Patent application number | Description | Published |
20090137286 | CONTROLLING METHOD AND SYSTEM FOR HANDHELD COMMUNICATION DEVICE AND RECORDING MEDIUM USING THE SAME - A controlling method and a controlling system for a handheld communication device are provided. In the present method, a tilting state of the handheld communication device is detected by using a G-sensor when a notice is activated. Then, whether the tilting state is changed from a face up state to a face down state is determined. The handheld communication device is controlled to perform a function when the tilting state is confirmed to be changed from the face up state to the face down state. Accordingly, the handheld communication device may be controlled to perform a function timely according to the positioned state of the device without going through complicated procedures, so as to provide a more intuitive and convenient way to control the handheld communication device. | 05-28-2009 |
20090276782 | RESOURCE MANAGEMENT METHODS AND SYSTEMS - Resource management methods and systems are provided. First, it is determined whether a resource is currently being used. When the resource is currently being used by a first program, a release notification is transmitted to the first program to release the resource. | 11-05-2009 |
20120270609 | CONTROLLING METHOD AND SYSTEM FOR HANDHELD COMMUNICATION DEVICE AND RECORDING MEDIUM USING THE SAME - A controlling method and a controlling system for a handheld communication device are provided. In the present method, a tilting state of the handheld communication device is detected by using a G-sensor when a notice is activated. Then, whether the tilting state is changed from a face up state to a face down state is determined. The handheld communication device is controlled to perform a function when the tilting state is confirmed to be changed from the face up state to the face down state. Accordingly, the handheld communication device may be controlled to perform a function timely according to the positioned state of the device without going through complicated procedures, so as to provide a more intuitive and convenient way to control the handheld communication device. | 10-25-2012 |
Patent application number | Description | Published |
20090128426 | ANTENNA FOR THIN COMMUNICATION APPARATUS - A PIFA for a thin communication apparatus is provided. The PIFA includes a main body, a ground area and two ground segments, wherein the ground segments are adjacent with each other and extending out from a same side of the ground area. The SAR value and a required height for setting the antenna can be reduced through the design of two grounding paths on the antenna. | 05-21-2009 |
20100245180 | MOBILE APPARATUS - A mobile apparatus is provided. The mobile apparatus includes an antenna and a ground plane. The antenna is used to receive or transmit a radio frequency signal and includes a grounding part having a first ground terminal and a second ground terminal. Wherein, a distance between the first ground terminal and the second ground terminal is associated with a wavelength of the radio frequency signal. The ground plane is electrically connected to the grounding part of the antenna through the first ground terminal and the second ground terminal. The present invention effectively reduces a specific absorption ratio and a required height for setting the antenna such that a bandwidth of the antenna is increased. | 09-30-2010 |
20110193752 | HANDHELD DEVICE - A handheld device is disclosed, which includes an appearance part, a system ground plane and a detachable element. The detachable element includes a carrier and a planar antenna. The system ground plane is disposed in the appearance part and has a feed point. The planar antenna is disposed on the carrier and has a connection point. The carrier is detachably connected to the appearance part. When the carrier is connected to the appearance part, the above-mentioned connection point is electrically connected to the feed point. In this way, the radiation performance of the antenna can be improved and the frequency band of the antenna of the handheld device can be changed by replacing the detachable element. | 08-11-2011 |
20140132456 | MOBILE COMMUNICATION DEVICE - A mobile communication device is provided and includes a plastic frame body, a metal outer frame, a metal inner frame and a first conductive spring. The plastic frame body has an opening, a first locking groove, a first inserting groove and a first protrusive portion formed between the first locking groove and the first inserting groove. The metal outer frame is locked to the first locking groove and fixed on the outside of the plastic frame body. The metal inner frame is inserted into the first inserting groove and fixed in the surroundings of the opening of the plastic frame body. Besides, the metal inner frame is electrically connected to a system ground plane. The first conductive spring clasps the first protrusive portion. The first conductive spring extends into the first locking groove and the first inserting groove so as to electrically connect the metal outer and inner frames. | 05-15-2014 |
Patent application number | Description | Published |
20110097592 | MULTI-LAYER STRUCTURE INCLUDING A BUFFER LAYER - A multi-layer structure including a buffer layer is to couple with a substrate in a die. The multi-layer structure includes a biological material layer, a bonding layer and a thermoplastic buffer layer. The biological material layer has a first surface attached to the bonding layer. The buffer layer has one side boned with the bonding layer. The buffer layer has a compressed surface to withstand high pressure and be bonded to the substrate. The bonding layer and buffer layer are made of thermoplastic material, and are bonded together firmly through thermal fusion. The compressed surface of the buffer layer directly withstands the injection temperature and pressure exerting to the substrate in the mold, therefore can alleviate the temperature and pressure withstood by the biological material layer. Hence the biological material layer is protected without being damaged in the mold, and bonding between the multi-layer structure and substrate has longer lifespan. | 04-28-2011 |
20110177295 | FINISHED PRODUCT STRUCTURE FORMED BY IN-MOLD DECORATION PROCESS - A finished product structure formed by In-mold decoration process includes an electromagnetic protective material, a bearing layer and a formed plastic material. The electromagnetic protective material includes a metal film, a structure reinforced layer and an electromagnetic isolation layer. The structure reinforced layer is located between the metal film and electromagnetic isolation layer to enhance physical strength of the electromagnetic protective material. The bearing layer includes an adhesive surface laid with an adhesive layer and a bearing surface. The adhesive surface faces the electromagnetic protective material. The electromagnetic protective material and bearing layer are disposed in a mold, and plastic material is injected onto the bearing surface through a plastic material runner to form the formed plastic material. The formed plastic material includes a first surface bonded to the bearing surface and a second surface on another side opposite to the first surface. | 07-21-2011 |
20110240591 | METHOD OF MANUFACTURING IN-MOLD FORMING FILM WITH METAL SURFACE - A method of manufacturing an in-mold forming film with a metal surface provides a metal sheet layer having a coupling surface predetermining at least one etching area, and then applies an etching measure to the etching area at the coupling surface, such that recessed structures are formed inwardly on a surface of the etching area, and then injects a plastic material to the coupling surface of the metal sheet layer by an injection pressure after the metal sheet layer is etched, such that the plastic material is forced to cover the recessed structures in the etching area, and finally cures the plastic material to carry the metal sheet layer and form a tight connection relation between the cured plastic material and the recessed structures. | 10-06-2011 |
20110244166 | INDUSTRIAL PRODUCT STRUCTURE COMBINED WITH ORGANIC MATERIAL - An industrial product structure combined with organic material is formed in an injection mold which has a mold cavity and at least one injection port to allow an injection material to be injected into the mold cavity. The industrial product formed in the mold includes an organic material layer on the surface, a bottom layer having at least one orifice and an injection material layer located between the organic material layer and bottom layer. The organic material layer and bottom layer are placed in advance in the mold cavity with the orifice of the bottom layer positioned above the injection port of the mold cavity. The injection material is injected through the injection port and orifice to form the injection material layer. The injection material layer has two sides bonded to the organic material layer and bottom layer. | 10-06-2011 |
20120018086 | METHOD FOR FABRICATING COMPOSITE MATERIAL FOR IN-MOLD DECORATION - A method for fabricating a composite material for in-mold decoration is to fabricate a composite material comprising a biomaterial layer and a protective layer adhering to the biomaterial layer. The method comprises the steps of: providing the biomaterial layer which is transferred in a predetermined transport path; hot-extruding the fused protective layer, wherein the hot-extruded protective layer is combined with the biomaterial layer in the transport path; and solidify and adhering the hot-extruded protective layer to the biomaterial layer to form the composite material. According to the method of the present invention, the composite material is formed via combining the protective layer with the biomaterial layer in a fused state, and via solidify and adhering the hot-extruded protective layer to the biomaterial layer, so as to reduce the bubbles between the protective layer and the biomaterial layer. | 01-26-2012 |
20120111538 | HEAT DISSIPATION STRUCTURE - A heat dissipation structure mounted onto an electronic element to dissipate heat. The heat dissipation structure includes a heat absorber connected with the electronic element and a heat sink. The heat absorber has a hollow first chamber to hold a working fluid. The heat absorber and heat sink are interposed by a plurality of first conduits. When the heat absorber absorbs heat generated by the electronic element through a contact surface, the working fluid held therein is vaporized into vapor. The vapor enters a second chamber of the heat sink through the first conduits and performs heat exchange with a cooling surface of the heat sink to be converted into the working fluid again. The working fluid is conveyed via a capillary structure in the second conduit to the first chamber to form a thermal cycle. The structure of the invention is simpler and can rapidly absorb and dissipate heat. | 05-10-2012 |
20130200548 | INDUSTRIAL PRODUCT STRUCTURE COMBINED WITH ORGANIC MATERIAL - An industrial product structure combined with organic material is formed in an injection mold which has a mold cavity and at least one injection port to allow an injection material to be injected into the mold cavity. The industrial product formed in the mold includes an organic material layer on the surface, a bottom layer having at least one orifice and an injection material layer located between the organic material layer and bottom layer. The organic material layer and bottom layer are placed in advance in the mold cavity with the orifice of the bottom layer positioned above the injection port of the mold cavity. The injection material is injected through the injection port and orifice to form the injection material layer. The injection material layer has two sides bonded to the organic material layer and bottom layer. | 08-08-2013 |
Patent application number | Description | Published |
20090068373 | Novel synergistic process and recipe for fabrication of a high integrity membrane electrode assembly of solid oxide fuel cell - A recipe and two sequential processes for fabrication of electrode substrates of solid oxide fuel cells (SOFCs) are described in this invention. The typical recipe consists of 50˜86 wt % electrolyte (8YSZ) or 50˜80 wt % anode electrode (NiO/8YSZ), 12˜22 wt % MEK (solvent 1), 5˜9 wt % EtOH (solvent 2), 1˜2 wt % TEA (dispersant), 0.5˜2 wt % DBP (plasticizer 1), 0.5˜2 wt % PEG (plasticizer 2), 3˜6 wt % PVB (binder), and 0.1˜10 wt % graphite (pore former). Two sequential processes include: 1. The process for preparation of the green tape slurry from materials of the recipe, 2. The synergistic process for fabrication of a high integrity membrane electrode assembly (MEA) of SOFC from the prepared electrode substrates. | 03-12-2009 |
20090151850 | Process for fabrication of a fully dense electrolyte layer embedded in membrane electrolyte assembly of solid oxide fuel cell - This invention describes the process for fabrication of a fully dense electrolyte layer (8YSZ/GDC/LSGM) embedded in a high performance membrane electrolyte assembly (MEA) (Unit Cell) of Solid Oxide Fuel Cell. An air-tight electrolyte layer (8YSZ/GDC/LSGM) is mainly prepared via tape casting technique and modified by thin film technologies, such as sputtering coating, spin coating, plasma spray/Coating etc., as well as combined with the sintering scheme and operation control. The gas permeability of electrolyte layer is less than 1×10 | 06-18-2009 |
20090166186 | Novel process for fabrication of a sputter deposited fully dense electrolyte layer embedded in a high performance membrane electrolyte assembly of solid oxide fuel cell - The innovation process describes the process and results for fabrication of a magnetron sputter deposited fully dense electrolyte layer (8YSZ/GDC/LSGM) embedded in a high performance membrane electrolyte assembly (MEA) (Unit Cell) of Solid Oxide Fuel Cell. A single cell with airtight electrolyte layer (8YSZ/GDC/LSGM) is prepared via thin film technique of magnetron sputter deposition, combined with SOFC-MEA processing methods (such as tape casting, lamination, vacuum hot pressing, screen printing, spin coating, and plasma spray coating) and sintering optimization conditions. The gas permeability of the electrolyte layer is below 1×10 | 07-02-2009 |
20090166907 | Innovation process for anode treatment of solid oxide fuel cell - membrane electrode assembly to upgrade power density in performance test - This invention describes the process for fabrication of a high conductivity and low resistance solid oxide fuel cell. An anode substrate is mainly prepared via tape casting technique and modified by abrasion and polish process. Electrolyte is fabricated onto the polished side by thin film technologies and can attach well in the cross section. Grinding surface of anode side about 10-30 μm after finish of MEA combination can get a high conductivity and low resistance unit cell and enhance cell performance effectively. | 07-02-2009 |
20090166908 | Innovation control process for specific porosity/gas permeability of electrode layers of SOFC-MEA through combination of sintering and pore former scheme and technology - An innovation scheme and technology used for controlling porosity/gas permeability of electrode layers of SOFC-MEA through combination of pore former and sintering manipulations. The porosity of electrode layer is 0-35 vol. %, and the gas permeability of electrode layer is 1×10 | 07-02-2009 |
20100018036 | Formulation of nano-scale electrolyte suspensions and its application process for fabrication of solid oxide fuel cell-membrane electrode assembly (SOFC-MEA) - This invention describes the recipe and preparation process of nano-scale electrolyte suspension and its application via a spin coating process for fabrication of airtight/fully dense electrolyte layers composed in solid oxide fuel cell-membrane electrode assembly with high performance characteristics. The recipe of nano-scale electrolyte suspension includes 10˜50 wt % nano-scale electrolyte powder, 0.01˜1 wt % poly acrylic acid (PAA as dispersant), 0.1˜5 wt % poly vinyl alcohol (PVA as binder), 0.005˜1 wt % octanol as defoamer, and deionized water as solvent. Solid oxide fuel cell fabricated via this recipe and process exhibits that the open-circuit voltage (OCV) is over 1 Volt, and maximum power density is 335 mW/cm | 01-28-2010 |
20110130267 | Process to Produce Fine Ceramic Powder through a Chemical Reactor with Powder Collection Device - The present invention is related to producing fine nano or submicron-scale precision ceramic powder by applying an innovative chemical reactor with powder collection to the glycine-nitrate combustion process (GNC-P). The unique feature lies in the utilization of a simple-operating process to massively produce nano or submicron-scale ceramic oxide powder with multiple metal components. The present invention not only provides very high powder collection efficiency and production yield as well as safety but also satisfies requirements of industrial safety and environmental safety, and lowers production cost. | 06-02-2011 |
20110221450 | MEASUREMENT PROCESS FOR DETERMINATION OF THE OPTIMUM CONTACT PRESSURE AMONG COMPONENTS OF A SOLID OXIDE FUEL CELL STACK IN THE PACKAGING PROCESS AND ITS MEASUREMENT APPARATUS - The present invention provides a measurement process for determination of the optimum contact pressure among components of a solid oxide fuel cell stack in the packaging process in order that the reduction in performance caused by the packaging process can be reduced. The present invention also provides a measurement apparatus which can carry the measurement process out. | 09-15-2011 |
20120115067 | PROCESS AND APPARATUS OF CO2 ENERGY SOURCE ADOPTED IN SOLID OXIDE FUEL CELL - CO2 ENERGY CONVERSION CYCLE - A process and apparatus of “Solid Oxide Fuel Cell (SOFC)-CO | 05-10-2012 |
Patent application number | Description | Published |
20100259950 | OPTICAL COMPONENT, MANUFACTURING METHOD OF THE SAME AND BACKLIGHT MODULE - The present invention provides an optical component, a manufacturing method of the same and a backlight module including the foregoing optical component. The optical component includes a plurality of microstructures and reflecting members. The microstructure is extended along a first direction and arranged along a second direction on a light exit surface, and a distance between the first curve and the second curve in the second direction is not equal and not parallel, and a distance between the second curve and another first curve in the second direction being not equal and not parallel. Each reflecting member is extended along the first direction and arranged along the second direction on a light entrance surface and the position of each reflecting member is among two microstructures. Each of the reflecting members to the light entrance surface has a thickness t, a length of the microstructure in the second direction is a width P, the optical component has a refractive index n, and t, P and n satisfy a formula of tan | 10-14-2010 |
20110211259 | DIFFUSION PLATE WITH HIGH DIFFUSION QUALITY - A diffusion plate including a structured surface is provided. There are a lot of concave structures disposed on the structured surface. Each concave structure, with at least two opposite first sides and at least two opposite second sides, includes at least two first curved surfaces and at least two second curved surfaces. The first curved surfaces and the second curved surfaces are extended from the first sides and the second sides respectively. In addition, each concave structure adjoins at least one other concave structure, and the shape of a neighboring portion of two said adjoining concave structures is curved. | 09-01-2011 |
Patent application number | Description | Published |
20090038492 | Micro-Stamping Method for Photoelectric Process - This invention discloses a micro-stamping method for photoelectric process. First of all, in this invention, the micro-stamping method provides a stamp, an ink, an inkpad and a substrate, wherein the stamp or the inkpad having specific protruding bodies and the ink is one element of the group consisting of red ink, green ink and blue ink. Further, by adherence of the ink to the stamp, the specific pattern can be transferred to the surface of the substrate. Furthermore, this micro-stamping method comprises an ink adherence process, a positioning process, a pattern transferring process and a fixation process, and the above-mentioned processes will repeat until the three inks, such as red ink, green ink and blue ink, all adhered and fixed on the predetermined places of substrate. Moreover, this invention can be applied in the fabricating of color filters of TFT-LCD, emitting layers of OLED (Organic Light Emitting Diode), emitting layers of PLED (Polymer Light Emitting Diode) or other related photoelectric processes. | 02-12-2009 |
20140031533 | PRECURSOR USED FOR LABELING HEPATORCYTE RECEPTOR AND CONTAINING TRISACCHARIDE AND DIAMIDE DEMERCAPTIDE LIGAND, METHOD FOR PREPARING THE SAME, RADIOTRACER AND PHARMACEUTICAL COMPOSITION OF THE SAME - A precursor used for labeling hepatocyte receptors and applied to radiotracers for imaging or pharmaceutical compositions for liver cancers is revealed. The precursor is a bifunctional compound. The bifunctional group includes a trisaccharide structure and a diamide dimercaptide (N | 01-30-2014 |
20140073803 | RADIOTRACER PRECURSOR AND METHOD FOR PREPARING THE SAME - A precursor SnBZM for a dopamine receptor radiotracer and a method for preparing the same are revealed. The precursor includes a tributyltin group (Bu | 03-13-2014 |
Patent application number | Description | Published |
20080239190 | PIXEL STRUCTURE AND DRIVING METHOD - A pixel structure includes a scan line, a data line, a first thin film transistor (TFT), a second TFT, a first pixel electrode, a second pixel electrode and a third pixel electrode. The first TFT and the second TFT respectively possessing a first drain electrode and a second drain electrode are electrically connected to the scan line and the data line. The first pixel electrode is electrically connected to the first drain electrode. The second pixel electrode is placed on and coupled to parts of the first drain electrode, and the third pixel electrode is placed on and coupled to parts of the second drain electrode. As a result, the pixel structure is capable of reducing display quality variations arisen from different viewing angles. | 10-02-2008 |
20090079669 | FLAT PANEL DISPLAY - A flat panel display is provided. The flat panel display includes a display panel, a gate driver, a source driver and a signal switching unit. The gate driver outputs a gate signal. The signal switching unit turns on the first terminal and the second terminal thereof to deliver the gate signal to a first scan line during a preceding half period of a frame period. Moreover, the signal switching unit turns on the first terminal and the third terminal thereof during a rear half period of the frame period, so that the gate signal, which is previously delivered to the first scan line, is delivered to the second scan line at this time. In this way, the source driver drives the display panel in coordination with the gate signal delivered by the first and second scan lines. | 03-26-2009 |
20090231505 | MULTI-DOMAIN VERTICAL ALIGNMENT (MVA) PIXEL STRUCTURE - Each Multi-domain Vertical Alignment (MVA) pixel structures on a display panel array includes at least two sub-pixels. By adjusting the channel W/L ratios of the transistors in the sub-pixels, the sub-pixels may have different display voltages so as to improve the display quality in a slant vision. A transistor is disposed between one of the sub-pixels and a common line (Vcs) as the dispersion path for remaining electric charges to improve the condition of burn-in. | 09-17-2009 |
20090278777 | PIXEL CIRCUIT AND DRIVING METHOD THEREOF - A pixel circuit and a driving method thereof are provided. The pixel circuit includes a pixel capacitor, a storage capacitor, a first transistor and a second transistor. A common node is between the storage capacitor and the pixel capacitor. The first transistor is electrically connected between a data line and the common node, and a gate thereof is electrically connected to a first gate line. The second transistor is electrically connected between the common node and a gray level voltage, and a gate thereof is electrically connected to a second gate line. The first gate and the second gate line are adjacent. | 11-12-2009 |
Patent application number | Description | Published |
20090166099 | UNLOCKING METHOD WITH TOUCH SENSOR - An unlocking method with a touch sensor is provided. The method is adapted to a portable device having a touch sensor, wherein the portable device is at a lock state. The method is as follows. First, a signal generated by an input device is received by the touch sensor. Next, a movement of the touch sensor triggered by the input device is sensed. Next, the signal is identified to determine whether or not the input device is an effective unlock device. Finally, when the input device is the effective unlock device and the movement is an effective movement, the lock state of the portable device is switched to an unlock state. | 07-02-2009 |
20090167714 | METHOD OF OPERATING HANDHELD ELECTRONIC DEVICE AND TOUCH INTERFACE APPARATUS AND STORAGE MEDIUM USING THE SAME - A method of operating a handheld electronic device and a touch interface apparatus and a storage medium using the same are provided. In this method, an operating interface displayed on a touch screen of the handheld electronic device is used to operate a function module of the handheld electronic device. First, the function module of the handheld electronic device is activated to display a user interface corresponding to the function module on the touch screen. Next, an operating function of the function module is activated, so as to display a corresponding operating interface on the touch screen. In the meantime, the user interface of the function module is reduced simultaneously and displayed on an area of the touch screen excluding the operating interface. Accordingly, a convenient operating interface is provided for the user to operate while the content of original displayed frame remains. | 07-02-2009 |
20090167716 | METHOD FOR SWITCHING TOUCH KEYBOARD AND HANDHELD ELECTRONIC DEVICE AND STORAGE MEDIUM USING THE SAME - A method for switching a touch keyboard and a handheld electronic device and a storage medium using the method are provided. The method is suitable for a handheld electronic device having a touch screen. In the method, a character input function is first activated to display a first type touch keyboard on a side of the touch screen. A touch signal produced within a display area of the first type touch keyboard is then received and it is determined whether the touch signal moves to another side of the touch screen. If the touch signal is determined to move to the another side of the touch screen, a second type touch keyboard is displayed on the another side of the touch screen. Accordingly, the users can switch the touch keyboard to another one conveniently so as to input characters. | 07-02-2009 |
20090167737 | METHOD AND APPARATUS FOR DYNAMICALLY ADJUSTING VIEWING ANGLE OF SCREEN - A method and an apparatus for dynamically adjusting a viewing angle of a screen are provided. The method is suitable for dynamically adjusting a viewing range of a screen of a handheld electronic device, wherein the viewing angle of the screen is adjustable. The method is as follows. First, a shifting value of a target deviating from the viewing range of the screen is detected by a sensor. Next, the viewing range of the screen is dynamically adjusted according to the shifting value, so as to cover the target within the viewing range of the screen. Accordingly, the snooping for the content of a frame displayed on the screen by others can be prevented and a user can view the frame displayed on the screen more conveniently. | 07-02-2009 |
20110053581 | METHOD OF ADJUSTING EVENT PROMPT DEGREE, AND MOBILE ELECTRONIC DEVICE AND COMPUTER PROGRAM PRODUCT USING THE SAME - A method of adjusting an event prompt degree and a mobile electronic device and a computer program product using the same are provided. In the present method, whether at least two detection regions of the mobile electronic device simultaneously detect a touch when the mobile electronic device executes a vibration prompt corresponding to an event is determined, wherein the detection regions are independent of each other. A vibration intensity of the vibration prompt is reduced when the detection regions simultaneously detect the touch. Thereby, continuous vibration prompt is prevented from bothering other people. | 03-03-2011 |
20110054650 | METHODS AND SYSTEMS FOR APPLICATION PROCEDURE MANAGEMENT - Methods and systems for application procedure management are provided. First, an event is received, wherein the event defines a normal procedure and a specific procedure. In response to the event, a sensor is activated to detect a presence of at least one object. If the presence of the object is not detected, the normal procedure for the event is performed. If the presence of the object is detected, the specific procedure for the event is performed. In some embodiments, the executed specific procedure includes inactivating a display unit. | 03-03-2011 |
20110107211 | DATA SELECTION AND DISPLAY METHODS AND SYSTEMS - Data selection and display methods and systems are provided. First, data including a plurality of characters/symbols is displayed in a touch-sensitive display unit. A contact corresponding to an input tool on the touch-sensitive display unit is detected. According to the contact position on the touch-sensitive display unit, a plurality of candidate characters/symbols is determined from the characters/symbols, and a specific position where the candidate characters/symbols to be displayed in the touch-sensitive display unit is re-determined. Then, the candidate characters/symbols are displayed at the specific position in the touch-sensitive display unit. | 05-05-2011 |
20120127106 | ELECTRONIC DEVICE CAPABLE OF EXECUTING COMMANDS THEREIN AND METHOD FOR EXECUTING COMMANDS IN THE SAME - The present invention provides a method for executing commands in an electronic device having a touch sensing element. A stylus or finger is used to touch the touch sensing element and move through several sensing areas on the touch sensing element. A responsive signal is generated by the touch sensing element according to the touched sensing areas. A processor then executes a corresponding command in accordance with the responsive signal. | 05-24-2012 |
20130318470 | METHOD OF OPERATING HANDHELD ELECTRONIC DEVICE AND TOUCH INTERFACE APPARATUS AND STORAGE MEDIUM USING THE SAME - A method of operating a handheld electronic device and a touch interface apparatus and a storage medium using the same are provided. In this method, an operating interface displayed on a touch screen of the handheld electronic device is used to operate a function module of the handheld electronic device. First, the function module of the handheld electronic device is activated to display a user interface corresponding to the function module on the touch screen. Next, an operating function of the function module is activated, so as to display a corresponding operating interface on the touch screen. In the meantime, the user interface of the function module is reduced simultaneously and displayed on an area of the touch screen excluding the operating interface. Accordingly, a convenient operating interface is provided for the user to operate while the content of original displayed frame remains. | 11-28-2013 |
20140128127 | METHOD OF ADJUSTING EVENT PROMPT DEGREE AND MOBILE ELECTRONIC DEVICE AND COMPUTER PROGRAM PRODUCT USING THE SAME - A method of adjusting an event prompt degree and a mobile electronic device and a computer program product using the same are provided. In the present method, when the mobile electronic device executes a ringtone prompt, whether the mobile electronic device is moved is determined. When the mobile electronic device is determined to be moved, the ringtone prompt is reduced without turning off the vibration prompt or the ringtone prompt. Thereby, continuous event prompt is prevented from bothering other people. | 05-08-2014 |
Patent application number | Description | Published |
20100259699 | PIXEL STRUCTURE, THIN FILM TRANSISTOR ARRAY SUBSTRATE, DISPLAY PANEL, AND DISPLAY APPARATUS - A pixel structure adapts for compensating variation of gate-drain parasitic capacitance caused by misalignment in manufacturing process by forming a transverse compensation capacitance between a capacitance compensation portion and a scan line in an in-plane direction, and therefore the flicker in displaying of a display panel can be alleviated. In addition, being applied into a concept of “data lines reducing”, the pixel structure is capable of reducing difference of capacitance between two adjacent pixel structures due to misalignment in manufacturing process and improving display uniformity. Furthermore, a thin film transistor array substrate, a display panel, and a display apparatus applying the pixel structure are also provided. | 10-14-2010 |
20120032195 | DISPLAY PANEL - A display panel includes a substrate and a plurality of pixel units. Each pixel unit includes a first thin film transistor and a second thin film transistor. The first thin film transistor includes a first gate electrode electrically connected to a fist gate line, a first source electrode electrically connected to a data line, and a first drain electrode electrically connected to a first pixel electrode. The second thin film transistor includes a second gate electrode electrically connected to a second gate line, a second source electrode electrically connected to the data line, and a second drain electrode electrically connected to a second pixel electrode. The first drain electrode extends along a first direction to overlap the first gate electrode, and the second drain electrode extends along the first direction to overlap the second gate electrode. | 02-09-2012 |
Patent application number | Description | Published |
20110115723 | Flat-surface resistive touch panel - A flat-surface resistive touch panel includes a resistive touch module and a decoration film. The resistive touch module is installed in a frame, for detecting the input signals of the multiple touches. The decoration film is fixed on the resistive touch module with an optical adhesive and forms a flat surface with the frame. The resistive touch module utilizes the electric potential lines to replace the patterned electrodes so as to increase the durability of the resistive touch panel. | 05-19-2011 |
20110210936 | SINGLE-LAYER CAPACITANCE TOUCH DEVICE - A capacitance touch device includes a touch panel, a plurality of triangular sensing pads, a plurality of conducting wires, and a control circuit. Every four triangular sensing pads are arranged forming a square deposited on the touch panel. Each triangular sensing pad is corresponding to a location and is electrically connected to the control circuit through one conducting wire. When the plurality of triangular sensing pads is touched generating sensing signals, the control circuit can calculate the location of the touch point according to the intensity of the sensing signals. | 09-01-2011 |
20110254778 | SLIM TYPE TOUCH DEVICE - A slim type touch device includes a touch panel, a display module, and a housing. The touch panel and the display module are installed in the housing. The touch panel includes a plurality of sensing pads formed on the bottom side of the touch panel. The bottom side of the touch panel is mounted on the display module with the optical clear adhesive. | 10-20-2011 |
20120256871 | TOUCH PANEL CAPABLE OF DECREASING RESPONSE TIME AND REDUCING INTERFERENCE - A touch panel capable of decreasing response time includes a first substrate, a second substrate, and a spacer. The first substrate has a plurality of first conductive stripes formed on a lower surface of the first substrate along a first direction. The second substrate is disposed below the first substrate. The second substrate has a plurality of second conductive stripes formed on an upper surface of the second substrate along a second direction. The spacer is arranged between the first substrate and the second substrate for forming a gap between the first substrate and the second substrate. | 10-11-2012 |
20120285810 | Flat Surface Touch Device for Introducing Visual Effects - An electrode and an isolation layer of a touch device are the same color, so that a user of the touch device perceives a good visual effect without having to employ expensive optical adhesive and decorative films in the touch device. The front bezel design used in conventional touch devices can thus be abandoned. Further, simpler fabrication, higher yield rate, and lower cost are also achieved. | 11-15-2012 |
20130056342 | SEAMLESS CAPACITIVE TOUCH PANEL - A seamless capacitive touch panel includes a substrate, a pattern layer, a first electrode, and a second electrode. The pattern layer is formed on the substrate. The first electrode is formed on the pattern layer. The second electrode is formed on the substrate. The first electrode and the second electrode are separated by the pattern layer for preventing conduction between the first and second electrodes. | 03-07-2013 |
20130088281 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - A touch panel includes a substrate, a transparent conductive layer, a conductive decoration pad, a decoration layer and an opaque conductive layer. The transparent conductive layer is disposed on the substrate, and the conductive decoration pad is disposed on the transparent conductive layer. The decoration layer is disposed on the conductive decoration pad and the transparent conductive layer, and has an opening located on the conductive decoration pad. The opaque conductive layer is disposed on the decoration layer and electrically connected with the transparent conductive layer through the opening and the conductive decoration pad. | 04-11-2013 |
20130100027 | PORTABLE ELECTRONIC DEVICE - A portable electronic device includes a casing, a display module and at least one ouch input module. The display module is disposed on the casing and has a display surface. The touch input module is disposed on the casing and located below the display module with respect to the display surface. | 04-25-2013 |
20130135233 | TOUCH PANEL HAVING BORDER WITHOUT COLOR DIFFERENCE AND MANUFACTURING METHOD THEREOF - A touch panel includes a substrate, a transparent conductive layer, a shielding decoration layer, a transparent conductive connecting layer and an opaque conductive layer. The transparent conductive layer is disposed on the substrate. The shielding decoration layer is disposed on the substrate and the transparent conductive layer. The transparent conductive connecting layer is disposed on the transparent conductive layer and the shielding decoration layer, extends from the transparent conductive layer to the shielding decoration layer, and exceeds an edge of the transparent conductive layer. The opaque conductive layer is disposed on the shielding decoration layer and the transparent conductive connecting layer, and is not disposed on the transparent conductive layer. | 05-30-2013 |
20130141370 | TOUCH KEYPAD MODULE AND INPUT PROCESSING METHOD THEREOF - A touch keypad module comprises a touch input panel, which includes a touch input surface and physically shows a plurality of input areas. The input areas are defined as the areas on the touch input surface capable of generating effective inputs in a key input mode. The touch input panel operates in the key input mode or a track input mode according to a mode control signal, and processes at least an input signal inputted through the touch input surface. | 06-06-2013 |
20140339067 | Flat Surface Touch Device for Introducing Visual Effect - An electrode and an isolation layer of a touch device are the same color, so that a user of the touch device perceives a good visual effect without having to employ expensive optical adhesive and decorative films in the touch device. The front bezel design used in conventional touch devices can thus be abandoned. Further, simpler fabrication, higher yield rate, and lower cost are also achieved. | 11-20-2014 |
Patent application number | Description | Published |
20090155169 | Glyco-molecular imaging method for grade classification of liver fibrosis and its glyco-molecular imaging agent thereof - The invention discloses one glyco-molecular imaging method for grade classification of liver fibrosis and its glyco-molecular imaging agent. The agent combining with glyco-molecular imaging method for liver targeting could be used to differentiate the grade of liver fibrosis and follow-up evaluation of the therapeutic effect. | 06-18-2009 |
20110077386 | NOVEL LIVER-TARGETING AGENTS AND THEIR SYNTHESIS - This invention provides novel liver targeting agents and their synthetic methods. A liver targeting agent, with a lysine based nitrilo triacetic acid structure as backbone which acquires multivalency with saccharide groups, to bind with a galactosamine chain or lactose chain is disclosed. In particular, only one amino acid L-lysine is involved to provide trivalency. All carboxyl groups in N | 03-31-2011 |
20110097264 | RADIOLABELING METHOD USING MULTIVALENT GLYCOLIGANDS AS HEPATIC RECEPTOR IMAGING AGENT - A radiolabeling method using a multivalent glycoligand as hepatic receptor imaging agent is provided. The multivalent glycoligand-DTPA derivatives (In-111-DTPA-hexa lactoside and In-111-DTPA-tri-galactosamine glycoside) labeled with In-111 are used as hepatic receptor imaging agent. The effects of imaging of a hepatic receptor in different species are evaluated, the lowest specific radioactivity values of hepatic receptor imaging required in different species are discovered. Since the specificity of the human ASGPR closely resembles that of the mouse. This kind of radiolabelling method, agent and related study about specific radioactivity could be used in clinical trial in the future. | 04-28-2011 |
20110097265 | QUANTIFICATION METHOD FOR REMAINING LIVER FUNCTION AND NOVEL LIVER RECEPTOR IMAGING AGENT - A test indicator for quantifying remaining liver function is provided. A novel liver receptor imaging agent with liver targeting property is utilized to develop a method for quantifying remaining liver function to serve as test indicator for judging the liver failure outcome in clinic, particularly for judging the necessity of liver transplantation for patients with liver failure or liver disease. The radioactivity uptake of the test indicator was negatively correlated with the extent of liver reserve. The cutoff value of liver reserve for liver transplantation is also disclosed. | 04-28-2011 |
20120107236 | LIVER- RECEPTOR IMAGING INJECTION, DISPENSING METHOD AND PHARMACEUTICAL COMPOSITION THEREOF - The present invention is related to a pharmaceutical composition for a liver-receptor imaging injection, the pharmaceutical composition including a bi-functional compound which has a ASGPR specificity, wherein the bi-functional compound includes a backbone of alpha-amino acid (or the derivatives thereof) and a poly-galactosamine chain (or a poly-lactose chain) connected to the alpha-amino acid. Thereby, the pharmaceutical composition can quantify potential of liver storage ability and evaluate severity of the course of liver disease. A liver-receptor imaging injection using the same and the one-step dispensing method thereof are also provided to improve defects of iodine-labeled and overcome disadvantages of the reduced labeling-yield and the instability after autoclave sterilization. | 05-03-2012 |
20120178919 | RADIOLABELED NUCLEOSIDE ANALOGUE, AND PREPARATION METHOD AND USE THEREOF - A radiolabeled nucleoside analogue is provided, which includes radioactive iodine | 07-12-2012 |
20130225798 | QUANTIFICATION METHOD FOR REMAINING LIVER FUNCTION AND NOVEL LIVER RECEPTOR IMAGING AGENT - A test indicator for quantifying remaining liver function is provided. A novel liver receptor imaging agent with liver targeting property is utilized to develop a method for quantifying remaining liver function to serve as test indicator for judging the liver failure outcome in clinic, particularly for judging the necessity of liver transplantation for patients with liver failure or liver disease. The radioactivity uptake of the test indicator was negatively correlated with the extent of liver reserve. The cutoff value of liver reserve for liver transplantation is also disclosed. | 08-29-2013 |
20140046045 | METHOD FOR PREPARING PRECURSOR USED FOR LABELING HEPATOCYTE RECEPTOR AND CONTAINING TRISACCHARIDE AND DTPA LIGAND - A method for preparing a precursor used to label hepatocyte receptors is revealed. The precursor contains a bifunctional structure including trisaccharide and DTPA ligand. During synthesis processes of the precursor, silica gel columns and Reverse phase-18 (RP-18) columns are used for purification. Thus both the purification times and cost of each purification are reduced. Moreover, use diethyl ether to facilitate precipitation of products and remove a part of coupling reagent. Removing the coupling reagent helps purification of products. Furthermore, N | 02-13-2014 |
20140066609 | SYNTHESIS METHOD OF GLYCO-DRUG RADIOTRACER PRECURSOR - A novel synthesis method of Glyco-drug radiotracer precursor is revealed. After completing synthesis of Z-Gly-ah (main structure), galactosamine GalNAc(OAc) | 03-06-2014 |
20140186262 | NOVEL GALL BLADDER IMAGING AGENT AND ITS PREPARATION METHOD - A novel gall bladder image agent which includes a radio-labelled MAG3-tri-galactosamine, and its preparation method, which includes reacting mercaptoacetyltriglycine (MAG3)-tri-galactosamine, SnF2 and Tc-99m in the presence of a phosphate buffer solution (at pH of from 10.0˜12.0) to obtain Tc-99m-MAG3-tri-galactosamine, when the MAG3-tri-galactosamine is MAG3-DCM-Lys(Gah-GalNAc)3 (where DCM represents a dicarboxymethyl group, and Gah represents a glycine-aminohexyl group), it obtains a labelling yield of at least 90%, and its specific radioactivity is at least 7.0×109 Bq/mg. | 07-03-2014 |
20140221639 | RADIOLABELED NUCLEOSIDE ANALOGUE, AND PREPARATION METHOD AND USE THEREOF - A radiolabeled nucleoside analogue is provided, which includes radioactive iodine | 08-07-2014 |
Patent application number | Description | Published |
20090068515 | Fuel Supplying and Controlling Method and Fuel Cell Apparatus Using the Same - A fuel supplying and controlling method and a fuel cell apparatus are provided in the present invention, in which a fuel sensor-less control method and a fuel concentration sensor are combined together to stabilize the operation of the fuel cell apparatus. In one embodiment of the present invention, an optimum range of fuel concentration is determined using the fuel sensor-less control method and then whether the fuel cell apparatus operates within the optimum range of fuel concentration or not is monitored using the fuel concentration sensor as a first line of defense, while the fuel sensor-less control method is used as a secondary line of defense for monitoring. In another embodiment of the present invention, the fuel sensor-less control method is used as a first line of defense for monitoring whether the fuel cell apparatus operates within the optimum range of fuel concentration or not and determining an optimum range of fuel concentration, while whether the fuel concentration exceeds the optimum range of fuel concentration is monitored using the fuel concentration sensor as a second line of defense for monitoring the fuel concentration. | 03-12-2009 |
20100003547 | METHOD FOR SUPPLYING FUEL TO FUEL CELL - The present invention provides a method for supplying fuel to a fuel cell, in which a monitoring period is determined for monitoring the fuel cell, and then a feeding amount of fuel is determined by integrating characteristic value generated from the fuel cell in the monitoring period. In another embodiment, it is further comprising a step of determining the variation profile associated with the characteristic value during the period so as to judge whether it is necessary to feed the fuel into the fuel cell or not. By means of the present invention, the supplying of fuel to the fuel cell under dynamic loadings can be effectively controlled for optimizing the performance of the fuel cell as well as reducing the cost without installing any fuel sensor. | 01-07-2010 |
20100261075 | FUEL SENSOR-LESS CONTROL METHOD FOR SUPPLYING FUEL TO FUEL CELL - The present invention provides a fuel sensor-less control method for supplying fuel to a fuel cell, in which a fixed control amount is determined for controlling the fuel supply of fuel cell, and then a feeding timing of the fixed fuel quantity is determined by integrating characteristic values generated from the fuel cell within the limit of fixed control amount. In another embodiment, it is further comprising a step of determining the variation profile associated with the characteristic values during the period so as to judge whether it is necessary to feed the fuel into the fuel cell or not. By means of the present invention, the supplying of fuel to the fuel cell under dynamic loadings can be effectively controlled for optimizing the performance of the fuel cell as well as reducing the cost without installing any fuel concentration sensor. | 10-14-2010 |
Patent application number | Description | Published |
20110063073 | TACTILE REMOTE CONTROL SYSTEM - The present invention discloses a tactile remote control system, which uses a processor to integrate the operation selection items of controlled devices and arrange the selection items into a graphic user interface, and which uses a microswitch to output instructions. The processor arranges the graphic user interfaces of a controlled device hierarchically. Therefore, the graphic user interfaces have organizationality, logicality and continuity. The user watches the display and operates the microswitches to remotely control the controlled devices. The present invention integrates the control functions to assist the user to control the daily-life electronic devices and household appliances. The present invention enables any one, who has been briefly instructed, to remotely control the linked devices by his will. | 03-17-2011 |
20130057072 | UNINTERRUPTED POWER SUPPLY APPARATUS AND POWER-SUPPLYING METHOD FOR THE SAME - An uninterrupted power supply apparatus is applied to an alternating current power apparatus and a load. The uninterrupted power supply apparatus includes a power distribution unit, a power supply unit, and an uninterrupted power supply unit. The power distribution unit includes a plurality of slots. The power distribution unit is electrically connected to the alternating current power apparatus and the load. The power supply unit is electrically connected to the power distribution unit and inserted into the corresponding slot. The uninterrupted power supply unit is electrically connected to the power distribution unit and inserted into the corresponding slot. The present invention is provided to improve the performance of the uninterrupted power supply and reduce occupied space of a cabinet to save space. | 03-07-2013 |
20140035376 | UNINTERRUPTIBLE POWER SYSTEM AND METHOD OF OPERATING THE SAME - An uninterruptible power system includes a power distribution apparatus and an interruptible power apparatus. The power distribution apparatus has a plurality of power supply units, which receive an external AC power and convert the external AC power into a first DC output power to supply a DC load. The interruptible power apparatus has a plurality of power conversion modules, which receive an external DC power and convert the external DC power into a second DC output power to supply the DC load. The DC load is supplied by the first DC output power when the external AC power normally operates; whereas the DC load is supplied by the second DC output power when the external AC power abnormally operates. | 02-06-2014 |
Patent application number | Description | Published |
20110102364 | CAPACITIVE TOUCH PANEL - A capacitive touch panel is provided. The capacitive touch panel includes a transparent substrate, a plurality of first sensing wires, a plurality of second sensing units, an insulation layer, a plurality of second sensing wires and a plurality of fourth sensing units. The transparent substrate has a substrate surface on which the insulation layer is disposed. The insulation layer covers the first sensing wires and the second sensing wires. A plurality of third sensing units of the second sensing wires is disposed on the insulation layer along a second axial direction. The fourth sensing units are disposed on the insulation layer along a first axial direction. The third sensing units and the fourth sensing units are adjacently arranged. | 05-05-2011 |
20110134070 | CAPACITIVE TOUCH PANEL - A capacitive touch panel including a transparent substrate, a plurality of first metal wires, an insulation layer, a plurality of first sensing units, a plurality of second sensing units and a plurality of second metal wires are provided. The transparent substrate has a substrate surface on which the first metal wires, the first sensing units and the second sensing units are formed. The insulation layer can cover a portion of each first metal wire, which is connected to two of the first sensing units, wherein each second metal wire is connected to two of the second sensing units. | 06-09-2011 |
Patent application number | Description | Published |
20090023300 | METHOD OF FORMING SHADOW LAYER ON THE WAFER BEVEL - A method of forming a shadow layer on a wafer bevel region is provided. First, a substrate having the wafer bevel region and a central region is provided. Thereafter, an upper insulator and a lower insulator are provided. The upper insulator is disposed on an upper surface of the substrate and at least covers the central region. The lower insulator is disposed on a lower surface of the substrate and at least covers the central region. A shadow layer is then formed on the upper surface which is not covered by the upper insulator and on the lower surface which is not covered by the lower insulator. Next, the upper insulator and the lower insulator are removed. | 01-22-2009 |
20120309155 | SEMICONDUCTOR PROCESS - A semiconductor process is provided. A substrate is provided, gates each including a silicon layer, a silicide layer and a cap layer are formed thereon, and doped regions are formed at two sides of each gate. An insulating layer is formed to cover a memory region and a periphery region. First contact holes are formed in the insulating layer in the memory region, and each first contact hole is disposed between the two adjacent gates and exposes the doped region. A contact plug is formed in each first contact hole to electrically connect the doped region. A patterned mask layer is formed on the substrate to cover the memory region and expose a portion of the periphery region. Using the patterned mask layer as a mask, second and third contact holes are formed in the insulating layer in the periphery region, to expose the silicide layer and the doped region. | 12-06-2012 |
20120309192 | SEMICONDUCTOR PROCESS - A semiconductor process is provided. A mask layer is formed on a substrate and has a first opening exposing a portion of the substrate. Using the mask layer as a mask, a dry etching process is performed on the substrate to form a second opening therein. The second opening has a bottom portion and a side wall extending upwards and outwards from the bottom portion, wherein the bottom portion is exposed by the first opening and the side wall is covered by the mask layer. Using the mask layer as a mask, a vertical ion implantation process is performed on the bottom portion. A conversion process is performed, so as to form converting layers on the side wall and the bottom portion of the second opening, wherein a thickness of the converting layer on the side wall is larger than a thickness of the converting layer on the bottom portion. | 12-06-2012 |
20130017684 | PROCESS OF FORMING SLIT IN SUBSTRATEAANM Wang; Wen-ChiehAACI Taoyuan CountyAACO TWAAGP Wang; Wen-Chieh Taoyuan County TWAANM Chen; Yi-NanAACI Taipei CityAACO TWAAGP Chen; Yi-Nan Taipei City TWAANM Liu; Hsien-WenAACI Taoyuan CountyAACO TWAAGP Liu; Hsien-Wen Taoyuan County TW - A process of forming a slit in a substrate is provided. A mask layer is formed on a substrate, wherein the mask layer does not include carbon. An etching process is performed to be substrate by using the mask layer as a mask, so as to form a slit in the substrate. The etching gas includes Cl | 01-17-2013 |
20130330660 | HARD MASK SPACER STRUCTURE AND FABRICATION METHOD THEREOF - A hard mask spacer structure includes a first spacer on a device layer, the first spacer defining a plurality of hole patterns and at least an asteriated hole pattern between the hole patterns; and a second spacer on the first spacer and inlaid into the asteriated hole pattern, thereby rounding the asteriated hole pattern. | 12-12-2013 |
20140252459 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - Provided is a method for fabricating a semiconductor device, which includes the following steps. A substrate having a plurality of pillars is provided, wherein a plurality of trenches are formed around each pillar, and a doped region is disposed at a bottom of each pillar. An insulation layer is formed below each doped region. | 09-11-2014 |
Patent application number | Description | Published |
20090218571 | ACTIVE DEVICE ARRAY SUBSTRATE AND FABRICATION METHOD THEREOF - A fabrication method of an active device array substrate is disclosed. A first metal material layer, a gate insulation material layer, a channel material layer, a second metal material layer, and a first photoresist layer are formed over a substrate sequentially. The first photoresist layer is patterned with a multi-tone mask to form a first patterned photoresist layer with two thicknesses. A first and second removing processes are performed sequentially using the first patterned photoresist layer as a mask to form a gate, a gate insulation layer, a channel layer, and a source/drain. The first patterned photoresist layer is removed. A passivation layer and a second patterned photoresist layer are formed over the substrate. A third removing process is performed to form a plurality of contact holes. A pixel electrode material layer is formed over the substrate. The second patterned photoresist layer is lifted off to form a pixel electrode. | 09-03-2009 |
20120100652 | FABRICATION METHOD OF ACTIVE DEVICE ARRAY SUBSTRATE - A fabrication method of an active device array substrate is disclosed. A first metal material layer, a gate insulation material layer, a channel material layer, a second metal material layer, and a first photoresist layer are formed over a substrate sequentially. The first photoresist layer is patterned with a multi-tone mask to form a first patterned photoresist layer with two thicknesses. A first and second removing processes are performed sequentially using the first patterned photoresist layer as a mask to form a gate, a gate insulation layer, a channel layer, and a source/drain. The first patterned photoresist layer is removed. A passivation layer and a second patterned photoresist layer are formed over the substrate. A third removing process is performed to form a plurality of contact holes. A pixel electrode material layer is formed over the substrate. The second patterned photoresist layer is lifted off to form a pixel electrode. | 04-26-2012 |
20130271388 | TOUCH SENSING THREE-DIMENSIONAL DISPLAY DEVICE - A touch sensing three-dimensional (3D) display device includes a display panel and a touch sensing parallax integrated panel. The touch sensing parallax integrated panel located on the display panel includes a first substrate, a second substrate, a touch sensing structure, a display medium layer, a first parallax electrode layer, and a second parallax electrode layer. The second substrate is disposed opposite to the first substrate. The first substrate is located between the display panel and the second substrate. The touch sensing structure is located on the second substrate. The display medium layer is disposed between the first substrate and the second substrate. The first parallax electrode layer disposed on the first substrate is located between the display medium layer and the first substrate. The second parallax electrode layer disposed on the second substrate is located between the display medium layer and the second substrate. | 10-17-2013 |
Patent application number | Description | Published |
20110059622 | SEMICONDUCTOR MANUFACTURING PROCESS - A semiconductor manufacturing process is provided. First, a wafer with a material layer and an exposed photoresist layer formed thereon is provided, wherein the wafer has a center area and an edge area. Thereafter, the property of the exposed photoresist layer is varied, so as to make a critical dimension of the exposed photoresist layer in the center area different from that of the same in the edge area. After the edge property of the exposed photoresist layer is varied, an etching process is performed to the wafer by using the exposed photoresist layer as a mask, so as to make a patterned material layer having a uniform critical dimension formed on the wafer. | 03-10-2011 |
20110081618 | LITHO-LITHO ETCH (LLE) DOUBLE PATTERNING METHODS - Litho-litho-etch double patterning (LLE-DP) methods using silylation freeze technology are presented. The LLE-DP method using a silylation freeze reaction comprises providing a substrate with a first photoresist layer thereon. A first exposure process is performed defining a first latent image in a first photoresist. The first patterned structures on the substrate is developed and baked for photo-generated acid diffusion. The photo-generated acid is reacted with a silylation agent to freeze the first patterned structures. A second photoresist layer is formed overlying the substrate. A second lithography process is performed to create second patterned structures on the substrate. The first patterned structures and the second patterned structures are interlaced each other. | 04-07-2011 |
20110244395 | APPARATUS AND METHOD FOR HAZE CONTROL IN A SEMICONDUCTOR PROCESS - A method for haze control in a semiconductor process, includes: providing an exposure tool with a photocatalyzer coating inside and exposing a wafer in the exposure tool in the presence of activation of the photocatalyzer coating. The photocatalyzer coating may be formed within an opaque region of a reticle. | 10-06-2011 |
20110250540 | SEMICONDUCTOR LITHOGRAPHY PROCESS - A semiconductor lithography process. A photoresist film is coated on a substrate. The photoresist film is subjected to a flood exposure to blanket expose the photoresist film across the substrate to a first radiation with a relatively lower dosage. The photoresist film is then subjected to a main exposure using a photomask to expose the photoresist film in a step and scan manner to a second radiation with a relatively higher dosage. After baking, the photoresist film is developed. | 10-13-2011 |
Patent application number | Description | Published |
20090207369 | PERIPHERAL CIRCUIT - A peripheral circuit disposed on a substrate having an active device array is provided. The peripheral circuit includes first test pads, second test pads, first lines, and second lines. The first and the second lines are electrically connected to the active device array. Each first test pad includes a first conductive layer and a second conductive layer electrically connected to the first conductive layer. The first conductive layer electrically connects at least two of the adjacent first lines. The second test pads are interposed between the first test pads and the active device array. Each second test pad includes third conductive layers and a fourth conductive layer electrically connected to the third conductive layers. The first lines pass through the third conductive layers and are insulated from the fourth conductive layer. Each third conductive layer is electrically connected to one of the adjacent second lines respectively. | 08-20-2009 |
20100085526 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel includes a first transparent substrate, a second transparent substrate opposite to the first transparent substrate, and a sealant disposed therebetween. The first transparent substrate includes a peripheral region, and a plurality of conductive lines disposed in the peripheral region. The conductive lines include a plurality of transparent conductive lines and non-transparent conductive lines. The sealant is disposed in the peripheral region. | 04-08-2010 |
20100104956 | MANUFACTURING METHODS OF ASYMMETRIC BUMPS AND PIXEL STRUCTURE - A manufacturing method of asymmetric bumps is provided. First, a substrate is provided. A film layer is then formed on the substrate. Next, a complex photomask including at least one transparent region, a number of opaque regions, and a number of semi-transparent regions is provided. Each of the semi-transparent regions is disposed between two adjacent opaque regions, and at least one light-shielding pattern is randomly disposed in each of the semi-transparent regions. The film layer is then patterned with use of the complex photomask, and multiple asymmetric bumps are formed on the substrate. By using the complex photomask, manufacturing steps of the asymmetric bumps can be reduced. Besides, a manufacturing method of a pixel structure having the above-mentioned asymmetric bumps is also provided. | 04-29-2010 |
20100227442 | METHOD OF MANUFACTURING THIN FILM TRANSISTOR - A method of manufacturing thin film transistor is provided, in which the method of manufacturing includes a new etching process of island semiconductor. The new etching process of island semiconductor is controlled by a flow rate of etching gas and a regulation of etching power. When etching the island semiconductor, a part of gate insulation layer exposed out of the island semiconductor is etched at the same time. Consequently, the thickness of gate insulation layer over the storage capacitance electrode is reduced, the distance between the pixel electrode and the storage capacitance electrode is decreased, and the storage capacitance of pixel is increased. Finally, the width of storage capacitance electrode is reduced appropriately and the aperture ratio of product is increased. | 09-09-2010 |