Patent application number | Description | Published |
20130099953 | SUCCESSIVE-APPROXIMATION-REGISTER ANALOG-TO-DIGITAL CONVERTOR AND RELATED CONTROLLING METHOD - A method of controlling a successive-comparing-register analog-to-digital convertor (SAR ADC) is provided. Based upon the method, the SAR ADC receives a conversion clock that controls a conversion rate of the SAR ADC. | 04-25-2013 |
20150200693 | TRANSMITTER HAVING INTEGRATED DESIGN OF MULTIPLE WIRELESS COMMUNICATION MODULES - A transmitter includes a first wireless communication module, a second wireless communication module, a multiplexer, a digital-to-analog converter and a filter. The multiplexer selectively outputs a first digital signal derived from a digital output of the first wireless communication module or a second digital signal derived from a digital output of the second wireless communication module as a selected output. The digital-to-analog converter converts the selected output into an analog signal. The filter processes the analog signal and includes an adjustable resistive element. When the multiplexer selects the first digital signal as the selected output, the adjustable resistive element is adjusted to have a first resistance value such that the filter has a first bandwidth. When the multiplexer selects the second digital signal as the selected output, the adjustable resistive element is adjusted to have a second resistance value such that the filter has a second bandwidth. | 07-16-2015 |
20150303880 | LOW PASS FILTER WITH COMMON-MODE NOISE REDUCTION - A low pass filter includes a first amplifier stage and a second amplifier stage. The first amplifier stage includes a differential operational amplifier, wherein the first amplifier stage is arranged to process a differential input signal to generate a differential intermediate signal, the differential input signal having a first input signal and a second input signal, and the differential intermediate signal having a first intermediate signal and a second intermediate signal. The second amplifier stage has no common-mode feedback and is arranged to process the differential intermediate signal to generate a differential output signal, wherein the differential output signal has a first output signal corresponding to the first input signal and a second output signal corresponding to the second input signal. Since the noisy common-mode feedback is removed from the second amplifier stage, the overall common-mode noise of the low pass filter can be decreased. | 10-22-2015 |
Patent application number | Description | Published |
20120098793 | ON-SCREEN-DISPLAY MODULE, DISPLAY DEVICE, AND ELECTRONIC DEVICE USING THE SAME - An on-screen-display module includes an optical signal processing unit and a control unit. The optical signal processing unit receives an optical signal sensed by an image sensor and outputs a touch signal. The control unit is electrically connected to the optical signal processing unit, and adjusts a display panel to execute a corresponding display effect according to the touch signal. By applying the on-screen-display module to a display device or an electronic device, the display effect of the display panel can be directly modulated through the control unit when the host is not powered on, and advantages of further saving system energy and being convenient for a user are achieved. | 04-26-2012 |
20130026976 | PULSE MODULATION CHARGING METHOD AND APPARATUS - A pulse modulation charging method is provided for charging a rechargeable battery device. In the method, a current pulse is provided according to a charge-discharge cycle, the rechargeable battery device is charged repeatedly with a charge current pulse width, and the rechargeable battery device is discharged with a discharge current pulse width. In addition, in the method one or more voltage threshold values are further designated. When a terminal voltage of the rechargeable battery device is greater than the voltage threshold value, the charge current pulse width is gradually reduced, so as to improve charge efficiency for charging the rechargeable battery device. A pulse modulation charging apparatus is further provided, which is used for charging the rechargeable battery device according to the steps described here. | 01-31-2013 |
Patent application number | Description | Published |
20160029214 | HOME CONTROL GATEWAY AND HOME CONTROL NETWORK CONNECTION METHOD THEREOF - A home control gateway and a home control network connection method for remote home controlling are provided. The method includes receiving a calling signal from a mobile device through a mobile phone network, identifying a phone number according to the calling signal, verifying whether the phone number exists in a database of the home control gateway, generating a token, and transferring the token to the mobile device as a short message. The method further includes, when receiving a connection request from the mobile device by the short message with the token, allowing building a communication channel with the mobile device. | 01-28-2016 |
20160041540 | HOME CONTROLLER AND INFORMATION UPDATING METHOD THEREOF - A home controller and an information updating method thereof are provided. The home controller is configured to control a home equipment and includes a micro-processing unit, a first fiber interface circuit, a second fiber interface circuit and a first button. The first button is coupled to the micro-processing unit and disposed on a shell body of the home controller. If the first button is triggered, the micro-processing unit receives identifier (ID) information through the first fiber interface circuit or the second fiber interface circuit and updates the ID of the home controller according to the ID information. | 02-11-2016 |
20160043880 | GATEWAY COMMUNICATION FILTER AND GATEWAY COMMUNICATION FILTER CONFIGURATION METHOD THEREOF - A gateway communication filter and a gateway communication filter configuration method thereof are provided to allow users to perform remote home control by using a mobile communication device. The method includes after a learning signal and a reset signal are simultaneously received and during a period of continually receiving the learning signal, receiving a calling signal from the mobile communication device through a mobile phone network; identifying a phone number corresponding to the mobile communication device according to the calling signal; and storing the phone number corresponding to the mobile device into a memory circuit as a manager phone number. Accordingly, the gateway communication filter allows users to perform remote home control securely and conveniently. | 02-11-2016 |
20160065383 | HOME CONTROL GATEWAY AND GATEWAY CONNECTION METHOD THEREOF - A home control gateway and a gateway connection method for users to perform remote home control by using the mobile communication device are provided. The gateway connection method includes: during the period of continually receiving the learning signal after the learning signal and the reset signal are simultaneously received, receiving a calling signal from a mobile communication device through a mobile phone network; identifying a phone number of the mobile communication device according to the calling signal; storing the phone number of the mobile communication device into a storage circuit; generating an identity code according to the phone number; transferring a short message containing the identity code to the mobile communication device through the mobile phone network; and permitting the mobile communication device to access an operating interface through a local area network by using a class C network uniform resource locator containing the identity code. | 03-03-2016 |
20160066250 | WEB SERVER AND NETWORK CONNECTION METHOD THEREOF - A web server and a network connection method for local network log-in are provided. The method includes receiving a first calling signal from a mobile communication device through a mobile phone network, identifying a phone number of the mobile communication device according to the first calling signal from the mobile communication device, and permitting the mobile communication device to access an operating interface by using a class C network uniform resource locator through a local area network, and the phone number is contained in the class C network uniform resource locator. Accordingly, users can connect to the local network easily and safely through the provided web server. | 03-03-2016 |
20160077822 | ELECTRONIC DEVICE AND INFORMATION UPDATING CONTROL MODULE THEREOF - An electronic device and an information updating control module that includes a processing unit, a system reset button, and an identification updating button are provided. The system reset button is coupled to the processing unit. The identification updating button is coupled to the processing unit. The processing unit is configured to determine whether a first trigger status corresponding to the system reset button and a second trigger status corresponding to the identification updating button comply with a predetermined rule. If the first trigger status corresponding to the system reset button and the second trigger status corresponding to the identification updating button comply with the predetermined rule, the processing unit is configured to receive a new identification and update an identification of an electronic device by applying the new identification. | 03-17-2016 |
20160078735 | ANTI-THEFT SYSTEM AND ANTI-THEFT METHOD - An anti-theft system and an anti-theft method are provided. The anti-theft system includes a box, a plurality of identification lines, a first sensor, and a controller. The box includes a host. The identification lines are placed in a default range around the box and constitute a plurality of identification features. The first sensor is configured to capture the identification features. The controller is coupled to the first sensor and configured to determine whether any abnormal identification feature of the captured identification features is found. If any abnormal identification feature of the captured identification features is found, the controller is further configured to send an alert message through a communication module. | 03-17-2016 |
Patent application number | Description | Published |
20140376316 | PROGRAMMABLE MEMORY CELL AND DATA READ METHOD THEREOF - A programmable memory cell includes a non-volatile memory unit, a reference current generator and a readout unit. The non-volatile memory unit is configured to be performed by a program operation, a read operation or an erase operation. The reference current generator is configured to generate a reference current; wherein a value of the reference current is dynamically modulated according to a count number of the program and erase operations performed on the non-volatile memory unit. The readout unit, electrically coupled to the non-volatile memory unit and the reference current generator, is configured to read a data stored in the non-volatile memory cell according to the reference current. A data read method applied to the aforementioned programmable memory cell is also provided. | 12-25-2014 |
20150095728 | TESTING METHOD FOR REDUCING NUMBER OF OVERKILLS BY REPEATEDLY WRITING DATA TO ADDRESSES IN A NON-VOLATILE MEMORY - A testing method for non-volatile memory includes writing a first set of data to a set of addresses in a non-volatile memory, reading a second set of data from the set of addresses, and writing the first set of data to the set of addresses again if the first set of data and the second set of data are not identical and number of times for writing the first set of data to the set of addresses is smaller than a predetermined number. | 04-02-2015 |
20150262621 | Non-Volatile Memory Which Can Increase the Operation Window - A non-volatile memory cell includes a plurality of rows of memory cells, a plurality of bit lines coupled to the plurality of rows of memory cells for accessing data to the plurality of rows of memory cells, a plurality of word lines each coupled to a corresponding row of memory cells, and a decoder coupled to the plurality of word lines for enabling at least one row of memory cells of the plurality of rows of memory cells. | 09-17-2015 |
Patent application number | Description | Published |
20120141334 | SOLID REACTANT SHEET, SOLID REACTANT STACK, AND FUEL CARTRIDGE - A solid reactant sheet, a solid reactant stack, and a fuel cartridge are provided. The solid reactant sheet comprises an adhesive film and a plurality of solid reaction particles. The adhesive film has a first surface, a second surface opposite to the first surface, and a plurality of through holes connected between the first surface and the second surface. The plurality of solid reaction particles are adhered to the first surface, and the solid reaction particles react with a reactant for generating a gas. Furthermore, a solid reactant stack and a fuel cartridge are also provided. | 06-07-2012 |
20120141335 | HYDROGEN GENERATING DEVICE - A hydrogen generating device is adapted for a fuel cell. The hydrogen generating device includes a casing, a button, a solid reactant, a bag-shaped body, and at least one flexible element. The casing has a containing space and an opening. The button is integrally formed and connected to the casing to seal the opening. The solid reactant is disposed in the casing. The bag-shaped body is disposed in the casing and contains a liquid reactant. The flexible element is connected to the casing and is located in the containing space. The flexible element includes a bending end, wherein the flexible element is aligned to the button and is located between the button and the bag-shaped body. When the button is pressed, the button pushes the flexible element so the bending end pierces the bag-shaped body, and the liquid reactant flows out and reacts with the solid reactant to generate hydrogen. | 06-07-2012 |
20120171083 | APPARATUS FOR GENERATING HYDROGEN - An apparatus for generating hydrogen including a housing, a reservoir, and a piston is provided. The housing has a top wall, a bottom wall, and a sidewall. The top wall has vents and a protrudent column extending to the interior of the housing. At least one vent communicates with the top wall and the protrudent column and rest of the vents surround the protrudent column. The reservoir is disposed in the housing for storing a solid state reactant and divides the housing into a first chamber and a second chamber. The first chamber is located between the top wall and the reservoir. The second chamber is located between the bottom wall and the reservoir for storing a liquid reactant. The piston is disposed on the bottom wall. The piston is used to push the liquid reactant towards the reservoir to react with the solid state reactant to generate hydrogen. | 07-05-2012 |
20120251916 | FUEL CELL UNIT - A fuel cell unit including a membrane electrode assembly (MEA), a cathode collector plate, an anode collector plate, and a plurality of ribs is provided. The cathode collector plate is disposed at one side of the membrane electrode assembly. The anode collector plate is disposed at another side of the membrane electrode assembly. A material of the anode collector plate may be metal. The ribs are respectively disposed on the anode collector plate. A material of the ribs may be metal. The ribs and the anode collector slate form a plurality of gas channels for supplying a reaction gas to the membrane electrode assembly. | 10-04-2012 |
Patent application number | Description | Published |
20110193089 | PIXEL STRUCTURE, METHOD OF FABRICATING THE SAME, AND METHOD OF FABRICATING ELECTRONIC DEVICE - A pixel structure including a substrate, a gate, an insulation layer, a metal oxide semiconductor (MOS) layer, a source and a drain, at least one film layer, and a first electrode layer is provided. The gate is disposed on the substrate. The insulation layer covers the gate. The MOS layer is disposed on the insulation layer above the gate. The source and the drain are disposed on the MOS layer. The film layer covers the MOS layer and includes a transparent photocatalytic material, wherein the transparent photocatalytic material blocks ultraviolet light from reaching the MOS layer. The first electrode layer is electrically connected to the source or the drain. | 08-11-2011 |
20130026472 | TFT STRUCTURE AND PIXEL STRUCTURE - A pixel structure including a substrate, a gate, an insulation layer, a metal oxide semiconductor (MOS) layer, a source and a drain, at least one film layer, and a first electrode layer is provided. The gate is disposed on the substrate. The insulation layer covers the gate. The MOS layer is disposed on the insulation layer above the gate. The source and the drain are disposed on the MOS layer. The film layer covers the MOS layer and includes a transparent photocatalytic material, wherein the transparent photocatalytic material blocks ultraviolet light from reaching the MOS layer. The first electrode layer is electrically connected to the source or the drain. | 01-31-2013 |
Patent application number | Description | Published |
20100202464 | METHOD AND APPARATUS FOR PRELOADING PACKET HEADERS AND SYSTEM USING THE SAME - A packet header preloading apparatus comprises at least a packet detector, at least a packet header buffer and at least a data dispatcher. The at least a packet detector is configured to detect an operation of a packet direct memory access controller storing at least a packet into a main memory. The at least a data dispatcher is configured to read a header of the at least a packet from the main memory and to temporarily store the header in the at least a packet header buffer. | 08-12-2010 |
20100238946 | APPARATUS FOR PROCESSING PACKETS AND SYSTEM FOR USING THE SAME - An apparatus processes a packet and classifies the packet as a processed fast path packet or a slow path packet, wherein the processed fast path packet is forwarded to a fast path forwarding queue directly or is forwarded to a fast path output queue through a packet direct memory access controller. The apparatus not only improves the packet processing performance but also guarantees the quality of service. | 09-23-2010 |
20110194473 | POWER-SAVING METHOD AND APPARATUS THEREOF - The present invention discloses a power-saving method. The method comprises the steps of: forwarding a packet in accordance with a forwarding signal; operating in a power-saving receiving mode to enable a receiver in accordance with a receiving enable signal; and determining whether a standard receiving mode is operating in accordance with a packet detection result. | 08-11-2011 |
20120243540 | METHOD FOR OFFLOADING PACKET SEGMENTATIONS AND DEVICE USING THE SAME - A method for offloading packet segmentations includes the steps of retrieving a packet segmentation offloading parameter in a packet and segmenting the packet into a plurality of sub-packets by taking consideration the packet segmentation offloading parameter. A device for offloading packet segmentations includes a packet parser configured to receive a packet to be transmitted, a header buffer controller configured to retrieve a header of the packet and connected to a buffer to access the header, an extractor configured to retrieve a packet segmentation offloading parameter in the packet, and a segmentation module configured to segment the packet into a plurality of sub-packets by taking consideration the header and the packet segmentation offloading parameter. | 09-27-2012 |
20130097349 | Quality of Service Arbitration Method and Quality of Service Arbiter Thereof - A quality of service (QoS) arbitration method for an on-chip bus is disclosed. The bus arbitration method includes steps of classifying each of a plurality of requestors into one of a plurality of first QoS types; classifying the each of the plurality of requestors into one of a plurality of second QoS types corresponding to a plurality of service priorities according to a due date or a data rate of the each of the plurality of requestors and the one of the plurality of first QoS types; and choosing a requestor with a highest service priority among the plurality of requestors to service. | 04-18-2013 |
Patent application number | Description | Published |
20080297497 | CONTROL CIRCUIT AND METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A control circuit of a liquid crystal display (LCD) panel and a method thereof are provided. The circuit includes a frame memory, a look-up table (LUT) module, and a signal processor. The frame memory provides a previous value of a pixel, and the previous value includes at least one bit of a previous frame data of the pixel. The LUT module provides a plurality of basic values according to the previous value and a current value of the pixel, and the current value includes at least one bit of a current frame data of the pixel. The signal processor produces a driving value according to the basic values and replaces the current frame data with the driving value. | 12-04-2008 |
20090010339 | IMAGE COMPENSATION CIRCUIT, METHOD THEREOF, AND LCD DEVICE USING THE SAME - Input image signals are spatially and temporally compensated. First, gray scales of a target pixel in a current frame and in a previous frame are compared to determine whether to spatially and temporally compensate the input image signals or not. Next, in accordance to weight parameters and gray scales of pixels adjacent to the target pixel, the target pixel of the current frame is spatially compensated. Further, based on the gray scale of the target pixel of the previous frame, the target pixel of the current frame after spatial compensation is temporally compensated. | 01-08-2009 |
20090185742 | METHOD FOR IMAGE COMPENSATION - In an image compensation method, formats of images are identified based on ambient color quantity information. If the image is in text format or of high contrast, over compensation is barred to avoid edge effect. A compensation coefficient is set basing on edge eigenvalue of images. The compensation value is fine tuned based on a threshold value to obtain finer compensation result. | 07-23-2009 |
Patent application number | Description | Published |
20090294927 | SEMICONDUCTOR-DEVICE ISOLATION STRUCTURE AND MANUFACTURING METHOD THEREBY - A manufacturing method for a semiconductor-device isolation structure comprises providing a substrate with at least one shallow trench isolation structure, performing a salicide process that forms a recess on the surface of the shallow trench isolation structure, forming a cap film covering the substrate and filling the recess, performing an etching process to remove the cap film outside the recess, and forming a contact etch stop layer covering the substrate and filling the recess. Due to the filling recess with the cap film first, the contact etch stop layer covering the substrate and filling the recess does not have seams or voids. | 12-03-2009 |
20120220113 | Method of Manufacturing Semiconductor Device Having Metal Gate - The present invention provides a method of manufacturing semiconductor device having metal gate. First, a substrate is provided. A first conductive type transistor having a first sacrifice gate and a second conductive type transistor having a second sacrifice gate are disposed on the substrate. The first sacrifice gate is removed to form a first trench and then a first metal layer and a first material layer are formed in the first trench. Next, the first metal layer and the first material layer are flattened. The second sacrifice gate is removed to form a second trench and then a second metal layer and a second material layer are formed in the second trench. Lastly, the second metal layer and the second material layer are flattened. | 08-30-2012 |
20120264279 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device, wherein the method comprises steps as follows: a semiconductor structure comprising a substrate, a dummy gate structure having a dielectric layer disposed over the substrate and a silicon layer disposed over the dielectric layer, and an etching stop layer (ESL) and an inter-layer dielectric (ILD) layer both of which are sequentially disposed over the substrate and the dummy gate structure is first provided. Then, a chemical mechanical polishing (CMP) is performed to planrizing the ILD layer and expose the ESL. Subsequently, an in-situ etching process is conducted to remove portions of the ESL and the silicon layer to form an opening in the dummy gate structure. Next, metal material is filled into the opening. | 10-18-2012 |
20120315748 | METHOD FOR FABRICATING AN APERTURE - A method for fabricating an aperture is disclosed. The method includes the steps of: forming a hard mask containing carbon on a surface of a semiconductor substrate; and using a non-oxygen element containing gas to perform a first etching process for forming a first aperture in the hard mask. | 12-13-2012 |
20130137256 | SEMICONDUCTOR PROCESS - A semiconductor process is provided. The prior steps include: a first gate including a first cap layer and a second gate including a second cap layer are formed on a substrate. A hard mask layer is formed to cover the first gate and the second gate. The material of the hard mask layer is different from the material of the first cap layer and the second cap layer. The hard mask layer is removed entirely after a lithography process and an etching process are performed. The following steps include: a material is formed to entirely cover the first gate and the second gate. The material, the first gate and the second gate are etched back to make the first gate and the second gate have the same level and expose layers in both of them. | 05-30-2013 |
20130200393 | SEMICONDUCTOR STRUCTURE AND PROCESS THEREOF - A semiconductor structure includes a substrate, a resist layer, a dielectric material, two U-shaped metal layers and two metals. The substrate has an isolation structure. The resist layer is located on the isolation structure. The dielectric material is located on the resist layer. Two U-shaped metal layers are located at the two sides of the dielectric material and on the resist layer. Two metals are respectively located on the two U-shaped metal layers. This way a semiconductor process for forming said semiconductor structure is provided. | 08-08-2013 |
20130295735 | SEMICONDUCTOR PROCESS - A semiconductor process includes the following steps. A first structure and a second structure are formed on a substrate. An oxide layer is entirely formed to cover the first structure and the second structure. A nitride layer is formed to entirely cover the oxide layer. A dry etching process is performed to remove a part of the nitride layer on the first structure. A wet etching process is performed to entirely remove the nitride layer and the oxide layer on the first structure and the second structure. | 11-07-2013 |
20140038399 | METHOD FOR FABRICATING AN APERTURE - A method for fabricating an aperture is disclosed. The method includes the steps of: forming a hard mask containing carbon on a surface of a semiconductor substrate; and using a non-oxygen element containing gas to perform a first etching process for forming a first aperture in the hard mask. Before forming the hard mask, a gate which includes a contact etch stop layer and a dielectric layer is formed on the semiconductor substrate. | 02-06-2014 |
20150064861 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device is provided. A substrate having a first gate and a second gate respectively formed in a first region and a second region is provided. An underlayer is formed on the substrate to cover the first gate in the first region and the second gate in the second region. A patterned mask with a predetermined thickness is formed on the underlayer in the first region. The underlayer corresponding to the second gate in the second region is removed by the patterned mask to expose the second gate, wherein the underlayer corresponding to the first gate in the first region is partially consumed to expose part of the first gate. | 03-05-2015 |
Patent application number | Description | Published |
20120280630 | CONSTANT CURRENT DRIVING CIRCUIT OF LIGHT EMITTING DIODE AND LIGHTING APPARATUS - A constant current driving circuit of a light emitting diode (LED) including a control unit, a buck converter, and a compensation unit is provided. The control unit has an input terminal and an output terminal, and outputs a control signal through the output terminal. The buck converter is coupled to an input power, and is coupled between the output terminal of the control unit and an LED string. The compensation unit is coupled between the LED string and the input terminal of the control unit. The control unit receives a compensation signal of the compensation unit through the input terminal. Besides, a lighting apparatus is also provided. | 11-08-2012 |
20130088161 | DRIVING CIRCUIT OF LIGHT EMITTING DIODE - A driving circuit of a light emitting diode (LED) including an AC power, a rectifier, a power converter, a waveform sampler, and a control circuit is provided. The AC power provides an AC signal. The rectifier is coupled to the AC power and outputs a driving signal. The power converter is coupled to the rectifier. The power converter includes an LED and outputs a first signal positive correlated with a current passing through the LED. The waveform sampler is coupled between the AC power and the rectifier, and outputs a second signal directly proportional to the AC signal. The control circuit is coupled between the waveform sampler and the power converter, and outputs a control signal to the power converter according to a comparison result between the first signal and the second signal. | 04-11-2013 |
20130088170 | DRIVING CIRCUIT OF LIGHT EMITTING DIODE AND LIGHT SOURCE APPARATUS - A driving circuit of a light emitting diode (LED) capable of receiving a power source to supply a driving current to an LED module is provided. The driving circuit includes a first current path and a second current path. The first current path includes a switch. The switch is disposed between the LED module and a terminal. The switch has a control terminal and receives a control signal through the control terminal so as to control whether the LED module is coupled to the terminal via the switch. The second current path is coupled between the LED module and the terminal. The second current path includes an impedance unit and is coupled to the first current path in parallel. | 04-11-2013 |
20140028275 | VOLTAGE CONVERTING APPARATUS - A voltage converting apparatus is disclosed. The voltage converting apparatus includes a pulse width modulation (PWM) signal generating circuit, a power transistor, a first inductor, a second inductor and a feedback rectifier. The PWM signal generating circuit receives a feedback power to be an operating power and generates a PWM signal. A first terminal of the power transistor receives an input voltage, and a control terminal of the power transistor receives the PWM signal. The second inductor couples with a voltage on the first inductor and generates a coupling voltage. The feedback rectifier rectifies the coupling voltage to generate a feedback power. | 01-30-2014 |
Patent application number | Description | Published |
20130129572 | HYDROGEN-GENERATING EQUIPMENT - A hydrogen-generating equipment including a hydrogen-generating device and a hydrogen-purifying device is provided. The hydrogen-generating device is capable of generating a hydrogen-gas, a water-vapor mixed in the hydrogen-gas and a toxic-gas mixed in the hydrogen-gas. The hydrogen-purifying device includes a water-vapor filter unit and a toxic-gas filter unit. The hydrogen-gas passes through the water-vapor filter unit to remove the water-vapor mixed in the hydrogen-gas. The toxic-gas filter unit includes a filtering assembly. The surface of the filtering assembly has a plurality of hydroxyls. After the hydrogen-gas passes through the water-vapor filter unit, the hydrogen-gas passes through the toxic-gas filter unit, and the toxic-gas mixed in the hydrogen-gas reacts with a plurality of hydroxyls on a surface of the filtering assembly to remove the toxic-gas. | 05-23-2013 |
20150118128 | FUEL PROCESSOR AND HYDROGEN PURIFICATION DEVICE THEREOF - A hydrogen purification device including a container, a first opening structure and a second opening structure is provided. The container has at least a filter material inside. The first opening structure is disposed in the container, wherein hydrogen-rich gas mixture flows into the container via the first opening structure so that purified hydrogen gas is generated by conducting a reaction between the hydrogen-rich gas mixture and the filter material. Besides, a second opening structure is disposed in the container, wherein the purified hydrogen gas flows away from the container via the second opening structure. A fuel processor having the hydrogen purification device is also provided. | 04-30-2015 |
20150180062 | FUEL CARTRIDGE - A fuel cartridge includes an outer housing including a top wall, a bottom wall and a plurality of side walls; a storage container stored with a liquid reactant; a solid reactant including a top surface; a transmission device connected between the storage container and the solid reactant and for transmitting the liquid reactant to the solid reactant; a flexible thin film having gas permeability and water impermeability and disposed between the top and bottom walls and located above the top surface of the solid reactant; and an elastic waterproof membrane connected to the plurality of side walls of the outer housing and disposed between the storage container and the flexible thin film. | 06-25-2015 |