E Ink Holdings Inc. Patent applications |
Patent application number | Title | Published |
20160086978 | DISPLAY - A display is disclosed. The display includes a display panel including pixel units in an image-displaying region. Each of the pixel units includes an AND gate and a pixel electrode electrically connected to an output terminal of the AND gate. | 03-24-2016 |
20160004004 | ELECTRONIC READING DEVICE AND OPERATING METHOD FOR THE SAME - An electronic reading device and an operating method for the same are disclosed. The electronic reading device includes a front light module and a reflective display. The front light module includes a white light source and a color light source. The color light source is selected from a group consisting of a red light source, a green light source and a blue light source. The reflective display is disposed on a side of the front light module. | 01-07-2016 |
20150227260 | CORRECTION METHOD OF TOUCH POINT AND ELECTROMAGNETIC-TYPE TOUCH PANEL USING THE SAME - A touch point correction method is provided. Firstly, a first longitudinal base line of several longitudinal electrodes having a maximal energy is detected. Then, a right-side number of the longitudinal electrodes located in right side of the first longitudinal base line and sensing energy is detected. Then, a left-side number of the longitudinal electrodes located in left side of the longitudinal base line and sensing energy is detected. Then, a side corresponding to the largest of the right-side and left-side numbers is used as an inclined side, and a direction from the first longitudinal base line towards the inclined side is defined as an inclined direction. Then, a second longitudinal base line of the longitudinal electrodes having a sub-maximal energy is detected. Then, the sensing point is corrected by correction toward a reverse direction of the inclined direction according to ratio of the sub-maximal energy to the maximal energy. | 08-13-2015 |
20150146146 | COLOR FILTER SUBSTRATE AND DISPLAY DEVICE - A color filter substrate includes a transparent substrate and a plurality of color filter patterns. The transparent substrate has an upper surface and a lower surface opposite to each other, and a plurality of containing cavities. The containing cavities extend from the upper surface toward the lower surface and separate from each other. Each containing cavity has a bottom surface. The color filter patterns are disposed on the transparent substrate and located inside the containing cavities, respectively. The color filter patterns contact with the corresponding bottom surfaces, respectively. | 05-28-2015 |
20150117055 | DISPLAY APPARATUS - A display apparatus is provided. A display unit has a display region. A protecting cover has a patterned region, wherein the patterned region does not overlap the display region. A light guide plate is disposed between the display unit and the protecting cover and has a first light scattering region and a second light scattering region. The first light scattering region at least partially overlaps the display region, and the second light scattering region at least partially overlaps the patterned region. A light emitting unit emits a light beam to the light guide plate. After the light beam enters the light guide plate, a part of the light beam is scattered to the display region by the first light scattering region and another part of the light beam is scattered to the patterned region by the second light scattering region. | 04-30-2015 |
20150117054 | DISPLAY DEVICE - A display device includes a display panel, a light guide plate (LGP), a light source, and a positioning component. The LGP is disposed on a display surface of the display panel and has an upper surface and a lower surface opposite to each other, a light-incident surface, a first light-guiding block, and a second light-guiding block. A display area of the display panel corresponds to the first light-guiding block. The second light-guiding block extends outside the display area and has at least one recess portion. The recess portion is located on at least one of the upper surface and the lower surface and extends to the light-incident surface. The light source is disposed beside the light-incident surface. The positioning component is disposed on the second light-guiding block and located in the recess portion. Besides, the positioning component extends outside the recess portion and fixes the location of the light source. | 04-30-2015 |
20150109658 | ELECTROPHORETIC DISPLAY APPARATUS - An electrophoretic display apparatus includes a driving substrate, an electrophoretic display medium layer and a color resist layer. The electrophoretic display medium layer is disposed on the driving substrate. The color resist layer is disposed on the electrophoretic display medium layer. The color resist layer includes pixel zones. The pixel zones include a first color zone, a second color zone, a third color zone, a fourth color zone and a vacant zone. The first color one and the third color zone are respectively positioned on two opposite edges of the vacant zone. The second color zone and the fourth color zone are respectively positioned on another two opposite edges of the vacant zone. The first color zone, the second color zone, the third color zone and the fourth color zone have different colors. | 04-23-2015 |
20150103393 | REFLECTIVE DISPLAY APPARATUS AND MANUFACTURING METHOD OF REFLECTIVE DISPLAY APPARATUS - A reflective display apparatus including at least one front-light module, a first frame, a first liquid, and a display unit is provided. The at least one front-light module includes a light source and a light guide plate. The light source is adapted for providing an illumination beam. The first frame connects with the light guide plate of the at least one front-light module. The display unit, the first frame, the at least one front-light module form a first containing space and the first liquid is injected into the first containing space. Besides, a manufacturing method of the reflective display apparatus is also provided. | 04-16-2015 |
20150102345 | ACTIVE DEVICE AND MANUFACTURING METHOD THEREOF - An active device includes a gate, a gate insulation layer, a channel layer, a first passivation layer, a second passivation layer, a source and a drain. The gate insulation layer is disposed on the substrate and covers the gate. The channel layer is disposed on the gate insulation layer and has a semiconductor section disposed corresponding to the gate and a conductive section located around the semiconductor section. The first passivation layer is disposed on the channel layer and covers the semiconductor section. The second passivation layer is disposed on and covers the first passivation layer. The source and the drain are disposed on the gate insulation layer, and extended along peripheries of the conductive section, the first and the second passivation layers to be disposed on the second passivation layer. A portion of the second passivation layer is exposed between the source and the drain. | 04-16-2015 |
20150096877 | TOUCH DISPLAY DEVICE - A touch display device including a substrate, a display medium layer disposed above the substrate, first side electrodes and a sensing electrode disposed above the substrate is provided. The display medium layer includes charged particles and micro-structures connected to each other. Each of the micro-structures holds a portion of the charged particles, and has a first side wall which is not parallel to the substrate. Each of the first side electrodes is disposed above the first side wall of each of the micro-structures. The micro-structures are disposed between the substrate and the first side electrodes. A touch sensing unit is composed by the sensing electrode and the first side electrodes. | 04-09-2015 |
20150091819 | TOUCH STRUCTURE AND MANUFACTURING METHOD FOR THE SAME - A touch structure and a manufacturing method for the same are provided. The touch structure includes a substrate, a sensing pattern and a dummy pattern. The dummy pattern and the sensing pattern are disposed in the same level on the substrate. | 04-02-2015 |
20150076722 | MANUFACTURING METHOD FOR DISPLAY MODULE - A manufacturing method for a display module is provided. The method comprises following steps. A module structure comprising a cover plate, a substrate, and a front plate disposed between the cover plate and the substrate is provided. A space is defined by a lower surface of the cover plate, an upper surface of the substrate, and a side surface of the front plate. A holding structure comprising a holding layer disposed under the module structure is provided. A sealant is filled into the space. Portions of the package layer and the holding structure disposed outside a side surface of the cover plate and a side surface of the substrate are removed. | 03-19-2015 |
20150076588 | VERTICAL TRANSISTOR AND MANUFACTURING METHOD THEREOF - A vertical transistor and a manufacturing method thereof are provided herein. The manufacturing method includes forming a first patterned conductive layer on a substrate; forming a patterned metal oxide layer on the first patterned conductive layer, in which the patterned metal oxide layer includes a first patterned insulator layer, a second patterned insulator layer, and a second patterned conductive layer; forming a semiconductor layer; and forming a third patterned conductive layer. The first patterned insulator layer, the second patterned insulator layer, and the second patterned conductive layer are made by using a single metal oxide material. The oxygen concentration of the second patterned conductive layer is different from the oxygen concentrations of the first patterned insulator layer and the second patterned insulator layer. | 03-19-2015 |
20150069379 | THIN FILM TRANSISTOR - A thin file transistor includes a gate electrode, a source electrode, a drain electrode, a gate-insulating layer, and an oxide semiconductor layer. The oxide semiconductor layer includes indium-gallium-zinc oxide with a formula of In | 03-12-2015 |
20150060780 | ORGANIC LIGHT-EMITTING DISPLAY DEVICE - An organic light-emitting display device includes an active array substrate, an encapsulating layer, an organic light-emitting layer, an absorption layer and a sealant. The encapsulating layer is opposite to the active array substrate, and the encapsulating layer has an inner surface facing the active array substrate. The organic light-emitting layer is disposed on the active array substrate. The absorption layer is configured to absorb at least one of moisture and oxygen, and is positioned on the inner surface of the encapsulating layer. The sealant is disposed between the active array substrate and the encapsulating layer, and encircles the organic light-emitting layer and the absorption layer | 03-05-2015 |
20140367707 | DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A manufacturing method of a display panel including following steps is provided. An active device substrate including a first plate, active devices disposed on the first plate and pixel electrodes electrically connected to the active devices is provided. A display medium substrate including a second plate and a display medium disposed on the second plate is provided. The pixel electrodes are electrically connected to the display medium by a conductor. Moreover, a display panel manufactured by the manufacturing method is also provided. | 12-18-2014 |
20140361970 | REFLECTIVE DISPLAY DEVICE AND DRIVING METHOD THEREOF - A reflective display device includes a drive array substrate, an electrophoretic display film, a reflective optical film and a light source module. The electrophoretic display film is disposed on the drive array substrate and includes a plurality of display mediums. The reflective optical film is disposed on the electrophoretic display film. The light source module is disposed beside the reflective optical film. A light emitting from the light source module is reflected to the electrophoretic display film by the reflective optical film. The light source module includes a plurality of first-color light sources, a plurality of second-color light sources and a plurality of third-color light sources which are switched on in sequence. The reflective display device is in a color display mode when the light source module is turned on. The reflective display device is in a monochrome display mode when the light source module is turned off. | 12-11-2014 |
20140361301 | DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A display panel and a manufacturing method thereof are disclosed herein. The display panel includes a substrate, a peripheral circuit, a plurality of pixel electrodes, a plurality of switches, and an insulating layer. The substrate has a display region and a non-display region. At least a portion of the peripheral circuit is located on the display region of the substrate. The pixel electrodes are located on the display region of the substrate. The switches are respectively and electrically connected to the pixel electrodes, configured to be respectively switched on according to a plurality of scan signals, so as to transmit a plurality of data signals to the pixel electrodes. The insulating layer is located between the peripheral circuit and the pixel electrodes, and is configured to prevent the peripheral circuit from interfering with the pixel electrodes. | 12-11-2014 |
20140333988 | COLOR FILTER STRUCTURE AND MANUFACTURING METHOD THEREOF - The disclosure provides a color filter structure used to a reflective display. The color filter structure includes a transparent substrate, a plurality of color resists, a plurality of light-impermeable structures and a reflective layer. The transparent substrate has a top surface and a bottom surface, and the color resists are positioned on the top surface of the transparent substrate. The light-impermeable structures are positioned in the transparent substrate, in which the adjacent two color resists are separated by one of the light-impermeable structures. The reflective layer is positioned on the bottom surface of the transparent substrate. And the method for manufacturing the color filter structure is also disclosed herein. | 11-13-2014 |
20140327954 | CIRCULAR DISPLAY - A circular display includes a carrier and a display medium layer that is located on the carrier. The display medium layer has two display edges opposite to each other. The carrier has two carrying edges opposite to each other. The display edges are respectively aligned to the carrying edges. The carrier and the display medium layer are bent together to form a closed ring. The display edges of the display medium layer are connected to each other. The carrying edges of the carrier are connected to each other. | 11-06-2014 |
20140326989 | ACTIVE DEVICE - An active device provided by the invention is disposed on a substrate and includes a gate, a gate insulating layer, an oxide semiconductor channel layer, a plurality of nano conductive wires, a source and a drain. The gate insulating layer is disposed between the gate and the oxide semiconductor channel layer. The nano conductive wires are distributed in the oxide semiconductor channel layer, in which the nano conductive wires do not contact the gate insulating layer and the nano conductive wires are arranged along a direction and not intersected with each other. The source and the drain are disposed on two sides opposite to each other of the oxide semiconductor channel layer, in which a portion of the oxide semiconductor channel layer is exposed between the source and the drain. | 11-06-2014 |
20140320137 | INSPECTION METHOD AND INSPECTION APPARATUS - An inspection method including following steps is provided. A pixel array substrate including a plurality of pixel units is in contact with a photoelectric inspection device. A plurality of electrical signals is inputted to the pixel units of the pixel array substrate and the photoelectric inspection device. Based on an optical property of the photoelectric inspection device, the pixel units of the pixel array substrate are being examined on whether they are normal or not. Moreover, an inspection apparatus realizing the inspection method is also provided. | 10-30-2014 |
20140313437 | TOUCH PANEL - A touch panel includes a substrate, first sensing series, second sensing series interlaced with the first sensing series, first conductive lines, and second conductive lines. The substrate has an active region and a peripheral circuit region located outside the active region. The first sensing series and the second sensing series are located at the active region. No conductive line electrically connected to the second sensing series is configured between any of two ends of each of the second sensing series and a portion of an edge of the substrate adjacent to the end. The first conductive lines are located at the peripheral circuit region and electrically connected to the first sensing series. The second conductive lines are electrically connected to the second sensing series. The second conductive lines are extended from the inside of the active region to the peripheral circuit region. | 10-23-2014 |
20140306226 | PIXEL STRUCTURE - A pixel structure including a substrate, an active device located on the substrate, a second reflective pattern, and a third reflective pattern is provided. The active device includes a gate, a channel, a source, and a drain. The source and the drain are connected to the channel and are separated from each other. The channel and the gate are stacked in a thickness direction. The second reflective pattern and the third reflective pattern are electrically connected to the drain of the active device. The second reflective pattern has second contact openings. The third reflective pattern is stacked on the second reflective pattern and covers the second contact openings of the second reflective pattern. The second reflective pattern is located between the third reflective pattern and the substrate. Moreover, other kinds of pixel structures are also provided. | 10-16-2014 |
20140286045 | DISPLAY AND FRONT-LIGHT MODULE THEREOF - A display includes a reflective display module, a light guide plate, at least one light source and a cover lens. The light guide plate includes a first light guide surface opposite to the reflective display module. The first light guide surface includes a light outgoing region and a peripheral region surrounding the light outgoing region. The light source is used for emitting a light to the light guide plate. The peripheral region of the first light guide surface is connected to the cover lens. The light outgoing region and the cover lens are spatially separated, and define an air gap therebetween. | 09-25-2014 |
20140267995 | PIXEL STRUCTURE - A pixel structure disposed on a substrate is provided. The pixel structure includes an active device, a first electrode, a second electrode and an alignment layer. The active device is disposed on the substrate. The first electrode is disposed on the substrate and has a plurality of slits. A thickness of the first electrode is from 20 Å to 100 Å. The second electrode is disposed on the substrate and electrically independent from the first electrode. A portion of the area of the second electrode is located inside the first slits. One of the first electrode and the second electrode is electrically connected to the active device. The alignment layer covers at least the first electrode and the first slits. | 09-18-2014 |
20140264606 | PIXEL STRUCTURE - A pixel structure includes a flexible substrate, an active device, a conductive pattern, a first insulation layer, and a pixel electrode. The active device is disposed on the flexible substrate and includes a gate, a channel, a source, and a drain. The source and the drain are connected to the channel and are separated from each other. The channel and the gate are stacked in a thickness direction. The active device is disposed between the conductive pattern and the flexible substrate. The conductive pattern is electrically connected to the drain of the active device. The first insulation layer covers the conductive pattern and has first contact holes separated from one another, and the first contact holes expose the conductive pattern. The first insulation layer is disposed between the pixel electrode and the conductive pattern. The pixel electrode is electrically connected to the conductive pattern through the first contact holes. | 09-18-2014 |
20140254038 | COLOR FILTER AND DISPLAY - A color filter provided in the invention includes a substrate, a first color filter pattern and a second color filter pattern. The substrate has at least one first pixel region and at least one second pixel region adjacent to the first pixel region. The first color filter pattern is disposed on the substrate and includes a first central pattern and first protruding patterns connected to the first central pattern and protruding outwardly from the first central pattern so that a portion of the first protruding patterns are located in the second pixel region. The second color filter pattern includes a second central pattern located within the second pixel region. | 09-11-2014 |
20140252985 | ELECTRONIC DEVICE AND LIGHT-EMITTING MODULE - A light-emitting module includes at least one first light-emitting component, at least one second light-emitting component, a first driving component, a second driving component, and a control component. The first light-emitting component is configured to emit a white light having a first predetermined color temperature according to a first power of a first driving signal. The second light-emitting component is configured to emit another white light having a second predetermined color temperature according to a second power of a second driving signal. The control component is configured to separately output the first and second driving signals, and to separately adjust the first and second powers of the first and second driving signals, so as to mix the white lights having the first and second predetermined color temperatures to output a white light having an output color temperature. | 09-11-2014 |
20140210849 | DISPLAY DEVICE AND DISPLAY METHOD - The display device includes a display component, a storage component, and a processing component. The storage component is configured to store a plurality of index tables. Each index table includes a plurality of input-output-pairs. Each input-output-pair corresponds to a plurality of sub-pixel coordinate values, and a plurality of color component values. The processing component is configured to receive and correspond to a user command, to search a corresponding index table from the index tables, to search a corresponding input-output-pair from the input-output-pairs in the corresponding index table, and to provide some of the sub-pixel coordinate values and some of the color component values corresponding to the corresponding input-output-pair to the display component. The display component is configured to display an image according to the some of the sub-pixel coordinate values and the some of the color component values corresponding to the corresponding input-output-pair. | 07-31-2014 |
20140210690 | REAL-TIME MULTITASK OPERATING METHOD AND ELECTRONIC DEVICE - A real-time multitask operating method for an electronic device. The electronic device has a first display device and a second display device. The first display device and the second display device are respectively disposed on two surfaces of the electronic device corresponding to each other. In the method, a signal is received when a first function is executed by the electronic device to display a first frame corresponding to the first function by the first display device. The first frame and a second frame corresponding to the signal are displayed on the first display device and the second display device according to the signal when the first function is still executed. The first frame and the second frame are displayed on different display devices. | 07-31-2014 |
20140204453 | ELECTROPHORETIC DISPLAY APPARATUS - An electrophoretic display apparatus includes a drive array substrate, a color filter layer and an electrophoretic display film. The drive array substrate has a plurality of pixel units, in which each of the pixel units includes a drive device. The color filter layer is disposed on the drive array substrate and has a plurality of color filter patterns, in which each of the color filter patterns is corresponding to at least two of the pixel units. The electrophoretic display film is disposed between the drive array substrate and the color filter layer and includes a plurality of display mediums, in which the display mediums corresponding to each of the color filter patterns are controlled by at least two of the drive devices. | 07-24-2014 |
20140196854 | SEPARATING APPARATUS - A separating apparatus, including a base and a wire, is provided. The base is adapted for carrying an electronic device. The electronic device includes a first substrate, a second substrate, and an adhesive layer. The adhesive layer adheres the first substrate and the second substrate to each other. The wire is configured on the base. A wire diameter of the wire is equal to or greater than a thickness of the adhesive layer. | 07-17-2014 |
20140192491 | CIRCUIT SUBSTRATE STRUCTURE AND METHOD FOR MANUFACTURING THEREOF - The invention provides a circuit substrate structure and a method for manufacturing thereof. The circuit substrate structure includes a substrate, a pixel array layer, a display unit, a peripheral circuit layer, at least one integrated circuit chip, a flexible printed circuit board, at least one flattening material layer and a passivation layer. In the circuit substrate structure, the flattening material layer is positioned on the peripheral circuit layer, and possesses at least one opening corresponded to and around the integrated circuit chip. By positioning the flattening material layer, the circuit substrate structure possesses a flat surface, and prevents producing air bubbles, so as to enhance the reliability of the display device. | 07-10-2014 |
20140192402 | ELECTROPHORETIC DISPLAY APPARATUS - An electrophoretic display apparatus is suitable for being electrically connected to an external circuit and includes a drive array substrate, an electrophoretic display film and a first optical adhesive layer. The electrophoretic display film is disposed on the drive array substrate and includes a flexible substrate and a display medium layer. The flexible substrate has a disposed region and a bonding region. The external circuit is disposed between the flexible substrate and the drive array substrate, located in the bonding region and extends outside the drive array substrate. The display medium layer is disposed between the flexible substrate and the drive array substrate and located in the disposed region. The first optical adhesive layer is disposed between the display medium layer and the drive array substrate. A thickness of the external circuit is substantially a sum of that of the display medium layer and the first optical adhesive layer. | 07-10-2014 |
20140191649 | PIXEL STRUCTURE - A pixel structure including a flexible substrate, an active device, a pixel electrode, a capacitance electrode, a first insulation layer, a second insulation layer, and a padding layer is provided. The pixel electrode is electrically connected to the active device and has pixel electrode openings. The capacitance electrode is disposed overlapping the pixel electrode and has capacitance electrode openings corresponding to the pixel electrode openings. The first insulation layer is disposed between the pixel electrode and the flexible substrate. The second insulation layer is disposed between the pixel electrode and the capacitance electrode. The active device is disposed between the second insulation layer and the flexible substrate. The padding layer includes padding pillars and a padding pattern covering over the active device. The padding pillars are located in the pixel electrode openings respectively. The pixel electrode partially covers the padding pattern and exposes the padding pillars. | 07-10-2014 |
20140185128 | DISPLAY DEVICE AND FABRICATION METHOD OF DISPLAY DEVICE - A display device including a first substrate, a second substrate, a display layer, a color filter layer, a transparent electrode layer and a transparent sealing is provided. The first substrate is opposite to the second substrate. The display layer is disposed between the first substrate and the second substrate. The color filter layer is disposed between the display layer and the first substrate. The transparent electrode layer is disposed between the color filter layer and the display layer. The transparent sealing surrounds the display layer so that the display layer is sealed between the first substrate and the second substrate, wherein a curable temperature of the transparent sealing is lower than or equal to 40° C. A fabrication method of a display device is further provided herein. | 07-03-2014 |
20140183521 | THIN FILM TRANSISTOR STRUCTURE - A thin film transistor structure including a substrate, a gate, an oxide semiconductor layer, a gate insulation layer, a source, a drain, a silicon-containing light absorption layer and an insulation layer is provided. The gate insulation layer is disposed between the oxide semiconductor layer and the gate. The oxide semiconductor layer and the gate are stacked in a thickness direction. The source and the drain contact the oxide semiconductor layer. A portion of the oxide semiconductor layer without contacting the source and the drain defines a channel region located between the source and the drain. The oxide semiconductor layer is located between the substrate and the silicon-containing light absorption layer. The silicon-containing light absorption layer has a band gap smaller than 2.5 eV. The insulation layer is disposed between the oxide semiconductor layer and the silicon-containing light absorption layer, and in contact with the silicon-containing light absorption layer. | 07-03-2014 |
20140158663 | SURFACE TREATMENT METHOD FOR FLEXIBLE SUBSTRATE - A surface treatment method for a flexible substrate is provided. A flexible insulation substrate is provided. A surface of the flexible insulation substrate has at least one defect. A plasma etching is performed on the flexible insulation substrate to smooth a profile of the defect. | 06-12-2014 |
20140151723 | PIXEL ARRAY - A pixel array includes multiple scan lines, multiple gate lines, multiple data lines and multiple pixel structures. The scan lines are disposed on a substrate. The gate lines intersect with the scan lines to demarcate multiple first unit regions and multiple second unit regions. Each gate line electrically connects to one of the scan lines. The data lines intersect with the scan lines and pass through the first unit regions. Each data line is located between two adjacent gate lines. The pixel structures are disposed on the first unit regions. Each pixel structure includes an active device and a pixel electrode. The active device is driven by one corresponding scan line and connects with one corresponding data line. An orthographic projection of each pixel electrode on the substrate is non-overlapped with or incompletely overlapped with an orthographic projection of the corresponding gate lines on the substrate. | 06-05-2014 |
20140151720 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device adapted for being disposed on a substrate is provided. The semiconductor device includes a pixel electrode, a drain, a semiconductor channel layer, a source, a gate insulation layer and a side-gate. The pixel electrode is disposed on the substrate. The drain is disposed on the pixel electrode and exposes a portion of pixel electrode. The semiconductor channel layer is disposed on the drain. The source is disposed on the semiconductor channel layer. The gate insulation layer is disposed on the substrate, at least covers the source and surrounds the semiconductor channel layer. The side-gate is disposed on the gate insulation layer and extendedly covers the substrate along at least one side of the gate insulation layer. An extending direction of a portion of the side-gate is identical to a stacking direction of the drain, the semiconductor channel layer and the source. | 06-05-2014 |
20140146491 | FLEXIBLE DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF - A flexible display apparatus including a flexible display panel, at least one flexible circuit board, at least one driving chip, and a sealing layer is provided. The flexible display panel has a display area and a bonding area located outside the display area. The flexible circuit board is disposed in the bonding area of the flexible display panel. The driving chip is disposed on the flexible circuit board. The sealing layer encapsulates a periphery of the flexible display panel and extendedly covers the bonding area and a portion of the flexible circuit board. | 05-29-2014 |
20140138677 | THIN FILM TRANSISTOR AND FABRICATION METHOD THEREOF - A thin film transistor and a fabrication method thereof are provided. A metal patterning layer is formed on the metal oxide semiconductor layer of a thin film transistor to shield the metal oxide semiconductor layer from the water, oxygen and light in the environment. | 05-22-2014 |
20140110700 | THIN FILM TRANSISTOR STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A thin film transistor (TFT) structure includes a metal oxide semiconductor layer, a gate, a source, a drain, a gate insulation layer, and a passivation layer. The metal oxide semiconductor layer has a crystalline surface which is constituted by a plurality of grains separated from one another. An indium content of the grains accounts for at least 50% of all metal elements of the metal oxide semiconductor layer. The gate is disposed on one side of the metal oxide semiconductor layer. The source and the drain are disposed on the other side of the metal oxide semiconductor layer. The gate insulation layer is disposed between the gate and the metal oxide semiconductor layer. The passivation layer is disposed on the gate insulation layer, and the crystalline surface of the metal oxide semiconductor layer is in direct contact with the gate insulation layer or the passivation layer. | 04-24-2014 |
20140084281 | THIN FILM TRANSISTOR, ARRAY SUBSTRATE, AND DISPLAY APPARATUS - A thin film transistor disposed on a substrate is provided. The TFT includes a gate layer, an insulation layer, a carrier transmission layer, a passivation layer, a first source/drain layer, and a second source/drain layer. The gate layer is disposed on the substrate. The insulation layer is disposed on the gate layer. The carrier transmission layer is disposed on the insulation layer. The carrier transmission layer includes an active layer and a mobility enhancement layer. The passivation layer is disposed on the active layer. The first source/drain layer is disposed on the active layer. The second source/drain layer is disposed on the active layer. The mobility enhancement layer includes a first element. The active layer includes a second element. The electronegativity of the first element is smaller than that of the second element to enhance the carrier mobility of the active layer. | 03-27-2014 |
20140071023 | DISPLAYING METHOD AND PORTABLE DEVICE - A displaying method for a portable device having a first surface and a second surface opposite to the first surface is provided. The portable device includes a first display device configured on the first surface, and a detachable rear cover covers the second surface. A second display device is configured on the detachable rear cover. In the displaying method, a function launching signal is received to execute a function corresponding to the signal, and a frame corresponding to the executed function is displayed on the first display device. An input signal is received to select a portion of the frame, and the selected portion of the frame is transmitted to the second display device. The selected portion of the frame is displayed on the second display device. | 03-13-2014 |
20140049882 | DISPLAY PANEL HAVING WIRELESS CHARGING FUNCTION - A display panel having a wireless charging function is provided, and the display panel includes a first substrate, an induction coil layer, a display pixel layer, and a second substrate. The induction coil layer is disposed on the first substrate. The induction coil layer includes at least one induction coil. The induction coil layer is adapted for collaborating with a wireless charging power supply, such that the induction coil layer executes the wireless charging function. The display pixel layer is disposed on the induction coil layer. The second substrate is disposed on the display pixel layer. | 02-20-2014 |
20140048679 | LIGHT SENSOR AND DRIVING METHOD OF PHOTO TRANSISTOR THEREOF - A light sensor including a photo transistor is provided. A gate of the photo transistor receives a gate driving signal. The photo transistor senses a light source based on the gate driving signal to generate a light current signal. The photo transistor includes a metal-oxide active layer. The gate driving signal has a first voltage level during a trap period and has a second voltage level during a read period. The first voltage level is higher than the second voltage level. The gate driving signal of the photo transistor introduces a mechanism to rapidly eliminate excess carriers. Accordingly, the photo transistor has a rapid response while maintaining good light responsibility. Furthermore, a method for driving the foregoing photo transistor is also provided. | 02-20-2014 |
20140042404 | ORGANIC SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An organic semiconductor device includes a carrier, a source, a drain, an organic semiconductor single-crystalline channel layer, an organic insulation layer and a gate. The source and the drain are disposed on an upper surface of the carrier. The source and the drain are disposed in parallel and a portion of the carrier is exposed between the source and the drain. The organic semiconductor single-crystalline channel layer is disposed on the upper surface of the carrier and covers a portion of the source, a portion of the drain and the portion of the carrier exposed by the source and the drain. The organic insulation layer covers the carrier, the source, the drain and the organic semiconductor single-crystalline channel layer. The gate is disposed on the organic insulation layer and corresponds to a position of the portion of the carrier exposed by the source and the drain. | 02-13-2014 |
20140034975 | DISPLAY APPARATUS - A display apparatus includes an active device array substrate, an opposite substrate disposed opposite to the active device array substrate, and a display medium disposed between the active device array substrate and the opposite substrate. The opposite substrate includes a first base and a light-shielding structure disposed on the first base and located between the first base and the active device array substrate. The light-shielding structure has a first dielectric layer, a second dielectric layer, a third dielectric layer, a metal layer, a fourth dielectric layer, a fifth dielectric layer, and a sixth dielectric layer stacked sequentially in a direction from the first base to the active device array substrate. The first, second, and third dielectric layers have different thicknesses. The fourth, fifth, and sixth dielectric layers have different thicknesses. | 02-06-2014 |
20140034944 | DISPLAY PANEL, THIN FILM TRANSISTOR AND METHOD OF FABRICATING THE SAME - A thin film transistor (TFT) including a gate, a dielectric layer, a metal-oxide semiconductor channel, a source, and a drain is provided. The gate and the metal-oxide semiconductor channel are overlapped. The gate, the source, and the drain are separated by the dielectric layer. Besides, the source and the drain are respectively located on two opposite sides of the metal-oxide semiconductor channel. The metal-oxide semiconductor channel includes a metal-oxide semiconductor layer and a plurality of nano micro structures disposed in the metal-oxide semiconductor layer and separated from one another. In another aspect, a display panel including the TFT and a method of fabricating the TFT are also provided. | 02-06-2014 |
20140030494 | GAS BARRIER SUBSTRATE - A gas barrier substrate including a flexible base material, at least one first inorganic gas barrier layer and at least one second inorganic gas barrier layer is provided. The flexible base material has an upper surface. The first inorganic gas barrier layer is disposed on the flexible base material and covers the upper surface. The second inorganic gas barrier layer is disposed on the first inorganic gas barrier layer and covers the first inorganic gas barrier layer. A water vapor and oxygen transmission rate of the second inorganic gas barrier layer is lower than that of the first inorganic gas barrier layer. | 01-30-2014 |
20140021473 | SEMICONDUCTOR STRUCTURE - A semiconductor structure includes a gate, an oxide channel layer, a gate insulating layer, a source, a drain and a dielectric stacked layer. The oxide channel layer is stacked over the gate, with the gate insulting layer disposed therebetween. The source and the drain are disposed on a side of the oxide channel layer and in parallel to each other. A portion of the oxide channel layer is exposed between the source and the drain. The dielectric stacked layer is disposed on the substrate and includes plural of first inorganic dielectric layers with a first refraction index and plural of second inorganic dielectric layers with a second refraction index that are stacked alternately. At least one of the first inorganic dielectric layers directly covers the source, the drain and the portion of the oxide channel layer. The first refraction index is smaller than the second refraction index. | 01-23-2014 |
20140016321 | LAMP - A lamp including a light source, a reflective unit and a light modulation module is provided. The light source provides an illuminating light, and the reflective unit reflects the illuminating light. The light modulation module is disposed between the light source and the reflective unit. In the light modulation module, a region where movable light absorbing materials exist is a light absorbing region, and a region where the movable light absorbing materials are absent is a light penetration region. By applying different electrical fields to the movable light absorbing materials, sizes and locations of the light absorbing region and the light penetration region can be changed. A portion of the illuminating light irradiating the light penetration region penetrates through the light penetration region, is transmitted to the reflective unit, being reflected by the reflective unit, and penetrates through the light penetration region again sequentially. | 01-16-2014 |
20140015767 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF AND TOUCH DISPLAY PANEL - A touch panel including a first and a second substrates, a first and a second sensing electrode layers, plural first lines, plural second lines, a conductive material layer and a shielding layer is provided. The first and the second sensing electrode layers are respectively disposed on the first and the second substrates and located in a sensing region. The first and the second lines are disposed on the first substrate and located in a periphery region. The first lines connect to the first sensing electrode layer. The optical adhesive layer encapsulates the first and the second sensing electrode layers and the first and the second lines. The optical adhesive layer has an opening. The conductive material layer is disposed inside the opening. The second lines connect to the second sensing electrode layer via the conductive material layer. The shielding layer is located above the first and the second lines. | 01-16-2014 |
20140014944 | PIXEL STRUCTURE AND FABRICATION METHOD THEREOF - A pixel structure includes a first patterned transparent conductive layer, an active layer, an insulating layer and a second patterned transparent conductive layer. The first patterned transparent conductive layer is disposed on a substrate and includes a source, a drain and a pixel electrode connected to the drain. The active layer connects the source and the drain. The insulating layer covers the source, the drain and the active layer. The second patterned transparent conductive layer is disposed on the insulating layer and includes a gate disposed above the active layer and a common electrode disposed above the pixel electrode. A fabrication method of a pixel structure is also provided. | 01-16-2014 |
20140009433 | POSITIONING METHOD FOR TOUCH DISPLAY PANEL - A positioning method for a touch display panel is provided. The touch display panel includes a touch panel and a display panel. The display panel is disposed on the touch panel, and sensing points and reference positions are set on the touch panel. In the method, pressures with different values are repeatedly applied to each reference position; under the pressures with the different values, average capacitance values of the reference positions corresponding to the sensing points are established. When an object touches the display panel, the sensing points of the touch panel correspondingly generate second capacitance values. Under a touch pressure value, the average capacitance values of the reference positions corresponding to the sensing points are selected. The second capacitance values and the average capacitance values of the reference positions corresponding to the sensing points under the touch pressure value are calculated to obtain a touch position of the object. | 01-09-2014 |
20140008655 | PIXEL STRUCTURE AND MANUFACTURING METHOD THEREOF - A pixel structure and a manufacturing method of the pixel structure are provided. The pixel structure includes a substrate, a transistor, a planarizing layer, a plurality of contact windows, and a pixel electrode layer. The transistor is disposed on the substrate and includes a gate, a source, and a drain. The planarizing layer is disposed on the gate, the source, and a portion of the drain. The contact windows penetrate the planarizing layer and expose another portion of the drain. The pixel electrode layer is disposed on the planarizing layer, on the another portion of the drain, and in the contact windows and is electrically connected to the drain. | 01-09-2014 |
20140008646 | TRANSISTOR AND MANUFACTURING METHOD THEREOF - A transistor and a manufacturing method thereof are provided. The transistor includes a first gate, a second gate disposed on one side of the first gate, a first semiconductor layer, a second semiconductor layer, an oxide layer, a first insulation layer, a second insulation layer, a source, and a drain. The first semiconductor layer is disposed between the first and second gates; the second semiconductor layer is disposed between the first semiconductor layer and the second gate. The oxide layer is disposed between the first semiconductor layer and the second semiconductor layer. The first insulation layer is disposed between the first gate and the first semiconductor layer; the second insulation layer is disposed between the second gate and the second semiconductor layer. The source and the drain are disposed between the first insulation layer and the second insulation layer and respectively disposed on opposite sides of the oxide layer. | 01-09-2014 |
20140002090 | TEST STRUCTURE OF DISPLAY PANEL AND TESTING METHOD THEREOF AND TEST STRUCTURE OF TESTED DISPLAY PANEL | 01-02-2014 |
20130327561 | BONDING STRUCTURE - A bonding structure includes a substrate, multiple first pads, multiple second pads, an insulation layer and a patterned conductive layer. The substrate has a bonding region and a predetermined-to-be-cut region. The first pads are disposed on the substrate and within the bonding region. The second pads are disposed on the substrate and within the predetermined-to-be-cut region. The insulation layer is disposed on the substrate and covers the first and second pads. The insulation layer has multiple first and second openings respectively exposing parts of the first and second pads. The patterned conductive layer is disposed on the substrate and covers the insulation layer and the parts of the first and second pads exposed out by the first and second openings, in which the patterned conductive layer is electrically connected to the first and second pads via the first and second openings. | 12-12-2013 |
20130321344 | OPTICAL TOUCH DISPLAY PANEL - An optical touch display panel includes a supporting substrate, a flexible display panel, a transparent elastomer, at least one light emitting element and at least one sensing element. The flexible display panel is disposed above the supporting substrate. The transparent elastomer is disposed between the supporting substrate and the flexible display panel. The light emitting element is disposed beside a first side of the transparent elastomer and adapted to provide a light toward the transparent elastomer. The sensing element is disposed beside a second side of the transparent elastomer. The light is transmitted through the transparent elastomer to between the supporting substrate and the flexible display panel to define a sensing space. | 12-05-2013 |
20130320329 | THIN FILM TRANSISTOR STRUCTURE AND ARRAY SUBSTRATE USING THE SAME - A thin film transistor structure is provided. The thin film transistor structure includes a first transistor having a first active layer, a second transistor having a second active layer, a first protection layer contacting the first active layer, and a second protection layer contacting the second active layer. The oxygen contents of the first and the second protection layers are controlled to affect the oxygen vacancy number of the first and the second active layers to satisfy the various electronic requirements of the first and the second transistors. | 12-05-2013 |
20130314763 | LIGHT GUIDE AND ELECTROPHORETIC DISPLAY APPARATUS SWITCHABLE BETWEEN BLACK-WHITE MODE AND COLOR MODE - Disclosed herein is a light guide, which includes a light-receiving surface and a light-emitting surface. The light-emitting surface includes a plurality of gratings spaced apart from each other by a spacing interval. Each grating has a number of prisms extending in a predetermined direction. The predetermined direction of at least one grating is different from that of another grating. These gratings cooperate together to allow light in a wavelength range to transmit the gratings, and to restrict light in another wavelength range to transmit the gratings. An electrophoretic display apparatus switchable between black-white mode and color mode is disclosed as well. | 11-28-2013 |
20130278583 | DISPLAY APPARATUS AND DISPLAY METHOD THEREOF - A display apparatus and a display method thereof are provided. The display apparatus includes a display panel, a timing controller, a data driving unit and an extending driving unit. The display includes a plurality of first pixels disposed in a frame display region and a plurality of second pixels disposed in an extending display region, where the extending display region surrounds the frame display region. The timing controller outputs a plurality of display data corresponding to a display frame. The data driving unit outputs a plurality of first signals to the first pixels according to the display data. The extending driving unit obtains a display reference data corresponding to the display frame through the data driving unit, and provides a second driving signal to the second pixels according to the display reference data so as to determine the display effect of the second pixels. | 10-24-2013 |
20130270547 | DISPLAY DEVICE, ARRAY SUBSTRATE, AND THIN FILM TRANSISTOR THEREOF - A thin film transistor is provided. In this thin film transistor, the thickness of the gate is increased. Therefore, the source and drain of this thin film transistor can be disposed on the side wall of the gate to decrease the occupied area of the thin film transistor. An array substrate and a display device using the thin film transistor are also provided. | 10-17-2013 |
20130265166 | ELECTRIC APPARATUS - An electric apparatus including a display and a process unit is provided. The display has an active area and a peripheral area. The display panel including an active device array substrate, an opposite substrate opposite to the active device array substrate and a display medium between the active device array substrate and the opposite substrate. The active device array substrate has a plurality of active devices disposed in the active area and a humidity sensor disposed in the peripheral area. The humidity sensor is a thin film transistor having a metal oxide semiconductor layer. The process unit is electrically connected to the humidity sensor. The process unit calculates a humidity value according to a sensing current from the humidity sensor. | 10-10-2013 |
20130258705 | FRONT-LIGHT MODULE AND LIGHT SOURCE MODULATION APPARATUS THEREOF - A front-light module includes at least one point light source, a light source modulation apparatus and a light guide plate. The light source modulation apparatus includes a body and a plurality of uniform illumination microstructures. The body includes a light incident surface and a light emission surface. The point light source is disposed beside the light incident surface, and the light emission surface is opposite to the light incident surface. The uniform illumination microstructures are disposed on the light emission surface of the body. Each uniform illumination microstructure is arc-shaped. | 10-03-2013 |
20130258447 | ELECTRONIC INK DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing an electronic ink display device is provided, which includes the steps of: forming an electronic ink layer on an driving substrate; forming a front protective layer and a back protective layer covering outside of the electronic ink layer and outside of the driving substrate separately, in which a dimension of the front protective layer is greater than that of the back protective layer; and filling an sealant covering and surrounding sidewall of the electronic ink layer and sidewall of the driving substrate. An electronic ink display device is also provided. | 10-03-2013 |
20130257708 | ELECTROPHORETIC DISPLAY APPARATUS SWITCHABLE BETWEEN BLACK-WHITE MODE AND COLOR MODE - Disclosed herein is an electrophoretic display apparatus switchable between a black-white mode and a color mode. The electrophoretic display apparatus includes an electrophoretic display panel, a light guide, a light source, a light-splitting element and a lens element. The light guide is disposed in front of a display area of the electrophoretic display panel. The light source is operable to emit a light, which is directed to the display area by the light guide. The light-splitting element is disposed between the light guide and the electrophoretic display panel, and is operable to split the light into a first, a second and a third beam each having a principal wavelength different from the others. The lens element is disposed between the light-splitting element and the display area, and is operable to direct the first, second and third beams to corresponding sub-pixels. | 10-03-2013 |
20130256677 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device is provided, which includes a transparent substrate, an active device array, a solar cell structure and an electrophoretic display film. The transparent substrate has an upper surface and a lower surface opposite to each other. The active device array has a plurality of pixel structures, in which the pixel structures are disposed on the upper surface of the transparent substrate. The solar cell structure is directly disposed on the lower surface of the transparent substrate. The electrophoretic display film is disposed over the transparent substrate and includes a transparent protection film, an electrode layer and a plurality of display media, in which the electrode layer is disposed between the transparent protection film and the display media and the display media are located between the electrode layer and the active device array. | 10-03-2013 |
20130256670 | THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THIN FILM TRANSISTOR - A thin film transistor is disclosed. The drain and source electrode layer of the thin film transistor is disposed on the substrate, in which the drain and source electrode layer is divided into a drain region and a source region. The semiconductor layer and the first insulating layer are disposed on the drain and source electrode layer, in which the first insulating layer has an upper limit of thickness. The second insulating layer is disposed on the semiconductor layer and the first insulating layer, in which the second insulating layer has a lower limit of thickness. The gate electrode layer is disposed on the second insulating layer. The passivation layer is disposed on the gate electrode layer, and the pixel electrode layer is disposed on the passivation layer. | 10-03-2013 |
20130256655 | ACTIVE DEVICE - An active device is disposed on a substrate. The active device includes a metal layer, a semiconductor channel layer, an insulating layer, a source and a drain. The metal layer has a metal oxide surface away from the substrate. The insulating layer is disposed between the metal layer and the semiconductor channel layer. The source and the drain are disposed at one side of the semiconductor channel layer. A portion of the semiconductor channel layer is exposed between the source and the drain. An orthogonal projection of the metal layer on the substrate at least covers an orthogonal projection of the portion of the semiconductor channel layer exposed by the source and the drain on the substrate. | 10-03-2013 |
20130242376 | DRIVING SUBSTRATE AND DISPLAY USING THE SAME - A driving substrate is disclosed. The driving substrate includes a first substrate. The first substrate has a display zone and a border zone surrounding the display zone. The border zone includes at least one active area and at least one non-active area. The active area includes a first conductive layer disposed on the first substrate. The non-active area connects the active area to form the border zone. A display using the driving substrate is also disclosed. | 09-19-2013 |
20130241816 | ELECTROPHORETIC DISPLAY APPARATUS - An electrophoretic display apparatus including a substrate and an electrophoretic display film is provided. The substrate has multiple pixel units, each the pixel unit has a transparent region and a reflective region and each the pixel unit includes a pixel electrode and a reflective layer. The pixel electrode is located in the transparent region and the reflective region. The reflective layer is disposed on the pixel electrode and located in the reflective region. The electrophoretic display film is disposed on the substrate and includes a common electrode and multiple microcapsules disposed between the common electrode and the pixel units, in which each the microcapsule includes multiple black electrophoretic particles, and the arrangement of the black electrophoretic particles is controlled by a driving voltage applied between the pixel electrode of each the pixel unit and the common electrode of the electrophoretic display film. | 09-19-2013 |
20130235447 | ELECTROPHORETIC DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - An electrophoretic display panel includes a driving substrate and an electrophoretic display substrate. The driving substrate includes a first base material, driving electrode patterns, conductive lines, and a shielding layer. The first base material has a first configuration region and a second configuration region. The driving electrode patterns are located inside the first configuration region. The conductive lines are respectively connected to the driving electrode patterns and respectively extend from the first configuration region to the second configuration region. The shielding layer shields the conductive lines and exposes the driving electrode patterns. The electrophoretic display substrate includes a second base material located opposite to the first base material, an electrode layer, and display media. The electrode layer is disposed on the second base material and between the first and second base materials. The display media are disposed between the electrode layer and the driving electrode patterns. | 09-12-2013 |
20130229329 | REPLACEABLE DISPLAY SYSTEM - A replaceable display system includes a display back plate having a driving array substrate, a front panel laminate, and a display region, a controller, and an image film. The front panel laminate is located on the driving array substrate and includes a transparent substrate and a display medium layer sandwiched between the driving array substrate and the transparent substrate. The display region is located on the front panel laminate and includes a plurality of sub-display regions. Each of the sub-display regions is displayed as a bright face or a dark face by the display medium layer. The controller is electrically connected to the display back plate to control each of the sub-display regions to display as the bright face or the dark face. The image film is detachably located on the display region and includes a light transmissive pattern portion aligned with at least one of the sub-display regions. | 09-05-2013 |
20130228779 | SEMICONDUCTOR DEVICE - A semiconductor device including a substrate, a metal layer, an insulating layer, a semiconductor layer, a drain and a source is provided. The substrate has a surface and a first cavity. The metal layer is disposed on the substrate and covers the surface and inner-wall of the first cavity to define a second cavity corresponding to the first cavity. The insulating layer covers the metal layer and inner-wall of the second cavity to define a third cavity corresponding to the second cavity. The semiconductor layer exposes out a portion of the insulating layer and covers the inner-wall of the third cavity to define a fourth cavity corresponding to the third cavity. The drain and source are disposed on the semiconductor layer and covers a portion of the semiconductor layer and a portion of the insulating layer, in which the drain and source expose out the fourth cavity. | 09-05-2013 |
20130215493 | ELECTROPHORETIC DISPLAY FILM AND ELECTROPHORETIC DISPLAY APPARATUS - An electrophoretic display film is provided, which includes a first protective film, a second protective film and a plurality of display media. The second protective film is opposite to the first protective film. The display media are disposed between the first protective film and the second protective film, in which each of the display media includes an electrophoretic liquid and a plurality of black charged particles and a plurality of charged particles with metallic gloss both distributed in the electrophoretic liquid. | 08-22-2013 |
20130214269 | THIN FILM TRANSISTOR - A thin film transistor (TFT) includes a gate, a semiconductor layer, an insulating layer, a source, a drain, and a current reduction layer. The insulating layer is disposed between the gate and the semiconductor layer. The source is connected to the semiconductor layer. The drain is connected to the semiconductor layer, and the source and the drain are separated from each other. The current reduction layer has a first part and a second part. The first part is disposed between the semiconductor layer and at least a part of the source, and the second part is disposed between the semiconductor layer and at least a part of the drain. | 08-22-2013 |
20130213783 | TOUCH-SENSING MODULE - A touch-sensing module including a plurality of first sensing strings and a plurality of second sensing strings is provided. Each of the first sensing strings includes a first strip-shaped conductive line and a plurality of first sensing pads connected to a same side of the first strip-shaped conductive line. Each of the second sensing strings includes a second strip-shaped conductive line and a plurality of second sensing pads connected to a same side of the second strip-shaped conductive line. The first strip-shaped conductive lines of the first sensing strings cross the second strip-shaped conductive lines of the second sensing strings. A crossing position of each of the first strip-shaped conductive lines and each of the second strip-shaped conductive lines forms an electrical reference node. | 08-22-2013 |
20130210201 | METHOD FOR MANUFACTURING ACTIVE ARRAY SUBSTRATE - A method for manufacturing an active array substrate is provided herein. The active array substrate can be manufactured by using only two photolithography process steps. The photolithography process step using a first photomask may be provided for forming a drain electrode, a source electrode, a data line and/or a data line connecting pad and a patterned transparent conductive layer, etc. The photolithography process step using a second photomask may be utilized for forming a gate electrode, a gate line, a gate insulating layer, a channel layer and/or a gate line connecting pad, and so forth. | 08-15-2013 |
20130208340 | ELECTROPHORETIC DISPLAY PANEL AND MANUFACTURING METHOD THEREOF AND ELECTROPHORETIC DISPLAY APPARATUS - An electrophoretic display panel including a transparent substrate, an active element array, a protective layer, plural electrophoretic display media and a transparent conductive layer is provided. The transparent substrate has an upper surface, a lower surface, plural first cavities located on the upper surface and plural second cavities located on the lower surface. The active element array is disposed on the upper surface and covers the upper surface and the first cavities. The protective layer is disposed on the upper surface and covers at least the active element array. The electrophoretic display media and the transparent conductive layer are disposed on the lower surface. The electrophoretic display media and the active element array overlap in at least a portion of their orthographic projections on the upper surface of the transparent substrate. The electrophoretic display media are located between the transparent conductive layer and the lower surface of the transparent substrate. | 08-15-2013 |
20130207113 | ELECTROSTATIC DISCHARGE PROTECTION STRUCTURE FOR AN ACTIVE ARRAY SUBSTRATE - Disclosed herein is an electrostatic discharge protection structure which includes a signal line, a thin-film transistor and a shunt wire. The thin-film transistor includes a gate electrode, a metal-oxide semiconductor layer, a source electrode and a drain electrode. The first metal-oxide semiconductor layer is disposed above the first gate electrode. The metal-oxide semiconductor layer has a channel region characterized in having a width/length ratio of less than 1. The source electrode is equipotentially connected to the gate electrode. The shunt wire is electrically connected to the drain electrode. When the signal line receives a voltage surge of greater than a predetermined magnitude, the voltage surge is shunted through the thin-film transistor to the shunt wire. | 08-15-2013 |
20130207099 | DISPLAY APPARATUS - A display apparatus includes a driving substrate and an organic light emitting diode device. The driving substrate includes a display area, a non-display area, a substrate and a transparent driving element. The transparent driving element is disposed in the non-display area to form a transparent region. The organic light emitting diode device is disposed over the driving substrate and located in the display area to form a non-transparent region. | 08-15-2013 |
20130201548 | ELECTRONIC INK DISPLAY DEVICE - An electronic-ink display device includes a cover plate, an electronic-ink display, a frame, and a water-proof glue. The electronic-ink display is disposed on the cover plate. The frame is disposed on a periphery area of the cover plate and surrounds the electronic-ink display to form a circular trench. Then, the water-proof glue fills the circular trench. | 08-08-2013 |
20130200381 | Display Panel Circuit Structure - A display panel circuit structure includes a substrate, a first metal layer, a second metal layer, and a third metal layer. The first metal layer is disposed on the substrate. The second metal layer is disposed on the first metal layer and electrically connected to the first metal layer, in which the second metal layer has a pad area and a trace area connected to the pad area. The line width of the second metal layer in the pad area is greater than the line width of the second metal layer in the trace area. The third metal layer is disposed on the second metal layer, in which the third metal layer does not overlap the second metal layer n the trace area. | 08-08-2013 |
20130200362 | THIN FILM TRANSISTOR - A thin film transistor (TFT) is provided, which includes a gate, a semiconductor layer, an insulation layer, a source and a drain. The semiconductor layer has a first end and a second end opposite to the first end. The insulation layer is disposed between the gate and the semiconductor layer. The source clamps the first end of the semiconductor layer and the drain clamps the second end of the semiconductor layer. | 08-08-2013 |
20130187900 | COURT BORDER MODULE USING DISPLAY APPARATUS - A court border module using a display apparatus is disclosed, which uses piezoelectric elements to drive the display apparatus. When a ball hits a court border, which is defined by the display apparatus, a force is applied to the piezoelectric elements which then generate power to drive the corresponding part of the display apparatus. The color of the part of the display apparatus hit by the ball is switched. Therefore the change in the color of the court border can be observed by officials and others to instantly and objectively determine whether the ball has hit the court border. | 07-25-2013 |
20130187844 | LIGHT SENSITIVE DISPLAY APPARATUS AND OPERATING METHOD THEREOF - A light sensitive display apparatus and an operating method thereof are disclosed herein. The light sensitive display apparatus includes a plurality of pixels, and the operating method of the light sensitive display apparatus includes the following steps. In a writing state, a first data voltage and a first gate voltage are provided to the pixels, and the pixels illuminated by light rays are switched to or kept in a first display state. In an erasing state, a second data voltage and a second gate voltage are provided to the pixels, and the pixels illuminated by light rays are switched to or kept in a second display state. | 07-25-2013 |
20130187149 | THIN-FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is a thin film transistor. The thin film transistor is characterized in having a source interconnect layer and a drain interconnect layer. The source electrode and the drain electrode are respectively disposed above and in contact with the source interconnect layer and the drain interconnect layer. The semiconductor layer is in contact with both the source interconnect layer and the drain interconnect layer, but is not in contact with the source electrode and the drain electrode. | 07-25-2013 |
20130181605 | DISPLAY PANEL - A display panel includes a substrate, a plurality of first signal lines, a plurality of second signal lines, a plurality of pixel units, a plurality of transmitting lines, and a driving chip. The transmitting lines are disposed on the substrate and electrically connected to the second signal lines. The driving chip includes a plurality of first pins, a plurality of second pins, and a driving circuit. The first pins are electrically connected to the first signal lines, and the second pins are electrically connected to the transmitting lines. The first pins and the second pins are disposed alternately and evenly, such that the first signal lines and the transmitting lines do not intersect each other. The transmitting lines are disposed on the substrate evenly. | 07-18-2013 |
20130176290 | PIXEL ARRAY SUBSTRATE AND DISPLAY PANEL USING THE SAME - A pixel array substrate includes a substrate, a plurality of center pixel units, a plurality of edge pixel units, at least one conductive pattern, at least one passive electrode and a driving circuit. The substrate includes a main display area and a sub-display area around the main display area. The center pixel units and the edge pixel units are arrayed in the main display area. The conductive pattern and the passive electrode are disposed in the sub-display area, and the conductive pattern is electrically connected to the driving circuit and the passive electrode. The driving circuit is electrically connected to the edge pixel units and the passive electrode and configured to output an edge pixel signal to the edge pixel units and the passive electrode. A display panel using the pixel array substrate is provided. The pixel array substrate and the display panel have an advantage of increasing display area. | 07-11-2013 |
20130176237 | DUAL SCREEN ELECTRONIC DEVICE AND OPERATION METHOD THEREOF - A dual screen electronic device is provided and includes a main body, a protection cover, and a first processor. The main body includes a housing having a front frame and a rear cover, and a first display screen located in the housing. The first display screen is exposed through the front frame to display a first display image. The protection cover is detachably fixed on the rear cover, and includes a second display screen to display a second display image. The first processor is located in the housing and electrically connected to the first and second display screens. The first and second display images are controlled by the first processor in accordance with an instruction inputted to the first and second display screens, such that the second display image is the same as or different from the first display image. | 07-11-2013 |
20130175520 | THIN FILM TRANSISTOR - A thin film transistor suitable for being disposed on a substrate is provided. The thin film transistor includes a gate electrode, an organic gate dielectric layer, a metal oxide semiconductor layer, a source electrode and a drain electrode. The gate electrode is disposed on the substrate. The organic gate dielectric layer is disposed on the substrate to cover the gate electrode. The source electrode, the drain electrode and the metal oxide semiconductor layer are disposed above the organic gate dielectric layer, and the metal oxide semiconductor layer contacts with the source electrode and the drain electrode. Because the channel layer of the thin film transistor is a layer of metal oxide semiconductor formed at a lower temperature, thus the thin film transistor can be widely applied into various display applications such as flexible display devices. | 07-11-2013 |
20130174985 | PEELING PROCESS OF SUBSTRATE - A peeling process of substrate used for peeling a first substrate and a second substrate bonded to each other is provided. The first substrate has a first bonding surface, and the second substrate has a second bonding surface and a back surface, wherein the first bonding surface and the second bonding surface are bonded to each other. In the peeling process of substrate, a light beam is incident through the back surface of the second substrate at a first incident angle and then illuminates the first bonding surface and the second bonding surface, wherein the first incident angle is smaller than 90 degree and larger than 0 degree. After that, the second substrate is peeled off from the first substrate. | 07-11-2013 |
20130168668 | THIN FILM TRANSISTOR ARRAY SUBSTRATE, METHOD FOR MANUFACTURING THE SAME, AND ANNEALING OVEN FOR PERFORMING THE SAME METHOD - A thin film transistor (TFT) array substrate includes a substrate, a gate electrode layer disposed on the substrate, an insulating layer, an oxide semiconductor layer disposed on the insulating layer, a source/drain electrode layer, an organic-acrylic photoresist layer, a passivation layer and an electrically conductive layer. The insulating layer is disposed on the gate electrode layer and the substrate. The source/drain electrode layer is disposed on the insulating layer and the oxide semiconductor layer, and a gap is formed through the source/drain electrode layer for exposing the oxide semiconductor layer therethrough. The organic-acrylic photoresist layer covers the source/drain electrode layer. The passivation layer is disposed on the substrate, the oxide semiconductor layer and the organic-acrylic photoresist layer. The electrically conductive layer is disposed on the passivation layer or the organic-acrylic photoresist layer and connected to the source/drain electrode layer or the gate electrode layer. | 07-04-2013 |
20130162693 | MULTI-GRAY LEVEL DISPLAY APPARATUS AND METHOD THEREOF - A display with at least N(P−1)+1 number of gray levels extended from P number of gray levels is disclosed. The display includes a row driver, a column driver, scan lines and data lines crossing the scan lines to form a pixel matrix with pixels. The scan lines couple with the row driver and the data lines couple with the column driver. Each pixel further includes N number of sub-pixels and M number of transistors. The N number of sub-pixels are grouped into M number of sub-pixel groups. The M number of transistors control the M number of sub-pixel groups respectively and each sub-pixel group receives one of the P number of gray levels to display corresponding gray levels. | 06-27-2013 |
20130155006 | TOUCH PANEL - A touch panel includes a substrate, plural first coils, plural second coils, plural sensing pads, plural connection lines, and a control circuit. The first coils, the second coils, the sensing pads and the connection lines are configured on the substrate. Each first coil has a first connection portion and a first coil portion connected to the first connection portion and extending along a first direction. Each second coil has a second connection portion and a second coil portion connected to the second connection portion and extending along a second direction. Plural overlapping regions are defined by areas occupied by the first coil portions and the second coil portions on the substrate, and the sensing pads are located in the overlapping regions. The connection lines are respectively connected to the sending pads. The connection lines, the first connection portions and the second connection portions are connected to the control circuit. | 06-20-2013 |
20130154015 | THREE-DIMENSION CIRCUIT STRUCTURE AND SEMICONDUCTOR DEVICE - A three-dimension circuit structure includes a substrate, a first conductive layer, a filled material and a second conductive layer. The substrate has an upper surface and a cavity located at the upper surface. The first conductive layer covers the inside walls of the cavity and protrudes out the upper surface. The filled material fills the cavity and covers the first conductive layer. The second conductive layer covers the filled material and a portion of the first conductive layer, and the first conductive layer and the second conductive layer encapsulate the filled material. The material of the filled material is different from that of the first conductive layer and the second conductive layer. | 06-20-2013 |
20130153891 | THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is a thin film transistor, which includes a metal oxide semiconductor layer, an insulating layer, a gate electrode, a source electrode and a drain electrode. The metal oxide semiconductor layer includes a channel region having at least one first region and a second region. The first region has an oxygen vacancy concentration greater than an oxygen vacancy concentration of the second region. The second region surrounds the first region. A method for manufacturing the thin film transistor is disclosed as well. | 06-20-2013 |
20130148055 | REFLECTIVE DISPLAY - A reflective display includes a display panel, a first color filter layer, a second color filter layer, a light guide plate, and a light source. The first color filter layer is disposed on the display panel; the second color filter layer is disposed on the display panel and arranged with the first color filter layer in parallel. The light source is disposed beside the side surface of the light guide plate and is capable of emitting light, in which and the light is reflected by the internal side of the first surface of the light guide plate, such that the light enters the first color filter layer, and the light is reflected by the display panel and emitted from the first color filter layer, in which optical path of the light passes through the first color filter layer and does not pass through the second color filter layer. | 06-13-2013 |
20130146868 | FIELD EFFECT TRANSISTOR - A field effect transistor (FET) is provided. The active layer of this FET is composed of at least two different amorphous metal oxide semiconductor layer stacked together. Therefore, the two opposite surfaces of the active layer can have different band gap values. | 06-13-2013 |
20130143358 | METHOD FOR MANUFACTURING OXIDE THIN FILM TRANSISTOR - A method for manufacturing an oxide thin film transistor with leakage currents less than 10 | 06-06-2013 |
20130135014 | Driver Circuit - A driver circuit is provided. The driver circuit includes a first transistor for receiving a preceding gate signal to generate a first control signal, a second transistor for pulling down the first control signal according to a second control signal, a third transistor for outputting a clock signal according to the first control signal, a fourth transistor for pulling down the clock signal according to the second control signal, a fifth transistor connected to a high voltage source for outputting the second control signal, a sixth transistor for pulling down the second control signal according to the first control signal, a seventh transistor for receiving a next gate signal to pull down the first control signal, and a capacity. The preceding gate signal charges the capacitor to generate the first control signal. | 05-30-2013 |
20130128196 | COLOR FILTER AND DISPLAY DEVICE HAVING THE SAME - Disclosed herein is a color filter, which includes a first substrate, a patterned color, resist layer, a patterned passivation layer, an adhesive layer and a second substrate. The patterned color resist layer is disposed on the first substrate. The patterned passivation layer is stacked on the patterned color resist layer. The adhesive layer covers the patterned protective layer. The second substrate is disposed on the adhesive layer. A display device having the color filter is disclosed herein as well. | 05-23-2013 |
20130127925 | READING APPARATUS AND CONTROL METHOD THEREOF - A control method for a reading apparatus, includes making a display screen of the reading apparatus display a first pattern with a first gray value according to a first display request; and making the display screen display a second pattern with a second gray value according to a second display request in a condition of the first pattern existing. The second gray value is different from the first gray value. | 05-23-2013 |
20130120333 | METHOD OF ESTABLISHING LOOK-UP TABLE FOR ELECTROPHORETIC DISPLAY AND DEVICE THEREOF - A method of establishing a look-up table for an electrophoretic display is disclosed. The method is for establishing a plurality of driving waveforms of the electrophoretic display to the look-up table. The method includes dividing the plurality of driving waveforms to a plurality of time intervals according to a plurality of voltage values of the plurality of driving waveforms. The method also includes preparing a plurality of voltage waveform records according to the plurality of the voltage values and numbers of a unit times of the corresponding time intervals, and storing the plurality of voltage waveform records into the look-up table. Therefore, the storing capacity occupied by the look-up table of the electrophoretic display may be saved. | 05-16-2013 |
20130119372 | LIGHT SENSING DEVICE - A light sensing device is disclosed. The light sensing device includes a first light sensor and a second light sensor. The first light sensor formed on a substrate includes a first metal oxide semiconductor layer for absorbing a first light having a first waveband. The second light sensor formed on the substrate includes a second metal oxide semiconductor layer and an organic light-sensitive layer on the second metal oxide semiconductor layer for absorbing a second light having a second waveband. | 05-16-2013 |
20130114127 | SUB-PIXEL STRUCTURE AND PIXEL STRUCTURE OF COLOR ELECTROPHORETIC DISPLAY - A sub-pixel structure of color electrophoretic display includes a driving unit, a display unit and a transparent electrode, wherein the display unit is disposed on the driving unit and the transparent electrode is disposed on the display unit. The display unit includes a plurality of first charged particles and a plurality of second charged particles. A color of the first charged particles is different from a color of the second charged particles. Diameters of the first charged particles are greater than diameters of the second charged particles. The first charged particles and the second charged particles have the same electrical property. The sub-pixel structure of color electrophoretic display has high light utility efficiency. | 05-09-2013 |
20130113687 | ACTIVE MATRIX ORGANIC LIGHT EMITTING DIODE PIXEL CIRCUIT AND OPERATING METHOD THEREOF - An active matrix organic light emitting diode pixel circuit includes an organic light emitting diode, a driving circuit, a switching circuit and a capacitor. In a charge state, by controlling the switching circuit, a first end of the capacitor is electrically coupled to a signal input terminal, and a second end of the capacitor is electrically coupled to a first power source. In a compensation state, by controlling the switching circuit, the first end of the capacitor is electrically coupled to the signal input terminal, and the second end of the capacitor is electrically coupled to an anode of the organic light emitting diode. In an emission state, by controlling the switching circuit, the first end of the capacitor is electrically coupled to the driving circuit, and the second end of the capacitor is electrically coupled to the driving circuit and the anode of the organic light emitting diode. | 05-09-2013 |
20130105790 | THIN FILM TRANSISTOR SUBSTRATE AND METHOD FABRICATING THE SAME | 05-02-2013 |
20130105789 | ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME | 05-02-2013 |
20130099220 | Transistor Structure - A transistor structure comprises a patterned N-type transparent oxide semiconductor formed over a substrate as a base, and a patterned p-type organic polymer semiconductor formed on the patterned N-type transparent oxide semiconductor comprising a first portion and a second portion so that the patterned N-type transparent oxide semiconductor and the first portion and the second portion of the patterned p-type organic polymer semiconductor form heterojunctions therebetween respectively, wherein the first portion of the patterned p-type organic polymer semiconductor is used as an emitter, and the second portion of the patterned p-type organic polymer semiconductor is used as a collector. | 04-25-2013 |
20130087781 | METAL OXIDE THIN FILM TRANSISTOR - A metal oxide thin film transistor (TFT) includes a gate electrode, a gate insulating layer, a metal oxide active layer, a source electrode, and a drain electrode. The gate electrode is formed on a substrate. The gate insulating layer is formed on the substrate and covers the gate electrode. The metal oxide active layer is formed on the gate insulating layer. The drain electrode and the source electrode are formed on two opposite ends of the metal oxide active layer in a spaced-apart manner, in which at least one of the orthographic projection of the source electrode and the orthographic projection of the drain to electrode on the substrate does not overlap the gate electrode. | 04-11-2013 |
20130082995 | DISPLAY, SOURCE DRIVER OF DISPLAY AND DRIVING METHOD THEREOF - Disclosed herein are a display, a source driver of the display and a method for driving the same. The source driver includes a determining unit. The determining unit is configured to temporarily store data in response to a latch enable signal, to output a plurality of digital data values continuous in time sequence, and to sequentially convert a first digital data value and a second digital data value of the digital data values to a first analog signal and a second analog signal, respectively, and to compare the first digital data value with the second digital data value. When the first digital data value and the second digital data value are the same, the determining unit continuously outputs the first analog signal and the second analog signal. | 04-04-2013 |
20130082942 | ELECTRONIC PAPER DISPLAY - An electronic paper display is provided. The electronic paper display includes a first substrate including a thin film transistor layer, and a front panel laminate. The thin film transistor layer is located on a surface of the first substrate. The front panel laminate is located on the thin film transistor layer. The front panel laminate includes a second substrate, a common electrode layer, an electronic ink layer, and a touch sensing electrode layer. The second substrate includes a first surface facing the first substrate, and a second surface facing away from the first surface. The common electrode layer is located on the first surface of the second substrate. The electronic ink layer is located between the thin film transistor layer and the common electrode layer. The touch sensing electrode layer is directly formed on the second surface of the second substrate. | 04-04-2013 |
20130082681 | DETECTING CIRCUIT - A detecting circuit for detecting a feedback voltage of a pixel circuit includes a converting unit, a control chip and a display unit. The converting unit electrically connected to the pixel circuit performs an analog-to-digital operation to convert the feedback voltage into a digital signal. The control chip electrically connected to the converting unit controls the converting unit to perform the analog-to-digital operation and processes the digital signal to generate a display information. The display unit electrically connected to the control chip displays a voltage value of the feedback voltage according to the display information. | 04-04-2013 |
20130076601 | DRIVING SUBSTRATE AND DISPLAY APPARATUS USING THE SAME - An exemplary driving substrate includes a substrate, a plurality of first and second signal transmission lines, a first insulation layer and a plurality of switch devices. The first signal transmission lines are disposed on the substrate, and each includes a first line segment(s) and a first connecting segment(s). The first insulation layer is disposed between each first line segment and each first connecting segment, and each first connecting segment is electrically connected to the adjacent first line segment(s) through an opening(s) of the first insulation layer. The second signal transmission lines are disposed on the substrate and electrically insulated and intersected with the first signal transmission lines thereby defining a plurality of pixel regions on the substrate. The switch devices are respectively disposed in the pixel regions, and each is electrically connected to corresponding first and second signal transmission lines. The driving substrate has better reliability. | 03-28-2013 |
20130076249 | ELECTRONIC DEVICE - An electronic device including a body and a light source module is provided. The body has a side on which an unstable display is disposed and another side on which a bi-stable display is disposed. The light source module is arranged inside the body and configured to provide a light source to one or none of the unstable display and the bi-stable display. | 03-28-2013 |
20130075728 | ARRAY SUBSTRATE AND DISPLAY APPARATUS USING THE SAME - An array substrate includes scan lines and data lines defining pixel structures. Each pixel structure includes a first TFT, a second TFT and a pixel electrode. The first TFT includes a first gate connected to the scan line, a first source disposed above and partially overlapping the first gate, and a first drain disposed above the first gate. An end of the first source is connected to the data line. The first drain has at least one first concavity in which the first source is disposed partially. The second TFT includes a second gate connected to the scan line, a second source disposed above the second gate and connected to the first drain, and a second drain disposed above and partially overlapping the second gate. The second source has at least one second concavity in which the second drain is disposed partially. The pixel electrode connects to the second drain. | 03-28-2013 |
20130072079 | MANUFACTURING METHOD FOR FLEXIBLE DISPLAY APPARATUS - A manufacturing method for a flexible display apparatus is provided. A rigid substrate is provided. A flexible substrate having a supporting portion and a cutting portion surrounding the supporting portion is provided. A first adhesive material is formed between the rigid substrate and the cutting portion of the flexible substrate, so that the flexible substrate is adhered onto the rigid substrate by the first adhesive material. The first adhesive material does not locate on the supporting portion of the flexible substrate. At least a display unit is formed on the supporting portion of the flexible substrate. The supporting portion and the cutting portion of the flexible substrate are separated so as to separate the rigid substrate and the flexible substrate, wherein the flexible substrate and the display unit thereon form a flexible display apparatus. In the method, the flexible substrate and the rigid substrate can be easily separated. | 03-21-2013 |
20130057464 | ELECTRO-PHORETIC DISPLAY DEVICE AND FABRICATING METHOD THEREOF - An electro-phoretic display device includes a first substrate, an active elements array, a driving circuit, a conductive flexible board, an electro-phoretic layer and a second substrate. The first substrate has a first surface defining a display area and a circuit area, and a second surface. The active elements array is disposed within the display area and the driving circuit is disposed within the circuit area and electrically connected to the active elements array. The conductive flexible board is partially disposed at the first substrate and electrically connected to the driving circuit. The electro-phoretic layer and the second substrate are sequentially disposed on the active elements array and the driving circuit. A fabricating method of electro-phoretic display device is also disclosed. | 03-07-2013 |
20130045567 | METHODS FOR MANUFACTURING A METAL-OXIDE THIN FILM TRANSISTOR - Disclosed herein is a method for manufacturing a metal-oxide thin film transistor. The method includes the steps of: (a1) forming a gate electrode on a substrate; (a2) forming a gate insulating layer over the gate electrode; (a3) forming a metal-oxide semiconductor layer having a channel region on the gate insulating layer; (a4) forming a source electrode and a drain electrode on the metal-oxide semiconductor layer, wherein the source electrode is spaced apart from the drain electrode by a gap exposing the channel region; (a5) forming a mobility-enhancing layer on the channel region, wherein the mobility-enhancing layer is not in contact with the source electrode and the drain electrode; and (a6) annealing the metal-oxide semiconductor layer and the mobility-enhancing layer in an environment at a temperature of about 200° C. to 350° C. | 02-21-2013 |
20130044364 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes a driving layer and a displaying layer disposed on the driving layer. The driving layer includes a lower substrate, a number of driving segments and a number of conducting wires. The lower substrate has a first surface. The driving segments and the conducting wires both are disposed on the first surface of the lower substrate. The driving segments are connected to the conducting wires in a one-to-one manner. A line width of each of the conducting wires is less than 50 microns. The display device has a high resolution. A method for manufacturing the display device is also provided. | 02-21-2013 |
20130043474 | ACTIVE ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is a method for manufacturing an active array substrate. The method includes the steps of: forming a first patterned metal layer on a substrate; sequentially forming a semiconductor layer, an insulating layer and a second metal layer to cover the first patterned metal layer; forming a patterned photoresist layer on the second metal layer; patterning the second metal layer, the insulating layer and the semiconductor layer to form a second patterned metal layer, a patterned insulating layer and a patterned semiconductor layer, and removing a portion of the patterned photoresist layer; heating the remained portion of the patterned photoresist layer such that the remained portion is fluidized and transformed into a protective layer; and forming a pixel electrode. | 02-21-2013 |
20130027853 | ELECTRONIC DEVICE WITH IMPACT-RESISTANT DISPLAY MODULE - An electronic device includes a shell, a display module and a cushion. The shell includes a bottom plate and a top plate. The top plate defines an opening The display module is disposed in the shell and faces the opening The display module is spaced from the bottom plate of the shell. The cushion is disposed between the display module and the bottom plate of the shell, and brought into contact with the display module for cushioning the display module when an external force is applied to the display module. | 01-31-2013 |
20130003207 | COLOR FILTER AND COLOR DISPLAY DEVICE USING SAME - A color filter includes a substrate and a plurality of pixel units. The substrate defines a plurality of pixel areas. Each pixel area has a plurality of first sub-pixel areas, and each first sub-pixel area has a first area and a second area. The pixel units are formed on the substrate corresponding to the pixel areas. Each pixel unit is disposed in a corresponding pixel area and includes a plurality of color subtractive filter films and a plurality of color additive filter films. The color subtractive filter films are disposed in the first areas of the first sub-pixel areas of the corresponding pixel area, and the color additive filter films are disposed in the second areas of the first sub-pixel areas of the corresponding pixel area. A color display device with the color filter is also disclosed. | 01-03-2013 |
20130003165 | Color Electrophoretic Display - A color electrophoretic display includes a substrate, a segment electrode circuit layer, a transparent electrode layer, an electrophoretic display medium layer, and a colored polymer film. The segment electrode circuit layer is disposed on the substrate and is configured to display a letter and/or a pattern. The transparent electrode layer is disposed opposing the segment electrode circuit layer, and the electrophoretic display medium layer is disposed between the segment electrode circuit layer and the transparent electrode layer. The electrophoretic display medium layer is controlled by an electric field that is produced and varied by the segment electrode circuit layer and the transparent electrode layer to change brightness. The color polymer film is disposed on the transparent electrode layer to produce color. The colored polymer film includes a polymer layer and pigment particles distributed in the polymer layer. | 01-03-2013 |
20130002530 | SEGMENT DISPLAY DEVICE - A segment display device includes an e-paper segmented display module, a first circuit module and a second circuit module. The e-paper segmented display module includes a group of first contacts. The first circuit module includes a first substrate, a first control unit, a group of second contacts and a group of third contacts. The first control unit, the second contacts and the third contacts are disposed on the first substrate. The first control unit is electrically connected with the second contacts and the third contacts. The second contacts are electrically connected to the first contacts. The second circuit module includes a second substrate, a second control unit and a group of fourth contacts. The second control unit and the fourth contact group are electrically connected with each other and both are disposed on the second substrate. The fourth contacts are electrically connected to the third contacts. | 01-03-2013 |
20120320446 | COLOR ELECTRONIC PAPER APPARATUS, DISPLAY AND MANUFACTURING METHOD THEREOF - A color electronic paper apparatus includes a display layer, a color resist layer, an anti-ultraviolet layer and a protective sheet. The color resist layer is disposed on the display layer. The anti-ultraviolet layer is disposed on the color resist layer. The protective sheet is disposed on the anti-ultraviolet layer. A manufacturing method of the color electronic paper apparatus and a color electronic paper display are provided herein. | 12-20-2012 |
20120314275 | ELECTROPHORESIS DISPLAY APPARATUS - An electrophoresis display apparatus includes an electronic-ink (E-Ink) layer, a passive-matrix substrate, and a conducting layer. The passive-matrix substrate has an electrode surface, and the electrode surface has a plurality of electrodes. The conducting layer has a predetermined shape. The conducting layer is disposed between the electronic-ink layer and the electrode surface of the passive-matrix substrate and is used for transmitting the signals on the electrodes contacting the conducting layer to the electronic-ink layer, so that the electronic-ink layer can display an image with the predetermined shape. | 12-13-2012 |
20120313084 | METAL OXIDE SEMICONDUCTOR TRANSISTOR - A metal oxide semiconductor transistor includes a gate, a metal oxide active layer, a gate insulating layer, a source, and a drain. The metal oxide active layer has a first surface and a second surface, and the first surface faces to the gate. The gate insulating layer is disposed between the gate and the metal oxide active layer. The source and the drain are respectively connected to the metal oxide active layer. The second surface defines a mobility enhancing region between the source and the drain. An oxygen content of the metal oxide active layer in the mobility enhancing region is less than an oxygen content of the metal oxide active layer in the region outside the mobility enhancing region. The metal oxide semiconductor transistor has high carrier mobility. | 12-13-2012 |
20120307343 | ELECTROPHORETIC DISPLAY - Disclosed herein is an electrophoretic display, which includes a first substrate, an electrophoretic layer, a second substrate, a stress controlling layer and an adhesive layer. The first substrate includes at least one active device and at least one pixel electrode electrically coupled to the active device. The electrophoretic layer is disposed above the pixel electrode. The second substrate is disposed above the electrophoretic layer. The stress controlling layer is formed on a lower surface of the second substrate. The adhesive layer is disposed between the surface stressed layer and the electrophoretic layer, and is in contact with the stress controlling layer and the electrophoretic layer. The adhesion between the stress controlling layer and the adhesive layer is about 75% to 125% of the adhesion between the electrophoretic layer and the adhesive layer. | 12-06-2012 |
20120300419 | INTERMEDIATE STRUCTURE, METHOD AND SUBSTRATE FOR FABRICATING FLEXIBLE DISPLAY DEVICE - An intermediate structure of a flexible display device includes a substrate, an etching layer, a flexible substrate, and a display module. A trench structure is formed in a surface of the substrate. The etching layer is formed on the surface and covers the substrate. The flexible substrate is disposed on the etching layer. The flexible substrate and the substrate are spaced apart from each other by the etching layer. The display module is disposed on the flexible substrate. The flexible substrate can be peeled from the substrate without applying a mechanical force and thus the yield is improved, and the process time and the fabricating cost are also reduced. In addition, the present invention also provides a substrate for fabricating a flexible display device and a method for fabricating a flexible display device. | 11-29-2012 |
20120293882 | COLOR FILTER, APPLICATIONS THEREOF AND METHOD FOR MANUFACTURING THE SAME - A color filter suitable for being disposed on a substrate is provided. The color filter includes a plurality of pixel units separately disposed on the substrate so as to define a plurality of blank regions thereon. | 11-22-2012 |
20120281159 | DISPLAY DEVICE AND DISPLAY ARRAY SUBSTRATE - A display device comprises a display array substrate, a common substrate and a display layer. The display array substrate comprises a display region and a periphery region, and at least one chip-bonding area is formed in the periphery region. The display layer is sandwiched between the display array substrate and the common-electrode substrate. A conductive loop is disposed in the periphery region of the display array substrate, and passes through the chip-bonding area. | 11-08-2012 |
20120280919 | Electronic Paper Display Apparatus with Touch Control Function - An electronic paper display apparatus is disclosed. The electronic paper display apparatus includes an electronic paper device and a color filter. The color filter is disposed on the electronic paper device. The color filter includes a filter substrate, a color resist layer and a sensing electrode of a touch panel. The sensing electrode and the color resist layer are formed on different surfaces of the filter substrate, or on the same surface of the filter substrate. | 11-08-2012 |
20120268820 | COLOR FILTER FILM, GRATING STRUCTURE AND DISPLAY MODULE - A grating structure used on a color filter film of a display module is disclosed in the invention. The grating structure is disposed on a substrate of the color filter film. The grating structure includes a plurality of optical transparent layers and an optical reflection layer. The optical transparent layers are stacked on the substrate in sequence. Each of the optical transparent layers has a different refractive index from the other optical transparent layers. The optical reflection layer is disposed over the optical transparent layers. | 10-25-2012 |
20120268698 | COLOR FILTER SUBSTRATE AND DISPLAY DEVICE - A color filter substrate includes a transparent substrate, a number of color photoresists disposed on the transparent substrate and a high-reflecting region disposed on the transparent substrate. The high-reflecting region at least includes a first region for separating the color photoresists. The high-reflecting region either is filled with a reflecting material or is empty. A display device is also provided. The display device includes a lower substrate, a driving circuit layer disposed on the lower substrate, a display layer disposed on the driving circuit layer and the above-mentioned color filter substrate disposed on the display layer. The color filter substrate can be assembled to the display device to increase the total light intensity of light reflection, thereby improving the display quality of the display device. | 10-25-2012 |
20120261656 | PHOTODIODE, LIGHT SENSOR DEVICE AND FABRICATING METHOD THEREOF - A photodiode, a light sensor and a fabricating method thereof are disclosed. An n-type semiconductor layer and an intrinsic semiconductor layer of the photodiode respectively comprise n-type amorphous indium gallium zinc oxide (IGZO) and intrinsic IGZO. The oxygen content of the intrinsic amorphous IGZO is greater than the oxygen content of the n-type amorphous IGZO. A light sensor comprise the photodiode is also disclosed. | 10-18-2012 |
20120256316 | SIGNAL LINE STRUCTURE OF A FLAT DISPLAY - The signal line structure is disposed between a gate driver and a display area of a display. The signal line structure includes a substrate, first metal layers, a first insulation layer, second metal layers, a second insulation layer and third metal layers. The first metal layers are arranged in parallel and toward a first direction in the substrate. The first insulation layer is disposed in the substrate and covers the first metal layers. The second metal layers are disposed on the positions of the first insulation layer corresponding to the first metal layers. The second insulation layer is disposed on the second metal layers and the first insulation layer. The third metal layers are disposed on the positions corresponding to the second metal layers in the second insulation layer. The distance between two adjacent second metal layers is less than that between two adjacent first metal layers. | 10-11-2012 |
20120249469 | Display with touch control function - The present invention provides a display with touch control function. The display includes a touch panel module, a display module and a FPC board. The touch panel module includes a touch panel controller and a touch panel. The display module includes a display driver and a display panel. The touch panel is joined with the display panel. The FPC board couples with the display panel. The touch panel controller and the display driver are disposed on the FPC board. | 10-04-2012 |
20120236522 | Method for forming an EMI shielding layer on an Electronic System - The present invention provides a method for forming a shielding layer on a sensor board. The sensor board includes an antenna array element. The sensor board is integrated into an electronic system. The method includes using a physical vapor deposition process to form the shielding layer on the sensor board to shield the sensor board from an electromagnetic signal generated by the electronic system, wherein the shielding layer and the antenna array element are respectively formed on two opposite surfaces of the sensor board. | 09-20-2012 |
20120235235 | THIN FILM TRANSISTOR STRUCTURE AND DISPLAY DEVICE HAVING SAME - A thin film transistor structure includes a substrate, a gate layer, a gate insulator layer, a first semiconductor island, a second semiconductor island and a source and drain layer. The gate layer is disposed on the substrate, and includes a first gate electrode and a second electrode electrically connected to the first gate electrode. The gate insulator layer is disposed on the substrate and covers the first and second gate electrodes. The first semiconductor island is disposed on the gate insulator layer and corresponding to the first gate electrode. The second semiconductor island is disposed on the gate insulator layer and corresponding to the second electrode. The source and drain layer is disposed on the gate insulator layer and next to the first semiconductor island and the second semiconductor island. A display device using the above thin film transistor structure is also provided. | 09-20-2012 |
20120229741 | COLOR DISPLAY APPARATUS - A color display apparatus includes a driving substrate, a color filter, a display layer and an adhesive. The color filter is faced to the driving substrate. The color filter includes a substrate and a filter layer, and the filter layer is disposed on the substrate and faced to the driving substrate. The display layer is disposed between the driving substrate and the color filter, and an orthographic projection of the display layer projecting on the filter layer is surrounded by a periphery boundary of the filter layer. An interval is existed between the orthographic projection of the display layer projecting on the filter layer and the periphery boundary of the filter layer. Besides, the adhesive is disposed between the display layer and the color filter, and a periphery boundary of the display layer and the periphery boundary of the filter layer are surrounded by the adhesive. | 09-13-2012 |
20120229740 | COLOR DISPLAY APPARATUS AND COLOR FILTER THEREOF - A color display apparatus includes a driving substrate, a color filter and a display layer. The driving substrate has a display region and a non-display region, and at least a first alignment mark is disposed on the non-display region. The color filter is opposite to the driving substrate. The color filter includes a substrate and a filter layer disposed on the substrate. The substrate has a first region corresponding to the display region and a second region corresponding to the non-display region. The filter layer includes color filter patterns located on the first region and at least a second alignment mark located on the second region and corresponding to the first alignment mark. The display layer is disposed between the driving substrate and the color filter. Alignment precision between the driving substrate and the color filter of the color display apparatus is improved. Besides, a color filter is also provided. | 09-13-2012 |
20120229390 | MOBILE DEVICE - A mobile device is disclosed. The mobile device includes a display, a touch panel, and a buffer structure. The touch panel is disposed on one side of the display. The buffer structure has a gas fluid layer and is disposed between the display and the touch panel. | 09-13-2012 |
20120224393 | LED BACKLIGHT MODULE - Disclosed herein is an LED backlight module, which includes a metallic plate, a metallic sidewall, a connecting portion, a light guide and an LED ribbon. The metallic sidewall is substantially perpendicular to the metallic plate and located beside a side edge of the metallic plate. The metallic side-plate has a lower edge extending downwards to a position beneath a lower surface of the metallic plate. The connecting portion extends in a direction towards the side edge of the metallic plate from the lower edge of the metallic sidewall, and is further connected to the side edge of the metallic plate. The light guide is disposed above the metallic plate, and the LED ribbon for emitting a light into the light guide is disposed on the metallic sidewall. | 09-06-2012 |
20120223655 | COMPENSATION METHOD AND APPARATUS FOR LIGHT EMITTING DIODE CIRCUIT - A compensation method for a light emitting diode (LED) circuit including a first transistor, a second transistor, a capacitor, and a LED is illustrated. A first end as a control end of the first transistor is connected to one end of the second transistor and the capacitor, and a second end of the first transistor is connected to the LED. A width to length (W/L) ratio of the second transistor is less than one. An initial control voltage is applied to a control end of the second transistor, and the current output voltage of the LED is correspondingly measured. If a difference between the current output voltage and an initial output voltage exceeds a predetermined value, a compensation voltage, which is a summation of the initial control voltage and the difference, is applied to the control end of the second transistor. | 09-06-2012 |
20120223443 | ACTIVE MATRIX SUBSTRATE - An active matrix substrate includes a substrate and an insulating unit arranged on the substrate. The substrate includes a display region and a periphery circuit region beside the display region. The periphery circuit region has at least a chip connecting unit. Each chip connecting unit includes a number of connecting elements. Each of the connecting elements includes a conducting pad and a wire electrically connected to the conducting pad. The conducting pads of the connecting elements are arranged in at least two rows. The insulating unit has a number of contact holes corresponding to the conducting pads so that each of the conducting pads is entirely exposed by the corresponding contact hole. The active matrix substrate is applied to a display device to increase reliability of the display device and improve the quality of the display device. | 09-06-2012 |
20120221876 | LOW POWER CONSUMPTION CIRCUIT AND METHOD FOR REDUCING POWER CONSUMPTION - An exemplary low power consumption circuit includes a microprocessor, a power supply switch module and a main circuit module. The microprocessor is capable of outputting a power control signal and changing a pulse characteristic of the power control signal when the microprocessor switches from a first working mode to a second working mode. The power supply switch module is capable of outputting a power supply signal. The power supply switch module is electrically coupled to the microprocessor to receive the power control signal and thereby modulates a duty cycle of the power supply signal according to a change of the pulse characteristic of the power control signal. The main circuit module is electrically coupled to the power supply switch module to receive the power supply signal and operative with energy provided by the power supply signal. Moreover, a method for reducing power consumption is also provided. | 08-30-2012 |
20120218232 | ACTIVE STYLUS - An active stylus includes a tube, a signal emitting module, a power module, an electrical energy storage device, a movable element and an energy transformation module. The signal emitting module, the power module, the electrical energy storage device and the energy transformation module are disposed in the tube. The power module is electrically coupled to the signal emitting module, and the electrical energy storage device and the energy transformation module are electrically coupled to the power module. The movable element is movable in the tube. The energy transformation module is configured for transforming energy generated by motion of the movable element into electrical energy. The electrical energy transformed by the energy transformation module is stored in the electrical energy storage device by the power module. | 08-30-2012 |
20120212888 | DISPLAY APPARATUS - A display apparatus includes a display panel, at least one anisotropic conductive adhesive and at least one chip. The display panel has a peripheral circuit region, and the anisotropic conductive adhesive is adhered in the peripheral circuit region. The chip is disposed on the anisotropic conductive adhesive, and the chip has an electric coupling region on a surface facing the anisotropic conductive adhesive. The electric coupling region is equipped with a plurality of electric coupling parts, and the electric coupling parts are electrically coupled to the peripheral circuit region by the anisotropic conductive adhesive. An interval is existed between a boundary of the electric coupling region and a boundary of the chip, and the electric coupling region is located in a bonding region of the anisotropic conductive adhesive. The bonding region of the anisotropic conductive adhesive is located in the boundary of the chip. The display apparatus has better reliability. | 08-23-2012 |
20120212797 | FLEXIBLE DISPLAY DEVICE - A flexible display device includes a flexible substrate, a display layer, a first protecting layer, and at least one light-pervious polymer film. The display layer is arranged on the flexible substrate. The first protecting layer is arranged on the display layer. The at least one light-pervious polymer film is arranged on the first protecting layer. The light-pervious polymer film is used to protect the flexible display device from being damaged by external force. | 08-23-2012 |
20120194898 | E-PAPER DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes a substrate, a driving circuit, an E-paper display layer and a protective coating layer. The driving circuit is arranged on the substrate. The E-paper display layer is disposed on and driven by the driving circuit. The protective coating layer is coated on and in contact with the E-paper display layer. The protective coating layer can provide protection and better optical performance, and it is advantageous to the manufacturing method to overcome the problems such as bubbles and low light transmittance occurring in the conventional manufacturing method. | 08-02-2012 |
20120194467 | TOUCH PANEL AND METHOD OF MANUFACTURING THE SAME - A touch panel and a method of manufacturing the same are disclosed in this invention. The touch panel is with a central induction region and a peripheral region, and at least includes an upper electrode portion having an upper substrate located in the central induction region and the peripheral region, a first signal induction layer located in the central induction region and the peripheral region, and a first circuit layer located in the peripheral region only. The first signal induction layer covers the upper substrate in the central induction region. The first circuit layer is sandwiched between the upper substrate and the first signal induction layer, and electrically connected the first signal induction layer. | 08-02-2012 |
20120188627 | SMART WINDOW AND SMART WINDOW SYSTEM USING THE SAME - A smart window includes a windowpane, at least one sensor and a wireless signal transceiver. The sensor is disposed on the windowpane and configured for detecting an environmental factor and accordingly outputting a sensing signal. The wireless signal transceiver is disposed on the windowpane and electrically connected to the sensor. The wireless signal transceiver is configured for further transmitting the sensing signal from the sensor. A smart window system includes the aforementioned smart window. The smart window and the smart window system adopt wireless communication manner to transmit the sensing signals, and thereby the smart window system has an overall modulation to an environmental factor. | 07-26-2012 |
20120182327 | DRIVING METHOD OF DISPLAY PANEL AND ELECTROPHORESIS DISPLAY APPARATUS USING THE SAME METHOD - A driving method of a display panel includes the following steps: driving the display panel to display a first image frame and providing display data of a second image frame, and each of the first and the second image frames has a first area and a second area for respectively displaying two different display contents, the positions of the two corresponding first areas overlap, and the positions of the two corresponding second areas overlap; determining whether display content differences exist between the two corresponding first areas, and determining whether display content differences exist between the two corresponding second areas, and driving the area where display content differences exist in the two areas of the first image frame to display a first-color display content when display content differences exist between the two corresponding first areas or the two corresponding second areas. Furthermore, a corresponding electrophoresis display apparatus is also provided. | 07-19-2012 |
20120182270 | ACTIVE ELECTROMAGNETIC PEN - An active electromagnetic pen includes a pen body, a pen tip, a pressure detecting module and a power supply module. The pen body has an opening on one end thereof. The pen tip is disposed at the opening of the pen body. The pen tip has a tip end and a plane end opposite to the tip end. The tip end is disposed in the pen body, and the plane end is extended to outside of the pen body through the opening. The pressure detecting module is disposed in the pen body and includes a plurality of pressure detecting elements. The pressure detecting elements are respectively connected to different locations of the plane end of the pen tip. The power supply module is disposed in the pen body and is electrically connected to the pressure detecting module. | 07-19-2012 |
20120175607 | THIN FILM TRANSISTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A thin film transistor (TFT) structure includes a substrate, a gate, a gate dielectric layer, a source, a drain and a transparent material layer. The gate is formed on the substrate; the gate dielectric layer is formed on the gate; the source and the drain are formed on the gate dielectric layer; and the transparent material layer has a channel area and an insulating area, and the channel area is disposed on a portion of the gate dielectric layer located between the source and the drain; and the insulating area is disposed on the channel area, the source and the drain. | 07-12-2012 |
20120169645 | SENSING STRUCTURE AND DISPLAYER COMPRISING THE SAME - A sensing structure and a displayer comprising the same are provided. The displayer further comprises a substrate and a panel disposed opposite to the substrate. The sensing structure comprises a plurality of sensing elements, a conductive assembly, and a process module. Each of the sensing elements has a position data corresponding to the panel. Every several adjacent ones of the sensing elements form a plurality of sensing areas. The process module is electrically connected to the sensing elements via the conductive assembly. Each of the sensing elements generates a touch voltage in response to a touch on the sensing areas. The process module receives the touch voltages, and calculates a touch position of the one touch corresponding to the panel according to the position data and the touch voltages. | 07-05-2012 |
20120168428 | ELECTROTHERMAL TRANSFER DEVICE AND ELECTROTHERMAL TRANSFER METHOD - An electrothermal transfer device includes a substrate, a plurality of electrothermal components and a heating circuit. The electrothermal components are disposed on a surface of the substrate and arranged in a pattern. The heating circuit is electrically connected to the electrothermal components. In an electrothermal transfer method, at first, a transfer substrate is disposed on a workpiece substrate. Then, the electrothermal transfer device is disposed on the transfer substrate so that the electrothermal components contact with the transfer substrate. Thereafter, the heating circuit is used to heat the electrothermal transfer components so that the transfer substrate is heated to be transferred to the workpiece substrate. The electrothermal transfer device and the electrothermal transfer method can reduce cost. | 07-05-2012 |
20120162583 | FLEXIBLE ELECTRONIC PAPER DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF - A flexible electronic paper display apparatus includes a drive substrate and a display layer. The display layer is disposed on the drive substrate. The drive substrate includes a plastic substrate, a stainless steel layer, an insulation layer and a circuit unit. The stainless steel layer is disposed on the plastic substrate, the insulation layer is disposed on the stainless steel layer, and the circuit unit is disposed on the insulation layer. Production yield of the flexible electronic paper display apparatus can be increased. Additionally, a manufacturing method for the flexible electronic paper display apparatus is also provided. | 06-28-2012 |
20120159374 | OPERATION METHOD OF E-BOOK - An exemplary operation method is applied to an architecture having a function of reading. The architecture is selected from one of a hardware architecture and a software architecture. In particular, the operation method includes the step of: adding a function of reading assistance to the architecture by applying at least a reading assistance command to the architecture. The at least a reading assistance command for example includes a TAB command for tab labeling in the architecture. | 06-21-2012 |
20120154344 | ELECTRIC PAPER DISPLAY APPARATUS - An electric paper display apparatus includes a substrate, a display layer and a protective layer. The display layer is disposed on the substrate. The protective layer is disposed on the display layer. The protective layer includes a bottom surface facing to the display layer and a plurality of color filter patterns disposed on the bottom surface. It does not need to dispose a color filter substrate on the protective layer of the electric paper display apparatus, so a cost and a thickness of the electric paper display apparatus can be reduced. | 06-21-2012 |
20120153283 | Display Panel Structure of Electrophoretic Display Device, Display Device Structure, and Method for Manufacturing Display Device - A display device structure includes a substrate having an active region and an electrostatic protection circuit region. The first metal layer, the first insulation layer, and an amorphous silicon layer are sequentially disposed on the substrate; the first opening passes through the first insulation layer for exposing part of the first metal layer. The second metal layer, disposed on the first insulation layer or the amorphous silicon layer, fills the first opening to contact with the first metal layer; the second insulation layer and the flat layer are disposed on the second metal layer, in which the region of the flat layer is overlapped the electrostatic protection circuit region. The second opening passes through the second insulation layer and the flat layer for exposing the second metal layer, in which the third metal layer fills the second opening to contact with the second metal layer. | 06-21-2012 |
20120138919 | PHOTO SENSING UNIT AND PHOTO SENSOR THEREOF - A photo sensing unit used in a photo sensor includes a photo sensing transistor, a storage capacitor, and a switching transistor. The photo sensing transistor receives a light signal for inducing a photo current correspondingly, and a source and a gate thereof are respectively coupled to the first signal source and the second signal source. The storage capacitor stores electrical charges induced by the light signal, one terminal thereof is coupled to drain of the photo sensing transistor, and another terminal thereof is coupled to a low voltage. The switching transistor is controlled by the second signal source for outputting a readout signal from the storage capacitor to the signal readout line. The threshold voltage of the photo transistor is higher than that of the switching transistor. | 06-07-2012 |
20120135588 | METHOD FOR PATTERNING A METAL LAYER AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICES BY USING THE SAME - Disclosed herein is a method for patterning a metal layer, which includes the following steps. A substrate having a metal layer thereon is provided. A patterned conductive polymeric layer is formed on the metal layer, wherein a portion of the metal layer is exposed by the patterned conductive polymeric layer. The substrate having the patterned conductive polymer layer is disposed in an electrolytic cell, so that the exposed portion of the metal layer is immersed in the electrolytic solution of the electrolytic cell. The anode of the electrolytic cell is electrically coupled to the patterned conductive polymeric layer, while the cathode of the electrolytic cell is immersed in the electrolytic solution. Sequentially, an electrical potential is applied across the anode and the cathode to perform an electrolysis reaction so that the exposed portion of the metal layer is dissolved in the electrolytic solution. | 05-31-2012 |
20120116874 | ELECTRONIC ADVERTISING METHOD AND ELECTRONIC APPARATUS - An electronic advertising method and an electronic apparatus are provided. In the method, an amount of a factor of the electronic apparatus in executing a task function is accumulated and whether the amount is over a preset value of the electronic apparatus or not is determined. An advertisement is displayed if the amount is over the preset value and a question according to content of the advertisement is displayed. An operation responding an answer to the question is detected and a non-advertisement function is executed if the operation is detected. | 05-10-2012 |
20120097432 | ELECTRODE ARRAY - An electrode array is provided. The electrode array includes a substrate; and a plurality of electrodes, each of which has a first part with a first width and a second part with a second width different from the first width, wherein the plurality of electrodes are configured in compensation with each other on the substrate. | 04-26-2012 |
20120082925 | METHOD FOR MANUFACTURING FLEXIBLE COLOR FILTER SUBSTRATE - A method for manufacturing flexible color filter substrate includes the following steps. First, a rigid substrate is provided. The rigid substrate has an upper surface and a lower surface opposite to the upper surface. The upper surface includes a first region and a second region located at a periphery of the first region. Next, a release layer is formed on the first region. Next, a flexible substrate layer is formed to cover the second region and the release layer. Next, a color photoresist layer is formed on a portion of the flexible substrate layer above the release layer. Next, the rigid substrate and the flexible substrate layer are cut along a border between the first region and the second region. Next, the flexible substrate layer is separated with the release layer. The method for manufacturing flexible color filter substrate can improve optical performance of the flexible color filter substrate. | 04-05-2012 |
20120081874 | CURVED DISPLAY MODULE AND DISPLAY DEVICE - The invention discloses a curved display module and a display device. The curved display module includes an enclosure, at least one opening, a flexible display panel and an Optical Clear Adhesive (OCA) layer. There is a first curved surface inside the enclosure. A cavity is formed within the enclosure. The at least one opening are disposed on at least one edge of the enclosure and connected to the cavity. The flexible display panel is disposed on the first curved surface in the cavity. The OCA layer is disposed within the cavity. The OCA layer directly covers the flexible display panel. | 04-05-2012 |
20120081650 | REFLECTIVE DISPLAY APPARATUS - A reflective display apparatus includes a transparent substrate, a reflective substrate, a display layer and a transparent gluing layer. The transparent gluing layer is disposed between the transparent substrate and the display layer and the refractive indices of the transparent gluing layer and of the transparent substrate are substantially the same. Therefore, the energy loss of light can be reduced at the interface between the transparent gluing layer and the transparent substrate, so the brightness of the image displayed by the reflective display apparatus may be increased. | 04-05-2012 |
20120075689 | ELECTRONIC PAPER STRUCTURE AND METHOD FOR FABRICATING ELECTRONIC PAPER - An electronic paper structure is disclosed, which includes a hard substrate, a flexible substrate, at least one magnetic device for fastening the flexible substrate on the hard substrate temporally, a drive substrate formed on the flexible substrate, an electronic paper display layer formed on the drive substrate, and a protect layer formed on the electronic paper display layer. An electronic paper fabricating method using the same is also disclosed. | 03-29-2012 |
20120070984 | METHOD FOR FORMING ELECTRODE STRUCTURE - In a method for forming an electrode structure in a display device, e.g. a source, drain or gate electrode or a pixel electrode, a photoactive conductive layer, which includes conductive material containing photoactive material, is formed above a substrate of the display device. The photoactive conductive layer is then patterned with a photo-mask and partially removed without the presence of a photo-resist to form the electrode structure. | 03-22-2012 |
20120068979 | E-book and power controller and power controlling method thereof - An e-book under an external light having an intensity is provided. The e-book includes a memory module storing data; an input/output interface electrically connected to the memory module, inputting the data to the memory module, and outputting the data from the memory module; an e-paper module electrically connected to the memory module, and displaying the data; a power device electrically connected to the e-paper module and the memory module, and providing a power output; and a photosensor electrically connected to the power device, having a threshold value, and sensing the intensity of the external light, wherein when the sensed intensity is lower than the threshold value, the power device reduces the power output. | 03-22-2012 |
20120068172 | ORGANIC LIGHT EMITTING DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An organic light emitting display device includes a substrate, a transparent electrode layer, a source/drain layer, an IGZO semiconductor layer, a first insulating layer, a gate layer, a second insulating layer and an organic light emitting diode. The organic light-emitting display device can have a simplified manufacturing process. In addition, the present invention also provides a method for manufacturing the organic light-emitting display device. | 03-22-2012 |
20120062611 | Electronic Paper Display Drive Method and Apparatus Thereof - The present invention provides a drive method for an electronic paper display. The method comprises to display a present image. Then, color data of pixels of the present image is gathered. The color data is compared to select one of a first color and a second color to be as a main color. Finally, a refresh image is displayed in the electronic paper display following the present image based on the main color. | 03-15-2012 |
20120062467 | ELECTRONIC SYSTEM, METHOD FOR CONTROLLING MOBILE APPARATUS, READING APPARATUS AND METHOD FOR CONTORLLING THEREOF - An electronic system includes a mobile apparatus and a reading apparatus. The mobile apparatus includes a first screen for showing a display image. Similarly, the reading apparatus includes a second screen, which is a touch control screen. When the reading apparatus links with the mobile apparatus through a data transmission interface, the mobile apparatus transmits the display image to the reading apparatus, so that the display image is displayed on the second screen of the reading apparatus. In addition, when an operation motion is performed on the second screen, a corresponding sensing signal generated by the reading apparatus is transmitted to the mobile apparatus, and the mobile apparatus determines whether or not responding to the operation motion according to the sensing signal. | 03-15-2012 |
20120061650 | Transistor Structure - A transistor structure comprises a patterned N-type transparent oxide semiconductor formed over a substrate as a base, and a patterned p-type organic polymer semiconductor formed on the patterned N-type transparent oxide semiconductor comprising a first portion and a second portion so that the patterned N-type transparent oxide semiconductor and the first portion and the second portion of the patterned p-type organic polymer semiconductor form heterojunctions therebetween respectively, wherein the first portion of the patterned p-type organic polymer semiconductor is used as an emitter, and the second portion of the patterned p-type organic polymer semiconductor is used as a collector. | 03-15-2012 |
20120056919 | DISPLAY APPARATUS - A display apparatus comprises a plurality of display panels and a time controller electrically coupled to each of the display panels respectively. The time controller is configured for sending out at least two priority control signals to each of the display panels according to an image data, to select at least one of the display panels to displaying the image data. | 03-08-2012 |
20120042243 | ELECTRONIC SYSTEM AND CONTROLLING METHOD THEREOF - An electronic system comprises an electronic processing device and a reading device having a display screen. When the electronic processing device is connected to the reading device through a data-transmitting interface, the electronic processing device transmits an electronic file in the electronic processing device to the reading device by a predetermined mode, such that the reading device displays images of the electronic file on the display screen according to a predetermined specification. | 02-16-2012 |
20120040753 | ELECTRONIC GAME APPARATUS - An electronic game apparatus comprises a plurality of electronic paper cards and a control device. Each of the electronic paper cards is configured for displaying an image. The control device comprises a control interface configured for a user to select a desired game mode. The control device is capable of changing the image displayed by at least one electronic paper card according to the selected game mode. | 02-16-2012 |
20120038598 | ELECTROPHORETIC DISPLAY APPARATUS AND METHOD FOR MANUFACTURING THE SAME AND METHOD FOR DRIVING THE SAME - An electrophoretic display device includes an electrophoretic displaying layer, a photoconductive layer and a top electrode layer. The electrophoretic displaying layer includes a number of pixels. The top electrode layer and the photoconductive layer are respectively disposed at two opposite sides of the electrophoretic displaying layer. The photoconductive layer includes a number of photoconductive units spaced apart from each other. Each of the pixels corresponds to at least one photoconductive units. The present invention also provides a method for manufacturing the electrophoretic display device and a method for driving the electrophoretic display device. | 02-16-2012 |
20120032176 | Electronic Paper Device And Manufacturing Method Thereof - This present invention provides an electronic paper display device. The electronic paper display device includes a thin film transistor array substrate and a display panel disposed on one side of the thin film transistor array substrate. The thin film transistor array substrate comprises a first substrate, a first metal layer, a dielectric layer, a second metal layer, a channel layer, a pixel electrode layer, a protection layer, a first resin layer and a second resin layer. The display panel includes a second substrate, a transparent electrode layer disposed on the second substrate, and an electronic ink material layer between the transparent electrode layer and the thin film transistor array substrate. | 02-09-2012 |
20120026577 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes an active element array substrate, a display layer and a transparent shock absorption layer. The display layer is disposed on the active element array substrate. The transparent shock absorption layer is disposed on the display layer. The transparent shock absorption layer is formed by curing liquid adhesive material. A manufacturing method of display device is also provided. | 02-02-2012 |
20120026209 | COLOR DISPLAY DEVICE - A color display device including a lower substrate, a driving array, a display layer, a color filter substrate and a transparent substrate is provided. The driving array is disposed on the lower substrate. The display layer is disposed on the driving array and includes a first region and a second region. The color filter substrate is disposed on the display layer and is located in the first region. The transparent substrate is disposed on the display layer and is located in the second region. The color display device has a high light reflectivity, thereby improving the display quality of the color display device. | 02-02-2012 |
20120019491 | FLAT DISPLAY APPARATUS - A flat display apparatus comprises a first display screen and a second display screen. The first display screen is a particle-based display screen, and the second display screen is a liquid-based display screen. | 01-26-2012 |
20120019482 | FLEXIBLE DISPLAY DEVICE AND METHOD FOR THE SAME CAPABLE OF REDUCING ACCIDENTAL CONTACT-INDUCED MALFUNCTIONS - A flexible display device includes a base, a flexible display panel, a detecting unit and a control unit. The flexible display includes a touch control unit that could be exposed outside of or received within the base. The detecting unit is used to detect the operating state of the flexible display panel. Then, the control unit controls the touch control unit according to a detected result of the detecting unit. Accordingly, the flexible display device according to the present invention may effectively reduce the accidental contact-induced malfunctions. | 01-26-2012 |
20120013983 | DISPLAY DEVICE - A display device includes a transparent active element array substrate and a color display layer. The transparent active element array substrate has a first surface and a second surface opposite to the first surface. The color display layer disposed on the first surface of the transparent active element array substrate. | 01-19-2012 |
20110316762 | ELECTRONIC SYSTEM, METHOD FOR CONTROLING MOBILE APPARATUS, READING APPARATUS AND METHOD FOR CONTORLING THEREOF - An electronic system comprises a mobile apparatus and a reading apparatus. The reading apparatus has a display screen and a plurality of operation units. When the reading apparatus is linked with the mobile apparatus through a data-transmission interface, the reading apparatus displays an image of an electronic file on the display screen thereof which is stored in the mobile apparatus. When one of the operation units is enabled, the reading apparatus generates a corresponding operation signal to the mobile apparatus, thus the mobile apparatus performs a corresponding operation process according to the operation signal. | 12-29-2011 |
20110315989 | DISPLAY DEVICE, LASER TRANSFER PRINTING METHOD AND LASER TRANSFER COLOR DONOR SHEET - A display device includes a thin film transistor substrate, a display layer, a patterned color resist layer, a patterned UV block layer and a transparent protective layer. The thin film transistor substrate has a substrate and a plurality of thin film transistors. The display layer is disposed on the thin film transistor substrate. The patterned color resist layer is disposed on the display layer. The patterned UV block layer is disposed on the patterned color resist layer. The transparent protective layer is disposed on the patterned UV block layer. The present invention also provides a laser transfer printing method for fabricating the color resist layer and the patterned UV block layer. | 12-29-2011 |
20110315032 | TRANSFER PRINT STRUCTURE AND THE MANUFACTURING METHOD THEREOF - A transfer print structure is provided. The transfer print structure comprises a substrate; a color ink layer including a functional region; and an adhesive device combining the functional region with the substrate. | 12-29-2011 |
20110314406 | ELECTRONIC READER AND DISPLAYING METHOD THEREOF - An electronic reader and a displaying method thereof are respectively provided in the present invention. The electronic reader includes a recognition unit recognizing an identity input; and a displaying unit displaying a screen corresponding to the identity input after the recognition unit identifies the identity input. The method includes steps providing an electronic reader displaying an electronic book file; inputting an identify recognition to the electronic reader; and displaying at least one page of the electronic book file previously used by a specific user in response to the identify recognition on the electronic reader. | 12-22-2011 |
20110304593 | PIXEL DRIVING CIRCUIT, PIXEL DRIVING METHOD AND LIGHT EMITTING DISPLAY DEVICE - A pixel driving circuit, a pixel driving method and a light emitting display device are provided in the present invention. The pixel driving circuit includes first through fifth transistors and a capacitor and is for driving a light emitting diode. The third transistor forms a diode connection to make information of the threshold voltages of both the third transistor and the light emitting diode be stored in the capacitor in a data writing period. In a light emitting period, the second transistor compensates drift variation of the threshold voltages of the third transistor and the light emitting diode according to the information stored in the capacitor to provide a stable driving current for driving the light emitting diode. | 12-15-2011 |
20110301937 | ELECTRONIC READING DEVICE - The present invention provides an electronic reading device. At the device, a voice is captured by a capturing unit, and then the reference information stored in a storing unit is received by a processing unit for converting the voice to a visual image signal based on the reference information. Afterwards, the visual image corresponding to the visual image signal is shown on a display unit. Therefore, the device provides the function of speech recognition anywhere and anytime and is suitable for prolonged use due to the features of power saving and easy reading. | 12-08-2011 |
20110296530 | ELECTRONIC READING APPARATUS AND THE DATA SECURITY METHOD THEREOF - Present invention relates to an electronic reading apparatus with data security and anti-theft functions. The electronic reader apparatus has a code input unit for receiving a security code, and a code determining unit for determining an authenticity of the security code. When no security code, no authentic security code or even no operational signal has been received during the predetermined periods of time, a central control unit may stop a power supply unit from outputting power in order to turn off the electronic reader apparatus and clear the image shown on a display unit. As such, a content of sensitive or confidential data stored in the electronic reading apparatus may not be intruded. | 12-01-2011 |
20110291921 | ELECTRONIC PAPER DISPLAY DEVICE - An electronic paper display device includes a first substrate, a plurality of display units and a plurality of light-emitting units. The first substrate includes first base and a plurality of electrodes disposed on the first base. The display units are disposed above the first substrate. The light-emitting units are respectively disposed between the display units and the first base. | 12-01-2011 |
20110290414 | METHOD FOR MANUFACTURING COLOR ELECTROPHORETIC DISPLAY DEVICE - A method for manufacturing a color electrophoretic display device includes the following steps. First, a substrate having a displaying region and a circuit region around the displaying region is provided. Next, a driving array is formed in the displaying region. Subsequently, an electrophoretic display layer is formed on the driving array. Afterwards, a thermal transfer process is performed so that a color filter layer is formed on the electrophoretic display layer. The method can increase the production eligibility rate of the color electrophoretic display device, thereby improving the display quality of the color electrophoretic display device. | 12-01-2011 |