Patent application number | Description | Published |
20130217212 | FABRICATION METHOD OF NITRIDE FORMING ON SILICON SUBSTRATE - The invention is directed to a method for forming a nitride on a silicon substrate. In the method of the present invention, a silicon substrate is provided and a buffer layer is formed on the silicon substrate. The formation of the buffer layer includes a multi-level temperature modulation process having a plurality temperature levels and a plurality of temperature modulations. For each of the temperature modulations, the temperature is gradually decreased. A nitride is formed on the buffer layer. | 08-22-2013 |
20130256650 | SEMICONDUCTOR DEVICE AND FABRICATION METHOD THEREOF - A semiconductor device and fabrication method thereof are provided, wherein the fabrication method of the semiconductor device includes the following steps. Forming a semiconductor layer on a substrate, wherein the semiconductor layer has a top surface and a bottom surface that is opposite to the top surface. The bottom surface is in contact with the substrate, and the top surface has a plurality of pits, the pits are extended from the top surface toward the bottom surface. Preparing a solution, wherein the solution includes a plurality of nanoparticles. Filling the nanoparticles into the pits. Forming a conducting layer on the semiconductor layer after filling the nanoparticles into the pits. | 10-03-2013 |
20140042387 | SEMICONDUCTOR LIGHT-EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor light-emitting device and a manufacturing method thereof are provided, wherein the semiconductor light-emitting device includes a first type doped semiconductor structure, a light-emitting layer, a second type doped semiconductor layer, a first conductive layer and a dielectric layer. The first type doped semiconductor structure includes a base and a plurality of columns extending outward from the base. Each of the columns includes a top surface and a plurality of sidewall surfaces. The light-emitting layer is disposed on the sidewall surfaces and the top surface, wherein the surface area of the light-emitting layer gradually changes from one side adjacent to the columns to a side away from the columns. The dielectric layer exposes the first conductive layer locating on the top surface of each of the columns, wherein the dielectric layer includes at least one of a plurality of quantum dots, phosphors, and metal nanoparticles. | 02-13-2014 |
Patent application number | Description | Published |
20100277665 | Display Device with Multiple Display Modules - A display device including a first prism sheet, a second prism sheet disposed side by side with the first prism sheet, a first display module, and a second display module is provided. The first display module is disposed beneath the first prism and has a first display surface. At least a portion of the first display surface close to the second prism sheet is inclined toward the second prism sheet and forms a first angle with respect to the first prism sheet. The second display module is disposed beneath the second prism sheet and has a second display surface. At least a portion of the second display surface closed to the first prism sheet is inclined toward the first prism sheet and forms a first angle with respect to the second prism sheet. | 11-04-2010 |
20110007380 | Flexible Flat Panel Display - A flat panel display is provided. The flat panel display includes a display panel, a light source module and an optical film. The display panel has a light incident surface. The light source module including a light guide plate which has a light emergent surface is disposed parallel to the display panel. The light emergent surface is opposite to the light incident surface. A light emitted from the light source module is transmitted from the light emergent surface to the light incident surface. The optical film is disposed between the display panel and the light source module. The optical film has a first surface and a second surface which are opposite to each other. A plurality of platform-shaped optical structures are formed on the first surface while each of them has a flat top surface. A first transparent glue layer and a second transparent glue layer are respectively formed on the light incident surface and the light emergent surface. The flat top surfaces are glued to one of the first transparent glue layer and the second transparent glue layer while the second surfaces are glued to the other. | 01-13-2011 |
20110199670 | DISPLAY DEVICE AND LIGHT ENHANCEMENT FILM OF THE DISPLAY DEVICE - A light enhancement film provided in the disclosure includes a substrate and an optical microstructure having a plurality of hexagonal cylindrical lenses inseparably arranged on a surface of the substrate in accordance with a honeycombed arrangement. Each of the hexagonal cylindrical lenses has different cross-sectional areas that are gradually narrowed from the surface of the substrate in a direction away from the substrate, and every two adjacent lenses have a gap therebetween. Furthermore, a display device having the light enhancement film is provided as well. | 08-18-2011 |
20110310082 | Electrophoretic Display Apparatus and Method of Data Transfer Thereof - The electrophoretic display apparatus includes a first electrode layer, a second electrode layer, an electrophoresis layer, and a driving module. The driving module has an adsorption mode and a display mode. When an adsorption mode is activated, a first voltage difference is formed between the first electrode layer and the second electrode layer, resulting in electrostatic adsorption to reduce or eliminate the air gap between the second electrode layer and electrophoresis layer. When a display mode is activated, a second voltage difference is formed between the first electrode layer and the second electrode layer. The electrophoresis layer can sense the variation of electric field between the two electrode layers and start the operation of data transmission and display. | 12-22-2011 |
Patent application number | Description | Published |
20090197132 | FUEL-CELL STRUCTURE - A fuel-cell structure is provided. The fuel-cell structure includes a base, at least one cell unit, a first supplier, a second supplier and a third supplier. The cell unit disposed on the base includes a reaction region, a first connecting port and an outputting terminal, wherein the first connecting port and the outputting terminal are coupled to the reaction region. The first supplier provides a first fluid transmitted to the reaction region of the cell unit via the first connecting port of the cell unit. The second supplier provides a second fluid transmitted to the reaction region of the cell unit, wherein the second fluid and the first fluid are reacted with respect to the reaction region of the cell unit, so that the reaction region of the cell unit provides a first electric power outputting through the outputting terminal. The third supplier provides a third fluid transmitted to the reaction region of the cell unit via the first connecting port of the cell unit, to humidify the cell unit by the third fluid. | 08-06-2009 |
20090246579 | FUEL CELL SYSTEM AND FLOW CONTROL MECHANISM THEREOF - A fuel cell system and a flow control mechanism thereof are provided. The fuel cell system includes a plurality of fuel cells and the flow control mechanism. The flow control mechanism includes a distributing device and a confluence device, and the cells are stacked between the distributing device and the confluence device. The distributing device or the confluence includes at least one inlet, at least one outlet, at least one passage and at least one buffering section. The passage communicates with the inlet and the outlet. The buffering section is disposed in any position of the passage. The buffering section and the inlet are on different levels. | 10-01-2009 |
20100119897 | HYDROGEN FUEL CELL SYSTEMS - A hydrogen fuel cell system. A gas/water distributor connects to a hydrogen fuel cell module. A hydrogen input pipe connects to the gas/water distributor, inputting hydrogen thereinto. A reservoir receives water. A water input pipe connects the gas/water distributor to the reservoir. A pump is connected to the water input pipe, transporting the water from the reservoir to the gas/water distributor. A gas/water confluent device connects to the hydrogen fuel cell module. The hydrogen fuel cell module is disposed between the gas/water distributor and the gas/water confluent device. An output pipe connects the gas/water confluent device to the reservoir. | 05-13-2010 |
20100200084 | PRESSURE CONTROL SYSTEM AND PRESSURE REGULATING VALVE THEREOF - A pressure control system in provided, including a pressure regulating valve, a throttle valve and a relief valve. The pressure regulating valve includes a valve body and a piston assembly. The valve body has a chamber, wherein the chamber has an inlet and an outlet. The piston assembly, movably disposed in the chamber, includes a first piston and a second piston. The first piston corresponds to the inlet and has a first contact surface. The second piston corresponds to the outlet and has a second contact surface. The first piston and the second piston move simultaneously, and the first contact surface is smaller than the second contact surface. The throttle valve, connected with the pressure regulating valve, is disposed at a side of the outlet of the valve body. The relief valve, connected with the pressure regulating valve, is disposed at a side of the inlet of the valve body. | 08-12-2010 |
20110014531 | FUEL CELL SYSTEM AND FUEL SUPPLY METHOD THEREOF - A fuel cell system is provided. The fuel cell system includes a fuel tank, a fuel supply unit, a fuel cell stack, a liquefied recycling unit, a liquid level modulation unit, a sensing unit and a control unit. The fuel supply unit supplies a first fuel to the fuel tank. The fuel tank provides a second fuel to the fuel cell stack, and the fuel cell stack generates a first gas. The liquefied recycling unit liquefies the first gas, transforming the first gas into a recycled fluid. The liquid level modulation unit guides the recycled fluid into the fuel tank to maintain a stable fuel level of the second fuel in the fuel tank. The sensing unit senses a current signal provided by the fuel cell stack. The control unit calculates a current quantity according to the current signal to supply the first fuel to the fuel tank. | 01-20-2011 |
20110117427 | BATTERIES - A battery. A electrode plate assembly is disposed in a casing and includes at least one current collection tab. At least one conductive primer is fit in the current collection tab of the electrode plate assembly and includes an inner threaded portion. At least one sealing cover is connected to the casing. At least one metal washer is disposed between the conductive primer and the sealing cover. At least one first insulation washer is fit on the sealing cover. At least one hollow conductive terminal is riveted to the first insulation washer and metal washer. At least one bolt is fastened to the inner threaded portion of the conductive primer via the hollow conductive terminal, first insulation washer, sealing cover, and metal washer and abuts the hollow conductive terminal. A laser welding treatment is applied between the bolt and the hollow conductive terminal, providing a sealing effect therebetween. | 05-19-2011 |
Patent application number | Description | Published |
20140169692 | CLIENT DEVICE AND METHOD FOR ENCODING AND TRANSMITTING PICTURE TO CLIENT DEVICE - In a method for encoding and transmitting a picture to a client device, data of a picture is encoded by a progressive encoding method on a server and stored in a buffer of the server, and an amount of data of the picture transmitted to the client device at a time is determined according to a kind of the progressive encoding method. The amount of the data transmitted to the client device at a time is reduced if a current window size is not equal to or larger than a last window size, and is increased if the current window size is equal to or larger than the last window size. The data is transmitted from the server, and decoded and displayed on the client device. | 06-19-2014 |
20140181729 | ELECTRONIC DEVICE AND METHOD FOR EDITING WINDOWS - A display device of an electronic device displays a plurality of windows. When a user selects a window, the window is displayed above other windows. When the user inputs an editing signal and the editing signal corresponds to an association instruction, the window is associated with the association instruction. When the editing signal does not correspond to the association instruction or a canceling instruction, the window associated with the association instruction is edited according to the editing signal. | 06-26-2014 |
20140317418 | SERVER, CLIENT DEVICE, AND USB REDIRECTION METHOD - A client device obtains data from a universal serial bus (USB) device and compresses the data. The client device sends the compressed data to a server using a USB redirection. The server decompresses the compressed data and sends the decompressed data to a virtual machine installed in the server. The client device remotely accesses decompressed data when the decompressed data is stored into the virtual machine. | 10-23-2014 |
Patent application number | Description | Published |
20120215325 | LAMP DEVICE - A lamp device is controllable by a control terminal, and includes a light-emitting module, a driving circuit for driving the light-emitting module, a control unit for controlling duty cycle of the driving circuit, a first connector electrically coupled to the control unit, and a communication module. The communication module includes a second connector pluggably coupled to the first connector. The communication module is adapted to receive a control command from the control terminal and transmits the control command to the control unit via the first and second connectors, such that the control unit controls the driving circuit in accordance with the control command. | 08-23-2012 |
20130015775 | METHOD FOR SETTING AND ADJUSTING LIGHT EMITTED FROM AN ADJUSTABLE LIGHTING DEVICE, ADJUSTABLE LIGHTING DEVICE AND LIGHT-ADJUSTING CIRCUIT THEREOFAANM WU; CHIH-YENAACI TAIPEIAACO TWAAGP WU; CHIH-YEN TAIPEI TW - A method for setting and adjusting light emitted from an adjustable lighting device is disclosed. The adjustable lighting device includes a timing unit and anon-volatile memory (NVM) module for storing a record data which includes a memory flag changeable between a set state and a reset state, and a plurality of light setting values. In the method, the adjustable lighting device is configured to allow a user to select an illumination state of the light, and to change the memory flag in the record data to the set state and to store the record data with a corresponding one of the light setting values when a elapsed time counted by the timing unit is longer than a predetermined threshold time period. | 01-17-2013 |
20130082605 | WIRELESS INTELLIGENT LAMP CONTROL METHOD AND SYSTEM, WALL SWITCH BASE, AND REMOTE SWITCH HANDSET - A wireless intelligent lamp control method is to be implemented by a remote switch handset for wireless communication with a wall switch base, and includes: receiving an ON signal set including at least one ON signal sent from a user-selected command key unit, and determining at least one of a number and a duration of the at least one ON signal; transmitting a wireless signal indicating the user-selected command key unit to the wall switch base for establishing a matching relation when the ON signal set includes only one ON signal and the duration thereof is longer than an ON threshold time; and wirelessly receiving the matching relation from the wall switch base, and storing the matching relation. | 04-04-2013 |
20140064199 | METHOD AND CHANNEL SELECTOR FOR SELECTING AN OPERATION CHANNEL, AND WIRELESS NETWORK CONNECTING APPARATUS INCLUDING THE CHANNEL SELECTOR - In a method for selecting an operation channel, a wireless network connecting apparatus is configured to: identify at least one preoccupied channel; determine a plurality of available channels; evaluate a channel quality of each of the available channels; select one of the available channels based on the channel quality thereof as the operation channel, and to switch to the operation channel; transmit an evaluation packet through the operation channel; determine whether the operation channel needs to be replaced, based on a number of data retransmissions; and exclude the operation channel from the available channels when the determination is affirmative. | 03-06-2014 |