Patent application number | Description | Published |
20100165191 | De-Interlacing Method and Controller Thereof - A de-interlacing method and controller is provided. The de-interlacing method includes steps of de-interlacing based on an i | 07-01-2010 |
20100283792 | Image Processing System and Image Processing Method - An image processing system includes a memory, a data slicer and an image processor. The data slicer divides each of current image data and adjacent image data into a first portion and a second portion to be stored into the memory. The image processor reads from the memory the first portion and the second portion of the current image data and the first portion of the adjacent image data for image processing. | 11-11-2010 |
20110102411 | Low-Power Display Control Method and Associated Display Controller - A low-power display control method and associated display controller is provided. The low-power display control method detects a sensing signal to generate a sensing result. A control signal is generated according to the sensing result to control a power conversion controller to operate in a low-power power saving mode. In response to a wake-up event, the control signal is deasserted and an associated auxiliary circuit is also turned off, and then the display controller is woken up to restore to a normal operating mode. | 05-05-2011 |
20110292187 | 3D Display Control Device and Method Thereof - A three-dimensional (3D) display control device generates a suitable and fixed output timing signal for a 3D display panel. Regardless of input 3D video format, the 3D display control device maintains a stable 3D display quality. The 3D display control device includes a receiving unit, for receiving 3D video data and a corresponding input timing signal from a 3D video source; and a timing control unit, for generating a group of output timing signals for displaying the 3D video data to the 3D display panel according to the input timing signal. The group of output timing signals corresponds to a group of output timing parameters for the 3D display panel, and the group of output timing parameters is independent from a 3D video format of the 3D video data. | 12-01-2011 |
Patent application number | Description | Published |
20080266305 | Display controller for displaying multiple windows and method for the same - A display controller for displaying multiple windows and associated memory access method are provided. The display controller receives a first video source and a second video source for displaying multiple windows, and includes a line buffer, a deinterlacer, a scaler, and a memory interface unit. The line buffer buffers pixel data of a non-overlapped area of a main image associated with the first video source, and pixel data of a sub image associated with the second video source. The deinterlacer is coupled to the line buffer for selectively deinterlacing data in the line buffer. The scaler is coupled to the deinterlacer for selectively scaling data outputted from the deinterlacer. The memory interface unit is coupled to the line buffer for accessing an external memory. | 10-30-2008 |
20090152250 | BEAM MODULATING APPARATUS FOR MOLD FABRICATION BY ULTRA-FAST LASER TECHNIQUE - The present invention relates to a beam modulating apparatus for mold fabrication by ultra-fast laser technique. More particularly, the present invention discloses a beam modulating apparatus for fabricating micro-/nano-scaled structures, which adopts an energy shaping scheme for beam shape modulation while using the modulated beam for mold fabrication. Following the development of flexible electronic devices, such as flexible displays, all kinds of roller molds formed with micro-/nano-scaled structures are becoming the key issue for commercialization and mass production which require a breakthrough in ultra-precision machining and photo-lithography that overcomes the bottlenecks related to shape, size, thermal effect and precision for fabricating sub-micron sized structures and thus greatly enhancing product design capability and functionality. The present invention is capable of modulating pulse shape of an ultra-fast laser beam for making the energy distribution uniform on a mold, that it can be used directly on a curved surface of a metal cylinder since as a cold machining process which utilizes ultra-fast pulsed laser. Moreover, it can be used for forming micro-/nano-scaled structures of any complicated three-dimensional shapes on a mold with line width that is smaller than 10 μm while enabling the mold to be suitable for a roll-to-roll process so as to meet the requirement of cost reduction and value addition. | 06-18-2009 |
20090284275 | CONDUCTIVE FILM STRUCTURE, FABRICATION METHOD THEREOF, AND CONDUCTIVE FILM TYPE PROBE DEVICE FOR IC - A method for forming a conductive film structure is provided, which includes providing a flexible insulating substrate, forming a conductive film overlying the flexible insulating substrate, patterning the conductive film to form a plurality of micro-wires overlying the flexible insulating substrate, wherein the micro-wires are extended substantially parallel to each other, forming an insulating layer overlying the flexible insulating substrate and the micro-wires, and winding or folding the flexible insulating substrate along an axis substantially parallel to an extending direction of the micro-wires to form a conducting lump. | 11-19-2009 |
20110079804 | POLARIZED LIGHT EMITTING DIODE DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a polarized light emitting diode (LED) device and the method for manufacturing the same, in which the LED device comprises: a base, a light emitting diode (LED) chip, a polarizing waveguide and a packaging material. In an exemplary embodiment, the LED chip is disposed on the base and is configured with a first light-emitting surface for outputting light therefrom; and the waveguide, being comprised of a polarization layer, a reflection layer, a conversion layer and a light transmitting layer, is disposed at the optical path of the light emitted from the LED chip; and the packaging material is used for packaging the waveguide, the LED chip and the base into a package. | 04-07-2011 |
20110107596 | CONDUCTIVE FILM STRUCTURE, FABRICATION METHOD THEREOF, AND CONDUCTIVE FILM TYPE PROBE DEVICE FOR IC - A method for forming a conductive film structure is provided, which includes providing a flexible insulating substrate, forming a conductive film overlying the flexible insulating substrate, patterning the conductive film to form a plurality of micro-wires overlying the flexible insulating substrate, wherein the micro-wires are extended substantially parallel to each other, forming an insulating layer overlying the flexible insulating substrate and the micro-wires, and winding or folding the flexible insulating substrate along an axis substantially parallel to an extending direction of the micro-wires to form a conducting lump. | 05-12-2011 |
20110169519 | CONDUCTIVE FILM STRUCTURE, FABRICATION METHOD THEREOF, AND CONDUCTIVE FILM TYPE PROBE DEVICE FOR IC - A method for forming a conductive film structure is provided, which includes providing a flexible insulating substrate, forming a conductive film overlying the flexible insulating substrate, patterning the conductive film to form a plurality of micro-wires overlying the flexible insulating substrate, wherein the micro-wires are extended substantially parallel to each other, forming an insulating layer overlying the flexible insulating substrate and the micro-wires, and winding or folding the flexible insulating substrate along an axis substantially parallel to an extending direction of the micro-wires to form a conducting lump. | 07-14-2011 |
20120107977 | POLARIZED LIGHT EMITTING DIODE DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a polarized light emitting diode (LED) device and the method for manufacturing the same, in which the LED device comprises: a base, a light emitting diode (LED) chip, a polarizing waveguide and a packaging material. In an exemplary embodiment, the LED chip is disposed on the base and is configured with a first light-emitting surface for outputting light therefrom; and the waveguide, being comprised of a polarization layer, a reflection layer, a conversion layer and a light transmitting layer, is disposed at the optical path of the light emitted from the LED chip; and the packaging material is used for packaging the waveguide, the LED chip and the base into a package. | 05-03-2012 |
20120251035 | CIRCULAR PHOTONIC CRYSTAL STRUCTURE, LIGHT EMITTING DIODE DEVICE AND PHOTOELECTRIC CONVERSION DEVICE - A method applying a circular photonic crystal structure to improve optical properties of a photoelectric conversion device such as a light emitting diode device, an organic light emitting diode device or a solar cell is provided, wherein the circular photonic crystal structure is configured on a junction surface between two different mediums where passes a light emitted or received by the photoelectric conversion device. The circular photonic crystal structure provides isotropic photonic band gap which conduces high light extraction efficiency. | 10-04-2012 |
20130312822 | SOLAR-CELL DEVICE - The disclosure provides a solar-cell device, including a substrate, a first electrode layer comprising a first two-dimensional periodic structure disposed on the substrate, a first light conversion layer disposed on the first two-dimensional periodic structure, a second light conversion layer disposed on the first light conversion layer; and a second electrode layer disposed on the second light conversion layer. | 11-28-2013 |
Patent application number | Description | Published |
20110068356 | Method of manufacturing light emitting diode packaging lens and light emmiting diode package - A method of manufacturing light emitting diode packaging lens and packages made by using the method are disclosed in the present invention. By using electrophoretic deposition, one or more layers of phosphors are coated onto one surface of a cup which has a curved portion. The cup is used for the packaging lens. Thickness of phosphor layer can be controlled and distribution of phosphor particles is uniform. Therefore, light emitting diode packages with the lens can be a uniform light source. | 03-24-2011 |
20110080108 | Color tunable light emitting diode - A color tunable light emitting diode is disclosed in the present invention. At least two light emitting chip groups each has a number of light emitting chips mixed with at least one phosphor to produce light with a specific correlated color temperature. By supplying tunable currents to the light emitting chip groups, properly arranging the light emitting chips and providing a suitable substrate, the color tunable light emitting diode can be achieved. The present invention provides a simple and workable method to manufacture tunable light emitting diodes which fulfill the requirement of compact design of modern electronic products. | 04-07-2011 |
20110163679 | AC LIGHT EMITTING DIODE DEVICE HAVING INTEGRATED PASSIVE DEVICE - A light emitting diode device is disclosed in the present invention. The device includes a substrate, an integrated passive device, at least four rectifying diodes and several light emitting diodes. The rectifying diodes form a bridge rectifier to rectify an external alternating current (AC) inputted into a direct current so that the light emitting diodes can lighten. Furthermore, the light emitting diode device has a Zener diode, formed on the substrate and connected with the integrated passive device for regulating the direct current. It can also have a varistor, connected with the Zener diode in parallel, for protecting the light emitting diode device from surges. | 07-07-2011 |
20110164223 | MICROMINIATURIZED PROJECTION MODULE FOR PROJECTING IMAGE ONTO OBJECT - A microminiaturized projection module for projecting an image onto an object is disclosed in the present invention. The module includes a number of light units each for providing red, green, and blue beams; an image processing unit for receiving the image, dividing the image into n×m image signals, and transforming each of the image signals into a modulating signal and a direction signal, where n and in are integrals not less than 2, respectively; a number of modulation units for modulating the beams from one light unit according to the modulating signal received from the image processing unit and sending out the modulated beams simultaneously; and an array of n×m mirrors for projecting the modulated beams to form the image onto the object according to the direction signal received from the image processing unit. The invention has advantages that can reduce modulation speed, undergo slight shock and be free from raster pinch effect. | 07-07-2011 |
20110198619 | LIGHT EMITTING DIODE ASSEMBLY HAVING IMPROVED LIGHTING EFFICIENCY - A light emitting diode assembly is disclosed in the present invention. The light emitting diode assembly has a substrate and several light emitting diode units. It can also include several light emitting diode units fabricated on cavities formed in the substrate. Any light emitting diode unit is composed of a light emitting diode chip covered with a phosphor layer for providing light beams, and a reflecting unit installed or formed on the substrate, coated with a reflective film, surrounding the light emitting diode chip for reflecting the light beams emitted from the light emitting diode chip, and directing the light beams upward. The light emitting diode unit further includes a light condenser provided above the light emitting diode chip for guiding the light beams upward. The assembly can collect all light beams emitted laterally. Hence, lighting efficiency for the light emitting diode assembly can be improved. | 08-18-2011 |
20110221663 | EDGE TYPE BACKLIGHTING MODULE - An edge type backlighting module is disclosed in the present invention. The edge type backlighting module includes at least one light source array for providing light beams; at least one reflecting mirror, rotating within a specified angle, for reflecting the light beams; and a light adjusting medium for adjusting outgoing directions of the reflected light beams. It further has at least one infrared sensor for detecting light beams reflected from a surface of the light adjusting medium when a user touches the surface and generating a signal representing a touch location. | 09-15-2011 |
20110309057 | LASER HEATING APPARATUS FOR METAL EUTECTIC BONDING - A laser heating apparatus for metal eutectic bonding is disclosed in the present invention. The laser heating apparatus has a table for supporting a substrate having a first metal; a holding unit, located above the table and moving with respect to the table, for holding an object having a second metal above the table; and a laser generator, installed below the table and moving with respect to the table, for providing a laser beam which passes through the table and the substrate to melt the first metal, to facilitate the first metal to adhered to the second metal, thereby bonding the substrate with the object. The apparatus provides good heat conduction and stability. Furthermore, the holding unit used is not only for positioning, but also exerting a pressure on the bonding metals. It makes eutectic bonding process easier and more efficient. | 12-22-2011 |
20110310451 | BIAXIAL SCANNING MIRROR FOR IMAGE FORMING APPARATUS AND METHOD FOR OPERATING THE SAME - A biaxial scanning minor is disclosed in the present invention. The minor includes: a first wafer having several cavities forming a first row and a second row, several permanent magnets each installed in one of the cavities, a spacer and a second wafer. The second wafer includes: a minor unit, rotating around a first axis, for reflecting light beams; and a rotating unit, formed around the minor unit, for rotating the minor unit around a second axis which is perpendicular to the first axis. At least one coil substrate having a planar coil is assembled in the rotating unit. | 12-22-2011 |
20110310452 | BIAXIAL SCANNING MIRROR FOR IMAGE FORMING APPARATUS - A biaxial scanning mirror for an image forming apparatus is disclosed in the present invention. The mirror includes a first wafer, a second wafer, and a spacer. The first wafer includes a mirror unit, a rectangular rotating unit, a permanent magnet, and a magnetically permeable layer. The second wafer has at least two cores each surrounded by a planar coil applied with an AC current for switching magnetic polarization of the cores such that the cores are attracted to or repelled from the rotating unit alternatively, thereby driving the rotating unit to rotate. | 12-22-2011 |
20120086537 | PLANAR COIL AND METHOD OF MAKING THE SAME - A method of making a planar coil is disclosed in the present invention. First, a substrate having a trench is provided. Then, a barrier and a seed layer are formed on the substrate in sequence. An isolative layer is used for guiding a conductive material to flow into a lower portion of the trench such that accumulation of the conductive material at opening of the trench is prevented before the lower portion of the trench is completely filled up, thereby avoiding gap formation in the trench. | 04-12-2012 |
20130043136 | PLANAR COIL AND METHOD OF MAKING THE SAME - A method of making a planar coil is disclosed in the present invention. First, a substrate having a trench is provided. Then, a barrier and a seed layer are formed on the substrate in sequence. An isolative layer is used for guiding a conductive material to flow into a lower portion of the trench such that accumulation of the conductive material at opening of the trench is prevented before the lower portion of the trench is completely filled up, thereby avoiding gap formation in the trench. | 02-21-2013 |
Patent application number | Description | Published |
20090075406 | INTEGRATION MANUFACTURING PROCESS FOR MEMS DEVICE - A method for manufacturing an MEMS device is provided. The method includes steps of a) providing a first substrate having a concavity located thereon, b) providing a second substrate having a connecting area and an actuating area respectively located thereon, c) forming plural microstructures in the actuating area, d) mounting a conducting element in the connecting area and the actuating area, e) forming an insulating layer on the conducting element and f) connecting the first substrate to the connecting area to form the MEMS device. The concavity contains the plural microstructures. | 03-19-2009 |
20110174058 | INTEGRATION MANUFACTURING PROCESS FOR MEMS DEVICE - A method for manufacturing an MEMS device is provided. The method includes steps of a) providing a first substrate having a concavity located thereon, b) providing a second substrate having a connecting area and an actuating area respectively located thereon, c) forming plural microstructures in the actuating area, d) mounting a conducting element in the connecting area and the actuating area, e) forming an insulating layer on the conducting element and f) connecting the first substrate to the connecting area to form the MEMS device. The concavity contains the plural microstructures. | 07-21-2011 |
20120111096 | INTEGRATION MANUFACTURING PROCESS FOR MEMS DEVICE - A method for manufacturing an MEMS device is provided. The method includes steps of a) providing a first substrate having a concavity located thereon, b) providing a second substrate having a connecting area and an actuating area respectively located thereon, c) forming plural microstructures in the actuating area, d) mounting a conducting element in the connecting area and the actuating area, e) forming an insulating layer on the conducting element and f) connecting the first substrate to the connecting area to form the MEMS device. The concavity contains the plural microstructures. | 05-10-2012 |
Patent application number | Description | Published |
20120218307 | ELECTRONIC DEVICE WITH TOUCH CONTROL SCREEN AND DISPLAY CONTROL METHOD THEREOF - A display control method of a touch control screen and an electronic device applying the same are provided. The method is for enlarging a specific zone at the touch control screen and for the user to edit or selection at the enlarged zone. The method includes steps of: determining whether a plurality of first touch points stay at the touch control screen over a predetermined time; enlarging a partial zone image for showing an enlarged zone on the touch control screen; providing a second touch point on the enlarged zone for generating a corresponding position signal; and scaling the position signal, generating a converted signal and inputting the converted signal to a control module. | 08-30-2012 |
20120218308 | ELECTRONIC APPARATUS WITH TOUCH SCREEN AND DISPLAY CONTROL METHOD THEREOF - A display control method of a touch control screen and an electronic device applying the same are provided. According to the method, small user interfaces are magnified, and the user selects a target user interface according to a magnified zone. The method includes steps of: forming a touch boundary according to a position signal of a touch point; determining whether the touch boundary collides with a user interface; executing an image magnifying action according to the touch boundary and displaying the magnified zone on the touch control screen if the touch boundary collides with the user interface at the touch control screen; vanishing the touch point on the touch control screen after moving the touch point to a target user interface to execute a corresponding function of the target user interface via a control application module. | 08-30-2012 |
20120297336 | COMPUTER SYSTEM WITH TOUCH SCREEN AND ASSOCIATED WINDOW RESIZING METHOD - A computer system with a touch screen is provided. The computer system includes a touch unit, a hook unit, and a controlling application program. The touch unit generates a position signal according to the touch point. The hook unit is used for judging whether the first position is near a border of a to-be-resized window according to the position signal. If the first position is not near the border, a left button pressing event at the first position and a left button releasing event at the first position are generated. If the first position is near the border, the left button pressing event at the second position, a continuous motion event corresponding to the movement from the second position to a third position and the left button releasing event at the third position are sequentially generated. | 11-22-2012 |
20130154967 | ELECTRONIC DEVICE AND TOUCH CONTROL METHOD THEREOF - A touch control method is adapted for an electronic device. The electronic device includes a touch pad and a control processor. The control processor is electronically connected to the touch pad and has a reference value. First, producing a touch a first pressure at the touch pad, and then generating a click signal when the touch on the touch pad is increased from a first pressure to a second pressure and the increase value of the second pressure is larger than the reference value. | 06-20-2013 |
20130185769 | NEAR FIELD COMMUNICATION ELECTRONIC DEVICE, LOGIN SYSTEM USING THE SAME AND METHOD THEREOF - A near field communication (NFC) electronic device, a login system using the same and a method thereof are disclosed. The NFC electronic device includes a reading module, an embedded controller and a matching module. The reading module receives identification information transmitted from a readable component when the readable component approaches. The embedded controller is connected to the reading module and stores the identification information. The matching module is connected to the embedded controller and performs a matching authentication according to the identification information. If the matching authentication is successful, the matching module searches whether required account confidential information exists in a database according to the identification information. If yes, the matching module selects and transmits the required account confidential information to the embedded controller. The embedded controller outputs a hardware signal corresponding to the account confidential information to an application program of a user login screen. | 07-18-2013 |