Patent application number | Description | Published |
20100172651 | LIGHT EMITTING DEVICE, LIGHT RECEIVING DEVICE, DATA TRANSMISSION SYSTEM AND DATA TRANSMISSION METHOD USING THE SAME - A light emitting device, a light receiving device and a data transmission system and a data transmission method using the same are provided. The data transmission system includes the light emitting device and the light receiving device. The light emitting device includes a light emitting unit and a control circuit, and the light receiving device includes an image capture unit, a recognition unit and a decoding unit. The control circuit controls the light emitting unit to sequentially display a plurality of pattern images in a plurality of frame times to form a spatiotemporal pattern image according to setting data corresponding to a temporal domain and a spatial domain. The image capture unit captures the spatiotemporal pattern image. The recognition unit recognizes the spatiotemporal pattern image to output recognized data. The decoding unit decodes the recognized data to output decoded data. | 07-08-2010 |
20140334520 | DETACHED-TYPE TEMPERATURE INDICATOR AND METHOD FOR USING THE SAME - A detached-type temperature indicator and method for using the same is disclosed. The indicator includes a temperature sensing module and a temperature display module. These two modules are separated apart with a distance, and the temperature change sensed by the temperature sensing module can be displayed on the separate temperature display module without using any power sources. This indicator is suitable for observing the magnetic sensing patterns which reflect the temperature variations within the package from the exterior of the package without opening the package. Also, this indicator may be used repeatedly. | 11-13-2014 |
20150192678 | SATELLITE POSITIONING METHOD, SATELLITE POSITIONING APPARATUS, AND COMPUTER-READABLE MEDIUM - Disclosed herein are a method and an apparatus of satellite positioning, the apparatus comprising a receiver module, a phase-difference measurement module, an angle-of-arrival calculation module, and a positioning module. The receiver module receives at a locale a first and a second signal from a satellite. The phase-difference measurement module measures the frequency of a phase difference of the signals along a geographic direction. The angle-of-arrival calculation module calculates the cosine of an angle of arrival of the signals for the geographic direction based on the frequency of the phase difference, the frequency difference of the signals, and a travelling speed of the satellite along that geographic direction. The positioning module calculates the coordinate of the locale along the geographic direction in the three-dimensional space based on that of the satellite, a distance between the satellite and the locale, and the cosine of the angle of arrival. | 07-09-2015 |
Patent application number | Description | Published |
20110216253 | THREE-DIMENSIONAL DISPLAY AND DISPLAYING METHOD THEREOF - A three-dimensional display including a display panel and a phase retardation film is provided. The display panel has a plurality of first pixel regions and a plurality of second pixel regions arranged in arrays. The phase retardation film is configured on a surface of the display panel. Here, the phase retardation film has a plurality of first retardation regions and a plurality of second retardation regions that are arranged alternately. The first retardation regions have the same phase retardation, the second retardation regions have the same phase retardation, and the phase retardation of the first retardation regions is different from that of the second retardation regions. All the regions of the phase retardation film have the same optical transmittance. A displaying method adaptable to the three-dimensional display is also provided. | 09-08-2011 |
20110216277 | THREE-DIMENSIONAL DISPLAY AND DISPLAY METHOD THEREOF - A three-dimensional (3D) display including a display panel and a phase retardation film is provided. The display panel has a plurality of first pixel regions and a plurality of second pixel regions that are arranged as an array. The phase retardation film is disposed on the surface of the display panel. The phase retardation film has a plurality of first retardation regions and a plurality of second retardation regions that are alternately arranged. The first retardation regions have the same phase retardation, the second retardation regions have the same phase retardation, and the phase retardation of the first retardation regions is different from that of the second retardation regions. All the regions of the phase retardation film have the same transmittance. A display method adaptable to the 3D display is also provided. | 09-08-2011 |
20120169714 | DISPLAY SYSTEM - A display system including a display apparatus for displaying a first image and a second image, two first lenses and two second lenses is provided. When a viewer sees the display apparatus via one first lenses and one second lenses, and the first image as well as the second image are parallax images, the first and second images are respectively saw by different eyes of the viewer. When the viewer sees the display apparatus through the two first lenses, and the first image as well as the second image are not parallax images, the first image irrelevant to the second image is saw by the viewer. When the viewer sees the display apparatus through the two second lenses, and the first image as well as the second image are not parallax images, the second image irrelevant to the first image is saw by the viewer. | 07-05-2012 |
Patent application number | Description | Published |
20140142738 | METHOD AND SYSTEM FOR DETERMINING A STATUS OF AT LEAST ONE MACHINE AND COMPUTER READABLE STORAGE MEDIUM STORING THE METHOD - A method for determining a status of at least one machine includes the following steps: a processing unit is utilized to receive and record spindle load values of the spindle in a period of time to generate a spindle load record of the spindle, and to determine if a preset condition is matched according to the spindle load record. When the preset condition is matched, the processing unit is utilized to determine a present category corresponding to the spindle load record of the spindle, and to obtain parameter-to-be-collected information corresponding to the present category. The processing unit is utilized to obtain at least one value of at least one collected parameter of the at least one machine according to the parameter-to-be-collected information corresponding to the present category, and to determine a status of the at least one machine according to the obtained value of the at least one collected parameter. | 05-22-2014 |
20150142165 | UTILIZATION RATE CALCULATION METHOD AND SYSTEM THEREOF, EMBEDDED SYSTEM AND COMPUTER READABLE STORAGE MEDIUM - A utilization rate calculation method is disclosed. The utilization rate calculation method comprises steps as follows: scanning an operation signal of I/O ports via a I/O port capturing module; continuously receiving the operation signal via the I/O port capturing module; determining whether a machine tool is running according to the operation signal and a processing machine operation rule via a utilization rate calculation system; if the machine tool is running, recording a processing time data of the machine tool; generating a utilization rate according to the processing-time data and time data to be processed, wherein the processing-machine operation rule is a record for at least one I/O port stand for running corresponding to the machine tool which is running, and the I/O port stand for running is one of the I/O ports. | 05-21-2015 |
20150143967 | SYSTEM, CUTTER ASSEMBLY, AND METHOD FOR AUTOMATIC CHIP BREAKING AND CUTTING MACHINE SYSTEM - A system for automatic chip breaking used in a cutting machine is illustrated, wherein the cutting machine has a cutter and a spindle actuator. According to control information, the spindle actuator controls the cutter to move along with a first axis to cut a workpiece, and the chips are produced. The system for automatic chip breaking includes a signal collection device, a controller, and an actuator. The signal collection device electrically coupled to the cutting machine collects the control information. The controller electrically coupled to the signal capturing device triggers a control signal according to the control information. The actuator installed between the spindle actuator and the cutter is electrically coupled to the controller, and controls the cutter to vibrate along with a second axis according to the control signal, wherein the second axis and the first axis have a specific angle. | 05-28-2015 |
20150148922 | EMBEDDED SYSTEM, FOOL-PROOF CONTROL METHOD AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An embedded system is disclosed. The embedded system is used for preventing a processing machine from an abnormal phenomenon when at least one processing parameter setting value is inputted into the processing machine. The embedded system is electrically connected to the processing machine, and the processing machine comprises an input interface, a first storing medium, a first controller and a stepper motor. The embedded system comprises a second storing medium and a second controller. The second controller captures the a processing parameter setting value inputted and compares it with a security range, so as to determine whether the processing machine is able to perform process for a workpiece. When the second controller determines that the processing machine is not able to perform process for the workpiece, a stop signal is generated and transmitted to the processing machine to stop performing process for the workpiece. | 05-28-2015 |
Patent application number | Description | Published |
20090278162 | Low Temperature Co-Fired Ceramic (LTCC) Tape Compositions, Light-Emitting Diode (LED) Modules, Lighting Devices and Methods of Forming Thereof - The present invention provides LTCC (low temperature co-fired ceramic) tape compositions and demonstrates the use of said LTCC tape(s) in the formation of Light-Emitting Diode (LED) chip carriers and modules for various lighting applications. The present invention also provides for the use of (LTCC) tape and LED modules in the formation of lighting devices including, but not limited to, LED devices, High Brightness (HB) LED backlights, display-related light sources, automotive lighting, decorative lighting, signage and advertisement lighting, and information display lighting. | 11-12-2009 |
20100294359 | PROCESS OF FORMING A GRID ELECTRODE ON THE FRONT-SIDE OF A SILICON WAFER - A process of forming a front-grid electrode on a silicon wafer having an ARC layer, comprising the steps:
| 11-25-2010 |
20100294360 | PROCESS OF FORMING A GRID ELECTRODE ON THE FRONT-SIDE OF A SILICON WAFER - A process of forming a front-grid electrode on a silicon wafer having an ARC layer, comprising the steps:
| 11-25-2010 |
20100294361 | PROCESS OF FORMING A GRID ELECTRODE ON THE FRONT-SIDE OF A SILICON WAFER - A process of forming a front-grid electrode on a silicon wafer having an ARC layer, comprising the steps: | 11-25-2010 |
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 |
20130230791 | Current collection apparatus and method of processing for a solid oxide fuel cell thereof - A current collection apparatus and its method of processing for a solid oxide fuel cell, which mainly includes using screen printing process to print conductive adhesive onto the surface of the electrode of solid oxide fuel cell (SOFC), forming a current collection layer with drying process, using an appropriate amount of conductive adhesive to paste a conductive wire onto the current collection layer, forming an adhesion layer through drying, fixing the conductive wire on the electrode surface with an appropriate amount of ceramic adhesive, and forming a fixing layer after baking. A good connection is hence made between metal conductive wire and electrode through current collection layer, not only the interface impedance between electrode and current collection layer can be reduced effectively, but also the output power density of the SOFC unit cell can be enhanced, and stable as well as long term power output can be provided. | 09-05-2013 |
Patent application number | Description | Published |
20110122674 | REVERSE CONNECTION MTJ CELL FOR STT MRAM - Apparatus and methods are disclosed herein for a reverse-connection STT MTJ element of a MRAM to overcome the source degeneration effect when switching the magnetization of the MTJ element from the parallel to the anti-parallel direction. A memory cell of a MRAM having a reverse-connection MTJ element includes a switching device having a source, a gate, and a drain, and a reverse-connection MTJ device having a free layer, a fixed layer, and an insulator layer interposed between the free layer and the fixed layer. The free layer of the reverse-connection MTJ device is connected to the drain of the switching device and the fixed layer is connected to a bit line (BL). The reverse-connection MTJ device applies the lower I | 05-26-2011 |
20130075839 | STRUCTURE AND METHOD FOR A MRAM DEVICE WITH AN OXYGEN ABSORBING CAP LAYER - The present disclosure provides a MTJ stack for an MRAM device. The MTJ stack includes a pinned ferromagnetic layer over a pinning layer; a tunneling barrier layer over the pinned ferromagnetic layer; a free ferromagnetic layer over the tunneling barrier layer; a conductive oxide layer over the free ferromagnetic layer; and a oxygen-based cap layer over the conductive oxide layer. | 03-28-2013 |
20140141533 | METHOD OF FABRICATING A MAGNETORESISTIVE RANDOM ACCESS STRUCTURE - One method includes forming an anti-ferromagnetic layer on a substrate. A ferromagnetic layer may be formed on the anti-ferromagnetic layer. The ferromagnetic layer includes a first, second and third portions where the second portion is located between the first and third portions. A first ion irradiation is performed to only one portion of the ferromagnetic layer. A second ion irradiation is performed to another portion of the ferromagnetic layer. | 05-22-2014 |
20150129952 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes a substrate, at least one split gate memory device, and at least one logic device. The split gate memory device is disposed on the substrate. The logic device is disposed on the substrate. A select gate or a main gate of the split gate memory device and a logic gate of the logic device are both made of metal, and the other gate of the split gate memory device is made of nonmetal. | 05-14-2015 |
20150206891 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present disclosure provides a semiconductor device and a method for manufacturing the same. The semiconductor device includes a substrate, at least one split gate memory device, and at least one logic device. The split gate memory device is disposed on the substrate. The logic device is disposed on the substrate. At least one of a select gate and a main gate of the split gate memory device and a logic gate of the logic device are made of metal. The method for manufacturing the semiconductor device includes forming at least one split gate stack and at least one logic gate stack and respectively replacing at least one of a dummy gate layer and a main gate layer in the split gate stack and the dummy gate layer in the logic gate stack with at least one metal memory gate and a metal logic gate. | 07-23-2015 |