire. Furthermore, a capacitive touch apparatus using the above-mentioned capacitive touch sensor is provided. | 03-15-2012 |
| 20120055825 | Cushion and Package - A cushion includes a main body, a receiving space, and at least one stand. The main body has a slot therein. The receiving space is disposed in the main body. The stand is telescopically received in the receiving space. | 03-08-2012 |
| 20120038822 | SCALING-UP CONTROL METHOD AND SCALING-UP CONTROL APPARATUS FOR USE IN DISPLAY DEVICE - A scaling-up control method and a scaling-up control apparatus are used in a display device. The display device includes a scaler for converting an original image signal into an output image signal by performing a linear interpolation. Moreover, by utilizing a global locking mechanism and a local locking mechanism to perform the linear interpolation to determine the actual position of the interpolated pixel, the position error of the pixel position is largely reduced. Since the difference between the calculated pixel value and the ideal pixel value is reduced, the imaging quality of the output image signal is enhanced. | 02-16-2012 |
| 20120038622 | LEVEL SHIFTER, METHOD FOR GENERATING CLOCK-PULSE OUTPUT SIGNAL AND CORRESPONDING FLAT DISPLAY DEVICE - A level shifter includes at least one level shift unit for generating a corresponding clock-pulse output signal. The level shift unit receives a corresponding clock-pulse input signal. The clock-pulse output signal successively shares charges with respective auxiliary reference voltage sources to pull up a voltage level of the clock-pulse output signal from the second reference voltage to the first reference voltage. Alternatively, the clock-pulse output signal successively shares charges with respective auxiliary reference voltage sources to pull down the voltage level of the clock-pulse output signal from the first reference voltage to the second reference voltage. | 02-16-2012 |
| 20120038610 | GATE PULSE MODULATING CIRCUIT AND METHOD - A gate pulse modulating circuit includes a timing controller capable of generating an output enable signal and a plurality of timing control signals; a high gate voltage generating unit, electrically connected to the timing controller for receiving the timing control signals, capable of generating a high gate voltage with a waveform including a plurality of cutting edges in response to the timing control signals; a low gate voltage generating unit capable of generating a low gate voltage; and a gate driver, electrically connected to the timing controller for receiving the output enable signal and the high gate voltage generating unit for receiving the high gate voltage and the low gate voltage generating unit for receiving the low gate voltage, capable of generating a plurality of gate pulses in response to a plurality of enable periods of the output enable signal; wherein a waveform of the gate pulses includes a plurality of cutting edges. | 02-16-2012 |
| 20120038603 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural stages of shift registers. Each stage of shift register includes a pull-up circuit, a control signal generator and a voltage-stabilizing circuit. The pull-up circuit is used for charging a first node. The control signal generator 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 control signal generator. The voltage-stabilizing circuit is electrically connected with the output terminal of the control signal generator for stabilizing the control signal from the control signal generator. Some circuits of some other shift registers are controlled according to the control signal. | 02-16-2012 |
| 20120025712 | BACKLIGHT MODULE OF LIQUID CRYSTAL DISPLAY DEVICE - The disclosure provides a backlight module applied to a liquid crystal display device. The backlight module includes: a control circuit for outputting a driving signal according to an analog adjustment signal or a digital adjustment signal; a driving circuit for outputting a lamp voltage according to the driving signal; a fluorescent lamp set, including a plurality of lamps, for receiving the lamp voltage and thereby generating a lamp current; a lamp feedback circuit c for outputting a feedback signal according to the lamp voltage; and a dynamic protection circuit, for dynamically adjusting a protection command signal according to the analog dimming signal or the digital dimming signal, comparing the protection command signal and the feedback signal and thereby outputting a comparing result signal to the control circuit. | 02-02-2012 |
| 20120019160 | LIGHT EMITTING DIODE DRIVING METHOD AND DRIVING CIRCUIT - A LED driving method includes steps of: providing a first pulse width modulation (PWM) signal for determining a brightness of a LED; obtaining a duty cycle of the first PWM signal; and selectively enabling the LED to work with a PWM dimming mode or a direct current (DC) dimming mode according to a relative relationship between a magnitude of the obtained duty cycle and a preset threshold value. Since the LED is performed with a two stage brightness control by use of mixed dimming mode, the driving efficiency of the LED can be improved. | 01-26-2012 |
| 20120013655 | METHOD FOR MODULATING DISPLAY DATA OF FLAT DISPLAY AND FLAT DISPLAY USING THE SAME - A method for modulating display data of a flat display, comprises receiving a display datum with a digital count between a maximum digital count and a minimum digital count; modulating the display datum to correspondingly generate a modulated display datum, wherein the modulated display datum has a digital count same as that of the corresponding display datum when the digital count of the corresponding display datum is the same as the maximum digital count, and the modulated display datum has the digital count less than that of the corresponding display datum when the digital count of the corresponding display datum is less than the maximum digital count, wherein at least one modulated display datum has the digital count less than that of the corresponding display datum; and outputting the modulated display datum. | 01-19-2012 |
| 20120001947 | RGBW DISPLAY APPARATUS AND CONTROL METHOD THEREOF - In an exemplary RGBW display apparatus, a plurality of four-color image output signals and a plurality of mapping scale ratios are generated according to a plurality of three-color image input signals. Furthermore, a backlight output intensity outputted from a backlight module is dynamically adjusted according to the mapping scale ratios and a white color signal adjust ratio is generated. In addition, a white color signal in each of the four-color image output signals is adjusted to be an updated white color signal according to the white color signal adjust ratio. | 01-05-2012 |
| 20120001864 | FLAT PANEL DISPLAY APPARATUS WITH TOUCH FUNCTION AND TOUCH PANEL - A flat panel display apparatus with touch function includes a plurality of scan lines, a plurality of data lines and a plurality of sense units. The data lines are arranged intersecting with the scan lines to divide the flat panel display apparatus into a plurality of pixel regions. The sense units are disposed into some of the pixel regions, and each of the sense units includes a sensor and a digital logic inverter. The sensor is for detecting whether the sense unit is touched and generating a corresponding sense signal. The digital logic inverter is electrically coupled to the sensor for generating an output signal according to the corresponding sense signal. The output signal is one of a first potential and a second potential, the first potential and the second potential are different from each other and respectively represent the sense unit is touched and untouched. | 01-05-2012 |
| 20110317803 | SHIFT REGISTER CIRCUIT AND SHIFT REGISTER - An exemplary shift register circuit includes a plurality of shift registers for sequentially outputting a plurality of driving pulse signals. Among each M number of the shift registers for sequentially outputting M number of the driving pulse signals, the shift register for lastly outputting one of the M number of driving pulse signals is enabled, by (M−1) number of start pulse signals sequentially outputted from the remained (M−1) number of the shift registers, to generate the driving pulse signal. Herein, M is a positive integer greater than 2. Moreover, a circuit structure of a shift register also is provided. | 12-29-2011 |
| 20110317344 | DISPLAY DEVICE, ASSEMBLY METHOD FOR THE DISPLAY DEVICE, ASSEMBLY STRUCTURE OF TWO FRAMES AND ASSEMBLY METHOD FOR THE ASSEMBLY STRUCTURE OF TWO FRAMES - A display device includes a first frame, a second frame, a backlight module and a display panel. The first frame has two plates separated with each other. Each plate includes a first bottom and a first side wall connected with the first bottom, wherein a first joint part is disposed at the first side wall. The second frame has a second side wall and a supporting part extended from the second side wall toward an inside of the second frame. Second joint parts corresponding to the first joint parts are disposed at the second side wall. The first frame and the second frame are assembled by combinations of the first joint parts and the second joint parts. The backlight module is disposed between the first bottoms and the supporting part. The display panel is disposed on the supporting part. | 12-29-2011 |
| 20110317121 | FLAT DISPLAY DEVICE INTEGRATED WITH PHOTOVOLTAIC CELL - A flat display device integrated with a photovoltaic cell is disclosed. The flat display device includes a first substrate, a second substrate, a display medium layer, a first photovoltaic cell, a connecting layer and a conductive structure. The display medium layer is sealed between the first and second substrates. The first photovoltaic cell is disposed on the first substrate. The connecting layer is disposed on the second substrate and is capable of electrically connecting the first photovoltaic cell to an external circuit. The conductive structure is disposed between the first and second substrates, and is electrically connected with the first photovoltaic cell and the connecting layer. | 12-29-2011 |
| 20110316640 | GATE PULSE MODULATION CIRCUIT AND SLOPING MODULATION METHOD THEREOF - Exemplary gate pulse modulation circuit and sloping modulation method applied thereto are provided. The gate pulse modulation circuit has an output terminal and includes a voltage modulation circuit and a comparator control circuit. The voltage modulation circuit is electrically coupled between a gate power supply voltage and a second voltage and subjected to the control of a sloping control signal to perform a sloping operation and then output a sloped voltage signal. The comparator control circuit includes a comparing unit and a switching unit. First and second input terminals of the comparing unit respectively are electrically coupled to a node and a first voltage. During the voltage modulation circuit performing the sloping operation, a magnitude relationship between a voltage on the node and the first voltage decides on-off states of the switching unit and thereby decides the moment of the first voltage delivered to the output terminal. | 12-29-2011 |
| 20110310344 | DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A display panel includes a first substrate, a second substrate and a sealant. The first substrate has a display region and a sealant coating region, the sealant coating region surrounds the display region. The second substrate is disposed above the first substrate. The sealant is disposed between the first substrate and the second substrate and is located in the sealant coating region. The sealant includes at least one corner portion and a plurality of strip-shaped portions. The adjacent strip-shaped portions intersect at the corner portion, and a maximum width of the corner portion is larger than widths of the strip-shaped portions. A manufacturing method of the display panel is also provided. | 12-22-2011 |
| 20110304780 | DISPLAY APPARATUS AND DISPLAY CONTROL CIRCUIT THEREOF - A display apparatus has a housing, a base, a system board and a display panel. The base is connected to the housing such that the display apparatus is disposed on a flat surface. The system board is disposed in the housing and has a control system for performing an up-down inversing process for an image transmitted from a signal source. The display panel has a timing controller and a pixel array. Specifically, the display panel is put upside down in the housing such that the pixel array is also upside down, and the timing controller is adjacent to the location connecting the base with the housing. The timing controller is coupled to the system board, to perform a left-right mirroring process for the up-down inversed image. | 12-15-2011 |
| 20110304660 | DISPLAY DEVICE DRIVING METHOD AND DISPLAY DEVICE - An exemplary display device driving method is applied to a display device. The display device includes a pixel array and a data driving circuit. The pixel array has first through fourth pixels. Each of the first through fourth pixels includes first through fourth sub-pixels. In the display device driving method, each of the first through fourth pixels is provided with a data signal. At least one colored sub-pixel is enabled to display a second gray level in turns in multiple frames of a same frequency period, and the remained sub-pixels are enabled to display a first gray level smaller than the second gray level. | 12-15-2011 |
| 20110299151 | E-INK DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An E-ink display device includes an active element array substrate, an E-ink layer, a protective layer and a sealant. The active element array substrate has a surface, and the surface includes a contacting region and a sealing region. The E-ink layer is disposed on the contacting region and has a first side wall, and a first included angle defined between the first side wall and the surface being smaller than 90 degrees or larger than 90 degrees. The protective layer is disposed on the E-ink layer and has a second side wall, and a second included angle defined between the second side wall and the surface is smaller than 90 degrees or larger than 90 degrees. The sealant is disposed on the sealing region and surrounds the E-ink layer and the protective layer. A method for manufacturing the E-ink display device is also provided. | 12-08-2011 |
| 20110298734 | THRESHOLD COMPENSATION METHOD ON TOUCH DEVICE - The disclosure provides a threshold compensation method applied to a touch device including a plurality of touch points. The threshold compensation method includes steps of: selecting at least one of the plurality of touch points as a selected object; obtaining a sensing data of each the touch point of the selected object in each of multiple initializing frequency periods; obtaining a sensing data difference value between the sensing data of each the touch point of the selected object in each adjacent two of the initializing frequency periods; obtaining a maximum sensing data difference value in the multiple sensing data difference values of the selected object in the multiple initializing frequency periods; and setting a default threshold of the selected object according to the maximum sensing data difference value. | 12-08-2011 |
| 20110296671 | Display Modules and Methods of Fixing Flexible Circuit Boards Therein - A method of fixing a flexible circuit board. The method comprises the following steps: providing a flexible circuit board having a locating hole, providing a display module frame having a locating element corresponding to the locating hole, passing the locating element through the locating hole, bonding the flexible circuit board to the frame and deforming the locating element for to fix the flexible circuit board on the frame. | 12-08-2011 |
| 20110292005 | DISPLAY APPARATUS AND METHOD FOR ELIMINATING GHOST THEREOF - A display apparatus includes a plurality of scan lines, a plurality of data lines, a plurality of pixel transistors, a plurality of pixel electrodes, a gate driver, a source driver and a discharge circuit. The data lines are intersected with the scan lines. Each of the pixel transistors is electrically coupled to a corresponding scan line and a corresponding data line, and each of the pixel electrodes is electrically coupled to a corresponding pixel transistor. The gate driver is electrically coupled to the scan lines, and the source driver is electrically coupled to the data lines. The discharge circuit is electrically coupled to the gate driver and the data lines. The discharge circuit starts when the display apparatus is turned off, to control the gate drive for turning on the pixel transistors simultaneously, and make the pixel electrodes be electrically communicated with a reference voltage. | 12-01-2011 |
| 20110285938 | HIGH BRIGHTNESS LIQUID CRYSTAL DISPLAY - The LCD sequentially comprises, from bottom to top, a backlight module, a first polarizer, a first substrate, a liquid crystal layer, a second substrate, and a second polarizer. The second substrate comprises plural transparent areas thereon. The first substrate comprises plural light-focusing arrays. Each of the light-focusing arrays comprises plural high-refractive areas and low-refractive areas disposed between the high-refractive areas. The plural high-refractive areas comprises a first high-refractive area and plural second high-refractive area disposed on two sides of the high-refractive areas symmetrically, wherein the widths of the second high-refractive areas are the same and smaller than the width of the first high-refractive area. | 11-24-2011 |
| 20110285690 | ESD PROTECTION CIRCUIT AND DISPLAY APPARATUS USING THE SAME - An ESD protection circuit comprises three transistors and two voltage dividers. The two source/drain terminals of a first transistor are electrically coupled to a first power line and a second power line respectively. The two source/drain terminals of a second transistor are electrically coupled to the first power line and a gate terminal of the first transistor respectively. The two source/drain terminals of a third transistor are electrically coupled to the gate terminal of the first transistor and the second power line respectively. A first voltage divider supplies a first voltage to a gate terminal of the second transistor according to a potential difference between the first power line and the second power line. A second voltage divider supplies a second voltage to a gate terminal of the third transistor according to the potential difference between the first power line and the second power line. | 11-24-2011 |
| 20110285663 | TOUCH DETECTING METHOD AND FLAT DISPLAY DEVICE WITH IN-CELL TOUCH PANEL - A touch detecting method comprises: enabling a sample signal in a period between driving a previous gate line and a previous two gate line before a corresponding gate line of a sense unit, and sampling a readout signal in a corresponding readout line during a sample period corresponding to the enabled sample signal by a readout unit; using the sampled readout signal during the sample period by the readout unit as a sample reference signal; enabling a sense readout signal in a period between driving the corresponding gate line of the sense unit and a next gate line, and reading out the readout signal during a sense readout period corresponding to the enabled sense readout signal; using the readout signal during the sense readout period as a sense signal; and judging whether the sense unit is touched according to the sample reference signal and the sense signal. | 11-24-2011 |
| 20110285297 | DRIVING CIRCUIT USED FOR CURRENT-DRIVEN DEVICE AND LIGHT EMITTING DEVICE - A driving circuit is adapted to drive a current-driven device. The driving circuit includes a first power supply circuit and a second power supply circuit. The first power supply circuit is for supplying a first positive voltage to a first terminal of the current-driven device. The second power supply circuit is for enabling a current flowing along a first current flow direction in a first time period and thereby a second terminal of the current-driven device is given a second positive voltage. The second power supply circuit further is for enabling a current from the current-driven device flowing out of the second power supply circuit along a second current flow direction. The first current flow direction and the second current flow direction are different directions in the second power supply circuit. Moreover, a light emitting device using the above-mentioned driving circuit also is provided. | 11-24-2011 |
| 20110279491 | DRIVING METHOD OF BISTABLE DISPLAY DEVICE - An exemplary driving method is adapted for a bistable display device including a pixel array. The pixel array includes a plurality of first pixels and a plurality of second pixels arranged in a predetermined manner. The driving method includes the following steps of: during a first time period, providing the first pixels with a first pixel voltage for black insertion and providing the second pixels with a second pixel voltage different from the first pixel voltage; during a second time period following the first time period, providing the first pixels with the second pixel voltage for white insertion and maintaining the second pixels provided with the second pixel voltage for white insertion; and during a third time period following the second time period, initiating the first pixels to display a gray scale image and providing the second pixels with the first pixel voltage for black insertion. | 11-17-2011 |
| 20110279440 | CIRCUIT FOR AMPLIFYING A DISPLAY SIGNAL TO BE TRANSMITTED TO A REPAIR LINE BY USING A NON-INVERTING AMPLIFIER AND LCD DEVICE USING THE SAME - A circuit for amplifying a display signal transmitted to a repair line by using a non-inverting amplifier is disclosed, which comprises a voltage follower, a non-inverting amplifier, a repair line, a thin film transistor (TFT) and a liquid crystal (LC) capacitor. The voltage follower is electrically connected to a data driver chip to thereby provide a display signal to the non-inverting amplifier. The non-inverting amplifier amplifies the display signal to thus obtain an amplified display signal, and transmits the amplified display signal to the TFT and the LC capacitor through the repair line. The amplified display signal is kept at a desired voltage level when the LC capacitor receives the amplified display signal. | 11-17-2011 |
| 20110279435 | DISPLAY DEVICE AND DISPLAYING METHOD THEREOF, AND DRIVING CIRCUIT FOR CURRENT-DRIVEN DEVICE - The present invention provides a display device, a displaying method thereof and a driving circuit for current-driven device. Each pixel of the display device includes a current-driven device and a driving circuit. A first terminal of the current-driven device is electrically coupled to a first preset voltage. The driving circuit includes a switch module and a capacitor. The switch module is electrically coupled to a data signal, a second terminal of the current-driven device and a second preset voltage. The switch module is for determining whether a current is allowed to flow through the current-driven device and setting a value of the current according to the data signal. The capacitor is electrically coupled between a periodically changed resetting signal and the switch module, to couple the resetting signal into the switch module to reset a voltage at a connection node between the capacitor and the switch module. | 11-17-2011 |
| 20110273872 | ELECTRONIC ILLUMINATING DEVICE - An electronic illuminating device includes an illuminating area, a routing area and a control area. The illuminating area includes multiple light-emitting blocks and multiple illuminating area power-supply lines. Each the light-emitting block employs at least one light-emitting element as light source, and further is electrically coupled to a corresponding one of the illuminating area power-supply lines. The routing area includes multiple routing area power-supply lines, and each the routing area power-supply line is electrically coupled to a corresponding one of the illuminating area power-supply lines. The control area provides powers to the routing area power-supply lines. A width of at least one of the illuminating area power-supply lines and the corresponding routing area power-supply line or a length of at least one of the routing area power-supply lines is adjusted, such that differences among resistances between the light-emitting blocks and the control area are within 20%. | 11-10-2011 |
| 20110273760 | DISPLAY DEVICE - A display device includes a display panel, a barrier layer, a protective layer, a first optical adhesive layer and a second optical adhesive layer. The barrier layer is disposed above the display panel. The protective layer is disposed above the barrier layer. The first optical adhesive layer with a first thickness is disposed between the display panel and the barrier layer. The second optical adhesive layer with a second thickness is disposed between the protective layer and the barrier layer. The first thickness is larger than the second thickness. | 11-10-2011 |
| 20110273367 | BACKLIGHT DRIVING METHOD AND DISPLAY DEVICE - Exemplary backlight driving method and display device are provided. The display device includes a light source array. The light source array includes a first group of light-emitting rows and a second group of light-emitting rows. The backlight driving method includes the steps of: firstly, receiving a gate driving frequency of the display device; subsequently, generating a backlight driving frequency according to the gate driving frequency; and afterwards, sequentially providing a first row driving voltage to the first group of light-emitting rows in a first time period and sequentially providing a second row driving voltage to the second group of light-emitting rows in a second time period, according to the backlight driving frequency. The first time period and the second time period have different phases from each other, and the gate driving frequency is different from the backlight driving frequency. | 11-10-2011 |
| 20110263057 | Active Array Substrate, Liquid Crystal Display Panel, and Manufacturing Method Thereof - An active array substrate, liquid crystal display panel, and manufacturing method thereof are provided. The active array substrate includes a base, a plurality of scan lines disposed on the base, a plurality of data lines perpendicular to the scan lines, a plurality of pixel electrodes, a plurality of active devices, in which each active device is connected to the corresponding scan line, data line and pixel electrode to form a pixel region. The height adjust structure, disposed on the active device, the data line or the scan line, can be shaped into a circle, circle-like shape, ellipse, a compact pattern without any acute angle or a compact pattern without any right angle. | 10-27-2011 |
| 20110260630 | ORGANIC LIGHT-EMITTING DIODE DISPLAY - An OLED display includes an OLED panel, two conducting wires and a power supply. A display region of the OLED panel is divided into two sub-display regions. The two conducting wires are both disposed on the panel and out of the display region, and first terminals of the two conducting wires are electrically coupled to pixels in the first sub-display region and the second sub-display region respectively. The length of a conducting wire is longer than that of another conducting wire so that the resistance of the conducting wire is larger than that of the said another conducting wire. The power supply provides a relatively high voltage and a relatively low voltage to the second terminals of the relatively long conducting wire and the relatively short conducting wire respectively, so that the voltages of the first terminals of the two conducting wires are substantially the same. | 10-27-2011 |
| 20110255652 | SHIFT REGISTER - An exemplary shift register includes a control circuit and an output circuit. The control circuit is electrically coupled to receive a start pulse signal, a first clock pulse signal and a power supply voltage and for generating an enable signal according to the start pulse signal and the first clock pulse signal. A logic low level of the first clock pulse signal is lower than a level of the power supply voltage. The output circuit is subjected to the control of the enable signal and for generating a gate driving signal according to a second clock pulse signal. The second clock pulse signal and the first clock pulse signal are phase-inverted with respect to each other, and a logic low level of the second clock pulse signal is higher than the level of the power supply voltage. | 10-20-2011 |
| 20110254783 | TOUCH PANEL - A touch panel includes a plurality of driving lines, a plurality of sensing lines and a plurality of sensing units. The sensing lines are arranged intersecting with the driving lines. The sensing units are arranged in an array, and each of the sensing units is electrically coupled to a corresponding one of the driving lines and a corresponding one of the sensing lines. The driving lines or the sensing lines only pass through a single side of the touch panel. | 10-20-2011 |
| 20110249225 | Active Array Substrate, Liquid Crystal Display Panel, and Manufacturing Method Thereof - An active array substrate, liquid crystal display panel, and manufacturing method thereof are provided. The active array substrate includes a base, a plurality of scan lines disposed on the base, a plurality of data lines perpendicular to the scan lines, a plurality of pixel electrodes, a plurality of active devices, in which each active device is connected to the corresponding scan line, data line and pixel electrode to form a pixel region. The height adjust structure, disposed on the active device, the data line or the scan line, can be shaped into a circle, circle-like shape, ellipse, a compact pattern without any acute angle or a compact pattern without any right angle, and the height auxiliary structure has the curved top surface. | 10-13-2011 |
| 20110248985 | DISPLAY DEVICE, DISPLAY DEVICE DRIVING METHOD AND SOURCE DRIVING CIRCUIT - A display device includes multiple first data lines, multiple second data lines, multiple pixel columns, at least a first charge sharing switch circuit and at least a second charge sharing switch circuit. The second data lines are alternately arranged with the first data lines. Each of the pixel columns includes multiple first pixels and multiple second pixels. The first pixels of each of the pixel columns are coupled to one of the first data lines, and the second pixels of each of the pixel columns are coupled to one of the second data lines. The first charge sharing switch circuit each is electrically coupled to at least a part of the first data lines. The second charge sharing switch circuit each is electrically coupled to at least a part of the second data lines. A display device driving method and a source driving circuit also are provided. | 10-13-2011 |
| 20110241735 | DRIVING CIRCUIT AND DRIVING METHOD FOR CURRENT-DRIVEN DEVICE - A driving circuit and a driving method for drive a current-driven device having a first terminal and a second terminal are provided. The first terminal is coupled to a first power source potential. The driving circuit includes a switching module, a first capacitor and a second capacitor. The switch module is coupled to a data line, the second terminal and a second voltage source and further is for determining whether to allow a current to flow through the current-driven device. A first end and a second end of the first capacitor are respectively coupled to different nodes in the switch module. The first end of the first capacitor receives a potential on the data line in a particular time period. A first end and a second end of the second capacitor are respectively coupled to the second end of the first capacitor and a second power source potential. | 10-06-2011 |
| 20110234642 | METHOD FOR INCREASING BACKLIGHT BRIGHTNESS RESOLUTION AND METHOD FOR MODULATING BACKLIGHT BRIGHTNESS - An exemplary method for increasing backlight brightness resolution is adapted for a non-emissive display device which uses a multi-bit brightness modulation data to modulate a backlight brightness thereof. The method includes the steps of: increasing a provision amount of the multi-bit brightness modulation data in a single frame period of the non-emissive display device; and multiplying a frequency of a brightness modulation signal generated according to the multi-bit brightness modulation data, wherein a multiple of the frequency multiplying is associated with the provision amount of the multi-bit brightness modulation data in the single frame period. The present invention also provides a method for modulating backlight brightness, adapted for a non-emissive display device. | 09-29-2011 |
| 20110230044 | CONTACT STRUCTURE HAVING A COMPLIANT BUMP AND A TESTING AREA AND MANUFACTURING METHOD FOR THE SAME - A contact structure having both a compliant bump and a testing area and a manufacturing method for the same is introduced. The compliant bump is formed on a conductive contact of the silicon wafer or a printed circuit board. The core of the bump is made of polymeric material, and coated with a conductive material. In particular, the compliant bump is disposed on the one side of the conductive contact structure that includes both the bump and the testing area, wherein the testing area allows the area to be functionality tested, so as to prevent damage of the coated conductive material over the compliant bump during a probe testing. | 09-22-2011 |
| 20110228894 | SHIFT REGISTER CIRCUIT AND GATE DRIVING CIRCUIT - An exemplary shift register circuit includes a shift register, a first switching circuit and a second switching circuit. The shift register has a start pulse signal input terminal and a start pulse signal output terminal. The first switching circuit includes a first input switch unit and a second output switch unit respectively electrically coupled to the start pulse signal input terminal and the start pulse signal output terminal. The second switching circuit includes a second input switch unit and a first output switch unit respectively electrically coupled to the start pulse signal input terminal and the start pulse signal output terminal. Moreover, on-off states of the first input and first output switch units are opposite to on-off states of the second input and second output switch units. Moreover, a gate driving circuit using the above-mentioned shift register and switching circuits also is provided. | 09-22-2011 |
| 20110228891 | SHIFT REGISTER - An exemplary shift register includes a plurality of transistors. The transistors are subjected to the control of a start pulse signal, a first clock signal and a second clock signal to generate a gate driving signal. The first clock signal and the second clock signal are phase-inverted with respect to each other. A logic low level of the first clock signal and another logic low level of the second clock signal are different from each other. Moreover, the transistors are negative threshold voltage transistors. A potential at the gate of the each of the transistors is lower than another potential at the source/drain of the transistor at the situation of the transistor being switched-off state. | 09-22-2011 |
| 20110220923 | Conductor Structure, Pixel Structure, and Methods of Forming the Same - A method for forming a conductor structure is provided. The method comprises: (1) providing a substrate; (2) forming a patterned dielectric layer with a first opening which exposes a portion of the substrate; forming a patterned organic material layer on the dielectric layer with a second opening which corresponds to the first opening and expose the exposed portion of the substrate; (3) forming a first barrier layer on the organic material layer and the exposed portion of the substrate; (4) forming a metal layer on the first barrier layer; and (5) removing the organic material layer, the first barrier layer thereon and the metal layer thereon. | 09-15-2011 |
| 20110212606 | Method of Fabricating Thin Film Transistor Structure - A method of fabricating a thin film transistor (TFT) is provided. The method comprises the steps of providing a substrate with a gate electrode formed thereon; forming an insulating layer on the substrate and covering the gate electrode; forming an intrinsic amorphous silicon layer (intrinsic a-Si layer) on the insulating layer; forming an etch-stop layer on the intrinsic amorphous silicon layer, and the etch-stop layer positioned correspondingly to the gate electrode; treating the etch-stop layer to form an oxide layer, and the oxide layer covering the etch-stop layer; forming a n+ a-Si layer above the intrinsic amorphous silicon layer, and the n+ a-Si layer covering partial surface of the etch-stop layer and the oxide layer separating a sidewall of the etch-stop layer and the n+ a-Si layer; and forming a conductive layer on the n+ a-Si layer. | 09-01-2011 |
| 20110204954 | Voltage Level Shifter - A voltage level shifter formed by single-typed transistors comprises two input terminals, two power supply terminals, a plurality of thin-film transistors, and an output terminal. Another voltage level shifter formed by single-typed transistors comprises two input terminals, an output terminal, two power supply terminals, two input units, a first thin-film transistor, a disable unit, a feedback unit, and a second thin-film transistor. The voltage level shifters are formed by single-typed TFTs. When integrating the voltage level shifters into a substrate of a TFT display, the manufacturing processes are simplified. Besides, power is saved. | 08-25-2011 |
| 20110199347 | 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. | 08-18-2011 |
| 20110193833 | Liquid Crystal Display and Pulse Adjustment Circuit Thereof - A liquid crystal display comprises a power supply, a pulse adjustment circuit, and a gate driver. The pulse adjustment circuit is connected between the power supply and the gate driver. The power supply provides power signals. The pulse adjustment circuit adjusts the plurality of pulses of the power signals or selects the appropriate voltage levels for the power signals to have cutting angles or enlarged amplitudes, whereby the influence of the feedthrough voltage on the thin film transistors of the driving circuit would be reduced so that the display quality of the liquid crystal display is improved. | 08-11-2011 |
| 20110187690 | Liquid Crystal Display and Gate Modulation Method Thereof - A gate modulation circuit is provided. A comparator compares a triangular wave voltage of a capacitor with a second reference voltage. If the triangular wave voltage of the capacitor exceeds the second reference voltage, a conduction path is turned off. A comparator controls desired discharge to a capacitor through a discharge resistor. Based on the discharge, power voltage (high level power voltage of the scanning driver) provided to the scanning driver is modulated, and outputted from the gate modulation circuit to the scanning driver as high level power voltage of the scanning driver. | 08-04-2011 |
| 20110185588 | Low-Pressure Process Apparatus - A low-pressure process apparatus for processing a substrate comprises a base, a stage, a housing and at least one first roller set. The stage is disposed on the base for supporting the substrate. The housing is detachably disposed on the base moving between a first position and a second position, wherein when the housing is in a first position, the housing and the base form a chamber to receive the stage. When the housing is detached, the first roller set contacts and supports the housing to facilitate movement thereof in a first horizontal direction. | 08-04-2011 |
| 20110181706 | AUTOSTEREOSCOPIC DISPLAY APPARATUS - An autostereoscopic display apparatus includes a spatial light modulator in which alignment features such as bump features provide radially symmetric alignment of the molecules of the liquid crystal. A parallax element is arranged over the spatial light modulator to direct light from the pixels into different viewing windows. The apertures of the pixels are shaped such that, for each individual row of pixels, a notional line parallel to the geometric axes of the parallax elements has a total length of intersection with the pixels of the row, weighted for the intensity of light modulated by the alignment features, which is the same for all positions of the notional line. This improves angular intensity uniformity. The pixels may each include plural apertures, wherein the alignment features of the apertures of each individual pixel are offset from one another in a direction perpendicular to said geometric axes. This improves angular contrast uniformity. | 07-28-2011 |
| 20110175946 | Transflective liquid crystal display device and method of fabricating the same - A transflective liquid crystal display device. A first substrate having viewing and peripheral areas is provided. The viewing area comprises transmissive and reflective regions. A backlight device is disposed under the first substrate, used to provide a backlight passing through the transmissive region. A power management controller connects the backlight device to control an intensity of the backlight. At least one photodetector is formed on the first substrate in the peripheral area, wherein the photodetector detects an intensity of ambient light above the first substrate, and then provides a corresponding signal to the power management controller to control the intensity of the backlight. According to the invention, the intensity of the backlight automatically becomes greater when the intensity of the ambient light becomes lower, and the intensity of the backlight automatically becomes lower when the intensity of the ambient light becomes greater. | 07-21-2011 |
| 20110175075 | Organic Electro-Luminescence Device - A method of fabricating an organic electro-luminescence device comprising the steps of providing a substrate, an organic chamber, and a sputtering chamber, forming a hole injection layer on the substrate, forming a hole transport layer on the hole injection layer in the organic chamber, forming a light-emitting layer on the hole transport layer in the organic chamber, disposing a metal chelate material on the light-emitting layer and partially doping a CsF compound into the metal chelate material to forming an electron transporting layer in the organic chamber, forming a buffer layer on the electron transporting layer in the organic chamber, transferring the substrate, the hole injection layer, the hole transport layer, light-emitting layer, the electron transporting layer, and the buffer layer form the organic chamber to the sputtering chamber, and forming an electron injection layer on the buffer layer in the sputtering chamber | 07-21-2011 |
| 20110165725 | Pixel Structure and Method for Fabricating the Same - A pixel structure is disclosed. The pixel structure includes a substrate, a first data line having at least one end formed on the substrate, a first insulation layer overlying the first data line and exposing a part of the end of the first data line, a shielding electrode disposed on the first insulation layer and overlapped with the first data line, a second data line formed on the first insulation layer and electrically connected to the exposed end of the first data line, a second insulation layer overlying the shielding electrode and the second data line, and a pixel electrode formed on the second insulation layer and overlapped with the shielding electrode. The invention also provides a method for fabricating the pixel structure. | 07-07-2011 |
| 20110164212 | DISPLAY PANEL USING LASER CUTTING TECHNOLOGY AND THE MOTHER SUBSTRATE THEREOF - A display panel using laser cutting technology and a mother substrate thereof are provided. The display panel comprises two base plates opposite to each other, a sealant and a buffering metal layer. The sealant is disposed between the two base plates. The buffering metal layer formed on the inside surface of at least one of the two base plates is disposed along the sealant. At least a portion of the buffering metal layer is positioned outside the sealant. There is a first distance between the rim of the buffering metal layer and the edge of the base plate. | 07-07-2011 |
| 20110157505 | LIQUID CRYSTAL DISPLAY DEVICE WITH TOUCH FUNCTION AND TOUCH PANEL - A touch panel includes multiple sensing units and each thereof includes a first transistor, a reference capacitor, a liquid crystal capacitor and a second transistor. ON/OFF states of the first transistor are determined by a potential provided by a corresponding scan line. The reference capacitor and the liquid crystal capacitor are coupled in series between another scan line adjacent to the corresponding scan line and a common potential. A capacitance value of the liquid crystal capacitor changes with a pressed degree of the sensing unit. ON/OFF states the second transistor are determined by a potential at a connection node between the reference capacitor and the liquid crystal capacitor. The first transistor transmits a first potential to the connection node when the first transistor is turned on, and the second transistor transmits a second potential different from the first potential to a readout line when the second transistor is turned on. | 06-30-2011 |
| 20110157500 | STEREOSCOPIC DISPLAY DEVICE AND STEREOSCOPIC IMAGE DISPLAYING METHOD - An exemplary stereoscopic display device includes a backlight module, a display panel, and a polarizer panel. The backlight module provides a light source for the stereoscopic display device. The display panel is used for displaying a received image. The polarizer panel includes a plurality of polarizer elements. The states of the polarizer elements are switched by an ON/OFF operation for switching a polarization angle of the polarizer panel. The ON/OFF operation of the polarizer panel includes an enabled time interval and a disabled time interval. The polarizer elements provide two different polarization angles respectively in the enabled and disabled time intervals. The enabled time interval and the disabled time interval have different time lengths from each other. A stereoscopic image displaying method is also disclosed. | 06-30-2011 |
| 20110157243 | DISPLAY APPARATUS AND METHOD FOR DRIVING DISPLAY PANEL THEREOF - A display apparatus and a method for driving a display panel thereof are provided. The display apparatus comprises a display panel and a gate driver. The display panel comprises two gate lines, two source lines, a pixel and two transistors. The pixel is electrically coupled to the two gate lines and the two source lines through the two transistors respectively. The gate driver is for providing a first pulse to one of the gate lines according to a predetermined frequency and providing a second pulse to another one according to the predetermined frequency. An enabling period of the second pulse is behind an enabling period of the first pulse, and a predetermined time interval is existed between a rising edge of the second pulse and a rising edge of the first pulse. The predetermined time interval is longer than a time length of the enabling period of the first pulse. | 06-30-2011 |
| 20110156603 | LIGHT-EMITTING DIODE DRIVING CIRCUIT - An exemplary light-emitting diode (LED) driving circuit includes a LED driving IC, at least a LED string and at least a resistor. The LED string each is electrically coupled between a power source voltage and a control terminal of the LED driving IC and whereby a driving current of the LED string is subjected to the control of the LED driving IC. The resistor each is electrically coupled to between the control terminal and a predetermined potential. Moreover, a LED driving method also is provided. | 06-30-2011 |
| 20110156063 | ORGANIC LIGHT EMITTING DIODE (OLED) DISPLAY DEVICE - An exemplary OLED display device includes a substrate, a colored photo-resist layer and a white OLED arranged in that order. The white OLED includes a reflecting electrode, a transmitting electrode, and an organic white light emitting layer arranged between the reflecting electrode and the transmitting electrode for emitting a white light. The colored photo-resist layer at least includes first through third photo-resist regions, the first through third photo-resist regions contain red pigment particles, green pigment particles and blue pigment particles respectively for extracting red, green and blue light components from the white light. Moreover, the colored photo-resist layer has an expected haze value e.g., greater than 30 by at least utilizing the scattering of the red, green and blue pigment particles and/or mixing of scattering particles that are different from the red, green and blue pigment particles into the first through third photo-resist regions. | 06-30-2011 |
| 20110155460 | SUBSTRATE AND SUBSTRATE BONDING DEVICE USING THE SAME - A substrate and a substrate bonding device using the same are provided. The substrate includes a base, upper and lower metal layers, and upper and lower covering layers. The base has an upper surface, a lower surface and a through-hole passing there through, wherein the upper and lower covering layers respectively covers the upper and lower metal layers respectively disposed on the upper and lower surfaces of the base. The lower metal layer has an electrical bonding portion and a strengthening bonding portion insulated with each other. The strengthening bonding portion enhances the bonding strength between the substrate and another substrate. The upper metal layer is electrically connected to the electrical bonding portion via the through hole. The lower covering layer exposes the electrical bonding portion and the strengthening bonding portion so as to be respectively connected with two bonding portions of the another substrate. | 06-30-2011 |
| 20110148860 | STEREOSCOPIC DISPLAY - A stereoscopic display is proposed. A first display zone and a second display zone are displayed based on light for a first light source group, in response to a first data voltage signal fed to the first display zone and the second display zone, and to a second data voltage signal fed to a third display zone. The second display zone and the third display zone are displayed based on light for a second light source group, in response to the second data voltage signal fed to the first display zone, and to the first data voltage signal fed to the second display zone and the third display zone. The first display zone and the second display zone are displayed based on light from the first light source group, in response to the second data voltage signal fed to the first display zone and the second display zone, and to the first data voltage signal fed to the third display zone. The second display zone and the third display zone are displayed based on light from the second light source group, in response to the first data voltage signal fed to the first display zone, and to the second data voltage signal fed to the second display zone and the third display zone. | 06-23-2011 |
| 20110148859 | METHOD OF DETERMINING POINTING OBJECT POSITION FOR THREE-DIMENSIONAL INTERACTIVE SYSTEM - An exemplary method of determining a pointing object position for three-dimensional interactive system, adapted for an interaction between a pointing object and a three-dimensional interaction display with embedded optical sensors. The method includes the steps of: acquiring a two-dimensional detected light intensity distribution caused by the pointing object acting on the three-dimensional interaction display; obtaining two light-shading intensity maximum values according to the two-dimensional detected light intensity distribution; and determining a one-dimensional positional information of the pointing object on a distance direction of the pointing object relative to the three-dimensional interaction display by use of the positional distance between the two light-shading intensity maximum values. | 06-23-2011 |
| 20110148747 | Multi-primary color display and the manufacturing method thereof - A multi-primary color display has pixels, and each pixel includes at least four sub pixels which display red primary color, green primary color, blue primary color and cyan primary color, respectively. When the four primary colors are displayed to achieve white balance, their luminance ratios are: the relative luminance of green primary color is greater than the relative luminance of red primary color, the relative luminance of red primary color is greater than the relative luminance of cyan primary color, and the relative luminance of cyan primary color is greater than the relative luminance of blue primary color. A method for manufacturing the multi-primary color display is disclosed as well. | 06-23-2011 |
| 20110117707 | PIXEL STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a pixel structure is provided. First, a first mask process is performed to form a patterned first metal layer on a substrate, wherein the patterned first metal layer includes a gate. Next, a second mask process is performed to form a patterned insulating layer and a patterned semiconductor layer over the gate, wherein the patterned insulating layer is disposed on the patterned first metal layer, and the patterned semiconductor layer is disposed on the patterned insulating layer. Then, a third mask process is performed to define a thin film transistor (TFT) and a pixel electrode connected thereto and to form a passivation layer to cover the TFT. | 05-19-2011 |
| 20110109830 | BACK COVER MODULE AND ASSEMBLING METHOD THEREOF, BACKLIGHT MODULE AND ASSEMBLING METHOD THEREOF, AND FLAT PANEL DISPLAY DEVICE AND ASSEMBLING METHOD THEREOF - A back cover module and assembling method thereof, a backlight module and assembling method thereof, and a flat panel display device and assembling method thereof are disclosed. The flat panel display device includes the backlight module and a display panel disposed on the backlight module. The backlight module includes the back cover module, a reflector disposed on an inner surface of a back cover body of the back cover module, and a light source module disposed on the reflector. The back cover module includes the back cover body, a first U-shaped plastic frame, and a second U-shaped plastic frame. The first and second U-shaped plastic frames are fixed at four corners of the back cover body. By the present invention, a size of the back cover body can be reduced so as to achieve objectives of decreasing cost and weight of the flat panel display device. | 05-12-2011 |
| 20110109603 | Display Panel and Driving Method Thereof - Display panels buffering display data from a data driver. The display panel comprises a first signal line, a first data line, a first scan line interlaced with the first data line, a first pixel coupled to the first data line and the first scan line, a first switching element comprising a first terminal coupled to the first data line, a first storage capacitor coupled between a second terminal of the first switching element and a ground, and a second switching element coupled to the first storage capacitor and the first signal line. | 05-12-2011 |
| 20110101459 | Thin Film Transistors and Fabrication Methods Thereof - Thin film transistors and fabrication methods thereof. A gate is formed overlying a portion of a substrate. A first vanadium oxide layer formed overlying the gate and the substrate. A gate-insulating layer is formed overlying the first vanadium oxide layer. A semiconductor layer is formed on a portion of the gate-insulating layer. A source and a drain are formed on a portion of the semiconductor layer. | 05-05-2011 |
| 20110096268 | BACKLIGHT MODULE WITH AN IMPROVEMENT SOCKET TO FIX A LAMP TUBE AND LCD USING THE SAME - A backlight module includes a bezel, a lamp tube for generating light in response to a driving signal, and a lamp socket disposed on the bezel for holding the lamp tube. The lamp tube includes a lamp body and a connecting terminal. The lamp socket includes a lamp holder and a conductive element. The lamp holder includes an accommodating space for accommodating part of the lamp body and the connecting terminal of the lamp tube. The conductive element includes a first connector having a pair of attaching members on the top of the conductive element, and a second connector for electrically connected to the inverter. The attaching members contact the connecting terminal so as to form a path to deliver driving signal from the inverter to the connecting terminal of the lamp tube through the conductive element. Part of the conductive element is enclosed and is secured by the lamp holder. | 04-28-2011 |
| 20110096019 | TOUCH PANEL AND TOUCH DISPLAY DEVICE - A touch panel and a touch display device are provided. The touch panel includes a first substrate having an inner surface and an outer surface. A position sensing structure is disposed over the inner surface or the outer surface of the first substrate. A second substrate is disposed opposite to the first substrate, facing the inner surface of the first substrate. A plurality of press sensing structures is disposed between the first and the second substrates and a press signal connecting line is disposed to serially connect all of the press sensing structures. The touch display device includes the above mentioned touch panel. | 04-28-2011 |
| 20110090137 | PIXEL CIRCUIT AND PIXEL DRIVING METHOD - An exemplary pixel circuit includes an OLED, a storage capacitor, a driving transistor and first through fourth switching transistors. The driving transistor is for driving the OLED at a predetermined brightness. The first source/drain electrode of the driving transistor is coupled to a terminal of the storage capacitor, the second source/drain electrode is coupled to the OLED, and the gate electrode is coupled to receive a data voltage through the first switching transistor. Gate-on voltages of the first and second switching transistors are in opposite phases to each other, and the first and second switching transistors are controlled by the same control signal. Likewise, gate-on voltages of the third and fourth switching transistors are in opposite phases to each other, and the third and fourth switching transistors are controlled by the same control signal. A pixel driving method is also disclosed. | 04-21-2011 |
| 20110084894 | GATE OUTPUT CONTROL METHOD AND CORRESPONDING GATE PULSE MODULATOR - A gate output control method is adapted into a flat display having a plurality of gate drive integrated circuits. The method comprises: providing a gate control signal; providing a oblique control signal to oblique modulate the gate control signal for generating a gate control signal with oblique; modulating the gate control signal with oblique to obtain a modulated gate control signal; and outputting the modulated gate control signal to the gate drive integrated circuits. A falling edge of the modulated gate control signal comprises a oblique-varying period and a vertical-varying period. In the oblique-varying period, the modulated gate control signal firstly changes to a predetermined voltage in a first slope, and then changes in a second slope until the vertical-varying period. In the vertical-varying period, the modulated gate control signal changes vertically or nearly vertically. | 04-14-2011 |
| 20110080551 | POLYMERIZABLE MONOMER AND LIQUID CRYSTAL MATERIAL APPLIED TO DISPLAY PANEL - A polymerizable monomer adopted to a display panel is represented as following chemical formula: | 04-07-2011 |
| 20110074711 | FLAT DISPLAY, TOUCH DEVICE AND TOUCH DETECTING METHOD - A touch device is disposed on a substrate having a plurality of scan lines. The touch device comprises a plurality of readout lines and a plurality of sensors. The readout lines and the scan lines are intersected with each other, and the sensors are electrically coupled to the corresponding scan lines and the corresponding readout lines respectively. A scan signal is introduced into the scan lines in sequence to control whether turning on the sensors, and the scan signal comprises at least one first turn-on pulse and a second turn-on pulse to simultaneously turn on at least two sensors which are electrically coupled to different scan lines. | 03-31-2011 |
| 20110072653 | Light Emitting Device and Manufacture Method Thereof - A manufacture method of a light emitting device is provided. Firstly, at least one circuit board is provided. A plurality of light emitting packages, a first undetermined power input end and a second undetermined power input end are disposed at the circuit board. The light emitting packages are electrically connected to the first undetermined power input end and the second undetermined power input end. Each of the first undetermined power input end and the second undetermined power input end has at least two first pads. The first pads of each of the first undetermined power input end and the second undetermined power input end are electrically isolated from each other. Next, the first undetermined power input end is selected to be a power input region for inputting an external power signal. Then, the first pads of the second undetermined power input end are electrically connected to each other. | 03-31-2011 |
| 20110063246 | CAPACITIVE TOUCH DETECTION SYSTEM AND DETECTION SIGNAL RECEIVING AND WAVEFORM SHAPING MODULE - An exemplary capacitive touch detection system includes a capacitive touch panel and a detection control circuit. The capacitive touch panel includes a plurality of input terminals and output terminals. The detection control circuit includes a scanning signal transmitting module electrically coupled to the input terminals and a detection signal receiving and waveform shaping module including a receiver and an impedance-matching network. The detection signal receiving and waveform shaping module is electrically coupled to the output terminals for receiving and processing a plurality of detection signals outputted from the respective output terminals and thereby producing a plurality of processed detection signals. The receiver is used for receiving the detection signals. The impedance-matching network is used for performing a waveform shaping operation applied to the detection signals to compensate an effect caused by uneven RC loading distribution in the capacitive touch panel and thereby producing the processed detection signals. | 03-17-2011 |
| 20110059560 | Organic Electroluminescence Pixel, Organic Electroluminescence Device, and Manufacturing Method Thereof - An organic electroluminescence pixel, an organic electroluminescence device comprising the same, and method for manufacturing the organic electroluminescence device are provided. The organic electroluminescence pixel comprises a substrate, a first electrode, a first carrier-injection layer, a semi-trans-flective metal layer, an organic emitting layer, and a second electrode. The first electrode is formed on the substrate. The first carrier-injection layer, the semi-trans-flective metal layer, and the organic emitting layer are formed between the first electrode and the second electrode. At least one of the first electrode and the second electrode comprises a transparent electrode. | 03-10-2011 |
| 20110057898 | TOUCH-SENSING STRUCTURE FOR TOUCH PANEL AND TOUCH-SENSING METHOD THEREOF - In a touch-sensing structure for a touch panel and a touch-sensing method thereof, the touch-sensing structure includes a plurality of first conducting wires paralleled to each other and a first conductor. A terminal of each first conducting wire is electrically coupled to the first conductor, so as to divide the conductor into a plurality of first line segments. The resistance of each first conducting wire is smaller than that of each first line segment. Wherein, when the displaying area of the touch panel receives an external force, a first conducting wire corresponding to the position designated by the external force is electrically coupled to a reference potential. | 03-10-2011 |
| 20110053323 | PHOTOMASK AND METHOD FOR FABRICATING SOURCE/DRAIN ELECTRODE OF THIN FILM TRANSISTOR - A photomask for fabricating a thin film transistor (TFT) is disclosed. The photomask includes a translucent layer disposed on a transparent substrate and covering U-shaped and rectangular channel-forming regions of the transparent substrate. First and second light-shielding layers are disposed on the translucent layer and located at the outer and inner sides of the U-shaped channel-forming region, respectively, and third and fourth light-shielding layers are disposed on the translucent layer and located at opposite sides of the rectangular channel-forming region, respectively, to serve as source/drain-forming regions. An end of the third light-shielding layer extends to the first light-shielding layer. A plurality of first light-shielding islands is disposed on the translucent layer and located within the rectangular channel-forming region. A method for fabricating source/drain electrodes of a TFT is also disclosed. | 03-03-2011 |
| 20110044014 | Flexible Printed Circuit and Display Module Comprising the Same - A flexible printed circuit and a display module comprising the flexible printed circuit are disclosed. The display module comprises a display panel, a printed circuit board, and a flexible printed circuit. The flexible printed circuit electrically connects the display panel and the printed circuit board, and further comprises a flexible substrate and a cover lay. The flexible substrate has an upper surface and two opposite end portions. The cover lay is disposed on the upper surface of the flexible substrate and extends along a lengthwise direction of the flexible substrate. The cover lay further has two opposite sides each also extending along the lengthwise direction of the flexible substrate. Each of the sides has at least a partially continuous contour which is formed with a discontinuous status on at least one of the end portions. | 02-24-2011 |
| 20110037935 | Display Circuits - A display circuit for a display panel is disclosed. The display circuit comprises a circuit board, a flexible printed circuit board (FPC), and a driver. The circuit board has at least one test pad. The flexible printed circuit board is electrically connected and disposed between the circuit board and the display panel. The driver is disposed on the flexible printed circuit board and has at least one test pin. The at least one test pin is electrically connected to the at least one test pad. | 02-17-2011 |
| 20110037737 | Display Panel and Driving Method Thereof - Display panels buffering display data from a data driver. The display panel comprises a first signal line, a first data line, a first scan line interlaced with the first data line, a first pixel coupled to the first data line and the first scan line, a first switching element comprising a first terminal coupled to the first data line, a first storage capacitor coupled between a second terminal of the first switching element and a ground, and a second switching element coupled to the first storage capacitor and the first signal line. | 02-17-2011 |
| 20110032470 | Method for Manufacturing Liquid Crystal Display Panel - A method for manufacturing a liquid crystal display panel is provided. The method includes: providing a first substrate and a second substrate; providing a plurality of liquid crystal drops on the first substrate, wherein two adjacent liquid crystal drops in X direction is kept by a distance d | 02-10-2011 |
| 20110032178 | Display Device - A display device comprising a panel, an optical guiding assembly and a tape assembly is provided. The tape assembly has a first adhesive and a second adhesive which is opposite the first adhesive. The tape assembly is able to be bent and adhered to the optical guiding assembly at the top and bottom peripheries thereof by the second adhesive. The panel is adhered to the first adhesive of the tape assembly and stacked onto the optical guiding assembly. | 02-10-2011 |
| 20110025972 | Display Circuits - A display circuit for a display panel is disclosed. The display circuit comprises a circuit board, a flexible printed circuit board (FPC), and a driver. The circuit board has at least one test pad. The flexible printed circuit board is electrically connected and disposed between the circuit board and the display panel. The driver is disposed on the flexible printed circuit board and has at least one test pin. The at least one test pin is electrically connected to the at least one test pad. | 02-03-2011 |
| 20110019389 | Backlight Module - An exemplary backlight module is disclosed in the present invention. The backlight module includes a light source module, a main circuit board, a flexible printed circuit board and a bracket. The bracket is made of a conductive material and used for fixing the light source module. The light source module includes at least a light source circuit substrate and a plurality of light sources disposed on the at least a light source circuit substrate. The light source circuit substrate includes a plurality of grounding pads. A part of the grounding pads are electrically contacted to the bracket. The main circuit board includes a grounding terminal. The grounding terminal is electrically connected to another part of the grounding pads through the flexible printed circuit board. The backlight module facilitate the static electricity on the light source module to be grounded, and avoids the light source module being damaged by electro-static discharge. | 01-27-2011 |
| 20110019121 | FLAT PANEL DISPLAY MODULE - A flat panel display module is introduced herein, which principally includes an upper bezel, a liquid crystal panel, a frame, an optical film set and a printed circuit board assembly (PCBA), wherein various types electrical components mounted on the PCBA are capable of being completely or mostly accommodated within a caved structure constructed within the inside of the flat panel display module so as to reduce a thickness of the whole flat panel display module. Simultaneously, a better structural strength for the whole flat panel display module can be achieved therefore by closely stacking up the above-mentioned elements of the whole flat panel display module. | 01-27-2011 |
| 20110014738 | LCD TFT array plate and fabricating method thereof - Lift-off method and half-tone photolithography are used to fabricate LCD TFT array plate. Only two photo masks are used to respectively define a first and a second metal layers to accomplish the LCD TFT array plate. | 01-20-2011 |
| 20110013380 | Backlight Structure Including Clipping Connectors - A backlight structure comprises a frame, a circuit board, and a connector. The frame has an opening. The circuit board is located below the frame and has a through hole, wherein the through hole aligns with the opening. The connector passes through the opening and the through hole, protrudes from a surface of the frame, and is electrically connected to the circuit board. | 01-20-2011 |
| 20110007521 | BACKLIGHT MODULE WITH A HEAT CONDUCTIVE BLOCK - A backlight module includes a bezel having at least one edge, a circuit board, one or more light emitting diodes connected to the circuit board for emitting light. Each light emitting diode has a light axis which is neither parallel nor vertical to the edge of the bezel. The backlight module utilizes a heat conductive block disposed between the bezel and the light emitting diode for transferring heat generated by the light emitting diode to the bezel. | 01-13-2011 |
| 20110002437 | SHIFT REGISTERS - A shift register is provided and includes a first shift registering unit and a second shift registering unit. The first shift registering unit generates a first trigger signal at a first output terminal and includes a first pull-down circuit. The second shift registering unit receives the first trigger signal and generates a second trigger signal at a second output terminal. The first trigger signal and the second trigger signal are sequentially asserted. The second shift registering unit includes a second pull-down circuit. The first pull-down circuit and the second pull-down circuit perform pull-down operations at different times. When the first pull-down circuit does not perform the pull-down operation, the second pull-down circuit performs pull-down operations to the first output terminal. | 01-06-2011 |
| 20110001919 | LIQUID CRYSTALLINE MEDIUM AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY PANEL - A liquid crystalline medium comprises a plurality of polymerizable monomers and a plurality of liquid crystal molecules. The liquid crystal molecules are selected from at least one of compounds 1, 2, 3, 4, 5, and 6. | 01-06-2011 |
| 20100328293 | Shift Register Array, and Display Apparatus - A display apparatus comprises a shift register array. The shift register array comprises a plurality of shift registers. At least one shift register comprises a first transistor, a second transistor, a third transistor, and a driving circuit. The gate and the first electrode of the first transistor receive an input signal. The gate of the second transistor is coupled to the second electrode of the first transistor. The second electrode of the second transistor generates an output signal. The first electrode of the second transistor receives a clock signal. The third transistor is used to pull down a voltage level at the gate of the second transistor. The driving circuit determines an on/off status of the third transistor in response to the input signal and the output signal. | 12-30-2010 |
| 20100321365 | DISPLAY PANELS - A display panel is provided and includes a display unit and a control unit. The display unit is coupled to a data line and a first scan line. In the display unit, a liquid crystal capacitor is coupled between a pixel electrode and a first common line, and a storage capacitor is coupled between the pixel electrode and a second common line. The control unit receives first and second common voltages and is controlled by first and second control voltage signals and first and second scan signals which are respectively on the first scan line and a second scan line and driven sequentially. The control unit changes the voltage level of the second common line by a two-step manner according to the first and second common voltages. Through feed-through effect of the storage capacitor, the voltage level of the pixel electrode is changed to a desired level. | 12-23-2010 |
| 20100315575 | Liquid Crystal Display and Method for Assembling the Same - An LCD and a method for assembling the LCD are provided. The LCD includes a display assembly and a tape. The display assembly has a top surface, a bottom surface which is opposite the top surface, and a lateral edge connected the edge of the top surface with the edge of the bottom surface. The tape comprises a peripheral portion and a bending portion extending from the peripheral portion. The peripheral portion is utilized to attach to the peripheral area of the top surface, and the bending portion is bended to attach to the lateral edge and the peripheral area of the bottom surface. | 12-16-2010 |
| 20100315401 | Driver Circuit Structure and Method for Repairing the Same - Disclosed is a driver circuit structure integrated in a display panel. The driver circuit structure includes a plurality of transistors and a backup transistor. After completing the driver circuit structure, the disclosure inspects it to find an inactive transistor. The inspection process first, isolates the electrical connection between the inactive transistor and the first electrode line and/or the electrical connection between the inactive transistor and the second electrode line. Next, the source electrode of the backup transistor and the first electrode line and/or electrically connecting the drain electrode of the backup transistor and the second electrode line are electrical connected. | 12-16-2010 |
| 20100315377 | TOUCH PANEL - A touch panel is provided. The touch panel includes a plurality of pixels, wherein each pixel includes M*N sub-pixels, at least m sub-pixels each include at least one photo sensitive area and at least one effective display area, the other n sub-pixels each include only at least one effective display area, and M≧2, N≧1, m≦M, m+n=M and m≧0. A first color filter film is disposed over a photo sensor of the photo sensitive area and a second color filter film is disposed over the effective display area, wherein the color of the first and the second color filter films are different at the at least m sub-pixels. The photo sensors at the same column are electrically connected by a signal readout line, wherein only one signal readout line is disposed at every M column of the sub-pixels. | 12-16-2010 |
| 20100315374 | DISPLAY DEVICE AND METHOD OF APPLYING THE SAME - A display device and a method of applying the same are introduced herein. A shielding layer is utilized to interpose between a transparent conductive layer of a touch element and a common electrode layer of a liquid crystal display (LCD) panel. With controlling variances of a first and a second control signals, a coupling current between the transparent conductive layer and common electrode layer can approach none, whereby influences of capacitive coupling effect between the common electrode layer or shielding layer and the transparent conductive layer of the touch element can be reduced. Thus, high touch accuracy of the touch element can be achieved and the noise can be eliminated simultaneously. | 12-16-2010 |
| 20100309151 | TOUCH PANEL AND METHOD FOR MANUFACTURING THE SAME - A touch panel and methods for manufacturing the same is provided. The method for manufacturing a touch panel includes providing a substrate and forming a photospacer layer on the substrate. Subsequently, a single lithography process is performed to the photospacer layer to define a main spacer and a sensor spacer. After forming a conductive layer on the main spacers and sensor spacers, a part of the conductive layer is removed to expose a top part and a part of a upper side of the main spacer. Accordingly, the conductive layer on the top part of the main spacer can be completely removed. In addition, the aperture ratio loss due to over-etching the conductive layer on the color filter can be prevented by the conductive layer remained on a lower side of the main spacer. | 12-09-2010 |
| 20100301345 | ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - An array substrate and method for manufacturing the same is provided, wherein a data line is composed of first and second segments connected by a contact pad. First and second insulation layers are disposed between the first segment of the data line and a shielding electrode. In addition, the first insulation layer is disposed between the second segment of the data line and a gate line in their overlapping area. Accordingly, the coupling effect between the conductive layers can be reduced. For example, the RC delay problem due to parasitic capacitance between the shielding electrode and the data line is solved. As a result of the design of the two insulator layers between the first segment of the data line and the shielding electrode, the shorting between the conductive layers can also be simultaneously solved and the product yield can be increased. | 12-02-2010 |
| 20100297817 | METHOD FOR MANUFACTURING THIN FILM TRANSISTOR - A method for manufacturing a thin film transistor (TFT) is disclosed. The method is achieved by forming and defining a source and a drain of a thin film transistor through two lithographic processes cycles so that the channel length (L) of the thin film transistor can be reduced to 1.5 to 4.0 μm. Besides, the I | 11-25-2010 |
| 20100296016 | ARRAY SUBSTRATE, LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - An active array substrate, a liquid crystal display panel and a method for manufacturing the active array substrate are provided. The active array substrate includes a base, scan lines, data lines and gate tracking lines disposed on the base. Each of the gate tracking lines has first portions, auxiliary portions and junction portions, wherein the junction portion and the first portion are formed in different layers. One of the junction portions is electrically connected with corresponding one of the first portions. | 11-25-2010 |
| 20100295800 | IN-CELL TOUCH LIQUID CRYSTAL DISPLAY MODULE AND MANUFACTURING METHOD FOR THE SAME - An in-cell touch liquid crystal display module includes a first glass substrate, a metal film disposed on the first glass substrate, a liquid crystal layer disposed on the metal film, a second glass substrate disposed on the liquid crystal layer, a conductive layer disposed on the second glass substrate for generating a sensing signal in response to a touch of the conductive layer, a flexible circuit board comprising a plurality of wires coupling the conductive layer, for transmitting the sensing signal, a conductive adhesive for adhering and fastening the flexible circuit board on the second glass substrate, and an insulating adhesive disposed on an periphery of the first glass substrate, for adhering the flexible circuit board on the first glass substrate. | 11-25-2010 |
| 20100290581 | Shift Registers - A shift register including shift register units controlled by first and second clock signals for generating an output signal. For each unit, in an active period, the first driving device drives the first switch device to activate the output signal, and the second driving device provides a voltage signal according to the first clock signal to drive the first switch device to de-activate the output signal. When the first switch device de-activates the output signal, the second switch device provides the voltage signal to serve as the output signal according to the second clock signal. In the active period, the voltage signal has a low level, and the first and second clock signals are set as alternating-current signals and are opposite to each other. In a blanking period, the voltage signal has a high level, and each of the first and second clock signals is set as a direct-current signal. | 11-18-2010 |
| 20100289068 | Thin Film Transistor Structure - A thin film transistor structure is provided. The thin film transistor structure includes a source and a drain. The corresponding opposite surfaces of the source and the drain are at least partially complementary and continuous convex-concave surfaces so that the charging ability of the thin film transistor would be increased due to an extending length of the continuous convex-concave surfaces. | 11-18-2010 |
| 20100285623 | Array Substrate and Method for Fabricating Thereof - The invention provides a method for manufacturing an array substrate utilizing a laser ablation process. A conductive layer can be selectively patterned by the laser ablation process without a photo mask due to different adhesions between the conductive layer and other materials. The patterned conductive layer thus formed adjoins an inorganic passivation layer to provide a substantially continuous surface. | 11-11-2010 |
| 20100279450 | Active Device Array Substrate and Method for Fabricating the Same - An active device array substrate and its fabricating method are provided. According to the subject invention, the elements of an array substrate such as the thin film transistors, gate lines, gate pads, data lines, data pads and storage electrodes, are provided by forming a patterned first metal layer, an insulating layer, a patterned semiconductor layer and a patterned metal multilayer. Furthermore, the subject invention uses the means of selectively etching certain layers. Using the aforesaid means, the array substrate of the subject invention has some layers with under-cut structures, and thus, the number of the time-consuming and complicated mask etching process involved in the production of an array substrate can be reduced. The subject invention provides a relatively simple and time-saving method for producing an array substrate. | 11-04-2010 |
| 20100277662 | Transflective LCD Panel, Transmissive LCD Panel, and Reflective LCD Panel - The invention provides an LCD panel with main slits corresponding to alignment protrusions. The gate lines are shielded by the electrode portion and do not overlap the main slits. Because the gate line and the major slits do not overlap, the liquid crystal molecule arrangement of the liquid crystal layer is not affected by the operating voltage of the gate line. | 11-04-2010 |
| 20100271800 | Display Apparatus and Method for Manufacturing an Optical Compound Layer - A display apparatus and a method for manufacturing an optical compound layer are provided. The display apparatus comprises a light source and an optical compound layer, wherein the light source is adapted to emit a light beam, and the light beam has a polarization direction. The optical compound layer is disposed on the light source correspondingly to receive the light beam. The optical compound layer comprises a thin film and a plurality of dopants doped therein. One of the thin film and the dopants has a specific orientation which is substantially the same as the polarization direction of the light beam and the refractive indexes of the thin film and the dopants are substantially the same as well. | 10-28-2010 |
| 20100252307 | FLEXIBLE PRINTED CIRCUIT BOARD - A flexible printed circuit board includes a substrate, signal lines, a first reinforcing layer, and a second reinforcing layer. The first surface of the substrate includes a layout zone and a reinforcing zone disposed nearby the layout zone. The signal lines are disposed on the layout zone. The first reinforcing layer is disposed on the reinforcing zone. The second reinforcing layer is disposed on the second surface of the substrate. | 10-07-2010 |
| 20100245696 | Liquid Crystal Display and Driving Method Thereof - A liquid crystal display includes a gate driver, a data driver and a pixel matrix. The gate driver is for outputting a plurality of gate signals successively. The data driver is for providing a plurality of data signals. The pixel matrix includes a number of pixels. Each pixel includes a first sub-pixel, a second sub-pixel and a voltage coupling device. The voltage coupling device is coupled between the first sub-pixel and the second sub-pixel such that pixel voltages of the first sub-pixel and the second sub-pixel are different and have relevant variation. | 09-30-2010 |
| 20100245222 | ACTIVE ARRAY SUBSTRATE, LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR DRIVING THE SAME - An active array substrate, a liquid crystal display panel and method for driving the same are provided. The active array substrate includes a plurality of first strip electrodes and second strip electrodes. The sum of one width of the first stripe electrode and one pitch between two adjacent first stripe electrodes is greater than that of one width of the second strip electrode and one pitch between two adjacent second strip electrodes. | 09-30-2010 |
| 20100244111 | Semiconductor Structure of a Display Device and Method for Fabricating the Same - A semiconductor structure of a display device and the method for fabricating the same are provided. The semiconductor structure is formed on a substrate having a TFT region and a pixel capacitor region thereon. A TFT, including a gate electrode, a source electrode, a drain electrode, a channel layer, and a gate insulating layer, is formed on the TFT region of the substrate. A pixel capacitor is formed on the pixel capacitor region, wherein the pixel capacitor comprises a bottom electrode formed on a bottom dielectric layer, an interlayer dielectric layer formed on the bottom electrode, a top electrode formed on the interlayer dielectric layer, a contact plug passing through the interlayer dielectric layer and electrically connected to the top and bottom electrodes, a capacitor dielectric layer formed on the top electrode, a transparent electrode formed on the capacitor dielectric layer and electrically connected to the drain electrode. | 09-30-2010 |
| 20100239747 | SHADOW MASK AND EVAPORATION SYSTEM INCORPORATING THE SAME - A shadow mask and an evaporation system incorporating the same. The shadow mask comprises at least one opening. The length and the width of the opening range from about 100 μm to about 2000 μm and from about 25 μm to about 75 μm, respectively. | 09-23-2010 |
| 20100238382 | LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR FABRICATING THE SAME - A liquid crystal display (LCD) panel including a lower substrate, an upper substrate and a liquid crystal layer interposed between the upper substrate and the lower substrate is provided. The liquid crystal layer includes at least one liquid crystal molecule and a stabilized alignment polymer, which is polymerized by a plurality of photosensitive monomers and formed on at least one of the surface of the upper substrate or the lower substrate. The photosensitive monomer is represented by the following chemical formula: | 09-23-2010 |
| 20100231489 | ORGANIC ELECTROLUMINESCENCE STRUCTURE HAVING A HEIGHT DIFFERENCE BETWEEN SURFACES OF A CONTROL DEVICE AND AN ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence structure comprises a first substrate, an organic electroluminescence device, and a control device. Forming either a lifting layer under the control device or a recess under the organic electroluminescence device, or forming both of them, creates a difference between their tops, in order to reduce the dark spots and promote the yield of the end product. The lifting layer preferably has a thickness greater than about 0.5 micro meters and the recess has a depth ranges of about 0.1 micro meters to about 100 micro meters. Alternatively, the height difference between the upper surfaces of the control device and the organic electroluminescence device is controlled to be greater than about 2 micro meters or substantially equal to 2 micro meters. | 09-16-2010 |
| 20100227491 | Electrical Connector - An electrical connector for a flexible printed circuit is provided. The electrical connector comprises a connector set, a terminal and a fasten assembly. The connector set has a base, a cover and a pin. The cover is pivotally connecting to the base by the pin and adapted to open or shut the receiving space defined by the base and the cover. The terminal is adapted to be detachably inserted into the receiving space to electrically connect the connector set. The fasten assembly is disposed on the base and the terminal respectively. When the terminal is inserted into the receiving space, the fasten assembly is adapted to fasten the terminal to the base. | 09-09-2010 |
| 20100226473 | SHIFT REGISTER - A shift register includes multiple cascade-connected stages. Each stage generates an output signal in response to a clock signal and a first control signal. Each stage includes a pull-up module, a pull-up driving module, a first pull-down module, a second pull-down module, and a third pull-down module. The pull-up module is used for providing the output signal based on the clock signal. The pull-up driving module turns on the pull-up module in response to a first control signal. The first pull-down module adjusts voltage level on the first node to a first supply voltage in response to a second control signal. The second pull-down module adjusts voltage level on the output end to a second supply voltage in response to the second control signal. The third pull-down module adjusts voltage level on the second node to a third supply voltage in response to a third control signal. | 09-09-2010 |
| 20100221859 | Semiconductor Structure and Method for Manufacturing the Same - A semiconductor structure and a method for manufacturing the same are provided. Compared to conventional structures of thin film transistors, the structure of the present invention uses a patterned first metal layer as a data line, and a patterned second metal layer as a gate line. In a thin film transistor, a gate is also located in the patterned first metal layer, and is electrically connected to the gate line located in the patterned second metal layer through a contact hole. A source and a drain of the thin film transistor are electrically connected to the data line through a contact hole. The structure of the present invention increases a storage capacitance and an aperture ratio. | 09-02-2010 |
| 20100208494 | Light Guiding Device and Thin Display Comprising the Same - A light guiding device and a thin display comprising the same are disclosed. The thin display comprises a light guiding device, a panel, and a frame. The frame comprises two arc-shaped frames opposite each other and two side frames opposite each other. The light guiding device comprises a light guiding plate and a light source device. The light guiding plate comprises an upper curve surface, a lower curve surface, a first arc-shaped plane, and a second arc-shaped plane. Two edges of each of the upper and the lower curve surfaces are connected with the first arc-shaped plane and the second arc-shaped plane respectively. The light source device is disposed between one of the first and the second arc-shaped planes and one of two arc-shaped frames. The panel is disposed in the frame and above the light guiding device. | 08-19-2010 |
| 20100202149 | Back Bezel Assembly - A back bezel assembly is provided. The back bezel assembly includes a frame and a metal shielding board. The frame is formed with at least one hollow portion. By forming at least one hollow portion, the frame is not formed with at least one first portion with the same material of the frame, wherein the at least one first portion has a first weight. The metal shielding board has a second weight, which is less than the first weight. The metal shielding board is fixed to the frame and covers at least one portion of the at least one hollow portion correspondingly. With the configuration of the back bezel assembly, the display adopting the back bezel assembly is lightweight and provided with the shielding effect of EMI (Electromagnetic Interference). | 08-12-2010 |
| 20100202147 | Light Guiding Structure of a Light Guide Plate - A light guiding structure of a light guide plate is provided. The light guiding structure comprises a plurality of protrusion ridge portions extending along a longitudinal direction. The height or the vertex angle of each protrusion ridge portion periodically or randomly varies along the longitudinal direction. | 08-12-2010 |
| 20100201282 | LIGHT EMITTING DIODE DRIVING DEVICE AND DRIVING METHOD THEREOF - A light emitting diode driving device and driving method thereof are provided. The light emitting diode driving device includes a duty cycle setup unit, a current setup unit, a control unit, and a light emitting diode driving circuit. The duty cycle setup unit is used for outputting duty cycle setup signal. The current set up unit is used for outputting a current setup signal. The control unit is used for receiving the duty cycle setup signal and the current setup signal, and outputting a current control signal and a duty cycle control signal in response to the duty cycle setup signal and the current setup signal. The light emitting diode driving circuit is used for driving at least one light emitting diode in response to the current control signal and the duty cycle control signal. | 08-12-2010 |
| 20100197083 | FABRICATION METHODS OF THIN FILM TRANSISTOR SUBSTRATES - Methods for manufacturing thin film transistor arrays utilizing three steps of lithography and one step of laser ablation while the lithography procedure is used four to five times in conventional processes are disclosed. The use of the disclosed methods assists in improving throughput and saving of manufacturing cost. | 08-05-2010 |
| 20100193222 | Array Substrate, and Method for Repairing Thereof, and Display Panel and Display Apparatus Comprising the Same - An array substrate includes: a base having an active region and a peripheral region adjoining to the active region; a plurality of signal lines disposed on the base; and at least one repair structure disposed on the peripheral region and having at least one first repair line and at least one second repair line having a first sub-line and a second sub-line. The first sub-line is located between the first repair line and the second sub-line. The signal lines have a plurality of groups; the first repair line crosses over at least two of the groups of the signal lines; and at least one of the groups of the signal lines is crossed over by only one of the first sub-line and the second sub-line. | 08-05-2010 |
| 20100187537 | Thin Film Transistor Array Substrate and Method for Manufacturing the Same - A thin film transistor array structure and a method for manufacturing the same are provided. The thin film transistor array structure comprises a substrate, including a transition area and a pad area. A patterned first metal layer is formed on the substrate, wherein the patterned first metal layer includes a data connecting line disposed in the transition area, and a data pad and a gate pad disposed in the pad area. A patterned first insulation layer is formed on the patterned first metal layer. The patterned first insulation layer at least defines a first opening on the gate pad, a second opening on the data pad, and a third opening in the transition area, so as to simplify following processes to increase the yield. | 07-29-2010 |
| 20100187536 | ARRAY SUBSTRATE FOR LIQUID CRYSTAL DISPLAY AND METHOD FOR FABRICATING THE SAME - A method for fabricating an array substrate for a liquid crystal display (LCD) is provided. A semiconductor layer and a transparent lower electrode formed on a substrate is provided and covered by a first dielectric layer serving as a gate dielectric layer and a capacitor dielectric layer. A gate electrode and an upper electrode comprising a transparent electrode portion and a metal electrode portion are formed on the first dielectric layer and covered by a second dielectric layer. A source/drain electrode, a planarization layer, and a pixel electrode are sequentially formed on the second dielectric layer, in which the source/drain electrode is electrically connected to the semiconductor layer through the first and second dielectric layers and the pixel electrode is electrically connected to the source/drain electrode through the planarization layer. An array substrate for an LCD is also disclosed. | 07-29-2010 |
| 20100187522 | METHOD OF FORMING AN ORGANIC LIGHT-EMITTING DISPLAY WITH BLACK MATRIX - A method of forming an organic light-emitting display (OLED) includes the steps of providing a substrate, forming a black matrix on the substrate, forming a buffer layer on the black matrix, forming an active layer on the buffer layer, simultaneously patterning the black matrix and the buffer layer, and forming a display electrode and a thin film transistor over the buffer layer. | 07-29-2010 |
| 20100182289 | LCD DEVICE WITH AN IMPROVEMENT OF MURA IN PIXEL MATRIX AND DRIVING METHOD FOR THE SAME - A liquid crystal display and method for driving the same are proposed. The liquid crystal display includes a pixel matrix. The pixel matrix includes two first pixel groups each having a first pixel and a second pixel are at one side of the data line, and two second pixel groups each having a third pixel and a fourth pixel are at the other side of the data line. The driving method includes steps of: driving one of the two second pixel groups to transmit a first signal to a fourth pixel of the driven second pixel group, driving one of the two first pixel groups to transmit a second signal to a first pixel of the driven first pixel group, driving the other second pixel group to transmit a third signal to a fourth pixel of the other second pixel group, and driving the second pixel group to transmit a fourth signal to a third pixel of the driven second pixel group. | 07-22-2010 |
| 20100173489 | METHOD FOR MANUFACTURING LOWER SUBSTRATE OF LIQUID CRYSTAL DISPLAY DEVICE - A method for manufacturing a lower substrate of a liquid crystal display device is disclosed. The method comprises the steps of: (a) forming a patterned first metal layer, a first insulating layer, a patterned second metal layer and a second insulating layer on a substrate in sequence; (b) coating a transparent electrode layer and a negative photo resist layer on the second insulating layer; (c) irradiating the photo resist layer from the second surface of the substrate; (d) irradiating the photo resist layer from the first surface of the substrate, wherein part of the photo resist layer superposed over the second metal layer is covered by a mask; and (e) removing un-reacted photo resist and patterning the transparent electrode. | 07-08-2010 |
| 20100172461 | SHIFT REGISTERS - A shift register including shift register units substantially cascaded is disclosed. Each shift register unit is controlled by first and second clock signals opposite to each other for generating an output signal. Each shift register unit includes first and second switch devices and first and second devices. The first switch device provides the output signal through an output node. The first driving device drives the first switch device according to a first input signal to activate the output signal. The second driving device provides a first voltage signal, according to the first clock signal, to drive the first switch device and de-activate the output signal. When the first switch device de-activates the output signal, the second switch device provides the second voltage signal to the output node according to the second clock signal. A level of the first voltage signal is lower than a level of the second voltage signal. | 07-08-2010 |
| 20100171722 | TOUCH PANEL DEVICE - A touch panel includes a transparent conductive layer, a closed-loop electrode member circled around the transparent conductive layer, and a signal-transferring layer separated from the transparent conductive layer. The signal-transferring layer includes a transmission trace and a pad. The respective pads are located at four comers of the display device. Each transmission trace can conduct an electric current when an object contacts the transparent conductive layer. The signal-transferring layers and the electrode members are made of an identical conductivity material. | 07-08-2010 |
| 20100165273 | COLOR FILTER SUBSTRATE AND LCD UTILIZING THE SAME - An LCD including a color filter substrate, an array substrate, and a liquid crystal layer therebetween is provided. This color filter substrate has a plurality of color filters with overlap regions acting as a black matrix. Subsequently, patterned regions are defined in part of the overlap regions. After formation of a planarization layer and a conductive layer, spacers are formed in the patterned regions. The spacers may not shield the transparent region of the color filters, thereby enhancing the aperture ratio of the color filter substrate. Additionally, the thickness of the planarization layer in the patterned regions is not influenced by the overlap of the color filters, such that the spacers thereon have a uniform height. Furthermore, the at least one spacer of the color filter substrate and at least one data line of the array substrate are overlapped. | 07-01-2010 |
| 20100164917 | DISPLAY PANELS - Display panels capable of eliminating reliability issues due to high switching frequency. The display panel comprises a data driver outputting first, second, third and fourth data signals in sequence through a data line, a scan driver outputting first and second scan signals in sequence through first and second scan lines and an auxiliary driver generates first and second auxiliary signals in sequence, and first and second display cells commonly receives the first scan signal through the first scan line and receives the first and the second data signal through the data line, and a first switch is coupled to the data line and the second display cell, turning on and off in sequence according to the first auxiliary signal when the first scan signal is applied thereto such that the second and the first display cells receive the first and the second data signals in sequence. | 07-01-2010 |
| 20100164881 | Touch Panel Structure - A touch panel structure is provided. The touch panel structure comprises a cover glass, a first transparent electrode and a light shielding element. The cover glass has a touch surface, a sensing surface corresponding to the touch surface, wherein the sensing surface is defined with a center area and a peripheral area surrounding the center area thereon. The first transparent electrode is formed on the cover glass, comes into contact with the sensing surface and is disposed in the center area correspondingly. The light shielding element is formed on the cover glass, comes into contact with the sensing surface and is disposed in the peripheral area correspondingly. | 07-01-2010 |
| 20100157219 | DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME AND ELECTRO-OPTICAL DEVICE INCLUDING THE DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A display panel and a manufacturing method are disclosed. The method is to thin the thickness of a pair of transparent substrates for the display panel by grinding or lapping only, or grinding with simplified polishing, so that at least one of the outer surface of the transparent substrates has Haze substantially less than 90% and a profile arithmetic mean roughness ranged from about 0.02 μm to about 0.66 μm. | 06-24-2010 |
| 20100156960 | METHOD AND APPARATUS FOR GAMMA CORRECTION AND FLAT-PANEL DISPLAY USING THE SAME - A method and apparatus for gamma correction and a flat panel display using the same. Weighted values corresponding to red, green and blue of an image signal are respectively evaluated to determine the dominant color in the image signal, and a Gamma correction based on the dominant color is then performed, thereby obtaining displaying quality similar with that obtained by independently performing red, green, or blue Gamma correction. | 06-24-2010 |
| 20100150303 | SHIFT REGISTER WITH PRE-PULL-DOWN MODULE TO SUPPRESS A SPIKE - A shift register includes a plurality of shift register stages cascade-connected with each other. Each shift register stage includes a pull up module for outputting an output pulse in response to a first clock signal, a pull-up driving module for turning on the pull up module in response to a driving pulse of a previous one stage of the shift register, a pre-pull-down module coupled to a previous two stage of the shift register and a first node for pulling down voltage level of the first node in response to a output pulse of the previous two stage of the shift register, a pull down module coupled to the first node for pulling down voltage level of the first node in response to a pulling-down triggering signal, and a pulling down driving module for providing the pulling-down triggering signal. | 06-17-2010 |
| 20100149762 | FIXING STRUCTURE AND BACKLIGHT MODULE USING THE SAME - A fixing structure and a backlight module using the same are provided. The fixing structure is used for fixing a circuit board. The circuit board with several openings has an upper surface and a lower surface. The fixing structure includes a back plate and several hooks. The back plate has a contact surface. These hooks are disposed on the contact surface. The hooks go through the openings so that the contact surface contacts the lower surface. The hooks move toward the walls of the openings and press against the upper surface so as to fix the circuit board onto the back plate. | 06-17-2010 |
| 20100140625 | THIN FILM TRANSISTOR ARRAY SUBSTRATE STRUCTURES AND FABRICATION METHOD THEREOF - A thin film transistor array substrate structure. The array substrate structure includes a thin film transistor array substrate, an organic material layer formed thereon, and a plurality of black matrices and color filter patterns disposed on the organic material layer. The invention also provides a method of fabricating the thin film transistor array substrate. | 06-10-2010 |
| 20100136826 | CHIP HERMETIC PACKAGE DEVICE AND METHOD FOR PRODUCING THE SAME - An electrical device includes a connector, a circuit board and a connector-securing structure. The connector includes a body and a fixing pin extending from the body for fixing the connector on the circuit board. The circuit board defines a gap corresponding to an outer profile of the connector for receiving the connector. The connector-securing structure is provided for securing the connector in the gap of the circuit board. The connector-securing structure includes a holding portion and a holding slot. The holding portion is perpendicular to and extends from the fixing pin. The holding slot is defined through the circuit board in a position corresponding to the holding portion. The holding slot is engaged with the gap of the circuit board for receiving and holding the holding portion. | 06-03-2010 |
| 20100136785 | DIRECT PATTERNING METHOD FOR MANUFACTURING A METAL LAYER OF A SEMICONDUCTOR DEVICE - A direct patterning method for manufacturing a metal layer of a semiconductor device is provided. The claimed method reduces the materials and hours required by prior methods such as the thin film depositing method for a substrate, and the photolithographic method for manufacturing a transistor. | 06-03-2010 |
| 20100136730 | THIN FILM DEVICES FOR FLAT PANEL DISPLAYS AND METHODS FOR FORMING THE SAME - Methods of forming thin film devices with different electrical characteristics on a substrate comprising a driver circuit region and a pixel region. A first and a second polysilicon pattern layers are formed on the driving circuit region and the pixel region of the substrate, respectively. A first ion implantation is performed on the second polysilicon pattern layer using a masking layer covering the first polysilicon pattern layer as an implant mask, such that the first polysilicon pattern layer has an impurity concentration different from the second polysilicon pattern layer. After removal of the masking layer, a gate dielectric layer and a gate are successively formed on each of the first and second polysilicon pattern layers and a source/drain region is subsequently formed in each of the first and second polysilicon pattern layers to define a channel region therein. | 06-03-2010 |
| 20100134750 | Liquid Crystal Display Panels - A liquid crystal display panel comprises a color filter substrate, a thin film transistor array substrate, and a liquid crystal layer sealed between the two substrates. The color filter substrate has a plurality of first spacers and a plurality of second spacers thereon. The thin film transistor array substrate has a plurality of recesses for containing the second spacers. The ratio of the number of the second spacers to the number of the first spacers is between about 10 and about 90. | 06-03-2010 |
| 20100134704 | DISPLAY DEVICE - A display device including a control module, a plastic rear cover, a display panel, a buffer element and a plastic front cover is provided. The plastic rear cover includes a plurality of supporting ribs protruded from an inner surface of the plastic rear cover. An outer surface of the plastic rear cover has a receiving portion, in which the control module is received. The display panel includes a first surface and a second surface opposite to the first surface, and the first surface is disposed in accordance with the inner surface of the plastic rear cover. The buffer element is leant against the second surface. The plastic front cover has a display opening used for exposing a part of the second surface, and is leant against the buffer element. | 06-03-2010 |
| 20100134124 | MISALIGNMENT DETECTION DEVICES - A misalignment detection device comprising a substrate, at least one integrated circuit (IC), and at least one detection unit is disclosed. The substrate comprises a first positioning pad and a second positioning pad adjacent to the first positioning pad. The integrated circuit is disposed on the substrate and comprises a first positioning bump and a second positioning bump adjacent to the first positioning bump. The first and second positioning bumps substantially correspond to the first and second positioning pads, respectively. The at least one detection unit is electrically coupled to the substrate, wherein the detection unit outputs a fault signal in response to a positioning shift occurring between the first and second positioning pads and the first and second positioning bumps. | 06-03-2010 |
| 20100129997 | ORGANIC LIGHT EMITTING DIODE (OLED) DISPLAY PANEL AND METHOD OF FORMING POLYSILICON CHANNEL LAYER THEREOF - An organic light emitting diode (OLED) display panel and a method of forming a polysilicon channel layer thereof are provided. In the method, firstly, a substrate having a polysilicon layer disposed thereon is provided. Then, a dopant atom not selected from the IIIA group and the VA group is doped inside the polysilicon layer to form a polysilicon channel layer. | 05-27-2010 |
| 20100123853 | LIQUID CRYSTAL DISPLAY PANEL AND APPARATUS COMPRISING THE SAME - A liquid crystal display panel and an apparatus comprising the same are disclosed. The apparatus comprises the liquid crystal display panel and a backlight module. The backlight module includes a lighting area. The liquid crystal display panel is disposed opposite to the backlight module. The liquid crystal display panel comprises a first substrate facing the backlight module and a first polarizer disposed at the outside of the first substrate. The first polarizer covers the lighting area of the backlight module, but does not exceed or flush with the first substrate. | 05-20-2010 |
| 20100118563 | LIGHT GUIDE PLATE AND DISPLAY APPARATUS - A light guide plate and a display apparatus are disclosed. The light guide plate comprises a first portion and a second portion. The first portion includes a light output surface. The second portion is formed on one end of the first portion to guide light into the first portion, wherein the second portion includes a light input surface adjacent to at least one light source, a first reflection surface and a second reflection surface adjacent to the first reflection surface, and the light input surface and the light output surface are substantially in the form of an L-shape. The light guide plate is applicable to the display apparatus. | 05-13-2010 |
| 20100117946 | BRIGHTNESS ADJUSTABLE ELECTRICAL APPARATUS - A brightness adjustable electrical apparatus is disclosed. The electrical apparatus comprises a lighting module, a control unit and at least one light emitting diode (LED). The control unit is electrically connected to the lighting module for lighting control. The LED is electrically connected to the control unit, wherein the LED has an indicating mode to indicate the working state of the electrical apparatus and a detecting mode to detect the surrounding light intensity. | 05-13-2010 |
| 20100117944 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a display region, a periphery circuit region, a joint obligate region, a plurality of first test thin-film transistors (TFTs), a plurality of second TFTs, a plurality of first lines, a plurality of second lines, a blank region, and at least one first adjustment TFT. The first and second test TFTs are disposed on the joint obligate region according to a regular distance. Each of the first and second test TFTs has a transistor width. The first adjustment TFT is disposed on the blank region. The width of the blank region is not smaller than the sum of the twice regular distance and the transistor width. Thereby, the present invention can prevent the band mura of the liquid crystal display panel effectively when the liquid crystal display panel is in testing. | 05-13-2010 |
| 20100112773 | PIXEL STRUCTURE AND METHOD FOR FORMING THE SAME - A pixel structure comprising at least one transistor, a first storage capacitor, a first conductive layer, an interlayer dielectric layer, a second conductive layer, a passivation layer, and a third conductive layer is provided. The first storage capacitor is electrically connected to the transistor. The interlayer dielectric layer having at least one first opening covers the first conductive layer. The second conductive layer is formed on a part of the interlayer dielectric layer and is electrically connected to the first conductive layer through the first opening. The passivation layer having at least one second opening covers the transistor and the second conductive layer. The third conductive layer is formed on a part of the passivation layer and is electrically connected to the transistor through the second opening. The first storage capacitor is formed by the third conductive layer, the passivation layer, and the second conductive layer. | 05-06-2010 |
| 20100093137 | Thin Film Transistor Structure and Method of Fabricating the Same - In a thin film transistor (TFT) structure, formation of a spacer layer is used for isolating the NI junction from an insulating layer comprising a nitride, so as to decrease the amount of current leakage and improve the electric characteristics of TFT. In a back-channel etching (BCE) type TFT device, the spacer layer (comprising an oxide layer) is substantially formed at the sidewalls of the channel regions to isolate the insulating layer (comprising silicon nitride) from the NI junctions. In an etch-stop TFT device, the spacer layer (comprising an oxide layer) is substantially formed at the sidewalls of the etch-stop layer to isolate the insulating layer (i.e. etch-stop layer) from the NI junctions. | 04-15-2010 |
| 20100085525 | THIN FILM TRANSISTOR SUBSTRATE, LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - A thin film transistor (TFT) substrate including a base, a plurality of scan lines and data lines and a pixel unit is provided. The scan lines are disposed on the base. The data lines are disposed above the scan lines and are perpendicular to the scan lines to define a plurality of pixel areas. The pixel unit is disposed on the base and inside one of the pixel areas. The pixel unit comprises a TFT and a pixel electrode. The TFT comprises a source and a drain. The pixel electrode is electrically connected to the drain. The pixel electrode comprises a first main electrode, a second main electrode and a plurality of branch electrodes. The first main electrode is perpendicular to the second main electrode. The branch electrodes are connected to the first main electrode and/or the second main electrode. The first main electrode substantially divides the pixel area evenly. | 04-08-2010 |
| 20100084660 | Semiconductor Structures - A semiconductor structure is provided. The semiconductor structure includes a substrate, a gate disposed thereon, an insulation layer disposed on the substrate and overlying the gate, a patterned semiconductor layer disposed on the insulation layer, a source and a drain disposed on the patterned semiconductor layer, a protective layer overlying the insulation layer, the source and the boundary of the drain to expose a portion of the drain, and a pixel electrode disposed on the substrate, overlying the protective layer overlying the boundary of the drain, electrically connected to the exposed drain. | 04-08-2010 |
| 20100079443 | APPARATUS, SHIFT REGISTER UNIT, LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR ELIMINATING AFTERIMAGE - An apparatus, a shifter register unit, a liquid crystal display device and a method for eliminating afterimage are provided herein, which merely utilize a high voltage source delay discharging phenomenon oriented from a powered-off power device to lead any two of a plurality of existing signal sources employed by the shift register unit to reach a high level used for controlling of charge and discharge of a discharge switching unit corresponding to a pixel unit. Therefore, a power-off afterimage problem could be improved and a signal reset function for power-on also can be achieved. | 04-01-2010 |
| 20100073913 | Light guide plate, backlight module and liquid crystal display - A light guide plate, a backlight module and a liquid crystal display are provided. The light guide plate has a first surface at least having one first structure and one second structure formed thereon. The first structure and the second structure are adjacent arranged and are mirror reflection with each other. Each of the first structure and the second structure has a first protrusion having a cross section of eccentric triangle. | 03-25-2010 |
| 20100073320 | MULTI-TOUCH POSITIONING METHOD FOR CAPACITIVE TOUCH PANEL - A multi-touch positioning method for a capacitive touch panel includes following steps. A candidate touching position array including a first and a second candidate position groups is generated when the capacitive touch panel is touched by two objects. The first and the second candidate position groups include two first and second candidate positions, respectively. Next, the signal magnitude sensed by a sensing element and respectively corresponding to the first and the second candidate position groups are compared. Then, when the signal magnitude corresponding to the first candidate position group is greater than that corresponding to the second candidate position group, one of the two first candidate positions closer to the sensing element along a first direction is determined as a first actual touching position, and one of the two second candidate positions farther from the sensing element along the first direction is determined as a second actual touching position. | 03-25-2010 |
| 20100066951 | Flexible liquid crystal display panel and method for manufacturing the same - A flexible liquid crystal display panel and method for manufacturing the same are provided. The flexible liquid crystal display panel includes a rigid substrate, a flexible substrate and a liquid crystal layer disposed therebetween. | 03-18-2010 |
| 20100059364 | FABRICATION METHOD FOR ORGANIC ELECTROLUMINESCENT DISPLAY WITH REFLECTION-REDUCING PROPERTIES - An organic electroluminescent device and method for fabricating the same are provided. The organic electroluminescent device comprises an anode. An organic luminescent layer is formed over the anode. A partially light-transmitting layer is formed over the organic luminescent layer. A protection layer is formed over the partially light-transmitting layer. A reflection-reducing layer is formed over the protection layer. A cathode is formed over the reflection-reducing layer. | 03-11-2010 |
| 20100054392 | SHIFT REGISTER - A shift register includes a plurality of stages cascade-connected with each other. Each stage includes a pull-up circuit, a pull-up driving circuit, and a pull-down circuit. The pull-up circuit coupled to a first clock signal is used for providing an output signal. The pull-up driving circuit includes a control circuit and a first transistor. The control circuit has a gate coupled to a previous stage, and a drain coupled to a second clock signal. The first transistor includes a gate coupled to the source of the control circuit, a drain coupled to a driving end of the previous stage, and a source coupled to a first input end. The pull-down circuit pulls down voltage on the first input end. | 03-04-2010 |
| 20100053537 | VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL MATERIAL THEREOF - A vertical alignment liquid crystal display panel (LCD) panel is provided. The vertical alignment LCD panel comprising a lower substrate, an upper substrate and a liquid crystal layer interposed between the two substrates. The liquid crystal layer comprises a plurality of liquid crystal molecules and an alignment polymer. The liquid crystal molecules comprise a plurality of neutral liquid crystal molecules and negative liquid crystal molecules, wherein the negative liquid crystal molecules are about 51 to 85 weight percents of the liquid crystal layer. | 03-04-2010 |
| 20100053527 | LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a liquid crystal display (LCD) panel is provided. The method comprises the following steps. Firstly, an upper substrate and a lower substrate are provided. Next, a liquid crystal material is interposed between the upper and lower substrates. The liquid crystal material comprises at least one liquid crystal molecule and at least two photosensitive monomers, and the absorption peak of at least one photosensitive monomer is larger than 300 nm. Then, a voltage is applied between the upper substrate and the lower substrate, and a ultra-violet with a first wavelength is used for irradiation so as to allow most photosensitive monomers to be polymerized as polymer. Lastly, a ultra-violet with a second wavelength is used for irradiation, wherein the second wavelength is larger than the first wavelength so as to allow residual photosensitive monomers to be polymerized. | 03-04-2010 |
| 20100051954 | Pixel structure and method for manufacturing the same - A method for manufacturing a pixel structure is provided. First, a first mask process is performed to form a patterned first metal layer on a substrate, wherein the patterned first metal layer includes a gate. Next, a second mask process is performed to form a patterned insulating layer and a patterned semiconductor layer over the gate, wherein the patterned insulating layer is disposed on the patterned first metal layer, and the patterned semiconductor layer is disposed on the patterned insulating layer. Then, a third mask process is performed to define a thin film transistor (TFT) and a pixel electrode connected thereto and to form a passivation layer to cover the TFT. | 03-04-2010 |
| 20100045923 | LIQUID CRYSTAL PANEL AND FABRICATION METHOD THEREOF - A liquid crystal panel and method for fabricating the same are provided. A plurality of photo spacers and ball spacers are disposed between a color filter substrate and an array substrate. The device for simultaneously applying photo spacers and ball spacers exhibits the ability to eliminate force impact and overcome problems such as touch mura and sound mura. | 02-25-2010 |
| 20100045200 | Lamp drive circuit - A lamp drive circuit used for driving a number of lamps is provided. The lamps are used in the backlight module. The backlight module is used for providing a light source during a liquid crystal display displays. The lamps are respectively electrically connected to a coil is. The coils substantially have the same coil turns and have the same magnetic circuit, so that the currents flowing through the lamps are balanced. | 02-25-2010 |
| 20100039607 | METHOD FOR FABRICATING LIQUID CRYSTAL DISPLAY PANEL - A method for fabricating a liquid crystal display (LCD) is provided. The method includes the steps stated below. At first, providing an LCD panel including a first substrate, a second substrate and a liquid crystal layer therebetween. The liquid crystal layer includes several photo-sensitive monomers and several liquid crystal molecules. The LCD panel has at least a first pixel and a second pixel. Afterwards, correspondingly driving the first pixel and the second pixel by the first voltage and the second voltage. At last, applying a ultra-violet source onto the LCD panel to enable several photo-sensitive monomers to polymerize several alignment polymers on the first substrate and the second substrate. | 02-18-2010 |
| 20100039597 | Liquid Crystal Display Panel and Method for Manufacturing Thereof and Liquid Crystal Display Incorporating the Same - A liquid crystal display panel including several first electrode portions, several second electrode portions, and a smectic liquid crystal layer is provided. The first electrode portions and the second electrode portions are disposed on a first substrate. When an AC voltage is applied on the first electrode portions and the second electrode portions, the direction of a horizontal electrical field formed between each first electrode portion and the adjacent second electrode portion is parallel to the surface of the first substrate. The smectic liquid crystal layer is interposed between the first substrate and a second substrate. During the phase change of a liquid crystal molecule of the smectic liquid crystal layer, the horizontal electrical field generated by applying the AC voltage on the first electrode portions and the second electrode portions facilitates the alignment of the liquid crystal molecule of the smectic liquid crystal layer. | 02-18-2010 |
| 20100039405 | Projective Capacitive Touch Apparatus, and Method for Identifying Distinctive Positions - A projective capacitive touch apparatus and a method for identifying multi-touched positions are provided. The multi-touched positions are touched on a projective capacitive touch panel. The method comprises the following steps: generating a first set of reference values according to the first touch position; generating a plurality of second sets of reference values according to a second touch position, and filtering out at least one ghost second set of reference values from the second sets of reference values. Furthermore, the plurality of second sets of reference values comprise a real second set of reference value and at least one ghost second set of reference values, while the ghost second set of reference values comprises parts of the first set of reference values. | 02-18-2010 |
| 20100038645 | Display Element and Method of Manufacturing the Same - A display element and a method of manufacturing the same are provided. The method comprises the following steps: forming a first patterned conducting layer with a gate on a substrate and a dielectric layer thereon; forming a patterned semiconductor layer on the dielectric layer, wherein the patterned semiconductor layer has a channel region, a source and a drain, and wherein the source and the drain lie on the opposite sides of the channel region; selectively depositing a barrier layer, which only wraps the patterned semiconductor layer; forming a second patterned conducting layer on the barrier layer and above the source and the drain. In the display element manufactured by the method, the barrier layer only wraps the patterned semiconductor layer. | 02-18-2010 |
| 20100033208 | SHIFT REGISTER UNITS, DISPLAY PANELS UTILIZING THE SAME, AND METHODS FOR IMPROVING CURRENT LEAKAGE THEREOF - A shift register comprising at least one shift register unit. The shift register unit comprises an input unit, at least one first TFT, and at least one second TFT. The input unit receives an input signal from the input terminal and outputs a switching control signal in accordance with a first clock signal. The gate of the first TFT is for receiving the switching control signal, the drain of the first TFT is for receiving a second clock signal, and the source of the first TFT is coupled to the output terminal. The gate and drain of the second TFT are coupled to the output terminal, and the source of the second TFT is coupled to the input unit. | 02-11-2010 |
| 20100026658 | TOUCH SUBSTRATE OF EMBEDDED TOUCH DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - An embedded touch display panel including a first substrate and a second substrate is provided. The first substrate having a displaying region and a sensing region includes a stack structure, a first conductive layer and a first alignment layer. The stack structure disposed on the first substrate within the sensing region includes a protruding structure and a first rough structure disposed on the protruding structure. The first conductive layer conformally disposed on the stack structure has a first rough surface. The first rough surface is exposed from the first alignment layer that covers the first conductive layer. The second substrate includes a second conductive layer and a second alignment layer. The second conductive layer whose position corresponds to the sensing region is disposed on the second structure. A portion of the second conductive layer corresponding to the first rough surface is exposed from the second alignment layer covering thereon. | 02-04-2010 |
| 20100025698 | DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A display panel includes a substrate having a display area and a blank area. The blank area includes at least one of a non-metal line region and a metal-line region. The non-metal line region includes a plurality of insulating patterns and a first conductive pattern layer formed on the substrate. The insulating patterns are isolated from each other by the first conductive pattern layer. The metal-line region includes an insulating multilayer formed on the substrate and a conductive pattern layer formed on the insulating multilayer. Several isolated zones are formed by the conductive pattern layer on the surface of the insulating multilayer. | 02-04-2010 |
| 20100022155 | ARRAY SUBSTRATE FOR LCD DEVICE - An array substrate for a liquid crystal display (LCD) device. An exemplary embodiment of an array substrate comprises a transparent substrate. A plurality of first and second conductive lines overlies the transparent substrate and cross over each other, thereby defining a plurality of display regions. At least one first spacer overlies a portion of the first or second conductive lines, wherein the first spacer is not formed over an intersection of the first and second conductive lines. A pixel electrode layer overlies the display regions, wherein the first spacer partially covers the pixel electrode layer. | 01-28-2010 |
| 20100020024 | Display Apparatus and Data Read-Out Controller Thereof - A display apparatus and a data read-out controller thereof are provided. The display apparatus comprises a touch display module, a first data read-out controller, and a second data read-out controller. Each of the first and the second data read-out controllers comprises a first read-out switch, a second read-out switch, a first sampling unit, and a second sampling unit. According to the time division multiple output operated by the first sampling units, the first read-out switches, the second sampling units, and the second read-out switches of the first and the second data read-out controllers, the number of the output points and power loss can be reduced effectively. | 01-28-2010 |
