Patent application number | Description | Published |
20120305855 | POSITIVE ELECTRODE MATERIAL FOR SECONDARY BATTERY AND METHOD FOR MANUFACTURING THE SAME - A positive electrode material for a secondary battery and a method for manufacturing the same are provided, in which manganese fluorophosphate containing lithium or sodium can be used as an electrode material. That is, a positive electrode material for a lithium/sodium battery is provided, in which intercalation/deintercalation of sodium/lithium ions is possible due to a short lithium diffusion distance caused by nanosizing of particles. Furthermore, a positive electrode material for a lithium/sodium battery is provided, which has electrochemical activity due to an increase in electrical conductivity by effective carbon coating. | 12-06-2012 |
20120328909 | MONITORING ELECTRODE AND SECONDARY BATTERY USING THE SAME - This invention relates to a monitoring electrode for measuring voltage of each of a cathode and an anode of a secondary battery including the cathode, the anode and an electrolyte, which includes a first end portion inserted into the secondary battery so as to be incorporated in the electrolyte but disposed so that it is not in contact with the cathode or the anode; and a second end portion extending from the first end portion and having branches respectively connected to the cathode and the anode, and to a secondary battery using the same. | 12-27-2012 |
20130069012 | COMPOSITIONS AND METHODS FOR MANUFACTURING A CATHODE FOR LITHIUM SECONDARY BATTERY - Disclosed are compositions and methods for producing a cathode for a secondary battery, where lithium manganese fluorophosphate such as Li | 03-21-2013 |
20130078521 | COMPOSITIONS AND METHODS FOR MANUFACTURING A CATHODE FOR A SECONDARY BATTERY - Disclosed are compositions and methods for producing a cathode for a secondary battery, where a fluorophosphate of the formula Li | 03-28-2013 |
20130134362 | CATHODE MATERIAL FOR SECONDARY BATTERY AND MANUFACTURING METHOD OF THE SAME - Disclosed are a cathode material for a secondary battery, and a manufacturing method of the same. The cathode material includes a lithium manganese phosphate LiMnPO | 05-30-2013 |
20140106192 | MONITORING ELECTRODE AND SECONDARY BATTERY USING THE SAME - This invention relates to a monitoring electrode for measuring voltage of each of a cathode and an anode of a secondary battery including the cathode, the anode and an electrolyte, which includes a first end portion inserted into the secondary battery so as to be incorporated in the electrolyte but disposed so that it is not in contact with the cathode or the anode; and a second end portion extending from the first end portion and having branches respectively connected to the cathode and the anode, and to a secondary battery using the same. | 04-17-2014 |
Patent application number | Description | Published |
20080297007 | PIEZOELECTRIC VIBRATOR AND FABRICATING METHOD THEREOF - The present invention relates to piezoelectric vibrators such as a resonator used as a timing element, discriminator, filter or the like, and fabricating methods thereof. The piezoelectric vibrators of the present invention may be fabricated by forming a piezoelectric body of piezoelectric sheets, of which the thickness is controlled, and simultaneously sintering the sheets along with cover layers, on which grooves are formed. Also, the piezoelectric vibrator of the present invention is fabricated by laminating the piezoelectric sheets, of which the thickness is controlled, providing internal electrodes between the sheets, and forming external electrodes insulated from the internal electrodes. | 12-04-2008 |
20080313874 | PIEZOELECTRIC VIBRATOR AND FABRICATING METHOD THEREOF - The present invention relates to piezoelectric vibrators such as a resonator used as a timing element, discriminator, filter or the like, and fabricating methods thereof. The piezoelectric vibrators of the present invention may be fabricated by forming a piezoelectric body of piezoelectric sheets, of which the thickness is controlled, and simultaneously sintering the sheets along with cover layers, on which grooves are formed. Also, the piezoelectric vibrator of the present invention is fabricated by laminating the piezoelectric sheets, of which the thickness is controlled, providing internal electrodes between the sheets, and forming external electrodes insulated from the internal electrodes. | 12-25-2008 |
Patent application number | Description | Published |
20130141191 | ELECTROMAGNETIC BANDGAP STRUCTURE AND PRINTED CIRCUIT BOARD - An electromagnetic bandgap structure and a printed circuit board that can solve a mixed signal problem between an analog circuit and a digital circuit are disclosed. In accordance with an embodiment, an electromagnetic bandgap structure is stacked with a first metal layer, a first dielectric layer, a metal plate, a second dielectric layer and a second metal layer, and an odd number of vias can be serially connected through a metal line between the first metal layer and the metal plate. This electromagnetic bandgap structure can have a small size and a low bandgap frequency. | 06-06-2013 |
20150021074 | PRINTED CIRCUIT BOARD AND MANUFACTURE METHOD THEREOF - Disclosed herein is a printed circuit board capable of implementing slimness by decreasing the number of entire layers through an asymmetrical build-up structure in which an electric device is embedded, the printed circuit board including: a core layer including a cavity formed therein so that an electric device is embedded and a circuit pattern and a pad formed on upper and lower surfaces thereof; a through via formed in the core layer so as to connect the upper and the lower pads of the core layer to each other; a plurality of insulating layers built-up on the core layer and including a plurality of vias so as to be electrically connected to the through via; and a solder resist layer applied onto a lower portion of the core layer so that a lower surface of the through via is partially exposed. | 01-22-2015 |
20150107880 | MULTILAYER PRINTED CIRCUIT BOARD - Disclosed herein is a multilayer printed circuit board. The multilayer printed circuit board according to the present invention includes: a stack via stacked in an upper portion of a core layer; staggered vias formed at both sides of the stack via and stacked on the core layer; and a solder resist layer stacked in a lower portion of the core layer and stacked on an insulating film except for open regions of the stack via and the staggered vias, such that the plurality of vias formed in the staggered via may increase rigidity to prevent warpage of the multilayer printed circuit board from being generated. | 04-23-2015 |
20150114553 | METHOD OF MANUFACTURING GLASS CORE - Disclosed herein is a method of manufacturing a glass core capable of continuously manufacturing the glass core by an automated process. The method includes: providing a glass sheet; laminating an insulating sheet on the glass sheet; laminating a copper clad sheet on the insulating sheet to manufacture the glass core; laminating a buffering sheet on the copper clad sheet; pressing and temporarily hardening the buffering sheet; delaminating the temporarily hardened buffering sheet; thermally hardening the glass core by a heater after the delaminating of the temporarily hardened buffering sheet; and cutting the glass core at a predetermined size after the thermal hardening of the glass core. | 04-30-2015 |
Patent application number | Description | Published |
20130109775 | POLYURETHANE COMPOSITIONS FOR AN AUTOMOTIVE SEAT | 05-02-2013 |
20140171528 | MULTI-FUNCTIONAL BIO POLYURETHANE FOAM - Disclosed is a multi-functional bio polyurethane foam, and more specifically a multi-functional bio polyurethane foam which is polyurethane foam comprising a reaction product of a resin premix, which comprises about 5 to 20 wt % biopolyol, and isocyanate. The multi-functional bio polyurethane foam may be applied to a car seat and the like, and shows the same level of physical properties as the conventional polyurethane foam manufactured from the petroleum-based polyol, and further provides enhanced antimicrobial function and minimized vibration transmissivity. | 06-19-2014 |
20140171529 | ANTIMICROBIAL BIO POLYURETHANE FOAM - Disclosed is an antimicrobial bio polyurethane foam, and more specifically abio polyurethane foam: which is polyurethane foam comprising a reaction product of a resin premix, which comprises biopolyol of about 5 to 20 wt %, and isocyanate; applied to a car seat and the like; and which is enhanced in an antimicrobial property through use of the biopolyol. | 06-19-2014 |
20140171531 | ANTIMICROBIAL BIO POLYURETHANE FOAM AND METHOD FOR MANUFACTURING THE SAME - Disclosed is an antimicrobial bio polyurethane foam and a method for manufacturing thereof, and more specifically, a polyurethane foam which comprises a reaction product of a resin premix comprising the biopolyol in an amount of 5 to 30 wt % based on total weight of the resin premix, and a prepolymer. The antimicrobial bio polyurethane foam is enhanced in an antimicrobial property by maximizing the content of the biopolyol. | 06-19-2014 |
20140336296 | MULTI-FUNCTIONAL BIO POLYURETHANE FOAM AND METHOD FOR MANUFACTURING THE SAME - Disclosed is a multi-functional bio polyurethane foam and a method for manufacturing the same. More particularly, disclosed is a multi-functional bio polyurethane foam containing a reaction product of a resin premix and a pre-polymer, in which the resin premix includes from about 5% by weight to about 30% by weight of a biopolyol. The multi-functional bio polyurethane foam has a maximized content of a biopolyol while exhibiting physical properties which are equivalent to those of a petroleum-based polyol-based polyurethane foam in the related art, and further provides a strengthened antibacterial function and minimized vibration transmissivity. | 11-13-2014 |
Patent application number | Description | Published |
20090108984 | CERAMIC COMPONENT AND METHOD OF MANUFACTURING THE SAME - Provided are a ceramic component and a method of manufacturing the ceramic component. The ceramic component includes a previously fired insulation ceramic base, a functional ceramic sheet bonded to the insulation ceramic base by a diffusion bonding layer having an anchoring structure, internal electrodes embedded into the functional ceramic sheet, and external electrodes connected to the internal electrodes. A functional ceramic paste corresponding to the functional ceramic sheet is applied to the insulation ceramic base and is dried to form a functional ceramic film. The functional ceramic film is pressed against the insulation ceramic base to anchor functional ceramic film into the insulation ceramic base for sure attachment. The functional ceramic film is fired to allow functional oxide materials included in the functional ceramic film to permeate the insulation ceramic base by solid diffusion to form the diffusion bonding layer and to change the functional ceramic film into the functional ceramic sheet. | 04-30-2009 |
20110290451 | HEAT COOLER - Provided is a heat cooler configured to rapidly cool a heat-generating device by transferring heat generated from the heat-generating device to an outside area. The heat cooler includes a heat conductive body having a predetermined volume and sealing members. The body includes a plurality of penetration holes formed through top and bottom surfaces of the body. The sealing members are hermetically coupled to the top and bottom surfaces of the body. The bores are sealed with the sealing members to form independent accommodation portions, and a plurality of heat conductive beads and a refrigerant are filled in the accommodation portions in a state where the refrigerant permeates between the heat conductive beads. | 12-01-2011 |
20120026659 | CERAMIC CHIP ASSEMBLY - Provided is a ceramic chip assembly configured to economically and reliably insulate an exposed portion of a metal lead wire from an environmental change. The ceramic chip assembly includes a ceramic base having electrical characteristics, a pair of external electrodes that are disposed on a pair of surfaces of the ceramic base, respectively, the surfaces of the ceramic base being opposed to each other, a pair of metal lead wires as single cores having first ends that are electrically and mechanically connected to the external electrodes, respectively, by an electrical conductive adhesive member, an insulation sealant sealing the ceramic base, the external electrodes, and the first ends of the metal lead wires to expose second ends of the metal lead wires, and an insulation polymer coating layer continuously formed on both the insulation sealant and portions of the metal lead wires exposed out of the insulation sealant. | 02-02-2012 |
20120218727 | SHIELD CASE FOR EMI SHIELDING - Provided is a shield case for electromagnetic interference shielding, including a main body having an opening in a lower surface thereof, wherein at least one portion of an upper surface of the main body is flat for vacuum pickup, and the main body has a box shape and is electrically conductive, a flange extending outward from an edge of the opening and integrally formed with the edge, and a support coupled to the flange to contact at least a lower surface of the flange. The support is adapted for soldering and is electrically conductive. After the main body and the support are mounted on a printed circuit board through a surface mount process, a lower surface of the support is electrically and mechanically connected through solder cream to a conductive pattern of the printed circuit board through a reflow soldering process. | 08-30-2012 |
Patent application number | Description | Published |
20110153320 | DEVICE AND METHOD FOR ACTIVE NOISE CANCELLING AND VOICE COMMUNICATION DEVICE INCLUDING THE SAME - Provided is a device for active noise cancelling. The active noise cancelling device may include a phase inverter to generate and output a phase-inverted signal from an input voice signal, and an output unit to output the phase-inverted signal to an outside, and to thereby offset the voice signal. | 06-23-2011 |
20110154120 | APPARATUS AND SYSTEM FOR INTEGRATEDLY MANAGING STATIC ANALYSIS TOOLS - An apparatus for integratedly managing static analysis tools includes: a tool configuration module receiving initial configuration information in an integrated configuration format for an analysis of static analysis tools from a user, converting the initial configuration information in the integrated configuration format into initial configuration information in an initial configuration format of the static analysis tools, and transmitting the same; a result output module receiving analysis results from the static analysis tools, converting the received analysis results into a common analysis result format, and outputting the same; an analysis configuration module receiving analysis configuration information from the user, converting the received analysis configuration information into analysis configuration information in an analysis configuration format of the static analysis tools, and transmitting the same; and an execution management module performing one or more of functions such as management of the analysis performing of the static analysis tools, management of the configuration of the static analysis tools themselves, and management of the verification rules of the static analysis tools. | 06-23-2011 |
20150256321 | AIRPLANE SYSTEM AND CONTROL METHOD THEREOF - Disclosed are an airplane system including duplex modules, and a control method thereof The control method of the airplane system includes: receiving, by each of a plurality of duplex modules, a corresponding event command from a client; performing, by a first module, a first event specified by the event command in response to the event command; performing, by a second module different from the first module, a second event specified by the event command after the first event is completed; and returning a first response signal indicating a result of the performance of the first event and a second response signal indicating a result of the performance of the second event to the client, in which the client compares the first response signal and the second response signal, and determines whether the plurality of duplex modules is synchronized or has an error. | 09-10-2015 |