Patent application number | Description | Published |
20080224222 | SEMICONDUCTOR DEVICE HAVING A FIN TRANSISTOR AND METHOD FOR FABRICATING THE SAME - A fin transistor includes fin active region, an isolation layer covering both sidewalls of a lower portion of the fin active region, a gate insulation layer disposed over a surface of the fin active region, and a gate electrode disposed over the gate insulation layer and the isolation layer, and having a work function ranging from approximately 4.4 eV to approximately 4.8 eV. | 09-18-2008 |
20090218616 | TRANSISTOR HAVING VERTICAL CHANNEL AND METHOD FOR FABRICATING THE SAME - A semiconductor device including vertical channel transistor and a method for forming the transistor, which can significantly decrease the resistance of a word line is provided. A vertical channel transistor includes a substrate including pillars each of which has a lower portion corresponding to a channel region. A gate insulation layer is formed over the substrate including the pillars. A metal layer having a low resistance is used for forming a surrounding gate electrode to decrease resistance of a word line. A barrier metal layer is formed between a gate insulation layer and a surrounding gate electrode so that deterioration of characteristics of the insulation layer is prevented. A world line is formed connecting gate electrodes formed over the barrier layer to surround the lower portion of each pillar. | 09-03-2009 |
20090269917 | Method for manufacturing recess gate in a semiconductor device - A method for manufacturing a recess gate in a semiconductor device includes forming a field oxide layer on a substrate to define an active region, forming a hard mask pattern over the substrate to selectively expose at least a portion of the active region, forming a recess pattern in the active region through an etching process using the hard mask pattern as an etch barrier, removing the hard mask pattern, forming a gate insulating layer over the substrate, and forming a gate electrode over the gate insulating layer to cover at least the recess pattern. | 10-29-2009 |
20100133619 | SEMICONDUCTOR DEVICE HAVING A FIN TRANSISTOR AND METHOD FOR FABRICATING THE SAME - A fin transistor includes fin active region, an isolation layer covering both sidewalls of a lower portion of the fin active region, a gate insulation layer disposed over a surface of the fin active region, and a gate electrode disposed over the gate insulation layer and the isolation layer, and having a work function ranging from approximately 4.4 eV to approximately 4.8 eV. | 06-03-2010 |
20100308403 | TRANSISTOR HAVING VERTICAL CHANNEL - A semiconductor device including vertical channel transistor and a method for forming the transistor, which can significantly decrease the resistance of a word line is provided. A vertical channel transistor includes a substrate including pillars each of which has a lower portion corresponding to a channel region. A gate insulation layer is formed over the substrate including the pillars. A metal layer having a low resistance is used for forming a surrounding gate electrode to decrease resistance of a word line. A barrier metal layer is formed between a gate insulation layer and a surrounding gate electrode so that deterioration of characteristics of the insulation layer is prevented. A world line is formed connecting gate electrodes formed over the barrier layer to surround the lower portion of each pillar. | 12-09-2010 |
20110068380 | SEMICONDUCTOR DEVICE WITH BULB-TYPE RECESSED CHANNEL AND METHOD FOR FABRICATING THE SAME - A method for fabricating a semiconductor device includes providing a substrate having a bulb-type recessed region, forming a gate insulating layer over the bulb-type recessed region and the substrate, and forming a gate conductive layer over the gate insulating layer. The gate conductive layer fills the bulb-type recessed region. The gate conductive layer includes two or more conductive layers and a discontinuous interface between the conductive layers. | 03-24-2011 |
20120012928 | TRANSISTOR INCLUDING BULB-TYPE RECESS CHANNEL AND METHOD FOR FABRICATING THE SAME - A method for fabricating a transistor including a bulb-type recess channel includes forming a bulb-type recess pattern in a substrate, forming a gate insulating layer over the substrate and the bulb-type recess pattern, forming a first gate conductive layer over the gate insulating layer, forming a void movement blocking layer over the first gate conductive layer in the bulb-type recess pattern, and forming a second gate conductive layer over the void movement blocking layer and the first gate conductive layer. | 01-19-2012 |
Patent application number | Description | Published |
20100330453 | POLYMER ELECTROLYTE MEMBRANE FOR FUEL CELL SYSTEM AND MANUFACTURING METHOD THEREOF - A polymer electrolyte membrane for a fuel cell has a crystalline fusion enthalpy measured by differential scanning calorimetry (DSC) of about 67.3 J/g or more. Such crystallinity improves dimensional stability, mechanical characteristics, and ion conductivity of the polymer electrolyte membrane. | 12-30-2010 |
20110053029 | MEMBRANE ELECTRODE ASSEMBLY FOR FUEL CELL AND FUEL CELL STACK - A membrane electrode assembly for a fuel cell that secures a flow path of a separator while preventing generation of a pin-hole. The membrane electrode assembly includes an electrolyte membrane for a fuel cell, a microporous layer that is disposed at both surfaces of the electrolyte membrane, a backing layer that is disposed on the microporous layer, and a circumferential edge protective layer that is disposed at an circumferential edge of the electrolyte membrane. An end portion of the microporous layer is positioned further inside of the membrane electrode assembly than an end portion of the backing layer. The circumferential edge protective layer is inserted between the backing layer and the electrolyte membrane. | 03-03-2011 |
20110195331 | FUEL CELL STACK - A fuel cell stack includes membrane-electrode assemblies and separators that are closely disposed to both sides of the membrane-electrode assembly. Each membrane-electrode assembly includes an electrolyte membrane, an anode electrode that is formed on one surface of the electrolyte membrane, a cathode electrode that is formed on the other surface of the electrolyte membrane, and a protective layer formed at an oxidant inlet region where oxidant is first injected into the respective cathode electrode. | 08-11-2011 |
20110223515 | MEMBRANE-ELECTRODE ASSEMBLY FOR FUEL CELL, METHOD OF MANUFACTURING MEMBRANE-ELECTRODE ASSEMBLY FOR FUEL CELL, AND FUEL CELL SYSTEM - A membrane-electrode assembly for a fuel cell is disclosed. The membrane-electrode assembly may include a polymer electrolyte membrane, an adhesive layer disposed on the polymer electrolyte membrane and a catalyst layer formed, as part of the adhesive layer. The polymer electrolyte membrane, the adhesive layer and the catalyst layer may be positioned between a cathode substrate and an anode substrate. The cathode may include a cathode substrate and the anode may include an anode substrate. A method for manufacturing a membrane-electrode assembly and a system incorporating a membrane-electrode assembly are also disclosed. | 09-15-2011 |
20110229785 | FUEL CELL STACK AND FUEL CELL SYSTEM HAVING THE SAME - A fuel cell stack includes a plurality of membrane electrode assemblies, each of the membrane electrode assemblies having an electrolyte membrane; an anode on a first side of the electrolyte membrane; and a cathode on a second side of the electrolyte membrane opposite to the first side, wherein the anode and the cathode each comprise a gas diffusion layer divided into at least two areas such that a first area and a second area have different area densities; and a separator between adjacent membrane electrode assemblies. | 09-22-2011 |
20110244362 | CATALYST FOR FUEL CELL, MEMBRANE-ELECTRODE ASSEMBLY INCLUDING SAME, AND FUEL CELL SYSTEM INCLUDING SAME - A catalyst for a fuel cell including a carrier and an active metal dispersion that is supported in the carrier is disclosed. The catalyst may have a dispersity (Dp) represented by General Formula 1 and that ranges from between about 0.01 to about 1.0. | 10-06-2011 |
20110244363 | ELECTRODE CATALYST FOR FUEL CELL, MEMBRANE-ELECTRODE ASSEMBLY FOR FUEL CELL INCLUDING SAME, AND FUEL CELL SYSTEM INCLUDING SAME - An electrode catalyst for a fuel cell including a carbon-based carrier and an active metal supported in the carrier, for example, an electrode catalyst for a fuel cell includes a carrier and an active metal supported in the carrier, wherein the electrode catalyst has an X value of 95 to 100% in Equation 1. | 10-06-2011 |
20110303257 | UNIT THERMIONIC ELECTRIC CONVERTER AND THERMOELECTRIC CONVERTER SYSTEM - A unit thermionic electric converter. The unit thermionic electric converter includes a case having a first end portion and a second end portion; a working fluid disposed inside the case; a solid electrolyte dividing the inside of the case; a first electrode disposed on a surface of the solid electrolyte; and a second electrode disposed on another surface of the solid electrolyte; wherein the first end portion and the second end portion are alternately heated by a heat source. | 12-15-2011 |
20110305960 | FUEL CELL STACK - A fuel cell stack configured to alleviate pressure and decrease the flow rate of at least one of a fuel and an oxidant is disclosed. The fuel cell stack includes a membrane-electrode assembly, an anode separator, a cathode separator and a filing member. The membrane-electrode assembly may include an electrolyte membrane, an anode formed on a first surface of the electrolyte membrane, and a cathode formed on a second surface of the electrolyte membrane. The anode separator may include a fuel channel, a fuel inlet manifold in fluid communication with the fuel channel, and a fuel outlet manifold in fluid communication with the fuel channel. The cathode separator may include an oxidant channel, an oxidant inlet manifold in fluid communication with the oxidant channel, and an oxidant outlet manifold in fluid communication with the oxidant channel. The filling member may be positioned within at least one of the fuel inlet manifold and the oxidant inlet manifold. | 12-15-2011 |
20110305966 | FUEL CELL STACK AND REPLACEMENT DEVICE FOR MEMBRANE-ELECTRODE ASSEMBLY OF FUEL CELL STACK - A fuel cell stack including an electricity generating unit and a pair of end plates is disclosed. The electricity generating unit includes membrane-electrode assemblies and separators interposed between the membrane-electrode assemblies. The separators have recess portions formed on side faces thereof and may be configured to hold an external device for replacement of a single membrane-electrode assembly within the fuel cell stack. The end plates are located sandwiching the electricity generating unit by using fastening members to press the electricity generating unit. | 12-15-2011 |
20110305969 | FUEL CELL STACK - A fuel cell stack including membrane-electrode assemblies and separators formed between each of the membrane-electrode assemblies is disclosed. The membrane-electrode assemblies may each include an electrolyte membrane, an anode formed on a first surface of the electrolyte membrane, and a cathode formed on a second surface of the electrolyte membrane. Each of the separators may include an anode separator facing the anode and a cathode separator facing the cathode. Each of the separators may include at least two manifolds, a channel separated from the manifolds and facing either the anode or the cathode, and a connection channel fluidly connecting the manifold and the channel. The separator may also include a buffer protrusion system in the connection channel configured to disperse the flow of the fuel or the oxidant. | 12-15-2011 |
20120021325 | Membrane-Electrode Assembly, and Fuel Cell Stack and Fabricating Method of Membrane-Electrode Assembly - A membrane-electrode assembly for a fuel cell, the membrane-electrode assembly including an electrolyte membrane; an edge protective layer located at generally an edge of the electrolyte membrane; and a catalytic layer including a plate portion contacting the electrolyte membrane and a protruding portion protruding from the plate portion and contacting the edge protective layer. | 01-26-2012 |
20120034549 | SEPARATOR FOR FUEL CELL, AND FUEL CELL SYSTEM INCLUDING SAME - A fuel cell separator and a fuel cell system including the same. The separator includes a main body including a plurality of cell barriers and a flow channel disposed between the cell bathers, and a hydrophilic surface-treatment layer disposed on the bottom surface of the flow channel of the main body. The hydrophilic surface-treatment layer disposed on the bottom surface of the flow channel has a contact angle less than a contact angle of a side surface of at least one of the cell barriers by approximately 10° to approximately 60°. | 02-09-2012 |
20120270133 | FUEL CELL STACK - A fuel cell stack includes at least one membrane electrolyte assembly having an electrolyte membrane, an anode on a first surface of the electrolyte membrane, and a cathode on a second surface opposite to the first surface of the electrolyte membrane; and at least one supply member coupled to the electrolyte membrane and configured to supply a conductive material to the electrolyte membrane. | 10-25-2012 |
20130017461 | ELECTRODE FOR FUEL CELL, AND MEMBRANE-ELECTRODE ASSEMBLY AND FUEL CELL SYSTEM INCLUDING SAMEAANM HAN; Sang-IIAACI Yongin-siAACO KRAAGP HAN; Sang-II Yongin-si KRAANM SONG; Kah-YoungAACI Yongin-siAACO KRAAGP SONG; Kah-Young Yongin-si KRAANM KIM; Hee-TakAACI Yongin-siAACO KRAAGP KIM; Hee-Tak Yongin-si KRAANM CHO; Sung-YongAACI Yongin-siAACO KRAAGP CHO; Sung-Yong Yongin-si KRAANM KIM; Tae-YoonAACI Yongin-siAACO KRAAGP KIM; Tae-Yoon Yongin-si KRAANM MIN; Myoung-KiAACI Yongin-siAACO KRAAGP MIN; Myoung-Ki Yongin-si KRAANM CHAI; Geun-SeokAACI Yongin-siAACO KRAAGP CHAI; Geun-Seok Yongin-si KR - An electrode for a fuel cell is disclosed. The electrode may include an electrode substrate with a conductive substrate, carbon particles, and a catalyst layer disposed on the electrode substrate. The electrode substrate may include a pore having an average diameter of about 20 μm to about 40 μm and porosity of about 30 volume % to about 80 volume % based on the total volume of the electrode substrate. A membrane-electrode assembly including the electrode and a fuel cell system including the membrane electrode assembly are also disclosed. | 01-17-2013 |
20130040222 | CATALYST LAYER COMPOSITION FOR FUEL CELL, ELECTRODE FOR FUEL CELL, METHOD OF PREPARING ELECTRODE FOR FUEL CELL, MEMBRANE-ELECTRODE ASSEMBLY FOR FUEL CELL, AND FUEL CELL SYSTEM USING THE MEMBRANE-ELECTRODE ASSEMBLY - A catalyst layer composition for a fuel cell includes an ionomer cluster, a catalyst, and a solvent including water and polyhydric alcohol; and an electrode for a fuel cell includes a catalyst layer comprising an ionomer cluster having a three-dimensional reticular structure, and a catalyst, a method of preparing a electrode for a fuel cell includes a catalyst layer comprising an ionomer cluster having a three-dimensional reticular structure, and a catalyst, and a membrane-electrode assembly for a fuel cell including the electrode and a fuel cell system including the membrane-electrode assembly. | 02-14-2013 |
20130059224 | ELECTRICITY GENERATION UNIT AND FUEL CELL STACK - An electricity generator includes a membrane electrode assembly; a separator coupled to the membrane electrode assembly and including a first region and a second region; and a thermal conductor on one of the first region and the second region. | 03-07-2013 |
20130071768 | MEMBRANE ELECTRODE ASSEMBLY AND FUEL CELL STACK - A membrane electrode assembly including an electrolyte membrane; a catalyst layer on the electrolyte membrane; a gas diffusion layer attached to the catalyst layer; and an adhesive layer between the electrolyte membrane and the gas diffusion layer around an outer edge of the catalyst layer, and a fuel cell stack including a plurality of unit cells, each including one of the membrane electrode assemblies. | 03-21-2013 |
20140335437 | ELECTRODE CATALYST FOR FUEL CELL, ELECTRODE FOR FUEL CELL INCLUDING THE ELECTRODE CATALYST, AND MEMBRANE ELECTRODE ASSEMBLY AND FUEL CELL INCLUDING THE SAME - An electrode catalyst for a fuel cell, an electrode, a fuel cell, and a membrane electrode assembly (MEA), the electrode catalyst including a carbonaceous support, and a catalyst metal loaded on the carbonaceous support, wherein the carbonaceous support includes a functional group bound on a surface thereof, the functional group being represented by one of Formula 1 or Formula 2, below, | 11-13-2014 |
20150053030 | CLEARANCE COMPENSATOR OF YOKE - A clearance compensator for a yoke may include: a yoke body installed in a housing of a steering gear box so as to support a rack bar; an elastic member pressurizing the yoke body toward the rack bar; a pressurizing unit contacted with the elastic member so as to support the elastic member; and a yoke plug unit including a yoke plug fixed to the housing and a pressurization adjusting part adjusting the extent to which the pressurizing unit supports the elastic member, and inserted and coupled to the yoke plug. | 02-26-2015 |
Patent application number | Description | Published |
20100227244 | MEMBRANE-ELECTRODE ASSEMBLY FOR FUEL CELL AND FUEL CELL STACK WITH THE SAME - A membrane-electrode assembly (MEA) for a fuel cell includes a fuel cell electrolyte membrane, an anode disposed at a first side of the electrolyte membrane, and a cathode disposed at a second side of the electrolyte membrane, wherein the cathode has a thickness and an area, the cathode area extending in a plane substantially parallel to a major surface of the electrolyte membrane, the cathode area includes a central area and a peripheral area, the peripheral area extending to lateral edges of the cathode, the central area includes hydrophilic portions and hydrophobic portions, the peripheral area includes hydrophilic portions and hydrophobic portions, and the central area is more hydrophobic than the peripheral area. | 09-09-2010 |
20100310950 | Catalyst for fuel cell, ful cell systems including the same, and associated methods - A catalyst for a fuel cell, a fuel cell system including the same, and associated methods, the catalyst including a platinum-metal alloy having a face-centered tetragonal structure, and a carrier, wherein the platinum-metal alloy shows a broad peak or a peak having two split tips at a 2θ of about 65 to about 75 degrees in an XRD pattern using a Cu—K α line, and the platinum-metal alloy is supported in the carrier and has an average particle size of about 1.5 to about 5 nm. | 12-09-2010 |
20130254039 | METHOD AND APPARATUS FOR PROVIDING ADVERTISEMENT SERVICE IN MOBILE COMMUNICATION SYSTEM - Provided is a method and apparatus for providing an advertisement service in a mobile communication system. A method of a server for providing an advertisement service in a mobile communication system includes receiving a message for requesting to provide an advertisement corresponding to an advertisement board to a terminal, searching at least one advertisements corresponding to the advertisement board, determining an advertisement corresponding to user attributes of the terminal among the searched advertisements, and transmitting the determined advertisement to an external device. | 09-26-2013 |
20140019131 | METHOD OF RECOGNIZING SPEECH AND ELECTRONIC DEVICE THEREOF - A method of recognizing a speech and an electronic device thereof are provided. The method includes: segmenting a speech signal into a plurality of sections at preset time intervals; performing a phoneme recognition with respect to one of the plurality of sections of the speech signal by using a first acoustic model; extracting a candidate word of the one of the plurality of sections of the speech signal by using the phoneme recognition result; and performing a speech recognition with respect to the one the plurality of sections the speech signal by using the candidate word. | 01-16-2014 |
20150059476 | ACCELERATION SENSOR - Disclosed herein is an acceleration sensor including: a mass body part; a flexible beam having an electrode or a piezoresistor disposed thereon and having the mass body part coupled thereto; and a support part having the flexible beam connected thereto and supporting the flexible beam, wherein the mass body part, the flexible beam, and the support part are formed by coupling first and second substrates to each other, one surface of the first substrate is provided with a first masking pattern corresponding to the flexible beam, the mass body part, and the support part, and one surface of the second substrate is provided with a second masking pattern corresponding to the mass body part and the support part. | 03-05-2015 |
Patent application number | Description | Published |
20110129974 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device includes forming a plurality of first trenches by etching a substrate, forming a plurality of buried bit lines in the first trenches, forming a plurality of second trenches to expose at least one sidewall of the buried bit lines by etching the substrate, and forming a plurality of one-sidewall contact plugs which fill the second trenches. | 06-02-2011 |
20120025327 | SEMICONDUCTOR DEVICE WITH METAL GATES AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes a gate insulation layer formed over a substrate and having a high dielectric constant, a gate electrode formed over the gate insulation layer and a work function control layer formed between the substrate and the gate insulation layer and inducing a work function shift of the gate electrode. | 02-02-2012 |
20120153406 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a semiconductor device includes forming a gate dielectric layer over a substrate, forming a dipole capping layer over the gate dielectric layer, stacking a metal gate layer and a polysilicon layer over the dipole capping layer, and forming a gate pattern by etching the polysilicon layer, the metal gate layer, the dipole capping layer, and the gate dielectric layer. | 06-21-2012 |
20120217619 | SEMICONDUCTOR DEVICE WITH TRIANGLE PRISM PILLAR AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes a triangle prism pillar having a first, a second, and a third sidewall surface, a bit line contacted with the first sidewall surface of the pillar, and a word line adjacent to the second sidewall surface of the pillar over the bit line. | 08-30-2012 |
20140024214 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device including a semiconductor substrate having a trench formed therein. A migration assist layer is formed in the trench and on the substrate. A buried layer in formed in the trench by migrating material from the migration assist layer and the semiconductor substrate. | 01-23-2014 |
20140061745 | SEMICONDUCTOR DEVICE HAVING BURIED BIT LINES AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes body lines, formed substantially perpendicular to a substrate, and having recessed sidewalls, buried bit lines, buried in the recessed sidewalls, and including a metal silicide, and a barrier layer interposed between each of the buried bit lines and the body lines corresponding thereto, and containing germanium. | 03-06-2014 |
20140061778 | SEMICONDUCTOR DEVICE HAVING BURIED BIT LINES AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes semiconductor bodies formed substantially perpendicular to a semiconductor substrate, buried bit lines formed in the semiconductor bodies and including a metal silicide; and barrier layers formed under and over the buried bit lines and containing germanium. | 03-06-2014 |
20140061850 | SEMICONDUCTOR DEVICE WITH BURIED BITLINE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a semiconductor device includes forming active regions which are separated by a plurality of first trenches, forming supports which fill the first trenches; etching the active regions and defining second trenches which are shallower than the first trenches, forming spacers on sidewalls of the second trenches, etching bottoms of the second trenches and defining third trenches, forming punch-through preventing patterns which fill lower portions of the third trenches, etching sidewalls which are not protected by the punch-through preventing patterns and the spacers, and forming recessed sidewalls which face each other, and forming buried bit lines in the recessed sidewalls. | 03-06-2014 |
20140097519 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a semiconductor device includes forming a first semiconductor wafer, in which a circuit part and a first bonding layer are stacked, on a first semiconductor substrate, forming a second semiconductor wafer, which includes structures and an insulating layer for gap-filling between the structures, on a second semiconductor substrate, the structures including a pillar and bit lines stacked therein, bonding the first semiconductor wafer with the second semiconductor wafer so that the first bonding layer faces the insulating layer, and separating the second semiconductor substrate from the bonded second semiconductor wafer. | 04-10-2014 |
20140162448 | SEMICONDUCTOR DEVICE WITH METAL GATES AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes a gate insulation layer formed over a substrate and having a high dielectric constant, a gate electrode formed over the gate insulation layer and a work function control layer formed between the substrate and the gate insulation layer and inducing a work function shift of the gate electrode. | 06-12-2014 |
20150079767 | SEMICONDUCTOR DEVICE HAVING BURIED BIT LINES AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes semiconductor bodies formed substantially perpendicular to a semiconductor substrate, buried bit lines formed in the semiconductor bodies and including a metal silicide; and barrier layers formed under and over the buried bit lines and containing germanium. | 03-19-2015 |
Patent application number | Description | Published |
20130021931 | METHOD FOR AND APPARATUS FOR FEEDING BACK CHANNEL INFORMATION IN WIRELESS COMMUNICATION SYSTEM - A method and an apparatus for feeding back channel information in a wireless communication system are provided. The method includes calculating an average Signal to Interference and Noise Ratio (SINR), determining a Modulation and Coding Scheme (MCS) level corresponding to the average SINR, determining an MCS level meeting a predefined condition among MCS levels equal to or less than the determined MCS level, and reporting a channel quality indicator representing the determined MCS level to a base station. | 01-24-2013 |
20140086160 | METHOD AND APPARATUS FOR SIGNALING POWER INFORMATION IN WIRELESS COMMUNICATION SYSTEM - A method and apparatus for signaling power information in a wireless communication system are provided. A base station apparatus co-schedules a plurality of User Equipments (UEs) to at least one resource element, and transmits power information indicating transmit power values, which are allocated for the co-scheduled UEs, to the co-scheduled UEs. The power information includes first power information including information about a pilot signal power value and a transmit power value for a first UE among the co-scheduled UEs, and second power information indicating a transmit power value for each of at least one second UE except for the first UE among the co-scheduled UEs. | 03-27-2014 |
20140105333 | APPARATUS AND METHOD FOR ESTIMATING CHANNEL IN WIRELESS COMMUNICATION SYSTEM - An apparatus for iteratively estimating a channel in a receiver of a wireless communication system is provided. The apparatus includes a channel estimator configured to estimate a first channel value by using a pilot symbol included in a received signal, a demodulator configured to demodulate the received signal by using the first channel value, a decoding unit configured to decode the received signal demodulated by the demodulator, a feedback determining unit configured to determine whether to iteratively estimate the channel, and a feedback device configured to feed back an input value of the decoding unit when the feedback determining unit determines to iteratively estimate the channel, wherein when the feedback determining unit determines to iteratively estimate the channel, the channel estimator estimates a second channel value by using at least one of the pilot symbol included in the received signal and a data symbol received from the feedback device. | 04-17-2014 |
20140184440 | CIRCUIT, APPARATUS AND METHOD FOR ANTENNA MODE STEERING - An Antenna Mode Steering (AMS) method in a signal receiving apparatus using at least one antenna is provided. The method includes measuring a received signal quality of a signal received through the at least one antenna for each of antenna modes available in the signal receiving apparatus, and selecting a specific antenna mode from among the antenna modes as an antenna mode to be used in the signal receiving apparatus based on the measured received signal quality. | 07-03-2014 |
20140254444 | APPARATUS AND METHOD FOR SAVING POWER BY TRANSMISSION INTERVAL IN WIRELESS COMMUNICATION SYSTEM - An apparatus and a method for controlling power consumption of a terminal in a wireless communication system are provided. The method includes deactivating one or more of hardware components for signal reception in a transmission interval if there is no data to be received in the transmission interval, and receiving a control signal by activating all the components in a next transmission interval. | 09-11-2014 |
20140321521 | LINK PERFORMANCE ABSTRACTION METHOD AND APPARATUS IN A WIRELESS COMMUNICATION SYSTEM - A method and an apparatus for link performance abstraction for a receiver employing Interference-Aware Communications (IAC) technology in a wireless communication system are provided. A method for operating a receiving apparatus for the link performance abstraction in the wireless communication system, includes receiving an Orthogonal Frequency Division Multiplexing (OFDM) over a plurality of spatial layers, splitting and post-processing the received signal based on the spatial layers, deriving a post-processing Signal-to-Interference-plus-Noise Ratio (SINR) of each spatial layer, converting the post-processing SINR of the spatial layers to a Mutual Information per coded Bit (MIB) adaptively tuned based on an instantaneous Interference-to-Signal Ratio (ISR), and estimating a Block Error Rate (BLER) from a mean of the MIB metrics of the spatial layers. | 10-30-2014 |
20140341122 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING DATA IN WIRELESS COMMUNICATION SYSTEM - A method of transmitting data in a wireless communication, by a first Base Station (BS) is provided. The method includes receiving control information including information related to transmission of a Reference Signal (RS) of at least one second BS from the at least one second BS adjacent to the first BS and transmitting data by using a preset method based on the control information when an RS transmission mode of the at least one second BS is different from an RS transmission mode of the first BS. | 11-20-2014 |
20150017558 | CELL FRAME FOR IMPROVED FLOW DISTRIBUTING AND REDOX FLOW BATTERY HAVING THE SAME - Disclosed herein is a redox flow battery, and more particularly, a cell frame channel design capable of efficiently distributing an electrolyte. | 01-15-2015 |
20150017568 | REDOX FLOW BATTERY AND CELL FRAME - Disclosed herein are a redox flow battery and a cell frame. In a cell frame of a redox flow battery, the cell frame comprising: a pair of unit frames adhered to each other; a protection plate shared by the unit frames, wherein each unit frame includes an electrolyte channel formed on a contact region of the unit frame with the protection plate; and a bipolar plate on which an electrolyte flows, wherein the electrolyte is supplied through the electrolyte channel. The cell frame has an integration type structure in which the protection plate is positioned in the cell frame, such that leakage of the electrolyte may be effectively prevented. | 01-15-2015 |