| AU OPTRONICS CORPORATION Patent applications |
| Patent application number | Title | Published |
|---|
| 20120127210 | Random PWM Dimming Control for LED Backlight - In one aspect of the invention, a driver for driving a backlight module having a plurality of LED strings includes a random frequency multiplexer for receiving one or more PWM signals and responsively outputting a plurality of random frequency signals, a PWM dimming controller electrically coupled to the random frequency multiplexer for receiving the plurality of random frequency signals and responsively outputting a plurality of driving signals to the plurality of LED strings to drive each of the plurality of LED strings, respectively, and a switching control circuit LX electrically coupled to the random frequency multiplexer for receiving the plurality of random frequency signals and responsively outputting a plurality of switching control signals to a boost converter to regulate duty cycle ON/OFF of each of the plurality of driving signals, respectively, so as to cause each of the plurality of LED strings to emit light of a desired brightness within a desired timing cycle. | 05-24-2012 |
| 20120127144 | LIQUID CRYSTAL DISPLAY AND SOURCE DRIVING APPARATUS AND DRIVING METHOD OF PANEL THEREOF - A liquid crystal display (LCD) and a source driving apparatus and a driving method of a panel thereof are provided. In the present invention, two data strings with matched driving polarities are selected to perform charge-sharing, before pixels are driven by output buffers of the source driving apparatus. Accordingly, the power consumed by the output buffers of the source driving apparatus would be lower during the process of driving pixels, and thus achieving the purpose of power saving. | 05-24-2012 |
| 20120127067 | PIXEL ARRAY SUBSTRATE AND DISPLAY PANEL - A pixel array substrate and a display panel are provided. The pixel array substrate includes a substrate, scan line groups, data lines, and pixel structures. The scan line groups are disposed on the substrate. The data lines are intersected with the scan line groups. The pixel structures are connected to the scan line groups and the data lines. Each pixel structure includes an active device group, a first pixel electrode, a second pixel electrode, and a connection electrode. The first pixel electrode is located between the second pixel electrode and the n | 05-24-2012 |
| 20120126263 | ORGANIC ELECTROLUMINESCENCE DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic electroluminescence device and a method of manufacturing the same are provided. The organic electroluminescence device is suitable for being configured on a substrate. The organic electroluminescence device includes a first electrode, a first doped carrier transporting layer, a light-emitting layer, a second doped carrier transporting layer, and a second electrode. The first electrode is configured on the substrate. The first doped carrier transporting layer is configured on the first electrode. The light-emitting layer is configured on the first doped carrier transporting layer. The second doped carrier transporting layer is configured on the light-emitting layer and has a first surface in contact with the light-emitting layer and a second surface opposite to the first surface. The first surface is substantially a planar surface, and the second surface is a rough surface having a plurality of micro-protrusions. The second electrode is configured on the second surface. | 05-24-2012 |
| 20120126235 | APPARATUS AND METHOD FOR REDUCING PHOTO LEAKAGE CURRENT FOR TFT LCD - In one aspect of the invention, the method of forming a TFT array panel includes forming a patterned first conductive layer on a substrate, forming a gate insulating layer on the patterned first conductive layer and the substrate, forming a patterned semiconductor layer on the gate insulating layer, forming a patterned second conductive layer, forming a patterned passivation layer on the patterned second conductive layer and the substrate, and forming a patterned transparent conductive layer on the patterned passivation layer. | 05-24-2012 |
| 20120119673 | LIGHT SOURCE SYSTEM AND METHOD FOR DRIVING LIGHT EMITTING DIODES - A light source system and a method for driving light emitting diodes (LEDs) are provided. The provided light source system includes: an LED module having a plurality of LED strings operated under a direct current (DC) output voltage; and a driving unit coupled to the LED module, and used for providing the DC output voltage by adopting a boost means and generating a plurality of pulsation current signals according to a setting signal so as to respectively drive the LED strings, in which the frequencies of the pulsation current signals are higher than a predetermined frequency. | 05-17-2012 |
| 20120119247 | LIGHT EMITTING DEVICE - Disclosed herein is a light emitting device, which includes a first substrate, a protective layer, a second substrate, a buffer member and a sealant. The first substrate has an illuminating member thereon. The protective layer covers the illuminating member and has a first coefficient of thermal expansion. The second substrate is disposed over the protective layer. The buffer member is disposed between the first and second substrates and surrounds the protective layer, wherein the buffer member has a second coefficient of thermal expansion which is less than the first coefficient. The sealant surrounds the buffer member and seals off the space between the first and second substrates, wherein the sealant has a third coefficient of thermal expansion which is less than the second coefficient. | 05-17-2012 |
| 20120115357 | BACKLIGHT UNIT AND LAMP SOCKET THEREOF - A lamp socket includes a socket body, a flange and a plurality of support members. The flange is connected to the socket body and protrudes from the socket body horizontally. The plurality of support members are connected to the socket body. At least one engaging groove including at least two engaging widths is formed between the plurality of the support members and the flange, so as to secure the socket body to a bezel. | 05-10-2012 |
| 20120115288 | METHOD FOR FABRICATING ACTIVE DEVICE ARRAY SUBSTRATE - A method for fabricating an active device array substrate is provided. A first patterned semiconductor layer, a gate insulator, a first patterned conductive layer and a first dielectric layer is sequentially formed on a substrate. First contact holes exposing the first patterned semiconductor layer are formed in the first dielectric layer and the gate insulator. A second patterned conductive layer and a second patterned semiconductor layer disposed thereon are simultaneously formed on the first dielectric layer. The second conductive layer includes contact conductors and a bottom electrode. The second patterned semiconductor layer includes an active layer. A second dielectric layer having second contact holes is formed on the first dielectric layer, wherein a portion of the second contact holes exposes the active layer. A third patterned conductive layer electrically connected to the active layer through a portion of the second contact holes is formed on the second dielectric layer. | 05-10-2012 |
| 20120113620 | LIGHT SOURCE AND BACKLIGHT MODULE HAVING THE SAME - A light source includes a carrier, a plurality of solid-state light-emitting devices, a light-incoupling component, a first reflector, and a plurality of second reflectors. The solid-state light-emitting devices and the light-incoupling component are configured on the carrier. The light-incoupling component has a bottom surface, a top surface, a plurality of side surfaces adjoining the bottom surface and the top surface, and a through hole extending from the bottom surface to the top surface. The solid-state light-emitting devices are located in the through hole. The first reflector covers the through hole. The second reflectors are configured on the side surfaces. Light emitted from the solid-state light-emitting devices enters the light-incoupling component via a sidewall of the through hole and leaves the light-incoupling component via the top surface thereof. | 05-10-2012 |
| 20120113619 | LIGHT SOURCE AND BACKLIGHT MODULE HAVING THE SAME - A light source includes a carrier, a plurality of solid-state light-emitting devices, a plate photo-coupler, a first reflector, and a plurality of second reflectors. The solid-state light-emitting devices and the light-incoupling component are configured on the carrier. The light-incoupling component has a bottom surface, a top surface, a plurality of side surfaces adjoining the bottom surface and the top surface, and a through hole extending from the bottom surface to the top surface. The solid-state light-emitting devices are located in the through hole. The first reflector covers the through hole. The second reflectors are configured on the side surfaces. Light emitted from the solid-state light-emitting devices enters the light-incoupling component via a sidewall of the through hole and leaves the light-incoupling component via the top surface thereof. | 05-10-2012 |
| 20120113511 | Display Device for Generating Three Dimensional Images - A display device for generating three-dimensional images includes a display panel, a reinforcing plate, and a light-splitting layer. The reinforcing plate is attached to at least one surface of the display panel to improve the resistance to the flexing and deformation of the display panel. If the reinforcing plate is attached to a display surface of the display panel, the reinforcing plate needs to be light transmissible. The rigidity of the reinforcing plate should be greater than the rigidity of the display panel so that the attached reinforcing plate is able to support and prevent flexing of the display panel. The light-splitting layer is disposed corresponding to the display surface and distant from the display panel by a gap. An air layer is formed between the light-splitting layer and the display surface. | 05-10-2012 |
| 20120113348 | LIQUID CRYSTAL DISPLAY WITH BACKLIGHT FRAME STRUCTURE - In one aspect of the present invention, an LCD includes a front frame having a flange and a rear cover having a flange defining a housing therebetween, a liquid crystal (LC) panel placed in the housing, a backlight positioned between the LC panel and the rear cover, and a backlight frame having a first engaging structure configured to receive the flanges of the front frame and the rear cover, and a second engaging structure configured to retain the backlight and the LC panel in the housing. | 05-10-2012 |
| 20120113337 | SWITCHABLE TWO DIMENSIONAL / THREE DIMENSIONAL DISPLAY - A switchable two and three dimensional display (2D/3D display) suitable for being viewed by a user is provided. The 2D/3D display includes a liquid crystal display (LCD) panel and a switchable barrier. The LCD panel has a display area, a non-display area surrounding the display area, and a first black matrix extending from the display area to the non-display area. The first black matrix has a number of openings arranged in array and merely distributed within the display area. The switchable barrier has a 3D image control area, a non-display area surrounding the 3D image control area, and a second black matrix merely disposed within the non-display area. The second black matrix surrounds the 3D image control area. An area occupied by the 3D image control area is different from an area occupied by the display area. | 05-10-2012 |
| 20120113016 | TOUCH SENSING DEVICE AND METHOD OF DRIVING SAME - The present invention, in one aspect, relates to a touch sensing device. In one embodiment, the touch sensing device includes a plurality of touch modules spatially arranged in a form of a matrix having a plurality of rows and a plurality of columns, and a plurality of GOAs configured to receive a clock signal. Each GOA has an input for receiving a driving signal and an output for responsively outputting a delayed driving signal by a time interval to a respective touch module. The plurality of GOAs is spatially arranged in a form of a matrix such that each GOA is disposed adjacent to and associated with a corresponding touch module. The plurality of GOAs is electrically coupled to each other in series as a chain such that the output of any one but the last GOA in the chain is connected to the input of its immediate next GOA in the chain, so that, in response to a start signal applied to the first GOA in the chain, sensing signals from successive corresponding touch modules are sequentially detected by a plurality of sensing devices. | 05-10-2012 |
| 20120112214 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate is provided. First, a substrate having a display area and a sensing area is provided. Then, a first patterned conductor layer is disposed on the display area of the substrate. A gate insulator is disposed on the substrate. A patterned semiconductor layer, a second patterned conductor layer and a patterned photosensitive dielectric layer are disposed on the gate insulator, wherein the second patterned conductor layer includes a source electrode, a drain electrode and a lower electrode, the patterned photosensitive dielectric layer covering the second patterned conductor layer includes an interface protection layer disposed on the source electrode and the drain electrode and a photo-sensing layer disposed on the lower electrode. A passivation layer is then disposed on the substrate. After that, a third patterned conductor layer including a pixel electrode and an upper electrode is disposed on the passivation layer. | 05-10-2012 |
| 20120112210 | LIGHT EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME - A light emitting device includes a substrate and a plurality of pixel rows. The pixel rows are arranged on the substrate. Each of the pixel rows includes a first sub-pixel row having a plurality of first sub-pixels, a second sub-pixel row having a plurality of second sub-pixels, and a third sub-pixel row having a plurality of third sub-pixels. In the m | 05-10-2012 |
| 20120106199 | EDGE TYPE LIGHT SOURCE MODULE - An edge type light source module has at least one middle light emitting region and edge light emitting region and includes a first edge type light emitting device and a second edge type light emitting device. If the middle light emitting region is a lighting region having a brightness value L1, the edge light emitting region adjacent to the lighting region is a light leakage region. The light leakage region has a predetermined brightness value L2, and a compensation brightness value L2′ of the light leakage region satisfies L2′=L2−(L1*k1*R1), 0≦k1≦1, and 20%≦R1≦60%. If the edge light emitting region is a lighting region having a brightness value L3, the middle light emitting region adjacent to the lighting region is a light leakage region. The light leakage region has a predetermined brightness value L4, and a compensation brightness value L4′ of the light leakage region satisfies L4′=L4−(L3*k2*R2), 0≦k2≦1, and 10%≦R2≦50%. | 05-03-2012 |
| 20120106197 | Flat Panel Display Structure and Manufacturing Method Thereof - A flat panel display structure and a manufacturing method thereof are provided. The flat panel display structure includes a light guide plate made of optical glass, an optical film disposed on the light guide plate and glued thereon through a first glue layer, a display panel having a light incident surface facing the optical film and a display surface with an active area located at the central portion thereof, a second glue layer gluing the optical film and the display panel so as to cover the light incident surface including the projection of the display area thereon, and a light module emitting lights toward the light guide plate. The refractive indices of the first glue layer and the second glue layer are smaller than or equal to that of the light guide plate and the optical film. | 05-03-2012 |
| 20120106195 | Backlight Module - This embodiment relates to a backlight module, comprising a first light guide plate and a second light guide plate, wherein a first lower structure layer and a second lower structure layer are disposed on the first light guide plate and the second light guide plate, respectively. The first lower structure layer includes a first primary strip and a first secondary strip, wherein the first primary strip is located between the first secondary strip and one side of the first light guide plate. The second lower structure layer includes a second primary strip and a second secondary strip, wherein the second primary strip is located between the second secondary strip and one side of the second light guide plate. The second primary strip is exposed outside the projection of the first lower structure layer on the second lower structure layer and the first lower structure layer at least partially overlaps the second secondary strip. | 05-03-2012 |
| 20120105784 | PIXEL STRUCTURE AND DISPLAY PANEL - A pixel structure and a display panel are provided. The pixel structure includes a first scan line, a data line, a first active device, a first pixel electrode, and a first conductive pattern. The first active device is connected to the first scan line and the data line. The first pixel electrode is electrically connected to the data line through the first active device. The first conductive pattern is located above the first scan line and connected in parallel with the first scan line. | 05-03-2012 |
| 20120105517 | METHOD FOR DRIVING ACTIVE MATRIX ORGANIC LIGHT EMITTING DIODE DISPLAY PANEL - A method for driving an active matrix organic light emitting diode (AMOLED) display panel is provided. In the present method, how to drive a single pixel having a red sub-pixel, a green sub-pixel, a first blue (light blue) sub-pixel, and a second blue (dark blue) sub-pixel is effectively determined based on the characteristics of the (1931) CIE color space. Besides, at the same time point, only one of the two sub-pixels corresponding to the two blues (i.e. dark blue and light blue) in the single pixel is enabled to be mixed with the red sub-pixel and the green sub-pixel. Accordingly, the luminous efficiency of the AMOLED is improved and the power consumption of the entire AMOLED display is reduced. | 05-03-2012 |
| 20120105497 | AUTO-STEREOSCOPIC 3D DISPLAY AND DISPLAY METHOD THEREOF - An auto-stereoscopic 3D display and a display method thereof are provided. The auto-stereoscopic 3D display includes a display module and a scanning barrier. The display module displays a 2D image. The scanning barrier is attached on the display module. The scanning barrier coordinates with the 2D image displayed by the display module to provide a switching of a plurality of alternate vertical slits and vertical barriers, so that a parallax is produced between a left eye and a right eye and accordingly a 3D image is sensed, wherein a constant opaque area exists between each of a pair of the slit and the barrier. | 05-03-2012 |
| 20120105442 | IMAGE DISPLAY METHOD OF STEREO DISPLAY APPARATUS - An image display method of a stereo display apparatus is provided. The image display method includes the following steps. A stereo display apparatus is provided, wherein the stereo display apparatus provides N view zones for a viewer and includes a periodic structure and a pixel plane. N view zones are divided in a space according to the N value. Projection areas corresponding to each of the view zones are formed on the pixel plane by the periodic structure, wherein each of the projection areas corresponds to at least one sub-pixel unit on the pixel plane. Image information of each view zone is obtained according to the corresponding sub-pixel units. A stereo image is displayed by blending image information of each view zone. | 05-03-2012 |
| 20120105434 | SWITCHABLE THREE-DIMENSIONAL DISPLAY - A switchable three-dimensional display includes a display panel and a switchable parallax barrier. The switchable parallax barrier is configured over the display panel and includes a first substrate, a second substrate, an insulating layer, a common electrode, and a light-valve layer. The first substrate has a touch-sensing circuit. The second substrate has a plurality of control electrodes and is configured between the first substrate and the display panel. The touch-sensing circuit and the control electrodes are located between the first substrate and the second substrate. The insulating layer is configured over the first substrate and covers the touch-sensing circuit. The common electrode is configured on the insulating layer. The light-valve layer is configured between the common electrode and the control electrodes. | 05-03-2012 |
| 20120105409 | TWO-DIMENSIONAL AND THREE-DIMENSIONAL DISPLAY DEVICE AND DRIVING METHOD THEREOF - A 2D and 3D display device includes a display panel and a barrier panel. The barrier panel includes a first base, a first electrode layer, a first patterned electrode, a second base, a second electrode layer, a second patterned electrode and an electro-enabled material layer. The first electrode layer substantially completely covers the first base. The first patterned electrode is disposed on the first electrode layer and electrically insulated from the first electrode layer. The second base is disposed opposite to the first base. The second electrode layer substantially completely covers the second base. The second patterned electrode is disposed on the second electrode layer and electrically insulated from the second electrode layer, and an extending direction of the second patterned electrode substantially crosses over an extending direction of the first patterned electrode. The electro-enabled material layer is disposed between the first base and the second base. | 05-03-2012 |
| 20120105401 | ELECTRONIC DEVICE - An electronic device including a display unit and a photoelectric conversion board is provided. The display unit includes a display surface and a back surface which are opposite to each other, and an edge of the photoelectric conversion board is rotatably connected to the back surface of the display unit. The photoelectric conversion board includes a substrate, a first photoelectric conversion unit, and a second photoelectric conversion unit. The substrate has a first surface and a second surface which are opposite to each other, the first photoelectric conversion unit is disposed on the first surface, the second photoelectric conversion unit is disposed on the second surface, and an absorption band of the first photoelectric conversion unit is different from an absorption band of the second photoelectric conversion unit. | 05-03-2012 |
| 20120105085 | DISPLAY DEVICE AND SYSTEM FOR INSPECTING BONDING RESISTANCE AND INSPECTING METHOD THEREOF - A system for inspecting bonding resistance of a display device includes a display panel, at least one circuit board, at least one driving chip and a testing board. The display panel includes at least one testing conductive line and connecting conductive lines. The circuit board is connected with the testing conductive line and the connecting conductive lines. The driving chip includes at least one testing pad and connecting pads, respectively electrically connected to the testing conductive line and the connecting conductive lines; at least one comparator connected to the testing pad; and at least one logic circuit connected to the comparator. The testing board is connected to the circuit board and provides a test signal to the testing pad through the circuit board and the testing conductive line. The test signal is compared with a reference signal in the comparator, and the logic circuit determines a comparing result. | 05-03-2012 |
| 20120104363 | ORGANIC LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - An organic light emitting device having a light emitting unit that includes an anode layer, a second wire, an insulating layer, first and second organic light emitting layers and a cathode layer is provided. The anode layer includes first and second sub-electrodes and a first wire connecting the first and second sub-electrodes that are arranged in a first direction. The second wire is disposed between the first and second sub-electrodes. The insulating layer is disposed on the first and second sub-electrodes and the second wire, and has a plurality of openings to expose the first sub-electrode, the second sub-electrode and the second wire. The first and second organic light emitting layers are disposed in two openings. The cathode layer is disposed on the first and second organic light emitting layers, and the cathode layer fills another opening to electrically connect to the second wire through the another opening. | 05-03-2012 |
| 20120104194 | STAND STRUCTURE AND DISPLAY DEVICE - A display device includes a body, a supporting member and a fastening member. The body has an accommodating portion, and the supporting member assembled to the accommodating portion for supporting the body is in the first state or the second state. The supporting member in the first state is switched to the second state when pivoting in an angle. The fastening member is detachably assembled to a first position or a second position of the supporting member, such that the supporting member is fastened to the accommodating portion of the body by the fastening member. The fastening member is assembled to the first position of the supporting member when the supporting member assembled to the accommodating portion is in the first state, and the fastening member is assembled to the second position of the supporting member when the supporting member assembled to the accommodating portion is in the second state. | 05-03-2012 |
| 20120100653 | METHODS OF MANUFACTURING MASTER, PIXEL ARRAY SUBSTRATE AND ELECTRO-OPTICAL DEVICE - A master having a substrate including displaying units and an ESD protection structure including an adjacent first region and a second region is provided. The displaying units have a predetermined-cutting region therebetween. Each displaying unit includes a peripheral circuit region and a display region having pixels. The ESD protection structure disposed on the predetermined-cutting region, located in the peripheral circuit region, and connecting the display region includes a first patterned conductive layer disposed on the first region and having an end away from the predetermined-cutting region, a first patterned dielectric layer disposed on the first patterned conductive layer and the substrate and having a first opening exposing a portion of the first patterned conductive layer, a patterned transparent conductive layer disposed corresponding to the predetermined-cutting region and connecting the first patterned conductive layer, and a second patterned dielectric layer covering the patterned transparent conductive layer and the substrate. | 04-26-2012 |
| 20120099342 | Complex Circuit Board and Fabrication Method Thereof - A complex circuit board including a printed circuit board assembly (PCBA) and a flexible printed circuit (FPC) for providing driving signals for light sources is disclosed. The PCBA includes a supporting portion and a connecting portion. The light sources are disposed above the supporting portion. The connection portion contacts electrically with a contacting portion of the FPC. The contacting portion of the FPC has a fixing hole. The connecting portion of the PCBA has a fixing portion. Moreover, the FPC has two or more than two first bend portions on the contacting portion. The fixing portion of the PCBA is inserted into the fixing hole of the FPC to complete the complex circuit board without extra attachment units. Therefore, the assembly procedure is simplified to increase throughput and the cost is reduced. | 04-26-2012 |
| 20120099257 | Display Module - A display module having an improved assembly structure is provided. The display module includes a frame, a display panel, and a glue. The frame has a side wall and a supporting part, wherein the supporting part has a supporting surface and the side wall is formed on the periphery of the supporting surface. A groove is formed on the supporting surface adjacent to the side wall and is distributed along the side wall. The display panel is disposed within the frame and has a bottom face and a side face. The bottom face is supported by the supporting surface of the supporting part. The side face faces the side wall and forms a gap with the side wall. The glue is filled in the gap and adheres the side wall to the side face. | 04-26-2012 |
| 20120099072 | DISPLAY DEVICE - A display device includes a display panel and at least one driving chip. The display panel has a display region and a non-display region and includes a pixel array, a plurality of pads, a passivation layer, and a plurality of conductive patterns. The pixel array is located in the display region. The pads are located in the non-display region and electrically connected to the pixel array. The passivation layer is located on the pads and has a plurality of through holes. Each of the conductive patterns covers one of the pads and is electrically connected to the pad through at least one of the through holes. A material of the conductive patterns includes a polymer conductive material. The driving chip is located on the display panel and electrically connected to the pads of the display panel. | 04-26-2012 |
| 20120099044 | LIQUID CRYSTAL DISPLAY MODULE - A liquid crystal display (LCD) module includes a back bezel, a backlight module, a frame, an LCD panel, a circuit board, an assembling element, and a gasket. The frame has a top part and a bottom part opposite to the top part, and the bottom part faces the back bezel. The circuit board is configured on the top part of the frame and has a first surface and a second surface opposite to the first surface. The second surface faces the frame, and the circuit board has a ground area on the second surface. The assembling element pierces through the frame and connects the frame to the back bezel. The gasket leans against the ground area of the circuit board and the assembling element to form a conductive path from the ground area, the gasket, the assembling element to the back bezel. | 04-26-2012 |
| 20120098739 | SPLICED ELECTROPHORETIC DISPLAY PANEL - A spliced electrophoretic display panel includes a plurality of electrophoretic display units arranged in an array and connected to one another. Each of the electrophoretic display units includes a first substrate, a second substrate, an electrophoretic display layer, and a sealant. The second substrate is configured under the first substrate. At least one edge of the first substrate goes beyond an edge of the second substrate. The electrophoretic display layer is configured between the first substrate and the second substrate. An image displayed by the electrophoretic display layer is observed via the first substrate. The sealant is connected to the electrophoretic display layer, the first substrate, and the second substrate. Besides, the sealant surrounds the electrophoretic display layer. The first substrate of each of the electrophoretic display units is connected to the adjacent first substrate. | 04-26-2012 |
| 20120097955 | THIN FILM TRANSISTOR AND PIXEL STRUCTURE HAVING THE THIN FILM TRANSISTOR - A thin film transistor (TFT) and a pixel structure having the TFT are provided. The TFT is configured on a substrate. Besides, the TFT includes a gate, a gate insulation layer, a source, a channel layer, and a drain. The gate insulation layer covers the gate and the substrate. The source is configured on a portion of the gate insulation layer. The channel layer is configured on the gate insulation layer and covers a portion of the source located above the gate. The drain is configured on and electrically connected to the channel layer. | 04-26-2012 |
| 20120097943 | THIN FILM TRANSISTOR - A TFT including a gate, a gate insulation layer, an oxide semiconductor layer, a translucent layer, a source, and a drain. The gate insulation layer covers the gate. The oxide semiconductor layer is disposed on the gate insulation layer and located above the gate. The oxide semiconductor layer includes an oxide channel layer and two ohmic contact layers. The ohmic contact layers are respectively located beside the oxide channel layer and connected with the oxide channel layer. The translucent layer is located above the oxide channel layer. The source and the drain are disposed on the gate insulation layer and the ohmic contact layers. The source and the drain are electrically insulated from each other. | 04-26-2012 |
| 20120097236 | SOLAR CELL - A solar cell includes a semi-conductive substrate, a doping layer, an anti-reflection layer, an electrode, a passivation stacked layer and a contact layer. The semi-conductive substrate has a front and a back surface. The doping layer is disposed on the front surface. The anti-reflection layer is disposed on the doping layer. The electrode is disposed on the anti-reflection layer and electrically connected to the doping layer. The passivation stacked layer is disposed on the back surface and has a first dielectric layer, a second dielectric layer and a middle dielectric layer sandwiched between the first and the second dielectric layer. The dielectric constant of the middle dielectric layer is substantially lower than the dielectric constant of the first dielectric layer and the dielectric constant of the second dielectric layer. The contact layer covers the passivation stacked layer and electrically contacts with the back surface of the semi-conductive substrate. | 04-26-2012 |
| 20120092605 | PIXEL STRUCTURE - A pixel structure including a scan line, a data line, an active device, a pixel electrode, a capacitor electrode line, a semi-conductive pattern layer and at least one dielectric layer is provided. The active device is electrically connected to the scan line and the data line. The pixel electrode is electrically connected to the active device. The capacitor electrode line is located under the pixel electrode. A first storage capacitor is formed between the capacitor electrode line and the pixel electrode. The semi-conductive pattern layer is disposed between the capacitor electrode line and the pixel electrode, the pixel electrode is electrically connected to the semi-conductive pattern layer. A second storage capacitor is formed between the semi-conductive pattern layer and the capacitor electrode line. The dielectric layer is disposed between the capacitor electrode line and the pixel electrode and located between the semi-conductive pattern layer and the capacitor electrode line. | 04-19-2012 |
| 20120092593 | FRAME, BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY MODULE - A frame formed by cutting and bending a plate base is provided. The maximum thickness of the frame is T, the thickness of the plate base is t, and 1.5t≦T≦2.5t. The frame includes a first plate element, a second plate element, and a bending portion. The second plate element is directly contacted to the first plate element, and the first plate element is substantially parallel to the second plate element. The bending portion is connected between the first plate element and the second plate element. A backlight module using the above-mentioned frame and a liquid crystal display (LCD) module using the backlight module are also provided. | 04-19-2012 |
| 20120092578 | DISPLAY PANEL - A driving circuit and a common electrode are located within a sealant region of the first substrate, wherein the driving circuit includes switch devices and turn-line structures. The common electrode is located within the sealant region of the first substrate. The planar layer is located on the first substrate, wherein the thickness of the planar layer at the turn-line structure of the driving circuit is less than the thicknesses of other portions. The conductive layer is located on the planar layer. A second substrate having an electrode thereon is disposed opposite to the first substrate. A liquid crystal layer is located within the display region between the first substrate and the second substrate. A sealant is located within the sealant region between the first substrate and the second substrate, and conductive balls are distributed in the sealant. | 04-19-2012 |
| 20120092240 | DRIVING CIRCUIT AND DISPLAY PANEL HAVING THE SAME - An active device, a pixel structure, and a display panel are provided. The pixel structure includes a scan line, a data line, an active device, a first insulating layer, a pixel electrode, a capacitor electrode, and a second insulating layer. The active device includes a gate, a channel, a source, and a drain. The gate is electrically connected to the scan line. The source is electrically connected to the data line. The first insulating layer is disposed between the gate and the channel. The pixel electrode is electrically connected to the drain. The capacitor electrode is located on the first insulating layer. The second insulating layer is located between the capacitor electrode and the drain. | 04-19-2012 |
| 20120087461 | BIDIRECTIONAL SHIFTER REGISTER AND METHOD OF DRIVING SAME - A bidirectional shift register includes first, second, third and fourth control signal bus lines for providing first, second, third and fourth control signals, Bi | 04-12-2012 |
| 20120087140 | Light Module - A light module is disclosed. The light module includes a first printed circuit board, a second printed circuit board, a light source, and a fixing casing, wherein the first printed circuit board and the second printed circuit board each has a fixing part, and the fixing part of the second printed board is attached to the fixing part of the first printed board. The light source is disposed on the first printed circuit board to couple to the first printed board and the second printed board. The fixing casing has a contact surface. When the fixing casing is fixed onto the fixing parts of the second printed circuit board and the first printed circuit board, the contact surface contacts the fixing part so that the second printed circuit board is clamped between the contact surface and the first printed circuit board. | 04-12-2012 |
| 20120087108 | LED Apparatus - An LED apparatus is disclosed. The LED apparatus includes a substrate, a cup structure, and a dividing structure. The dividing structure divides a containing space formed by the cup structure into a first region and a second region. A first blue-light chip and a first package colloidal are disposed in the first region and a second blue-light chip and a second package colloidal are disposed in the second region. A green-light phosphor is mixed in the second package colloidal to completely convert a monochromatic emission spectrum of a second blue-light band of the second blue-light chip into a monochromatic emission spectrum of a green-light band. The green-light phosphor is selected from one of silicate, oxynitride, lutetium aluminum oxide, and calcium scandium oxide. | 04-12-2012 |
| 20120087002 | Electrophoretic Display Structure - An electrophoretic display structure includes a substrate, an activation layer, an electrophoretic display layer, a protective layer, a first sealant, and a second sealant. The activation layer is disposed on the substrate while the electrophoretic display layer is disposed on the activation layer. The electrophoretic display layer has a plurality of electrophoretic display elements and a waterproof layer disposed on the electrophoretic display elements. The protective layer is disposed on the electrophoretic display elements. The protective layer is disposed on the waterproof layer, and the first sealant is disposed between the activation layer and the protective layer to fill in the sides of the electrophoretic display layer. The second sealant covers the outer side of the first sealant and connects with the activation layer and the protective layer. The viscosity of the first sealant in liquid state is lower than the viscosity of the second sealant in liquid state. | 04-12-2012 |
| 20120086897 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel includes a first substrate, a second substrate, a polymer stabilized alignment (PSA) liquid crystal layer, a first alignment layer, a second alignment layer, and a plurality of pixel structures. The PSA liquid crystal layer is configured between the first and second substrates, and liquid crystal molecules of the PSA liquid crystal layer are substantially arranged in parallel to the first and second substrates. The first alignment layer is configured between the first substrate and the PSA liquid crystal layer and has a first alignment direction. The second alignment layer is configured between the second substrate and the PSA liquid crystal layer. Each pixel structure is configured between the second substrate and the second alignment layer and has a pixel electrode and a first common electrode. The pixel electrode has at least one slit which is overlapped with the first common electrode. | 04-12-2012 |
| 20120086889 | LIQUID CRYSTAL DISPLAY AND BACKLIGHT MODULE THEREOF - A backlight module includes an LGP and a linear light source. The LGP includes a light-incident side surface and a top light-emitting surface that has a peripheral region and an effective illumination region. The linear light source includes a circuit board, solid-state light-emitting devices configured on and electrically connected to the circuit board, and a reflector covering a portion of the peripheral region. Light emitted from each solid-state light-emitting device enters the LGP from the light-incident side surface. The reflector includes first reflection parts that correspond to the solid-state light-emitting devices and second reflection parts. Each second reflection part is connected to two adjacent first reflection parts. Each first reflection part and each second reflection part extend towards the effective illumination region from an edge of the top light-emitting surface. An extension length of each first reflection part is shorter than that of each second reflection part. | 04-12-2012 |
| 20120086677 | DRIVING CIRCUIT AND METHOD FOR DRIVING A DISPLAY - In one aspect of the invention, a method for driving a display includes the steps of processing input image signals into pixel signals associated with the pixel matrix and grayscales of the display, generating a polarity control signal POL, and determining transmitting paths of the pixel signals according to the polarity control signal POL, and writing the pixel signals into the pixel matrix of the display along the determined transmitting paths. | 04-12-2012 |
| 20120086673 | TOUCH DISPLAY DEVICE - A touch display device includes a device housing, a display module, and an optical touch module. The display module is located within the device housing and has a display region and a peripheral region surrounding the display region. The optical touch module is configured on the display module. Besides, the optical touch module includes a light guide element, a light source, and a photo sensor. The light guide element has a top surface and includes a light guide portion and an outer frame portion. The light guide portion is located on the display region. The outer frame portion extends from an edge of the light guide portion and is connected to the device housing. The light source supplies light to the light guide portion. The photo sensor receives the light from the light guide portion. The outer frame portion covers the light source and the photo sensor. | 04-12-2012 |
| 20120086672 | METHOD OF LOCATING TOUCH POSITION - A method for locating a touch position is provided. The method is adaptable to an optical touch panel, wherein the optical touch panel has a plurality of visible light sensors and a plurality of corresponding invisible light sensors that are arranged as an array. In the present method, sensing signals of the visible light sensors and the invisible light sensors are read. The sensing signal of each visible light sensor is converted into a first binary code according to a first setting parameter, and the sensing signal of each invisible light sensor is converted into a second binary code according to a second setting parameter and a third setting parameter. An AND operation is performed on all the first binary codes and all the second binary codes to obtain a plurality of logic operation values, so as to locate a position touched by a user on the optical touch panel. | 04-12-2012 |
| 20120086025 | ORGANIC LIGHT-EMITTING DIODE MODULE - An organic light-emitting diode (OLED) module includes a substrate, a bus line, an organic light-emitting device layer, a plurality of conductive elements, and at least one conductive wire. The bus line is configured on the substrate. The organic light-emitting device layer is configured on the substrate and electrically connected to the bus line. The conductive elements are configured on the substrate and electrically connected to the bus line. The conductive wire is configured next to the conductive elements and electrically connected to the conductive elements. | 04-12-2012 |
| 20120081918 | EDGE-TYPE BACKLIGHT MODULE - An edge-type backlight module includes a back bezel, a light guide plate (LGP), a light source, and a frame. The back bezel includes a supporting portion that has a light source supporting surface and an LGP supporting surface. A horizontal level of the light source supporting surface is lower than that of the LGP supporting surface. The LGP is configured on the LGP supporting surface and has a light-incident side surface and a top light-emitting surface. The light source is configured on the light source supporting surface to provide a light beam. The frame is configured on the back bezel and leans against the LGP. The frame has a reflective surface located on a transmission path of the light beam to reflect the light beam, and the reflected light beam enters the LGP from the light-incident side surface. | 04-05-2012 |
| 20120081809 | ACTIVE DEVICE ARRAY SUBSTRATE, COLOR FILTER SUBSTRATE AND MANUFACTURING METHODS THEREOF - An active device array substrate comprising a substrate, a pixel array, a partition configuration and an alignment material layer is provided. The substrate has an alignment region and a predetermined sealing region. The predetermined sealing region surrounds the alignment region. The pixel array is disposed on the substrate within the alignment region. The partition configuration is disposed on the substrate between the predetermined sealing region and the alignment region. The alignment material layer is disposed within the alignment region and covers the pixel array. | 04-05-2012 |
| 20120081343 | Display Array of Display Panel - A display array organization used in a display panel is provided. The display array includes a data line, a first scan line, a second scan line, a first pixel electrode, a second pixel electrode, a front-end switch and an intermediary switch. The first pixel electrode is connected to the data line with the front-end switch, and the second pixel electrode is connected to the first pixel electrode with the intermediary switch. The operation of the front-end switch and intermediary switch are controlled by the first and second scan line respectively. When only the front-end switch is activated, the first pixel electrode can receive the data signal from the data line. When both the front-end and intermediary switches are activated, the second pixel electrode can receive a data signal from the data line. | 04-05-2012 |
| 20120081300 | TOUCH PANEL AND REPAIRING METHOD THEREOF - A touch panel including a substrate, a plurality of first and second sensing series, and a plurality of conductive repairing pattern layers is provided. The first sensing series are disposed on the substrate and extended along a first direction. Each of the first sensing series includes a plurality of first sensing pads and first bridge lines, and the first bridge lines serially connect two adjacent first sensing pads. The second sensing series are disposed on the substrate and extended along a second direction. Each of the second sensing series includes a plurality of second sensing pads and second bridge lines, and the second bridge lines serially connect two adjacent second sensing pads. Each conductive repairing pattern layer electrically floating locates around the crossover region of the first and second sensing series. Two adjacent sensing pads are connected by the conductive repairing pattern layer after a repair procedure is finished. | 04-05-2012 |
| 20120081273 | PIXEL STRUCTURE, PIXEL ARRAY AND DISPLAY PANEL - A pixel structure, a pixel array, and a display panel are provided. The pixel structure includes a scan line, a data line, an active device, a pixel electrode, and a conductive bar pattern. The active device is electrically connected to the scan line and the data line. The pixel electrode is electrically connected to the active device. The conductive bar pattern is located on and electrically connected to the data line. The conductive bar pattern has a line width greater than or equal to a line width of the data line, and the conductive bar pattern and the pixel electrode are in the same layer. | 04-05-2012 |
| 20120075549 | WHITE LIGHT EMITTING DIODE DEVICE, LIGHT EMITTING APPARATUS, AND LIQUID CRYSTAL DISPLAY DEVICE - A white light emitting diode (LED) device includes a blue LED light source, a sealant material, a green phosphor material, and an orange phosphor material. The sealant material covers the blue LED light source. The green phosphor material distributed in the sealant material includes (Lu | 03-29-2012 |
| 20120075540 | STEREO DISPLAY AND IMAGE DISPLAY METHOD THEREOF - A stereo display includes a display panel, a first polarizer modulator disposed above the display panel, and a second polarizer modulator disposed above the first polarizer modulator. The second polarizer modulator includes a first lens set, a second lens set opposite to the first lens set, a polarization material, and a birefringent material. An angle between an extending direction of the first lens set and an extending direction of the second lens set is not 0 or 180 degrees. The polarization material is between the first lens set and the second lens set. The birefringent material is disposed in at least one of the first lens set and the second lens set. | 03-29-2012 |
| 20120073124 | METHOD OF FABRICATING TOUCH PANEL - A method of fabricating a touch panel is provided. A substrate having a touch-sensing region and a peripheral region is provided. A touch-sensing circuit layer including first sensing series, second meshed metal sensing pads, and peripheral circuits is formed on the touch-sensing region of the substrate. An insulating layer having first contact windows and second contact windows is formed on the substrate to cover the touch-sensing circuit layer. The first contact windows expose a portion of the second meshed metal sensing pads. A transparent conductive layer including second transparent bridge lines and transparent contact pads is formed on the insulating layer located in the touch-sensing region of the substrate. Each second transparent bridge line is electrically connected to two adjacent second meshed metal sensing pads through two first contact windows. Each transparent contact pad is electrically connected to the corresponding peripheral circuit through the second contact window. | 03-29-2012 |
| 20120069598 | EDGE-TYPE BACKLIGHT MODULE - An edge-type backlight module includes a light guide plate and at least one linear light source. The light guide plate has at least one light-incident sidewall, and the linear light source is substantially parallel to the light-incident sidewall. The linear light source includes a carrier and a plurality of solid-state light-emitting devices. The carrier is equally divided into a first, a second, a third, a fourth, and a fifth device mounting regions sequentially arranged along an extending direction of the carrier. The solid-state light-emitting devices are mounted on the device mounting regions and electrically connected to the carrier. An arrangement pitch of the solid-state light-emitting devices on the fourth device mounting region of the device mounting regions is greater than an arrangement pitch of the solid-state light-emitting devices on the other four device mounting regions. | 03-22-2012 |
| 20120069550 | Display Device with Switchable Viewing Angle and Backlight Module Thereof - A display device with switchable viewing includes a backlight module and a display panel. The backlight module includes a light guide plate, first optical structures, a reflector, a first light source, and a second light source. The light guide plate includes a bottom surface, a light exit surface, a first light incident surface, and a second light incident surface. The display panel is disposed on the light exit surface. The first optical structures are disposed on the bottom surface and each includes a first inclined surface and a second inclined surface. The angle between the first inclined surface and the bottom surface is smaller than that between the second inclined surface and the bottom surface. Lights from the first light source and the second light source enter the light guide plate from the first light incident surface and the second light incident surface, respectively. After entering the light guide plate, the lights can be reflected by the first inclined surface or the second inclined surface, or be refracted by the first inclined surface or the second inclined surface to the underlying reflector and reflected by the reflector back to the light guide plate from the first inclined surface or the second inclined surface. Based on such a structure, by controlling the on/off state of the first light source and the second light source, the viewing angle of the display device is switchable. | 03-22-2012 |
| 20120069279 | Graded Index Birefringent Component and Manufacturing Method Thereof - A graded index birefringent component is described and shown with at least one liquid crystal layer having a plurality of lens segments, wherein the orientation of the liquid crystal molecules varies across each lens segment of the liquid crystal layer. | 03-22-2012 |
| 20120069277 | LIQUID CRYSTAL DISPLAY - A liquid crystal display including a backlight unit and a liquid crystal display panel is provided. A spectrum of the backlight unit has relative relative maximum brightness peaks at wavelength between 460 nm to 480 nm, between 505 nm to 525 nm, and between 610 nm to 630 nm. The liquid crystal display panel is disposed above the backlight unit. The liquid crystal display panel has a red color filter layer (R | 03-22-2012 |
| 20120069274 | LIQUID CRYSTAL DISPLAY - A liquid crystal display including a backlight unit and a liquid crystal display panel is provided. A spectrum of the backlight unit has relative maximum brightness peaks at wavelength between 460 nm to 480 nm, between 505 nm to 525 nm, and between 610 nm to 630 nm. The liquid crystal display panel is disposed above the backlight unit. The liquid crystal display panel has a red color filter layer (R | 03-22-2012 |
| 20120069267 | DISPLAY MODULE AND ASSEMBLING METHOD THEREOF - A display module includes a backlight unit, a display panel, a fixing film, a covering plate, and a bezel. The backlight unit has a top portion, a bottom portion opposite to the top portion, a first side, a second side opposite to the first side, a third side, and a fourth side opposite to the third side between the top and bottom portions. The display panel has a display surface and a back surface opposite to the display surface. The display panel is located on the top portion. The back surface of the display panel faces the top portion. The fixing film attached to the back surface extends toward the backlight unit and wraps the first and second sides and the bottom portion. The covering plate is disposed on the display surface of the display panel. The bezel connects the covering plate and exposes the first and second sides. | 03-22-2012 |
| 20120069241 | DISPLAY - A display includes a display panel and an image capture apparatus. The display panel has a display region, a peripheral region surrounding the display region, and a through hole located in the peripheral region. The image capture apparatus is assembled to the display panel. The image capture apparatus includes a signal transmission device and an image capture device located in the through hole, and the image capture device is connected to the signal transmission device. | 03-22-2012 |
| 20120068983 | SWITCHABLE ORGANIC ELECTRO- LUMINESCENCE DISPLAY PANEL AND SWITCHABLE ORGANIC ELECTRO-LUMINESCENCE DISPLAY CIRCUIT - A switchable organic electro-luminescence display circuit includes a plurality of scan lines, a plurality of data lines, a plurality of first organic electro-luminescence devices, a plurality of second organic electro-luminescence devices, a display mode switching line, and at least one display mode switching transistor. Each of the first organic electro-luminescence devices is electrically connected to a scan line and a data line correspondingly, and coupled between a first voltage source and a second voltage source. Each of the second organic electro-luminescence devices is electrically connected to a scan line and a data line correspondingly, and coupled to the first voltage source. A gate electrode of the display mode switching transistor is electrically connected to the display mode switching line. A source electrode and a drain electrode of the display mode switching transistor are electrically connected to the second voltage source and the second organic electro-luminescence devices respectively. | 03-22-2012 |
| 20120068593 | LIGHT EMITTING UNIT OF ELECTROLUMINESCENCE DEVICE AND MANUFACTURING METHOD THEREOF - A light emitting unit of an electroluminescence device and a manufacturing method thereof are provided. The light emitting unit of the electroluminescence device includes a power line, a first electrode layer, a light emitting layer and a second electrode layer. The power line is on a substrate. The first electrode layer is disposed on the substrate and is electrically connected to the power line. In particular, a top portion of the first electrode layer has an oxygen concentration higher than that of a bottom portion of the first electrode layer. The light emitting layer is disposed on the first electrode layer and the second electrode layer is disposed on the light emitting layer. | 03-22-2012 |
| 20120068046 | Film-Carrying System and a Film-Carrying Device Used Therein - A film-carrying system and a film-carrying device used therein are provided. The film-carrying system includes a support base, a film-carrying device and a film. The film-carrying device includes a support connection part, an elastic part, and a film connection part. The support connection part is coupled to the support base while the film connection part is coupled to the film. The elastic part has a free end and a fixed end; the free end connects to the film connection part, and the fixed end connects to the support connection part. The elastic deformation of the elastic part provides the film connection part with a degree of freedom in linear displacement, and the film connection part also has a degree of freedom in angular displacement corresponding to the support connection part. | 03-22-2012 |
| 20120068045 | Film-Carrying System and a Film-Carrying Device Used Therein - A film-carrying system and a film-carrying device used therein are provided. The film-carrying system includes a support base, a film-carrying device and a film. The film-carrying device includes a support connection part, an elastic part, and a film connection part. The support connection part is coupled to the support base while the film connection part is coupled to the film. The elastic part has a free end and a fixed end; the free end connects to the film connection part, and the fixed end connects to the support connection part. The elastic deformation of the elastic part provides the film connection part with a degree of freedom in linear displacement, and the film connection part also has a degree of freedom in angular displacement corresponding to the support connection part. | 03-22-2012 |
| 20120063163 | Backlight Structure and Manufacturing Method Thereof - A backlight structure includes a light guide plate, at least one light source module, and a reflective cover. The light guide plate has a light incident side and a light-exiting surface, wherein the light-exiting surface is formed at an edge of the light incident side. The light source module includes a substrate and at least one light emitting element, wherein the light emitting element disposed on the substrate emits light to the light incident side. The reflective cover has a first reflecting portion and a second reflecting portion, wherein the second reflecting portion extends from the first reflecting portion disposed between a surface of the substrate and the light incident side of the light guide plate and covers a part of the light-exiting surface, so that the reflective cover reflects light emitted from the light emitting element to the light guide plate. | 03-15-2012 |
| 20120062447 | FLEXIBLE DISPLAY PANEL - A flexible display panel includes a flexible substrate, a plurality of pixels, a plurality of signal lines, a plurality of wave-like connecting lines, and a display medium. The flexible substrate has a plurality of display regions separated from one another and at least one foldable region located among the display regions. The pixels are disposed in the display regions. The signal lines are disposed on the flexible substrate and electrically connected to the pixels. The wave-like connecting lines are distributed in and across the foldable region. Each of the wave-like connecting lines is electrically connected to two of the signal lines adjacent to the wave-like connecting line. Each of the wave-like connecting lines across the foldable region has a wave-like pattern. The display medium is disposed on the flexible substrate to cover at least the display regions. | 03-15-2012 |
| 20120061701 | ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device includes an organic light emitting panel and at least one light extraction enhanced film. The organic light emitting panel has at least one light emitting surface. The light extraction enhanced film is disposed on the light emitting surface of the organic light emitting panel, and the light extraction enhanced film has a recess array. The recess array includes a plurality of recess holes. The recess holes are recessed toward the organic light emitting panel. | 03-15-2012 |
| 20120061661 | SEMICONDUCTOR STRUCTURE AND FABRICATING METHOD THEREOF - A semiconductor structure and a fabricating method thereof are provided. The fabricating method includes forming a gate, a source, and a drain on a substrate and forming an oxide semiconductor material between the gate and the source and drain. The oxide semiconductor material is formed by performing a deposition process, and nitrogen gas is introduced before the deposition process is completely performed, so as to form oxide semiconductor nitride on the oxide semiconductor material. | 03-15-2012 |
| 20120057358 | LIGHT EMITTING DIODE MODULE - A light emitting diode (LED) module including a circuit board and at least one LED package is provided. The circuit board has a plurality of driving signal wirings and at least one ground wiring. The LED package is disposed on the circuit board and is electrically connected to the driving signal wirings. The LED package includes at least one LED chip, a plurality of signal leads, and at least one ground lead. The signal leads are electrically connected to the LED chip. The ground lead is electrically insulated from the signal lead and is electrically connected to the ground wiring. The ground lead is electrically insulated from the LED chip and has favorable electrostatic discharge (ESD) protection performance. | 03-08-2012 |
| 20120057112 | LIQUID CRYSTAL DISPLAY UNIT - A liquid crystal display unit including a pixel unit and a quasi-isotropic liquid crystal layer with Kerr effect is provided. The pixel unit includes sub-pixel units, each sub-pixel unit at least has a first transmissive region and a second transmissive region. Each sub-pixel unit includes a switch, a pixel electrode, and a common electrode. Each pixel electrode has first stripe patterns. The common electrode has second stripe patterns, wherein the first stripe patterns and the second stripe patterns are arranged alternately. In the first transmissive region, width of each first stripe pattern is L | 03-08-2012 |
| 20120057090 | ACTIVE DEVICE, PIXEL STRUCTURE AND DISPLAY PANEL - An active device, a pixel structure, and a display panel are provided. The pixel structure includes a scan line, a data line, an active device, a gate insulating layer, a pixel electrode, a capacitor electrode, and a capacitor dielectric layer. The active device includes a gate, a channel, a source, and a drain. The gate is electrically connected to the scan line. The source is electrically connected to the data line. The gate insulating layer is disposed between the gate and the channel. The pixel electrode is electrically connected to the drain. The capacitor electrode is located on the gate insulating layer. The capacitor dielectric layer is located between the capacitor electrode and the drain. | 03-08-2012 |
| 20120056207 | PIXEL ARRAY - A pixel array includes pixel sets. Each pixel set includes a first and second scan lines arranged in parallel on a substrate, a data line not parallel to the first and second scan lines, a first active device electrically connecting the first scan line and the data line, a second active device electrically connecting the second scan line and the data line, a first pixel electrode electrically connecting the first active device, a second pixel electrode electrically connecting the second active device, and an auxiliary electrode pattern that includes a connecting portion and a first and second branch portions. A gap is between the first and second pixel electrodes. The connecting portion underneath the gap between the first and second pixel electrodes partially overlaps the first and second pixel electrodes. The first and second branch portions connect the connecting portion and partially overlap the first and second pixel electrodes, respectively. | 03-08-2012 |
| 20120056180 | THIN FILM TRANSISTOR AND FABRICATING METHOD THEREOF - A thin film transistor including a substrate, a semiconductor layer, a patterned doped semiconductor layer, a source and a drain, a gate insulation layer, and a gate is provided. The semiconductor layer is disposed on the substrate. The patterned doped semiconductor layer is disposed on opposite sides of the semiconductor layer. The source and the drain are disposed on the patterned doped semiconductor layer and the opposite sides of the semiconductor layer, wherein a part of the semiconductor layer covered by the source and the drain has a first thickness, a part of the semiconductor layer disposed between the source and the drain and not covered by the source and the drain has a second thickness ranging from 200 Å to 800 Å. The gate insulation layer is disposed on the source, the drain and the semiconductor layer. The gate is disposed on the gate insulation layer. | 03-08-2012 |
| 20120044618 | Curve-Shaped Display Module, Manufacture Method Thereof, and Manufacture Apparatus for Manufacturing the Same - A curve-shaped display module, a manufacture method thereof, and a manufacture apparatus for manufacturing the same are provided. The manufacture apparatus includes a curve-forming mold, a curable material-dispensing device, and a curing device. The manufacture method includes the following steps: pressing the display panel to make the display panel have a curved shape and a first curved surface by using the curve-forming mold; distributing a curable material on the first curved surface by using the dispensing device; and curing the curable material to form a cured casing by using the curing device. The display module has the display panel having the first curved surface and the cured casing formed from the curing of the curable material. The cured casing covers and is closely attached to the first curved surface with an adhesion force therebetween to sustain the curved shape of the display panel. | 02-23-2012 |
| 20120044432 | PIXEL ARRAY SUBSTRATE, CONDUCTIVE STRUCTURE AND DISPLAY PANEL - A pixel array substrate includes a substrate having a display region and a non-display region, a pixel array in the display region, first and second lead lines, first pads in the non-display region, second pads in the non-display region and on a first insulating layer, and the first insulating layer. The first lead lines electrically connect the pixel array and extend from the display region to the non-display region. Each first pad electrically connects one corresponding first lead line. The first insulating layer covers the first lead lines and exposes the first pads. The second lead lines on the first insulating layer electrically connect the pixel array and extend from the display region to the non-display region. Each second pad electrically connects one corresponding second lead line. A distance between each first pad and the adjacent second pad along a horizontal direction is 10 um˜20 um. | 02-23-2012 |
| 20120044160 | Touch Panel and Peripheral Circuit Thereof - A touch panel and a peripheral circuit thereof are provided. Each bonding pad of the peripheral circuit includes a first conductive layer, a first protective layer, a second conductive layer, and a second protective layer sequentially arranged on a substrate from bottom to top. A covered area of the second conductive layer provided by the second protective layer is increased to cover a portion of the second conductive layer located above a junction area between the first protective layer and a terminal part of the first conductive layer, thereby increasing the reliability of the bonding pads. | 02-23-2012 |
| 20120043558 | ACTIVE DEVICE ARRAY SUBSTRATE AND METHOD FOR FABRICATING THE SAME - An active device array substrate and a fabricating method thereof are provided. A first patterned conductive layer including separated scan line patterns is formed on a substrate. Each scan line pattern includes a first and second scan lines adjacent to each other. Both the first and the second scan lines have first and second contacts. An open inspection on the scan line patterns is performed. Channel layers are formed on the substrate. A second patterned conductive layer including data lines interlaced with the first and second scan lines, sources and drains located above the channel layers, and connectors is formed on the substrate. The sources electrically connect the data lines correspondingly. At least one of the connectors electrically connects the first and second scan lines, so as to form a loop in each scan line pattern. Pixel electrodes electrically connected to the drains are formed. | 02-23-2012 |
| 20120038865 | LIQUID CRYSTAL DISPLAY PANEL AND ACTIVE DEVICE ARRAY SUBSTRATE THEREOF - An active device array substrate including a substrate, a plurality of scan lines, a plurality of data lines, and a plurality of pixel units, each of the pixel units formed between every neighboring two of the scan lines and data lines is provided. Each of the pixel units includes a first active device, a first pixel electrode electrically connected to a corresponding scan line and a corresponding data line through the first active device, a second active device, a second pixel electrode electrically connected to a corresponding scan line and a corresponding data line through the first active device, a second active device and a second pixel electrode electrically connected to a corresponding scan line and a corresponding data line through the second active device. The first pixel electrode has a surface area different from that of the second pixel electrode. | 02-16-2012 |
| 20120038862 | LIQUID CRYSTAL DISPLAY PANEL AND COLOR FILTER SUBSTRATE - A liquid crystal display panel and a color filter substrate are provided. The color filter substrate includes a substrate, a stacked layer, a phase compensation film and a second alignment film. The stacked layer is disposed on the substrate and includes a first alignment film and a color filter layer having a phase compensation effect, wherein the first alignment film and the first alignment film are stacked on each other. The phase compensation film is disposed on the stacked layer. The second alignment film is disposed on the phase compensation film. Therefore, a number of fabrication processes of the color filter substrate can be reduced. | 02-16-2012 |
| 20120038847 | ORGANIC LIGHT EMITTING DEVICE, ILLUMINATION DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - An organic light emitting device having light emitting units on a substrate is provided. Each light emitting unit includes a first electrode layer, an organic light emitting layer, a second electrode layer, a power line, a resistor line, an insulating layer. The first electrode layer is disposed on the substrate. The organic light emitting layer is disposed on the first electrode layer. The second electrode layer is disposed on the organic light emitting layer. The power line is disposed on the substrate. The resistor line is electrically connected to the first electrode layer, wherein the resistor line partially overlaps with the power line, and an overlapping area occupies 60˜100% of a total area of the resistor line. The insulating layer is disposed between the power line and the resistor line, and a contact hole is disposed in the insulating layer to electrically connect the power line and the resistor line. | 02-16-2012 |
| 20120038846 | PROTECTION STRUCTURE - A flat panel display device includes a display panel, a backlight module, a printed circuit board and a protection structure. The backlight module is disposed on a non-display side of the display panel. The printed circuit board with a signal connector is connected with the display panel and disposed between the display panel and the printed circuit board. The protection structure is used to protect the backlight module from the deformation caused by the external force, especially the optically films in it, like conductive film etc. The protection structure includes a protective film, a movable piece and an elastic element. The protective film is covered on the printed circuit board and having an opening to expose the signal connector. The movable piece is connected with the protective film, and the opening is disposed between the movable piece and the protective film. | 02-16-2012 |
| 20120038604 | Display Device Having Memory In Pixels - The present invention relates to a memory circuit integrated in each pixel of a display device includes a switching circuit and a memory unit. The switching circuit includes a first transistor having a gate configured to receive a switching control signal, a source and a drain electrically coupled to a liquid crystal capacitor of the pixel, and a second transistor having a gate configured to receive a switching control signal, a source electrically coupled to a storage capacitor of the pixel, and a drain electrically coupled to the liquid crystal capacitor. The memory unit is electrically coupled between the source of first transistor and the storage capacitor. The switching control signal is configured such that in the normal mode, the first transistor is turned off, while the second transistor is turned on, so that the storage capacitor is electrically coupled to the liquid crystal capacitor in parallel and the memory unit is bypassed, and in the still mode, the first transistor is turned on, while the second transistor is turned off, so that the storage capacitor controls the memory unit to supply a stored data to the liquid crystal capacitor. | 02-16-2012 |
| 20120038601 | METHOD OF REPAIRING PIXEL STRUCTURE, REPAIRED PIXEL STRUCTURE AND PIXEL ARRAY - A method of repairing a pixel structure is provided. In the method, the pixel structure on a substrate is provided and includes a scan line, a data line, an active device, an insulating layer, and a pixel electrode. The scan line and the data line are located on the substrate. The active device is located on the substrate and electrically connected to the scan line and the data line. The insulating layer covers the scan line, the data line, and the active device and has a contact opening. The pixel electrode is located on the insulating layer and fills the contact opening to electrically connect the active device. A laser removing process is performed to remove the pixel electrode in the contact opening, such that the pixel electrode is electrically insulated from the active device. | 02-16-2012 |
| 20120037908 | THIN FILM TRANSISTOR, METHOD OF FABRICATING THIN FILM TRANSISTOR AND PIXEL STRUCTURE - A method of fabricating a TFT includes providing a substrate where a gate, an insulating layer, and a channel layer are formed. A conductive layer is formed on the substrate to cover the channel layer and the insulating layer. A photoresist layer is formed on the conductive layer. A photo mask is placed above the photoresist layer and has a data line pattern, a source pattern, and a drain pattern. A first width (W | 02-16-2012 |
| 20120033114 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate including a substrate, multiple scan lines, multiple data lines, multiple of pixels are provided. The scan lines and the data lines are disposed on the substrate. Each pixel includes multiple sub-pixels including at least a transistor, a pixel electrode, and a color filter. The transistor is disposed on the substrate and electrically connected to the scan line and the data line correspondingly. A portion of the color filter is disposed between the pixel electrode and the corresponding scan line. The pixel electrode is coupled with the corresponding scan line to form a first capacitor. The drain of the transistor is coupled with the corresponding scan line to form a second capacitor. In a single pixel, the coupling areas of the pixel electrodes corresponding to various color filters with the corresponding scan lines are different, so that capacitance of the first capacitors are substantially the same. | 02-09-2012 |
| 20120032582 | ORGANIC ELECTROLUMINESCENT DISPLAY UNIT AND METHOD FOR FABRICATING THE SAME - An organic electroluminescent display unit including at least one transistor electrically connected to a scan line and a data line; a first photo-sensor including a first reflective bottom electrode, a first photo-sensitive layer and a first transparent top electrode; a second photo-sensor including a second reflective bottom electrode, a second photo-sensitive layer and a second transparent top electrode, the first photo-sensor being electrically connected to the second photo-sensor; a reflective conductive layer including a pixel electrode, a light-shielding pattern, and a connection pattern, the pixel electrode being electrically connected to the transistor, the light-shielding pattern being electrically connected to the second transparent top electrode and entirely covered the second photo-sensitive layer, and the connection pattern electrically connected to the first transparent top electrode, the first reflective bottom electrode, and the second reflective bottom electrode; an organic electroluminescent layer; and a cathode layer. | 02-09-2012 |
| 20120026449 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel including a first substrate, a second substrate, a liquid crystal layer, a photo-curable sealant, and a first light-shielding pattern is provided. The liquid crystal layer is disposed between the first substrate and the second substrate. The photo-curable sealant is disposed between the first substrate and the second substrate, wherein the photo-curable sealant surrounds and is in contact with the liquid crystal layer. The first light-shielding pattern is disposed on the first substrate, wherein a portion of the sidewall of the first light-shielding pattern is substantially aligned with a portion of the sidewall of the first substrate, and the first light-shielding pattern is only overlapped with an outer edge of the photo-curable sealant or is not overlapped with the photo-curable sealant. | 02-02-2012 |
| 20120026102 | ELECTRONIC APPARATUS AND METHOD OF FABRICATING THE SAME - A method of fabricating an electronic apparatus having an active region and a peripheral region surrounding the active region is described. A first main device and a second main device are provided. An optical clear liquid adhesive (OCLA) is applied between the first main device and the second main device and within the active region. A photo-mask having a transparent region and an opaque region is provided above the second main device, and the transparent region corresponds to the peripheral region. An OCLA diffusion process is performed such that the OCLA diffuses from the active region to the peripheral region. During the OCLA diffusion process, a first irradiating process with the photo-mask is performed, such that the OCLA diffusing to the peripheral region is partially cured. After removing the photo-mask, a second irradiating process is performed, such that the OCLA is completely cured. | 02-02-2012 |
| 20120026072 | ACTIVE DEVICE ARRAY SUBSTRATE, DISPLAY PANEL AND REPAIR METHOD - A display panel, a repair method, and an active device array substrate including a substrate, first and second signal lines, active devices, pixel electrodes, a bus line, and a switch device are provided. The bus line and the switch device are disposed outside a display region of the active device array substrate. The switch device has a gate coupled to the bus line, a first electrode coupled to a signal source, and a second electrode coupled to one of the first signal lines. The first and second electrodes are comb-shaped. The first electrode includes first fingers parallel to one another and a first connection portion connected to the first fingers. The second electrode includes second fingers parallel to one another and a second connection portion connected to the second fingers. The first and second fingers are arranged alternately. A portion of the first electrode is located outside the gate. | 02-02-2012 |
| 20120025320 | COMPLEMENTARY METAL OXIDE SEMICONDUCTOR TRANSISTOR AND FABRICATING METHOD THEREOF - A fabricating method of CMOS transistor includes following steps. A first gate and a second gate are formed on a substrate. A gate insulator is formed on the substrate to cover the first and second gates. A first source, a first drain, a second source, and a second drain are formed on the gate insulator. The first source and the first drain are above the first gate. The second source and the second drain are above the second gate. A first channel layer and a mask layer are formed on the gate insulator. The mask layer is on the first channel layer. The first channel layer is above the first gate and contacts with the first source and the first drain. A second channel layer is formed on the gate insulator. The second channel layer is above the second gate and contacts with the second source and the second drain. | 02-02-2012 |
| 20120020096 | Light Module, Composite Circuit Board Device Used Therein, and Assembling Method Thereof - A light module and an assembling method thereof are disclosed. The light module includes a first circuit board, a second circuit board, and a light source, wherein the first circuit board has a first opening and a second opening, and the second circuit board has a first bending portion. The light source is disposed on the first circuit board. The second circuit board passes through the first opening and the second opening of the first circuit board to form the first bending portion and the first circuit board and the second circuit board are fixed together to complete the light module assembling. | 01-26-2012 |
| 20120019754 | PIXEL ARRAY, POLYMER STABLIZED ALIGNMENT LIQUID CRYSTAL DISPLAY PANEL, AND PIXEL ARRAY DRIVING METHOD - A pixel array including a plurality of scan lines, data lines, and sub-pixels is provided. Each of the sub-pixels arranged in the n | 01-26-2012 |
| 20120019751 | Pixel Structure of Transflective Liquid Crystal Display Array Substrate and Method for Fabricating the Same - A pixel structure of a transflective liquid crystal display array substrate includes a first patterned conductive layer, a second patterned conductive layer, a transparent patterned conductive layer, a passivation layer, and a patterned reflective metal layer. A first part of the second patterned conductive layer and a first part of the first patterned conductive layer form a first storage capacitor. The first part of the second patterned conductive layer and the transparent patterned conductive layer form a second storage capacitor. The passivation layer is formed to cover the patterned transparent conductive layer and has an opening to expose a part of the patterned transparent conductive layer. The patterned reflective metal layer is formed to cover the passivation layer and electrically connected with the patterned transparent conductive layer via the opening. A method for fabricating the pixel structure of the transflective liquid crystal display array substrate is also disclosed. | 01-26-2012 |
| 20120019474 | CAPACITIVE TOUCH DEVICE AND METHOD OF DRIVING SAME - The present invention relates to a capacitive touch panel. In one embodiment, the capacitive touch panel includes a plurality of driving electrodes and a plurality of sensing electrodes spatially arranged in a matrix, and a driver electrically coupled to the touch sensor matrix and configured to generate a driving signal to synchronically drive one or more driving electrodes and the sensing electrodes, such that at least one sensing electrode is not driven by the driving signal. The remaining driving electrodes are grounded. The not-driven sensing electrodes sense and transmit a sensing signal of a touch. | 01-26-2012 |
| 20120019450 | TOUCH SENSING DEVICE - The present invention relates to a touch sensing device. In one embodiment, the touch sensing device includes a plurality of first touch electrodes and a plurality of second touch electrodes, alternately arranged along a first direction and a second direction substantially perpendicular to the first direction to form a sensing matrix, such that each first touch electrode and a corresponding second touch electrode are entangled each other along with at least one of the first and second directions. | 01-26-2012 |
| 20120015562 | Multi-Slot Connector and Manufacture Method Thereof - A multi-slot connector and a manufacture method thereof are provided. The multi-slot connector includes a housing and a conducting structure. The conducting structure has a body and a terminal portion extending from the body. After extending out from the body, the terminal portion bends to form a first ridge. After bending the first ridge, the terminal portion turns to form a winding portion which winds back toward the body and bends to form a second ridge, wherein the first and second ridges protrude toward different directions. The housing has a first slot and a second slot. When the conducting structure is disposed in the housing, the first ridge and the second ridge are respectively corresponding to the first slot and the second slot. | 01-19-2012 |
| 20120015115 | DISPLAY PANEL - A display panel includes a first substrate, a second substrate, a liquid crystal material between the first and second substrates, and an alignment layer on at least one of the first and second substrates. The liquid crystal material includes 10-90 wt % of a non-polar liquid crystal compound and 10-90 wt % of a polar liquid crystal compound, wherein a total amount of the non-polar and the polar liquid crystal compounds is 100 wt %. The non-polar liquid crystal compound has a dielectric anisotropy (Δε) of −1≦Δε≦1, and the polar liquid crystal compound has a dielectric anisotropy (Δε) of Δε≧1. The alignment layer has at least one of a polyamic acid and a cyclodehydration of the polyamic acid, wherein the polyamic acid is obtained by reacting a diamine compound with a tetracarboxylic acid dianhyhydirde compound. | 01-19-2012 |
| 20120013840 | DISPLAY APPARATUS AND REPAIR METHOD FOR REPAIRING THE SAME - A display apparatus includes a display panel and a conductive adhesive. The display panel has a plurality of conductive lines and a dielectric layer covering the conductive lines. At least one of the conductive lines has an open defect. The dielectric layer has at least three repair vias, and locations of the repair vias correspond to the open defect. The conductive line having the open defect is exposed by at least parts of the repair vias. The conductive adhesive is disposed corresponding to a location of the open defect and electrically connected to the conductive line having the open defect through the repair vias. A repair method adapted to the display apparatus is also provided. | 01-19-2012 |
| 20120013606 | Parallax Barrier and Application Thereof - Disclosed herein is a parallax barrier including a first substrate, a second substrate and a liquid crystal layer disposed between the first and the second substrates. A plurality of first strip electrodes and a plurality of second strip electrodes are arranged on the first substrate, whereas a plurality of third electrodes and a plurality of fourth electrodes are arranged on the second substrate. Each of the third electrodes has a step-shaped first portion and each of the fourth electrodes has a step-shaped second portion. | 01-19-2012 |
| 20120013526 | FIELD SEQUENTIAL COLOR DISPLAY AND DRIVING METHOD THEREOF - A field sequential color display having a display panel and a backlight module is provided. The panel includes a plurality of unit regions, each having a first color unit region and a white color unit region. The panel includes a first substrate, a second substrate, a filter layer and a display medium. The first substrate has a pixel array. The second substrate is disposed opposite to the first substrate. The filter layer is disposed on the second substrate and has a first color filter pattern disposed within the first color unit regions and a white color filter pattern disposed within the white color unit regions. The display medium is between the first and second substrate. The backlight module is disposed at a side of the display panel and has a white light source, a second color light source and a third color light source which are switched in sequence. | 01-19-2012 |
| 20120008732 | SHIFT REGISTER WITH LOW POWER CONSUMPTION - A shift register comprising a plurality of shift register stages {S | 01-12-2012 |
| 20120007080 | PIXEL STRUCTURE AND PIXEL STRUCTURE OF ORGANIC LIGHT EMITTING DEVICE - A pixel structure including a first scan line, a second scan line, a data line and a power line substantially perpendicular to the first scan line and the second scan line, a reference signal line and an emission signal line substantially parallel with the first scan line and the second scan line, a common thin film transistor (C-TFT), a first pixel unit, and a second pixel unit is provided. The common thin film transistor has a common gate electrode, a common source electrode and a common drain electrode. The common gate electrode is electrically connected to the first scan line, the common drain electrode is electrically connected to the reference signal line. The first and the second pixel units respectively have a first TFT, a second TFT, a third TFT, a fourth TFT, a fifth TFT, a sixth TFT, a capacitor, and an emission device. | 01-12-2012 |
| 20120002399 | Lamp Support Having Film Support and Backlight Module Using the Same - A film support includes a pillar and a supporting unit. The pillar has an outer wall which encloses an accommodation space. The supporting unit has a supporting end and an assembly portion connected to each other, wherein the assembly portion is disposed in the accommodation space whereas the supporting end protrudes outside the pillar. The assembly portion of the supporting unit has a degree of freedom of rotation within the accommodation space and when the assembly portion rotates with respect to the pillar, the supporting end is driven to rotate with respect to the pillar. | 01-05-2012 |
| 20120002156 | Structure of LCD Panel and Method of Manufacturing the Same - Pixel electrodes in a liquid crystal panel extend to cover the entire pixel regions. The light leakage is generated only on two sides of the pixel region due to the uncontinuous alignment of liquid crystal molecules when the liquid crystal panel is driven by dot inversion. Therefore, in the present invention, light-shielding layer is formed on only the corresponding region of the TFT substrate. The aperture ratio of the liquid crystal panel according to the present invention can increase and the light-shielding layer can be employed to repair the gate lines and data lines. | 01-05-2012 |
| 20120002148 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel including an active device array substrate, an opposite substrate, and a liquid crystal layer is provided. The active device array substrate includes a plurality of pixel electrodes and each of the pixel electrodes includes a plurality of sets of stripe patterns extending along different directions. Each of the stripe patterns has a width of L and a space between two neighboring stripe patterns is S. The opposite substrate is disposed over the active device array substrate. The liquid crystal layer is disposed between the active device array substrate and the opposite substrate. A cell gap between the active device array substrate and the opposite substrate is d, birefringence of the liquid crystal layer is Δn, and dielectric anisotropy of the liquid crystal layer is Δ∈, wherein S, d, Δn, and Δ∈ comply with the inequality: S/|Δ∈|≦2.8×Δn×d. | 01-05-2012 |
| 20110318856 | METHOD FOR FABRICATING THIN FILM TRANSISTOR ARRAY SUBSTRATE - A method for fabricating a TFT array substrate includes following steps. A gate pattern and a first pad pattern are formed on a substrate. A gate insulation layer and a semiconductor layer covering the two patterns are sequentially formed. A patterned photoresist layer having different resist blocks is formed, and patterns and thicknesses of the resist blocks in different regions are adjusted. The semiconductor layer and the gate insulation layer above the first pad pattern are removed through performing an etching process and reducing a thickness of the patterned photoresist layer. After removing the patterned photoresist layer, a source pattern, a drain pattern, and a second pad pattern electrically connected to the first pad pattern are formed. A patterned passivation layer is formed on the gate insulation layer and has a second opening exposing the source pattern or the drain pattern and a third opening exposing the second pad pattern. | 12-29-2011 |
| 20110318544 | FLEXIBLE DISPLAY PANEL AND METHOD OF FABRICATING THE SAME - In a method of fabricating a flexible display panel, a rigid substrate is provided. A flexible substrate having a first surface and a second surface opposite to the first surface is provided. A plurality of releasing-regions are formed on the first surface, and bonding strength of an area outside the releasing-regions is greater than bonding strength of the releasing-regions. An adhesive layer is formed between the rigid substrate and the first surface of the flexible substrate. A plurality of display units are formed on the second surface, and each of the display units is located over one of the releasing-regions, respectively. The flexible substrate is patterned to obtain a plurality of flexible carriers, and each of the flexible carriers carries one of the display units, respectively. The flexible carriers and the adhesive layer are de-bonded. | 12-29-2011 |
| 20110317085 | PIXEL ARRAY - A pixel array includes scan lines, data lines, sub-pixel units, capacitor electrode line sets, and connecting structure sets that are all disposed on a substrate. Each sub-pixel unit has at least one active device and at least one pixel electrode electrically connected to the active device, and the active device is electrically connected to one of the scan lines and one of the data lines. Each capacitor electrode line set has N capacitor electrode lines, the N capacitor electrode lines partially overlap with the pixel electrode of each of the sub-pixel units to form a plurality of storage capacitors, and N≧2. The N capacitor electrode lines in each capacitor electrode line set are electrically connected to one another by each connecting structure set, and there is no connecting structure located between the capacitor electrode line sets having the connecting structures therein. | 12-29-2011 |
| 20110316833 | Shift Register and Architecture of Same on a Display Panel - The present invention relates to a shift register and GOA architecture of the same in a display panel comprising a substrate and a plurality of pixels spatially formed on the substrate defining a number of pixel rows, each pixel row having a height of H. The shift register has the plurality of shift register stages disposed spatially and sequentially on the substrate in such a way that the layout of each shift register stage has a height of (j*H), j being an integer greater than one. Each shift register stages is configured to generate j scanning signals for driving j neighboring pixel rows, respectively. | 12-29-2011 |
| 20110316450 | BACKLIGHT DEVICE WITH ZONE CONTROL - A backlight unit usable in a liquid crystal display. In one embodiment, the backlight unit includes a substrate having an edge zone and a central zone surrounded by the edge zone, a first plurality of light emitting elements positioned in the central zone of the substrate, a second plurality of light emitting elements positioned in the edge zone of the substrate, and an electronic controlling means for controlling the light emitted from the first plurality of light emitting elements and the second plurality of light emitting elements such that in operation, the output power per unit area by the second plurality of light emitting elements in the edge zone is less than that by the first plurality of light emitting elements in the central zone. | 12-29-2011 |
| 20110310082 | Electrophoretic Display Apparatus and Method of Data Transfer Thereof - The electrophoretic display apparatus includes a first electrode layer, a second electrode layer, an electrophoresis layer, and a driving module. The driving module has an adsorption mode and a display mode. When an adsorption mode is activated, a first voltage difference is formed between the first electrode layer and the second electrode layer, resulting in electrostatic adsorption to reduce or eliminate the air gap between the second electrode layer and electrophoresis layer. When a display mode is activated, a second voltage difference is formed between the first electrode layer and the second electrode layer. The electrophoresis layer can sense the variation of electric field between the two electrode layers and start the operation of data transmission and display. | 12-22-2011 |
| 20110310033 | SENSING DISPLAY DEVICE - A sensing display device including a display panel and a sensing element is provided. The display panel includes at least a plurality of pixel units, and the pixel units are arranged along a primary direction. The sensing element is disposed on the pixel units and includes at least a plurality of sensor units. Each of the sensor units includes a mesh-pattern electrode, and the mesh-pattern electrode includes a plurality of first traces having conductivity. At least one of the first traces is substantially extended along a first direction, wherein a first angle is formed between the first direction and the primary direction, and the first angle is an acute angle. | 12-22-2011 |
| 20110310032 | PIXEL ARRAY AND DISPLAY PANEL HAVING THE SAME - A pixel array including a plurality of scan lines and a plurality of data lines disposed crossing the scan lines to define a plurality of sub-pixel regions; at least a controlling structure, disposed in one of the sub-pixel regions and electrically connected to one of the scan lines and data lines; a plurality of sensing signal lines disposed parallel with the data lines and crossing the scan lines to define a plurality of regions having at least one first sub-region and second sub-region; at least one sensing-signal readout device disposed in the first sub-region and electrically connected with one of the scan lines and sensing signal lines; and at least one first sensing pad disposed in the second sub-region and electrically connected to the sensing-signal readout device in the second sub-region. The numbers of the sensing-signal readout devices electrically connected to the respective scan lines are the same. | 12-22-2011 |
| 20110309397 | PIXEL STRUCTURE AND MANUFACTURING METHOD THEREOF - A pixel structure including a substrate, a color filter layer, a conductive light-shielding layer, a buffer layer, a scan line, a data line, an active device, and a pixel electrode is provided. The substrate has a pixel region. The color filter layer is disposed corresponding to the pixel region. The conductive light-shielding layer is disposed corresponding to the periphery of the pixel region. The buffer layer covers the conductive light-shielding layer and color filter layer. The scan line and the data line are disposed on the buffer layer. The active device is disposed on the buffer layer and electrically connected to the scan line and data line. The pixel electrode is disposed on the buffer layer and electrically connected to the active device, wherein an overlapping area between the pixel electrode and the conductive light-shielding layer constitutes a storage capacitor. A method for manufacturing the pixel structure is also provided. | 12-22-2011 |
| 20110304805 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel includes an active device array substrate, an opposite substrate, a sealant, a liquid crystal layer, a black matrix, and a plurality of rough structures. The active device array substrate has a display area and a peripheral area surrounding the display area, and the liquid crystal layer and the peripheral area are surrounded by the sealant. The black matrix is disposed between the active device array substrate and the opposite substrate and distributed corresponding to the display area and the peripheral area. The rough structures are disposed on a portion of the black matrix and distributed corresponding to the peripheral area. Surface roughness of the rough structures is greater than surface roughness of the black matrix distributed corresponding to the display area. | 12-15-2011 |
| 20110299022 | DISPLAY PANEL - A display panel including a first plate, a second plate, and a spacer and a display medium between the first plate and the second plate is provided. The first plate has a first substrate, a scan line and a data line on the first substrate, an active device electrically connected to the scan line and the data line, a pixel electrode electrically connected to the active device, and a first common electrode electrically insulated from the pixel electrode and alternatively arranged with the pixel electrode. The second plate has a second substrate, a second common electrode on the second substrate and disposed corresponding to the first common electrode of the first plate, and a floating electrode electrically insulated from the second common electrode and disposed corresponding to the pixel electrode of the first plate. | 12-08-2011 |
| 20110299000 | Manufacture of a Birefringent Liquid Crystal Component - Manufacture of a birefringent liquid crystal cell is performed as follows. A layer of isotropic material having an outer surface which is shaped with a surface relief structure and is provided with a liquid crystal alignment property is formed. A flexible sheet having an outer surface provided with a liquid crystal alignment property is formed. A curable birefringent liquid crystal material is applied to one or both of the layer of isotropic material and the flexible sheet. The flexible sheet is applied over the layer of isotropic material with the outer surfaces of the layer of isotropic material and the flexible sheet facing one another with the liquid crystal material therebetween, thereby to form a liquid crystal cell. The liquid crystal material is cured and the flexible sheet is removed from the liquid crystal cell. | 12-08-2011 |
| 20110298758 | Display Device Having Vibration Function and Vibration Type Touch-Sensing Panel - A vibration type touch-sensing panel includes a substrate, a plurality of vibration units, and a control module, wherein the vibration units are disposed on the substrate to form a matrix. Each one of the vibration units includes a first electrode layer, a second electrode layer, and an electret layer, wherein the first electrode layer is disposed on the substrate. The electret layer is disposed between the first electrode layer and the second electrode layer and located on one of the first electrode layer and the second electrode layer. The control module provides a driving voltage between the first electrode layer and the second electrode layer so that the electret layer and one of the first electrode layer and the second electrode layer generate a relative vibration. | 12-08-2011 |
| 20110298718 | TOUCH-SENSING KEYBOARD - A touch-sensing keyboard including a solar cell, a touch panel, and a power converter is provided. The solar cell has a light receiving surface. The touch panel is disposed above the light receiving surface of the solar cell, wherein the solar cell receives light passing through the touch panel and converts the received light into electric power. Furthermore, the power converter is electrically connected to the solar cell and the touch panel, wherein the power converter receives and transforms the electric power generated from the solar cell and outputs the transformed electric power to the touch panel. | 12-08-2011 |
| 20110298388 | LIGHT DRIVER CIRCUIT DEVICE AND BACKLIGHT DEVICE - A light driver circuit device for synchronously driving a plurality of cold cathode fluorescent lamps (CCFLs) is provided. The light driver circuit device includes an inverter circuit board and a balance circuit board. The inverter circuit board has an inverter circuit coupled to a driving signal for outputting a driving voltage to drive the CCFLs synchronously. The balance circuit board and the inverter circuit board are installed separately, and the balance circuit board has a balance circuit coupled to a terminal of each CCFL and the inverter circuit. The CCFL driving architecture is designed to install the inverter circuit and the balance circuit individually, thus effectively reducing the space of the driving circuit and the total cost of the circuit design. Furthermore, the balance circuit board can balance the current in each CCFL effectively, and there is no limitation to where the balance circuit board can be disposed. | 12-08-2011 |
| 20110297947 | PIXEL STRUCTURE - A pixel structure having the following structure is provided. A light-shielding layer with a flat layer covering thereon is disposed on a substrate. A channel layer, a data line and a first pad are disposed on the flat layer. A source and a drain partially cover two sides of the channel layer. A gate dielectric layer with a gate, a scan line and a second pad disposed thereon covering the channel layer, the source and the data line exposes the drain and the first pad. A protection layer covering the gate and the scan line exposes the drain, the first and second pads. A patterned transparent conductive layer includes a pixel electrode disposed on the protection layer, a first retain portion disposed on the first pad and a second retain portion disposed on the second pad. | 12-08-2011 |
| 20110292492 | Electrophoretic Display - An electrophoretic display device includes a substrate, an electrophoretic component layer, a first optical adhesive, a barrier layer, a second optical adhesive, a protective layer, and a sealant. The first optical adhesive and the second optical adhesive contribute in helping to provide light exposure to the sealant. One of the first optical adhesive and the second optical adhesive is capable of absorbing the light of predetermined wavelength and is adapted to expose the sealant. | 12-01-2011 |
| 20110292331 | PIXEL STRUCTURE AND DISPLAY PANEL HAVING THE SAME - A pixel structure includes a first and a second scan lines, a data line, a first insulating layer covering the first and the second scan lines and a portion of the data line and having a recess, a second insulating layer covering the first insulating layer, a capacitor electrode line covering the data line and the recess, a third insulating layer on the capacitor electrode line, a first active device electrically connected to the second scan line and the data line, a second active device electrically connected to the first active device and the first scan line, and a first and a second pixel electrodes electrically connected to the first and the second active devices, respectively. The portion of the data line and the first and the second scan lines are in the same layer. The recess is located at two sides of the portion of the data line. | 12-01-2011 |
| 20110292086 | DISPLAY DEVICE AND COLOR ADJUSTMENT METHOD FOR DISPLAY DEVICE - A display device includes a display panel, a light source module and a skin-color detector. The display panel has a plurality of sub pixel units, and the sub pixel units include red sub pixel units, green sub pixel units, blue sub pixel units and white sub pixel units. The light source module is disposed at a side of the display panel and the light source module includes a white light source and a yellow light source distributed in the white light source. The skin-color detector is electrically connected to the display panel, wherein the skin-color detector detects the skin-color area proportion of an image signal of the display panel. | 12-01-2011 |
| 20110291961 | TOUCH-SENSING DISPLAY PANEL - A touch-sensing display panel includes a panel and a touch-sensing layer. The panel has a display region and a non-display region. The touch-sensing layer overlaps the display region and the non-display region. | 12-01-2011 |
| 20110291094 | DISPLAY PANEL - A display panel including a first substrate, a second substrate opposite to the first substrate and a display medium between the first substrate and the second substrate is provided. The first substrate has a scan line, a data line and an active device electrically connected to the scan line and the data line. The second substrate has a common electrode layer, an insulting layer covering the common electrode layer, a pixel electrode on the insulating layer and a contact structure on the insulating layer. More specifically, the contact structure is electrically connected to the pixel structure and electrically connected to the active device on the first substrate. | 12-01-2011 |
| 20110286571 | SHIFT REGISTER WITH EMBEDDED BIDIRECTIONAL SCANNING FUNCTION - The present invention relates to a shift register having a plurality of stages electrically coupled to each other in series. Each stage includes a first and second TFT transistor. The first TFT transistor has a get electrically coupled to the output of the immediately prior stage, a drain electrically coupled to the boost point of the stage, and a source configured to receive one of the first and second control signals. The second TFT transistor has a get electrically coupled to the output of the immediately next stage, a drain and a source electrically coupled the drain and the source of the first transistor, respectively. | 11-24-2011 |
| 20110286076 | Electrophoretic Display Device - The present invention in one aspect relates to a solar cell formed on a substrate, a bottom electrode member formed on the solar cell, an electrophoretic display panel formed on the bottom electrode member, having a plurality of electrophoretic cell structures spatially arranged in a matrix form, each electrophoretic cell structure containing a plurality of charged particles movable in the electrophoretic cell structure responsively to applied fields, and a top electrode member formed on the electrophoretic display panel, where at least one of the bottom electrode member and the top electrode member includes a plurality of in-plane switching (IPS) electrodes. Each IPS electrode is positioned in relation to a corresponding electrophoretic cell structure for controlling movements of the charged particles therein along a horizontal direction parallel to the electrophoretic display panel. | 11-24-2011 |
| 20110285950 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate includes a substrate, first scan lines, second scan lines, data lines, and pixels. The first and the second scan lines are alternately arranged along a first direction. The data lines are arranged in parallel along a second direction. The pixels are arranged to form first pixel rows and second pixel rows alternately arranged in the first direction. The first pixel row includes first and second pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The second pixel row includes third and fourth pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The pixels between two adjacent data lines are arranged in two columns. Among the pixels in the same column, the pixels in odd rows and in even rows are electrically connected to different data lines, respectively. | 11-24-2011 |
| 20110285617 | Electrophoretic Display and Pixel Structure Therein - A pixel structure is formed in a pixel area and coupled to a scan line and a data line. The pixel structure includes a first transistor, a second transistor and a pixel electrode. The first transistor is formed in the pixel area and coupled to the scan line and the data line. The second transistor is formed in the pixel area and coupled to the first transistor. The pixel electrode is formed in the pixel area and coupled to the second transistor. The pixel electrode includes a main portion and a first branch portion. The first branch portion is disposed between the first transistor and the second transistor. An electrophoretic display including the pixel structure is also disclosed herein. | 11-24-2011 |
| 20110284074 | PHOTOVOLTAIC CELL - A photovoltaic cell includes a first type doped mono-crystalline silicon substrate, an intrinsic amorphous silicon layer, a second type doped amorphous silicon layer, a first type doped crystalline Ge-containing layer, and a pair of electrodes. The first type doped mono-crystalline silicon substrate has a front surface and a rear surface. The intrinsic amorphous silicon layer is disposed on the front surface. The second type doped amorphous silicon layer is disposed on the intrinsic amorphous silicon layer. The first type doped crystalline Ge-containing layer is disposed on the rear surface. The pair of electrodes are electrically connected to the second type doped amorphous silicon layer and first type doped crystalline Ge-containing layer, respectively. | 11-24-2011 |
| 20110278612 | ORGANIC LIGHT EMITTING DIODE STRUCTURE AND FABRICATING METHOD THEREOF - An organic light emitting diode structure is disclosed. The hole transport layer of the organic light emitting diode structure is used as a first primary color light emitting layer. A second primary color light emitting unit and a third primary color light emitting unit are formed on the first primary color light emitting layer, and a part of the first primary color light emitting layer is exposed. A method for fabricating the organic light emitting diode structure is also disclosed. | 11-17-2011 |
| 20110278611 | LIGHT EMITTING DEVICE - A light emitting device includes a substrate and an organic electroluminescent device. Inside the substrate, there are a plurality of micro-structures proceeded with fusing and then curing. The organic electroluminescent device is disposed on the substrate. | 11-17-2011 |
| 20110278574 | ACTIVE DEVICE ARRAY SUBSTRATE AND REPAIRING METHOD THEREOF - An active device array substrate including a substrate, a plurality of pixels, a plurality of signal lines, and a repairing structure is provided. The substrate has a display region and a periphery region. The pixels are arranged on the display region of the substrate as an array. The signal lines are electrically connected to the pixels and are respectively extended from the display region to the periphery region. The repairing structure is disposed at the periphery region, and which includes a first repairing line, a second repairing line, an electrostatic discharge (ESD) releasing line, and an ESD protector. The first repairing line is intersected with one ends of the signal lines and is electrically floated. The ESD protector is connected between the second repairing line and the ESD releasing line, and the ESD protector is overlapped with and electrically insulated from the first repairing line. | 11-17-2011 |
| 20110273654 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate includes a substrate, scan lines disposed on the substrate, data lines intersected with the scan lines, scan signal transmission lines, and pixel units. The scan signal transmission lines are intersected with the scan lines. Each scan signal transmission line connects one scan line through a node. The pixel unit electrically connects the corresponding data line and the corresponding scan line and includes an active device and a pixel electrode. The active device has a gate, a source, and a drain. The pixel electrode electrically connects the drain. In the pixel units not adjacent to the nodes, a gate-to-drain capacitance of each active device is Cgd | 11-10-2011 |
| 20110273420 | Organic Light Emitting Display and Method for Driving the Same - An organic light emitting display includes scan lines, row common electrodes and rows of pixels. The scan lines sequentially transmit scan signals. The row common electrodes disposed in parallel with the scan lines and sequentially transmit common voltage signals corresponding to the scan signals. The rows of the pixels are electrically coupled to the scan lines and the row common electrodes and sequentially receive the scan signals and the common voltage signals. A method for driving the organic light emitting display is also disclosed herein. | 11-10-2011 |
| 20110267572 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate includes a substrate, first scan lines, second scan lines, data lines, display units and a meshed common line. The first and second scan lines are alternately arranged on the substrate. Each of the display units is respectively located between two adjacent data lines and respectively includes a first pixel and a second pixel, wherein the first pixel is electrically connected to one of the first scan lines, the second pixel is electrically connected to one of the second scan lines, and the first and second pixels are respectively electrically connected to a different data line. In addition, the meshed common line includes ring-shaped patterns, wherein each ring-shaped pattern includes two semi-ring-shaped patterns connected to each other and respectively located at both sides of a single data line, and the two semi-ring-shaped patterns of a same ring-shaped pattern are respectively located under different display units. | 11-03-2011 |
| 20110267567 | PIXEL ARRAY, LIQUID CRYSTAL DISPLAY PANEL, AND ELECTRO-OPTICAL APPARATUS - A pixel array including first scan lines, second scan lines, data lines, and sub-pixels is provided. Each sub-pixel includes a first switch, a second switch, a first pixel electrode electrically connected to the first switch, a second pixel electrode electrically connected to the second switch, a third switch, and common lines connected with each other and disposed under the first and the second pixel electrode. The first and the second switch are electrically connected to the same first scan line and data line. The first scan line is located between the first and second pixel electrode. The third switch is electrically connected to the second scan line and the first pixel electrode and has a floating terminal. The floating terminal is capacitively coupled to the common line under the second pixel electrode to form a capacitor. | 11-03-2011 |
| 20110267566 | LIQUID CRYSTAL DISPLAY PANEL - An LCD panel includes an active device array substrate having a pixel array and fan-out lines electrically connected to the pixel array, an opposite substrate disposed above the active device array substrate, a sealant disposed between the active device array substrate and the opposite substrate, and a liquid crystal layer. The sealant surrounds the pixel array. The fan-out lines extend from the pixel array. The opposite substrate has light shielding patterns connecting the sealant that covers at least a portion of each fan-out line. In a region where the sealant is distributed, a slit between any two of the adjacent light shielding patterns exclusively overlaps one of the fan-out lines, and the number of the slits is less than the number of the fan-out lines. The liquid crystal layer is disposed between the active device array substrate and the opposite substrate. | 11-03-2011 |
| 20110267558 | MULTI-VIEW LIQUID CRYSTAL DISPLAY AND THE DRIVING METHOD THEREOF - A multi-view liquid crystal display for different users to watch different images from different viewing angles is provided. The multi-view liquid crystal display includes a liquid crystal display panel, a first backlight module and a second backlight module. The first backlight module is disposed below the liquid crystal display panel. The second backlight module is disposed between the first backlight module and the liquid crystal display panel. Furthermore, the first backlight module provides a first plane light source and the second backlight module provides a second plane light source. An included angle α formed between transmitting directions of the first and the second plane light sources ranges from 6 degrees to 176 degrees. Therefore, when different users watch the multi-view liquid crystal display which displays different images from different viewing angles, the resolutions of the images are the same as the resolution of the multi-view liquid crystal display panel. | 11-03-2011 |
| 20110267325 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes an active device substrate, an opposite substrate and a liquid crystal layer. The active device substrate includes a plurality of scan lines, a plurality of data lines intersected with the scan lines, and a plurality of pixels. Each pixel at least includes a first, second, and third sub-pixel. The first, second, and third sub-pixels in each pixel are electrically connected with different data lines respectively, while being electrically connected with the same scan line. The opposite substrate having a common electrode is disposed above the active device substrate. Coupling capacitance (Cdc | 11-03-2011 |
| 20110267320 | FLEXIBLE DEVICE AND FABRICATING METHOD THEREOF - A flexible device has a flexible panel, a driver, and a restraining component. The flexible panel includes a main region and a driver bonding region outside the main region. The driver is electrically connected to the driver bonding region. The restraining component is disposed adjacent to the driver bonding region. Rigidity of the restraining component is greater than rigidity of the flexible panel, and coefficient of thermal expansion of the restraining component is smaller than coefficient of thermal expansion of the flexible panel. | 11-03-2011 |
| 20110266074 | CAMERA BASED TOUCH SYSTEM - One aspect of the present invention relates to an apparatus for touch detection. In one embodiment, the apparatus includes a touch panel, an imaging device mounted to the touch panel and configured such that when a pointer touches the touch panel, the imaging device acquires an image of the pointer touching the touch panel, and a processor in communication with the imaging device for receiving and processing the acquired image to obtain its bandwidth and its angle relative to the touch panel so as to determine the location of the pointer in the touch panel. | 11-03-2011 |
| 20110263053 | METHOD FOR MANUFACTURING PIXEL STRUCTURE - A pixel structure including a scan line, a data line, an active device, a shielding electrode, and a pixel electrode is provided on a substrate. The data line includes an upper conductive wire and a bottom conductive wire. The upper conductive wire is disposed over and across the scan line. The bottom conductive wire is electrically connected to the upper conductive wire. The active device is electrically connected to the scan line and the upper conductive wire. The shielding electrode is disposed over the bottom conductive wire. The pixel electrode disposed over the shielding electrode is electrically connected to the active device. In addition, parts of the pixel electrode and parts of the shielding electrode form a storage capacitor. | 10-27-2011 |
| 20110261309 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel including an active device array substrate, an opposite substrate, a plurality of spacers and a liquid crystal layer is provided. The active device array substrate includes a plurality of position limiting structures, each including a first and a second position limiting pattern. The opposite substrate is disposed above the active device array substrate. The spacers are disposed on the opposite substrate, and the spacers are protruded towards the active device array substrate and extended adjacent to the first and second position limiting patterns. Displacement of each spacer is limited by the first or second position limiting pattern. The first position limiting patterns limit the displacement of a portion of the spacers along a first azimuth range, the second position limiting patterns limit the displacement of a portion of the spacers along a second azimuth range, and the first and second azimuth ranges are different. | 10-27-2011 |
| 20110261306 | Blue Phase Liquid Crystal Display and Method for Fabricating the Same - A method for fabricating a blue phase liquid crystal display is provided. A first substrate is arranged opposite to a second substrate, in which the first and second substrates include a first and a second electrode, respectively. A blue phase liquid crystal layer is sealed between the first substrate and the second substrate, in which the blue phase liquid crystal layer includes a positive blue phase liquid crystal and a monomer. A voltage is applied to the first electrode and the second electrode such that a vertical electric field is formed. The blue phase liquid crystal layer is illuminated with a light source such that the monomer performs polymerization to produce a polymer-stabilized positive blue phase liquid crystal. A blue phase liquid crystal display is also disclosed herein. | 10-27-2011 |
| 20110261299 | THREE-DIMENSIONAL DISPLAY - A three-dimensional display includes a liquid crystal display (LCD) panel, a polarizer, a composite optical film, a phase retarder, and an adhesive layer. The LCD panel has a display surface and a rear surface opposite to the display surface. The polarizer is disposed on the rear surface. The composite optical film is disposed on the display surface. The composite optical film includes a quarter wave plate and at least one optical film located between the LCD panel and the quarter wave plate. The phase retarder has a plurality of phase retardation patterns separated from one another, and phase retardation of each phase retardation pattern is λ/2. The adhesive layer is disposed between the composite optical film and the phase retarder, and the phase retarder adheres to the quarter wave plate through the adhesive layer. | 10-27-2011 |
| 20110260953 | LIGHT EMITTING DEVICE AND DISPLAY PANEL - A light emitting device includes a substrate, a patterned light-scattering layer, and an electroluminescent device. The patterned light-scattering layer is disposed on a portion of the substrate. The patterned light-scattering layer has a bottom surface in contact with the substrate, a top surface opposite to the bottom surface, and a plurality of sidewalls connecting the bottom surface and the top surface. The electroluminescent device is at least disposed on the sidewalls. | 10-27-2011 |
| 20110260607 | Electroluminescent Display and Method for Manufacturing the Same - Disclosed herein is an electroluminescent display that includes a first substrate, a second substrate, a light-emitting element array, a sealing member, and a supporting structure. The first substrate and the second substrate are opposite to each other, and the light-emitting element array is disposed between the first substrate and the second substrate. The sealing member is disposed between the first substrate and the second substrate such that an enclosed space is defined by the first substrate, the second substrate and the sealing member. The light-emitting element array is disposed within the enclosed space. The supporting structure is disposed between and interconnects the first substrate and the second substrate while does not form an enclosed space therewith. The sealing member and the supporting structure are both formed of a same glass frit. | 10-27-2011 |
| 20110255033 | Liquid Crystal Display Device - A liquid crystal display device includes a light guide plate, a light source module, a first tape, a circuit board holder and an elastic support piece, an optical film, a panel, and an elastic buffer piece. By implement of the liquid crystal display device of this invention, the thickness and the weight of the liquid crystal display device can be reduced. | 10-20-2011 |
| 20110255026 | BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY MODULE - A backlight module includes a tray, a light guide plate, a lighting device, and an optical film set. The tray includes a bottom plate and a side wall connecting an edge of the bottom plate. The side wall includes a plurality of wall portions connected to one another. Some of the wall portions are perpendicular to the bottom plate, and the others are parallel to the bottom plate. The light guide plate is disposed on the bottom plate. The lighting device is disposed at a light incident side of the light guide plate. The optical film set disposed on the light guide plate leans against the side wall. | 10-20-2011 |
| 20110254883 | PIXEL CIRCUIT RELATING TO ORGANIC LIGHT EMITTING DIODE AND DISPLAY USING THE SAME AND DRIVING METHOD THEREOF - A pixel circuit relating to an organic light emitting diode (OLED) and a display using the same and a driving method thereof are provided. The pixel circuit submitted by the present invention adopts a 3T2C architecture (i.e. three TFTs plus two capacitors), and which circuit topology being driven by the corresponding scan signals and data signal may make the luminance shown by the pixel circuit only relate to the data signal and do not relate to the threshold voltage of a transistor used to drive a lighting element (i.e. OLED), a system high voltage received by the pixel circuit, and a potential between an anode and a cathode of the lighting element, such that the problem of non-uniform displaying on the OLED display panel may be improved or resolved effectively. | 10-20-2011 |
| 20110254808 | REFLECTIVE TOUCH DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A reflective touch display panel and a manufacturing method thereof are provided. An incident light enters the display panel through a front substrate thereof. A plurality of pixel structures and a plurality of light sensing devices are disposed on an inner surface of the front substrate. The light sensing device includes a light sensing transistor having a transparent gate electrode. The manufacturing method for the reflective touch display panel includes the following steps. A first patterned transparent conductive layer, including the transparent gate electrode and a capacitance lower electrode, is formed on the front substrate. A first patterned conductive layer, a dielectric layer, a patterned semi-conductive layer, a second patterned conductive layer and a second patterned transparent conductive layer are sequentially formed on the front substrate to respectively form the light sensing device and the pixel structure. A reflective material layer and a back substrate are. assembled on the front substrate to complete the reflective touch display panel. | 10-20-2011 |
| 20110249376 | DISPLAY DEVICE PACKAGE AND PACKAGING PROCESS THEREOF - An display device package including a first substrate, an display device, a second substrate, a welding glue, and a first adhesive layer is provided. The display device is disposed on the first substrate. The second substrate is disposed above the first substrate and the display device. The welding glue is welded with the first substrate and the second substrate and surrounds the display device, wherein the welding glue has a continuous pattern. The first adhesive layer is adhered to the first substrate and the second substrate, wherein the first adhesive layer is disposed between the display device and the welding glue and surrounds the display device, and the material of the first adhesive layer and the material of the welding glue are different. | 10-13-2011 |
| 20110248977 | GATE DRIVER AND LIQUID CRYSTAL DISPLAY USING THE SAME - A gate driver and a liquid crystal display using the same are provided. The gate driver includes a scan signal generating unit and a compensation unit. The scan signal generating unit has a plurality of output channels, and is used for sequentially outputting a scan signal through the output channels according to a basic clock and a start pulse. The compensation unit is coupled to the scan signal generating unit, and used for compensating the total resistance of each of the output channels, and sequentially receiving and transmitting the scan signal to a display panel. | 10-13-2011 |
| 20110248971 | LINEAR CONTROL OUTPUT FOR GATE DRIVER - The present invention relates to a gate driver circuit and application of the same in a liquid crystal display (LCD) for improving the display performance thereof. The gate driver circuit includes at least one PMOS transistor and two NMOS transistors configured to modify a falling edge of a corresponding scanning signal according to a linear function that defines a waveform shape for the scanning signal. | 10-13-2011 |
| 20110248288 | ELECTRO-LUMINESCENT DISPLAY PANEL - An electro-luminescent display panel including an active device array substrate, a pixel definition layer, electro-luminescent devices, an electrode layer and a protective layer is provided. The substrate includes pixel electrodes. The pixel definition layer on the substrate includes openings, each exposing the corresponding one of the pixel electrodes. The electro-luminescent devices are in the openings. Each electro-luminescent device layer is on the corresponding one of the pixel electrode. The electrode layer is on the pixel definition layer and the electro-luminescent devices. The protective layer including a buffer layer, a first and a second encapsulation films is on the electrode layer. The buffer layer covers the pixel definition layer and the electro-luminescent devices. The first encapsulation film partially covers the buffer layer. The first encapsulation film includes island patterns on the pixel electrodes. The second encapsulation film covers the buffer layer and the first encapsulation film. | 10-13-2011 |
| 20110248136 | PROTRUDING POSITIONING PEDESTAL - Disclosed herein is a protruding positioning pedestal having a bottom plate, a bent piece, a fastening component, and a fastening hole. The bent piece is cut from the bottom plate, bent up from the bottom plate, and extended toward the surface of the bottom plate, to form a positioning section and a prop section. The bent piece is upheld by the prop section on the bottom plate, and is buckled on the bottom plate by the fastening component and the fastening hole. | 10-13-2011 |
| 20110244615 | METHOD FOR MANUFACTURING PIXEL STRUCTURE - A pixel structure includes a scan line, a data line, an active element, a first passivation layer, a second passivation layer and a pixel electrode. The data line includes a first data metal segment and a second data metal layer. The active element includes a gate electrode, an insulating layer, a channel layer, a source and a drain. The channel layer is positioned on the insulating layer above the gate electrode. The source and the drain are positioned on the channel layer. The source is coupled to the data line. The first passivation layer and the second passivation layer cover the active element and form a first contact hole to expose a part of the drain. The second passivation layer covers a part edge of the drain. The pixel electrode is disposed across the second passivation layer and coupled to the drain via the first contact hole. | 10-06-2011 |
| 20110242640 | Electrophoretic Display Apparatus and Method of Manufacturing the Same - An electrophoretic display apparatus and a method of manufacturing the same are provided. The electrophoretic display apparatus includes a driving substrate, an electrophoretic display panel disposed on the driving substrate, a controller disposed on the driving substrate, and a conductive element. The electrophoretic display panel comprises a peripheral region and a display region, and the display region is positioned between the controller and the peripheral region. The first conductive element is disposed in the peripheral region, and electrically connected the controller and the electrophoretic display panel. | 10-06-2011 |
| 20110242044 | IN-CELL TOUCH SENSING PANEL - The present invention in one aspect relates to an in-cell touch panel. In one embodiment, the in-cell touch panel includes at least one touch sensing device configured such that when a touch occurs, it responsively generates a first sensing signal and a second sensing signal that is different from the first sensing signal, and at least one reverse amplification circuit electrically coupled to the at least one touch sensing device for amplifying the difference between the first and second sensing signals. | 10-06-2011 |
| 20110242012 | ORGANIC ELECTRO-LUMINESCENT DEVICE PACKAGE AND FABRICATING METHOD THEREOF - An organic electro-luminescent device package includes an organic electro-luminescent device array substrate, a transparent cover, and a fit. The organic electro-luminescent device array substrate includes a first substrate and a plurality of organic electro-luminescent devices arranged on the first substrate in an array. The transparent cover is disposed over the organic electro-luminescent device array substrate. The transparent cover includes a second substrate and a conductive layer disposed on the second substrate. The organic electro-luminescent devices are located between the first substrate and the second substrate. The frit is disposed between the organic electro-luminescent device array substrate and the transparent cover to surround the organic electro-luminescent devices. The fit is located between the first substrate and a portion of the conductive layer, and the portion of the conductive layer corresponding to the frit is transparent. | 10-06-2011 |
| 20110241541 | Display Panel Package Structure and Fabricating Method Thereof - A display panel package structure is disclosed, which includes a first substrate, a metal wire layer formed on the first substrate, an insulating layer formed on the metal wire layer, a second substrate, a frit formed on an edge of the second substrate for sealing the first substrate and the second substrate, and a conductive layer formed between the frit and the insulating layer corresponding to the frit for conducting a heat when the frit is heated. | 10-06-2011 |
| 20110241526 | DISPLAY AND DISPLAY PANEL THEREOF - A display panel including a plurality of scan lines, a plurality of data lines, and a plurality of pixels is provided. The data lines are disposed substantially perpendicular to the scan lines Each of the pixels is electrically connected with the corresponding data line and the corresponding scan line and the pixels are arranged as an array. The data lines are grouped into a plurality of groups and each of the groups is disposed between two adjacent pixel columns and has N data lines, where N is a positive integer greater than or equal to 3. A portion of the data lines of at least a first group among the groups cross over a portion of the scan lines. The rest data lines of the first group cross over all the scan lines. | 10-06-2011 |
| 20110241060 | Glass sealing package and manufacturing method thereof - Disclosed herein are a glass sealing package and a manufacturing method thereof. The glass sealing package includes a first glass substrate, a second glass substrate and a frit. The coefficient of thermal expansion of the frit lies between that of the two glass substrates. A light emitting element on the first glass substrate is situated in a sealed room formed among the two substrates and the frit. The method includes the steps of proving a first and a second glass substrate, dispensing a frit on the second glass substrate, pre-sintering the frit, assembling the two substrates, and sealing the frit to join the two substrates. | 10-06-2011 |
| 20110241009 | PIXEL STRUCTURE - A pixel structure includes a scan line, a data line, an active element, a first passivation layer, a second passivation layer and a pixel electrode. The data line includes a first data metal segment and a second data metal layer. The active element includes a gate electrode, an insulating layer, a channel layer, a source and a drain. The channel layer is positioned on the insulating layer above the gate electrode. The source and the drain are positioned on the channel layer. The source is coupled to the data line. The first passivation layer and the second passivation layer cover the active element and form a first contact hole to expose a part of the drain. The second passivation layer covers a part edge of the drain. The pixel electrode is disposed across the second passivation layer and coupled to the drain via the first contact hole. | 10-06-2011 |
| 20110235364 | Panel Display Module and Manufacturing Method Thereof - A panel display module and a manufacture method thereof are disclosed. The panel display includes a backlight module, a display panel, a clear cover, and reinforced glue. The backlight module has a light source module and a frame that positions the light source module and other elements to provide structural protection. The display panel is disposed on the light exiting side of the light source module. The clear cover is disposed on one side of the display panel opposite to the light source module. The reinforced glue is distributed encircling the frame and adheres respectively to the frame and to the portion of the clear cover protruding over the display panel. The reinforced glue has a first side adhering onto the frame and a second side adhering onto the clear cover. | 09-29-2011 |
| 20110234577 | SHIFT REGISTER WITH LOW POWER CONSUMPTION - A shift register comprises a plurality of stages. In one embodiment, each stage includes a first output, a second output, a pull-up circuit electrically coupled between a node and the second output, a pull-up control circuit electrically coupled to the node, a pull-down control circuit electrically coupled between the node and the first output, and a control circuit electrically coupled to the node and the first output. | 09-29-2011 |
| 20110234098 | Power Transmission Circuit with EMI Shielding, Lighting Module, and Panel Display Module - A power transmission circuit, a light source module including the power transmission circuit, and a panel display device are provided. The power transmission circuit includes a substrate, a power transmission layer, a metal shielding layer, a first protective layer, and a second protective layer. The substrate has a first surface and a second surface with the power transmission layer and the metal shielding layer respectively formed thereon. The metal shielding layer covers a projection region of a transmission section of the power transmission layer. The first and second protective layers are respectively disposed on the power transmission layer and the metal shielding layer and opposite to the substrate to protect the power transmission layer and the metal shielding layer. | 09-29-2011 |
| 20110233567 | PIXEL ARRAY - A pixel array is located on a substrate and includes a plurality of pixel sets. Each of the pixel sets includes a first scan line, a second scan line, a data line, a data signal transmission line, a first pixel unit, and a second pixel unit. The data line is not parallel to the first and the second scan lines. The data signal transmission line is disposed parallel to the first and the second scan lines and electrically connected to the data line. Distance between the first and the second scan lines is smaller than distance between the data signal transmission line and one of the first and the second scan lines. The first pixel unit is electrically connected to the first scan line and the data line. The second pixel unit is electrically connected to the second scan line and the data line. | 09-29-2011 |
| 20110228556 | LIGHT SOURCE MODULE - A light source module including a light guide plate (LGP) and a light source device is provided. The LGP has a light exiting surface, a light reflecting surface opposite to the light exiting surface and at least one light entering surface connecting the light exiting surface and the light reflecting surface. The LGP has light reflective structures disposed on the light reflecting surface and each including a closed light active region and protrusions disposed in the light active region. The light active region and the light reflecting surface are not coplanar. The protrusions extend outward from the LGP. The light source device is disposed corresponding to the light entering surface. The light source device provides a light entering the LGP from the light entering surface and exiting the LGP from the light exiting surface after the light is redirected by one of the protrusions on the light reflecting surface. | 09-22-2011 |
| 20110228502 | ACTIVE DEVICE ARRAY SUBSTRATE AND FABRICATING METHOD THEREOF - An active device array substrate has at least one patterned conductive layer. The patterned conductive layer includes a copper layer. A cross-section of the copper layer which is parallel to a normal line direction of the copper layer includes a first trapezoid and a second trapezoid stacked on the first trapezoid. A base angle of the first trapezoid and a base angle of the second trapezoid are acute angles, and a difference between the base angle of the first trapezoid and the base angle of the second trapezoid is from about 5° to about 30°. | 09-22-2011 |
| 20110228200 | DISPLAY PANEL AND COLOR FILTER SUBSTRATE - A display panel having a reflective region and a transparent region is provided. The reflective region and the transparent region respectively have sub-pixel regions. The display panel includes a first substrate, a second substrate, a plurality of color filter patterns, a single complementary color filter pattern and a display medium. The first substrate has a plurality of pixel structures disposed corresponding to the sub-pixel regions. The second substrate is disposed opposite to the first substrate. The color filter patterns are respectively disposed in the sub-pixel regions of the transparent region on the first or second substrate. The single complementary color filter pattern is disposed in the sub-pixel regions of the reflective region on the first or second substrate. The sub-pixel regions of the reflective region are not completely covered by the single complementary color filter pattern. The display medium is disposed between the first substrate and second substrate. | 09-22-2011 |
| 20110228190 | CURVED DISPLAY PANEL - A curved display panel includes a first substrate, a second substrate, a display medium, spacers, and padding-islands. The second substrate has a first surface and a second surface opposite to the first surface. The first surface faces toward the first substrate, and the second surface faces against the first substrate. The display medium and the spacers are disposed between the first and the second substrates. The padding-islands are disposed on a plurality of regions of the first surface of the second substrate. The padding-islands on the different regions have different thicknesses. Another curved display panel includes two substrates, a display medium, and spacing pillars. The display medium and the spacing pillars are disposed between the substrates. Bottom areas of the spacing pillars decrease from the center to the outside of the substrates along at least one first direction. Cross-sections of the substrates along the first direction are curved. | 09-22-2011 |
| 20110227819 | INTERACTIVE THREE-DIMENSIONAL DISPLAY SYSTEM AND METHOD OF CALCULATING DISTANCE - An interactive three-dimensional display system includes a three-dimensional display panel which has an optical sensor array, an interactive device which includes a projection light source and a shadow mask, and an image recognizing unit. The shadow mask has a pattern to define an image projected by the interactive device. The image is captured by the optical sensor array. The pattern includes two strip patterns which cross each other. The image includes two strip images which cross each other. The image recognizing unit is electrically connected with the optical sensor array and calculates relative positions of the interactive device and the three-dimensional display panel according to the image. A method of calculating the relative positions includes calculating according to the lengths of one of the strip patterns and one of the strip images, and a divergent angle and tilt angle of the projection light source. | 09-22-2011 |
| 20110227077 | REPAIR METHOD AND ACTIVE DEVICE ARRAY SUBSTRATE - A repair method for repairing an active device array substrate is provided. The active device array substrate includes a substrate, scan lines, data lines, active devices, pixel electrodes, and common lines. At least one of the scan line has an open defect. The scan lines and the data lines are intersected to define sub-pixel regions. The active devices are electrically connected with the scan lines and the data lines correspondingly. Each pixel electrode is disposed in one of the sub-pixel regions and electrically connected with one of the active devices. The repair method includes cutting one of the common lines neighboring to the open defect to form a cutting block that is electrically insulated from the common lines; and welding the cutting block, the scan line having the open defect and two active devices located at two opposite sides of the open defect. | 09-22-2011 |
| 20110223393 | EXPOSURE APPARATUS, METHOD OF FORMING PATTERNED LAYER, METHOD OF FORMING PATTERNED PHOTORESIST LAYER, ACTIVE DEVICE ARRAY SUBSTRATE AND PATTERNED LAYER - An exposure apparatus is provided and adapted for exposing a photoresist layer on a layer to form a plurality of strip exposed patterns. The exposure apparatus includes a light source, a lens group and a mask. The lens group is disposed between the photoresist layer and the light source and includes a plurality of strip lens parallel to each other, wherein an overlapping region between any two neighboring strip lens is defined as a lens connecting region, and the other regions excluding the lens connecting regions are defined as lens regions. The mask is disposed between the photoresist layer and the lens group and includes a plurality of shielding patterns, wherein an outline of the shielding patterns corresponds to the strip exposed patterns, each shielding pattern has a strip opening, and an extension direction of the strip openings is substantially parallel to an extension direction of the shielding patterns. | 09-15-2011 |
| 20110221720 | AMOLED DISPLAY WITH OPTICAL FEEDBACK COMPENSATION - In one aspect, the present invention relates to a display. In one embodiment, the display has a substrate, and a plurality of pixels formed on the substrate and arranged in an array. Each pixel includes a driving transistor and a read-out transistor spatially formed on the substrate, where each transistor has a gate electrode, a drain electrode and a source electrode, an organic light emitting diode (OLED) having a cathode layer, a anode layer and an emissive layer formed between the cathode layer and the anode layer, and formed over the driving transistor and the read-out transistor such that the anode layer of the OLED is electrically connected to the source electrode of the driving transistor, and a photo sensor having a photosensitive layer formed between the anode layer of the OLED and the source electrode of the read-out transistor. | 09-15-2011 |
| 20110217483 | FABRICATING METHOD OF AN OPTICAL COMPENSATION FILM - An optical compensation film includes an optical film and a retardation film. The optical film provides a plate retardation in the direction of thickness (Rth), while the retardation film is disposed on the optical film. The retardation film includes first retarders and second retarders, wherein the first retarders are disposed on at least partial areas of the optical film and provide a first planar retardation (Ro | 09-08-2011 |
| 20110216527 | BACKLIGHT MODULE - A backlight module includes a back plate, a plurality of lamps, a lamp fixing base, and a diffusion plate. The back plate has a cavity. The lamps are disposed on or above the back plate. The lamp fixing base is disposed on the back plate for fixing the lamps. The lamp fixing base has a supporting portion extending along a direction away from the back plate. An orthogonal projection of the supporting portion on the back plate is within a boundary of the cavity. The diffusion plate is disposed above or over the back plate, and the supporting portion is suitable for supporting the diffusion plate. | 09-08-2011 |
| 20110216394 | ELECTROPHORESIS DISPLAY PANEL - An electrophoresis display panel including an active device array substrate and an electrophoresis display film is provided. The active device array substrate includes a plurality of active devices and a shielding pattern. The electrophoresis display film is disposed on the active device array substrate. The electrophoresis display film includes a conductive layer, a dielectric layer and a plurality of electrophoresis display mediums. The dielectric layer is disposed on the conductive layer and has a plurality of micro-cups arranged in area array. The dielectric layer is between the conductive layer and the active device array substrate. Light passing through the dielectric layer is prevented from irradiating onto the active devices by the shielding pattern. In addition, the electrophoresis display mediums are filled within the micro-cups, respectively. | 09-08-2011 |
| 20110216277 | THREE-DIMENSIONAL DISPLAY AND DISPLAY METHOD THEREOF - A three-dimensional (3D) display including a display panel and a phase retardation film is provided. The display panel has a plurality of first pixel regions and a plurality of second pixel regions that are arranged as an array. The phase retardation film is disposed on the surface of the display panel. The phase retardation film has a plurality of first retardation regions and a plurality of second retardation regions that are alternately arranged. The first retardation regions have the same phase retardation, the second retardation regions have the same phase retardation, and the phase retardation of the first retardation regions is different from that of the second retardation regions. All the regions of the phase retardation film have the same transmittance. A display method adaptable to the 3D display is also provided. | 09-08-2011 |
| 20110216256 | REFLECTIVE TYPE TOUCH-SENSING DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A reflective type touch-sensing display panel including a front substrate, scan lines, data lines, pixel structures, photo-sensors, readout devices, a rear substrate and a reflective display medium is provided. The front substrate has an inner surface. The scan lines and the data lines are on the inner surface of the front substrate and intersected to each other. The pixel structures are disposed on the inner surface of the front substrate, and each pixel structure is electrically connected to one of the scan lines and one of the data lines correspondingly. The photo-sensors are disposed on the inner surface of the front substrate. Each readout device is electrically connected to one of the photo-sensor correspondingly. The rear substrate is disposed opposite to the front substrate. The reflective display medium is sealed between the front substrate and the rear substrate. | 09-08-2011 |
| 20110216253 | THREE-DIMENSIONAL DISPLAY AND DISPLAYING METHOD THEREOF - A three-dimensional display including a display panel and a phase retardation film is provided. The display panel has a plurality of first pixel regions and a plurality of second pixel regions arranged in arrays. The phase retardation film is configured on a surface of the display panel. Here, the phase retardation film has a plurality of first retardation regions and a plurality of second retardation regions that are arranged alternately. The first retardation regions have the same phase retardation, the second retardation regions have the same phase retardation, and the phase retardation of the first retardation regions is different from that of the second retardation regions. All the regions of the phase retardation film have the same optical transmittance. A displaying method adaptable to the three-dimensional display is also provided. | 09-08-2011 |
| 20110215324 | THIN FILM TRANSISTOR AND FABRICATING METHOD THEREOF - A thin film transistor (TFT) and a fabricating method thereof are provided. The TFT includes a channel layer, an ohmic contact layer, a dielectric layer, a source, a drain, a gate, and a gate insulating layer. The channel layer has an upper surface and a sidewall. The ohmic contact layer is disposed on a portion of the upper surface of the channel layer. The dielectric layer is disposed on the sidewall of the channel layer, and does not overlap with the ohmic contact layer. The source and the drain are disposed on portions of the ohmic contact layer and the dielectric layer. A portion of dielectric layer is not covered by the source or the drain. The gate is above or below the channel layer. The gate insulating layer is disposed between the gate and the channel layer. | 09-08-2011 |
| 20110215019 | Package Box Module - A package box module for packaging an object is disclosed, which includes a package box having a sidewall and plural first coupling structures disposed on the sidewall, and a common cushion disposed between the object and the sidewall. The common cushion includes plural second coupling structures and plural flexible structures disposed between the second coupling structures. The common cushion can be enlarged by extending the flexible structures, so that the first coupling structures couple to the second coupling structures, thus a gap between the object and the package box is filled by the common cushion. | 09-08-2011 |
| 20110212393 | METHODS FOR MANUFACTURING PIXEL UNIT, LIQUID CRYSTAL DISPLAY PANEL, AND ELECTRO-OPTICAL APPARATUS - A pixel unit having a display area is provided. The pixel unit includes a first substrate, a second substrate, a liquid crystal layer, and at least one ultraviolet light (UV) absorption pattern. The second substrate is disposed in parallel to the first substrate, and the liquid crystal layer is disposed between the first substrate and the second substrate. The UV absorption pattern is disposed between the first substrate and the second substrate. A part of the display area overlaps the UV absorption pattern to define at least one first alignment area, while the part of the display area which does not overlap the UV absorption pattern defines at least one second alignment area. The liquid crystal molecules of the liquid crystal layer present different pre-tilt angles in the first alignment area and the second alignment area. | 09-01-2011 |
| 20110210924 | SNR ENHANCEMENT FOR DIFFERENTIAL INPUT DEVICE - The present invention relates to a position detector and a touch sensing device of using same with SNR enhancement. In one embodiment, the position detector has (P+1) inputs, each input for receiving an input signal associated with a position, P being a positive integer, and P operational amplifiers, each operational amplifier having a non-inverting input and an inverting input, where the inverting input of the j-th operational amplifier is electrically connected to the non-inverting input of the (j+1)-th operational amplifier, and the non-inverting input and the inverting input of the j-th operational amplifier are electrically connected to the j-th input port and the (j+1)-th input port, respectively, j=1, 2, 3, . . . , (P−1). | 09-01-2011 |
| 20110205476 | Multiple Cell Gaps Transreflective LCD and Fabricating Method Thereof - A LCD having multiple cell gaps and a method producing the same are provided. By stacking various numbers of dielectric layers and/or a photosensitive organic layer with various thicknesses on a display array substrate, various cell gaps for pixels of various colors can be obtained. | 08-25-2011 |
| 20110205145 | Optoelectronic Device, Display and Backlight Module - A backlight module comprises a light transmission member and a light emitting module. The light emitting module includes at least two circuit substrates and a plurality of light emitting units. Short sides of the circuit substrates are corresponding to each other. The light emitting units are disposed on the circuit substrates and face a light incident surface of the light transmission member. The illumination chromaticity of several light emitting units disposed on the circuit substrates and adjacent to each other, and the mixed illumination chromaticity of other light emitting units disposed on each circuit substrate are substantially the same, and all emits white light. | 08-25-2011 |
| 20110199670 | DISPLAY DEVICE AND LIGHT ENHANCEMENT FILM OF THE DISPLAY DEVICE - A light enhancement film provided in the disclosure includes a substrate and an optical microstructure having a plurality of hexagonal cylindrical lenses inseparably arranged on a surface of the substrate in accordance with a honeycombed arrangement. Each of the hexagonal cylindrical lenses has different cross-sectional areas that are gradually narrowed from the surface of the substrate in a direction away from the substrate, and every two adjacent lenses have a gap therebetween. Furthermore, a display device having the light enhancement film is provided as well. | 08-18-2011 |
| 20110199562 | TRANSFLECTIVE PIXEL STRUCTURE - A transflective pixel structure including a reflective region and a transmittance region is provided. The pixel structure includes an active device, a covering layer, a reflective electrode layer, a reflective electrode pattern and a transparent electrode layer. The covering layer is disposed in the reflective region and the transmittance region and covers the active device, where the covering layer has a contact opening at least disposed in the transmittance region. The reflective electrode layer is disposed in the reflective region. The reflective electrode pattern is disposed within the contact opening and extends onto a top surface of the covering layer surrounding the contact opening. The transparent electrode layer is disposed on a surface of the covering layer in the transmittance region. The transparent electrode layer is electrically connected to the reflective electrode layer and the transparent electrode layer is electrically connected to the active device through the contact opening. | 08-18-2011 |
