Patent application number | Description | Published |
20080204971 | Integrated multilayer chip capacitor module and integrated circuit apparatus having the same - An integrated multilayer chip capacitor module including: plurality of multilayer chip capacitors arranged close to one another and co-planar with one another; and a capacitor support accommodating the multilayer chip capacitors, wherein each of the multilayer chip capacitors includes a rectangular parallelepiped capacitor body and a plurality of first and second external electrodes formed on at least two sides of the capacitor body, and the external electrodes on adjacent sides of adjacent ones of the multilayer chip capacitor in the capacitor support are electrically connected to each other by a conductive adhesive material. | 08-28-2008 |
20080310078 | Method of implementing low ESL and controlled ESR of multilayer capacitor - Disclosed is a method of implementing controlled equivalent series resistance (ESR) having low equivalent series inductance (ESL) of a multi-layer chip capacitor which includes a plurality of internal electrodes each having first polarity or second polarity which is opposite to the first polarity, and dielectric layers each disposed between the internal electrodes of the first polarity and the second polarity, wherein the internal electrodes having the first polarity and the internal electrodes having the second polarity are alternated at least once to form one or more blocks being stacked. | 12-18-2008 |
20090034154 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes: a capacitor body; internal electrodes disposed in the capacitor body, each internal electrode having one or more lead; and external electrodes disposed on first and second side surfaces of the capacitor body to be electrically connected to the internal electrodes through the leads. The average number of leads in each internal electrode is smaller than half (½) of the total number of external electrodes. The leads of the internal electrodes having opposite polarities and adjacent in the lamination direction are disposed to be adjacent to each other as seen from the lamination direction. All the internal electrodes having the same polarity are electrically connected to each other in the capacitor. | 02-05-2009 |
20090051474 | LAMINATED INDUCTOR - There is provided a laminated inductor including: a body where a plurality of magnetic layers are laminated; a coil part formed on the magnetic layers, the coil part including a plurality of conductor patterns and a plurality of conductive vias; first and second external electrodes formed on an outer surface of the body to connect to both ends of the coil part, respectively; and a non-magnetic conductor formed on at least one of the magnetic layers so as to relax magnetic saturation caused by direct current flowing through the coil part. The laminated inductor employs the non-magnetic conductor as a non-magnetic gap to be simplified in a manufacturing process and effectively improved in DC superposition characteristics. | 02-26-2009 |
20090059469 | MULTILAYER CHIP CAPACITOR, CIRCUIT BOARD APPARATUS HAVING THE CAPACITOR, AND CIRCUIT BOARD - Provided is a multilayer chip capacitor including a capacitor body having first and second capacitor units arranged in a lamination direction; and a plurality of external electrodes formed outside the capacitor body. The first capacitor unit includes at least one pair of first and second internal electrodes disposed alternately in an inner part of the capacitor body, the second capacitor unit includes a plurality of third and fourth internal electrodes disposed alternately in an inner part of the capacitor body, and the first to fourth internal electrodes are coupled to the first to fourth external electrodes. The first capacitor unit has a lower equivalent series inductance (ESL) than the second capacitor unit, and the first capacitor unit has a higher equivalent series resistance (ESR) than the second capacitor unit. | 03-05-2009 |
20090073634 | Circuit board for mounting multilayer chip capacitor and circuit board apparatus including the multilayer chip capacitor - A circuit board including: a substrate having a mounting area for mounting a vertical multilayer chip capacitor having first and second external electrodes of a first polarity and a third external electrode of a second polarity; first to third pads arranged on the mounting area, the first and second pads having the first polarity and disposed separately from each other on the mounting area, the third pad having the second polarity and disposed between the first and second pads to be connected to the third external electrode; at least one first via formed in the substrate and connected to the first pad; at least one second via formed in the substrate and connected to the second pad; and a plurality of third vias formed in the substrate and connected to the third pad. The first via is disposed adjacent to the third pad relative to a central line of the first pad, the second via is disposed adjacent to the third pad relative to a central line of the second pad, one or more of the third vias are disposed adjacent to the first via relative to a central line of the third pad, and the rest of the third vias are disposed adjacent to the second via relative to the central line of the third pad. | 03-19-2009 |
20090086403 | MULTILAYER CAPACITOR - There is provided a multilayer capacitor including an inner connecting conductor of at least one polarity; a plurality of first and second outer electrodes formed on a surface of the body, wherein the inner connecting conductor is connected to a corresponding one of the outer electrodes having identical polarity, a corresponding one of the inner electrodes having identical polarity to the inner connecting conductor includes a plurality of groups each including at least one of the inner electrodes, wherein the inner electrodes of the respective groups are connected to the outer electrodes having identical polarity that are different from one another for each of the groups and electrically connected to the inner connecting conductor through the connected outer electrode. | 04-02-2009 |
20090086405 | MULTILAYERED CHIP CAPACITOR AND CAPACITANCE TUNNING METHOD OF THE SAME - There is provided a multilayer chip capacitor capable of tuning capacitance, including: a capacitor body where a plurality of dielectric layers are laminated; a plurality of pairs of first and second internal electrodes arranged alternately, while interposing a corresponding one of the dielectric layers; and a plurality of pairs of first and second external electrodes connected to the first and second internal electrodes, wherein the first and second internal electrodes include a plurality of groups each including at least one pair of the first and second internal electrodes, and the first and second internal electrodes of each of the groups are connected to different pairs of the first and second external electrodes, respectively, wherein a corresponding one of the pairs of the first and second external electrodes is selectively connected to power lines so that the multilayer chip capacitor has at least two different capacitances. | 04-02-2009 |
20090086406 | MULTILAYER CAPACITOR - There is provided a multilayer capacitor including: a capacitor body where a plurality of dielectric layers are laminated, the capacitor body including first and second surfaces opposing each other in a laminated direction, wherein the first surface provides a mounting surface; a plurality of first and second inner electrodes; an inner connecting conductor; and a plurality of first and second outer electrodes formed on an outer surface of the body, wherein a corresponding one of the outer electrodes having identical polarity to the inner connecting conductor includes at least one outer terminal formed on the first surface of the body to connect to the inner connecting conductor, and at least one outer connecting conductor formed on the second surface of the body to connect a corresponding one of the inner electrodes of identical polarity to the inner connecting conductor. | 04-02-2009 |
20090139757 | MULTILAYER CHIP CAPACITOR AND CIRCUIT BOARD DEVICE INCLUDING THE SAME - A multilayer chip capacitor including: a capacitor body having a lamination structure where a plurality of dielectric layers are laminated and including a first capacitor part and a second capacitor part arranged according to a lamination direction; first to fourth outer electrodes formed on side surfaces of the capacitor body, the first and third outer electrodes having the same polarity and the second and fourth outer electrodes having the same polarity opposite to that of the first outer electrode; and one or more connection conductor lines formed on an outer surface of the capacitor body and connecting the first outer electrode to the third outer electrode or connecting the second outer electrode to the fourth outer electrode. | 06-04-2009 |
20090213525 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes a capacitor body including first and second longer side surfaces facing each other and first and second shorter side surfaces facing each other, first and second external electrodes respectively disposed at the first and second longer side surfaces, one or more first internal electrode pairs each including first and second internal electrodes, and one or more second internal electrode pairs each including third and fourth internal electrodes. The first to fourth internal electrodes each have one lead and are sequentially disposed in a stacked direction. The first to fourth internal electrodes have first to fourth leads respectively extending to first to fourth corners or portions adjacent thereto, and alternately connected with the first and second external electrodes. The first internal electrode pair and the second internal electrode pair cause a current to diagonally flow in opposite directions with respect to a long side direction. | 08-27-2009 |
20090244803 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes a capacitor body including a first capacitor part and a second capacitor part, first and second external electrodes respectively formed on first and second longer side faces of the capacitor body, and third and fourth external electrodes respectively formed on first and second shorter side faces of the capacitor body. The first capacitor part includes first and second internal electrodes of opposite polarity, and the second capacitor part includes third and fourth internal electrodes of opposite polarity. The first to fourth internal electrodes each have one lead. The first to fourth external electrodes are respectively connected to the leads of the first to fourth internal electrodes. A series resonance frequency of the first capacitor part is different from that of the second capacitor part. Equivalent series resistance (ESR | 10-01-2009 |
20090244807 | MULTILAYER CHIP CAPACITOR, MOTHERBOARD APPARATUS HAVING THE SAME, AND POWER DISTRIBUTION NETWORK - There is provided a multilayer chip capacitor including: a capacitor body including first and second capacitor units arranged in a laminated direction; and first to fourth outer electrodes formed on side surfaces of the capacitor body, respectively, wherein the first capacitor unit includes first and second inner electrodes of different polarities alternately arranged in the capacitor body to oppose each other while interposing a corresponding one of dielectric layers, the second capacitor unit includes third and fourth inner electrodes of different polarities alternately arranged in the capacitor body to oppose each other while interposing another corresponding one of the dielectric layers, the first and second capacitor units are electrically insulated from each other, and the first capacitor unit operates in a first frequency range and the second capacitor unit operates in a second frequency range lower than the first frequency range. | 10-01-2009 |
20090279228 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes a capacitor body provided by a stack of a plurality of dielectric layers, a plurality of internal electrodes disposed in the capacitor body such that the internal electrodes of opposite polarities are alternately disposed to face each other with the dielectric layer interposed between each facing set of the internal electrodes, and a plurality of external electrodes disposed on an outer face of the capacitor body and electrically connected with the internal electrode. Each of the plurality of internal electrodes includes a main electrode part, and at least one lead extending from the main electrode part to a side face of the capacitor body and connected to a corresponding one of the external electrodes. The lead extends to the corresponding external electrode to be inclined with respect to the main electrode part thereof. | 11-12-2009 |
20100032193 | ELECTRODE PAD FOR MOUNTING ELECTRONIC COMPONENT AND STRUCTURE FOR MOUNTING ELECTRONIC COMPONENT - Provided is an electrode pad for mounting an electronic component on a surface of a circuit board. The electrode pad includes first and second electrode parts facing each other, and third and fourth electrode parts facing each other. The third and fourth electrode parts are disposed adjacent to the first and second electrode parts for forming corners of the electrode pad together with the first and second electrode parts. At least one of the first to fourth electrode parts includes a chamfered surface formed by cutting a corner of the at least one of the first to fourth electrode parts forming the corner of the electrode pad. Therefore, when the electrode pad is used for mounting an electronic component, the width of an outer electrode of the electronic component can be sufficiently increased, and thus the shape or size of the outer electrode can be easily adjusted. | 02-11-2010 |
20100033897 | MULTILAYER CHIP CAPACITOR - There is provided a multilayer chip capacitor a multilayer chip capacitor including: a capacitor body including first and second capacitor units arranged therein; and first to fourth outer electrodes, wherein the first capacitor unit includes first and second inner electrodes, and the first capacitor unit includes a plurality of capacitor elements each having a pair of the first and second inner electrodes repeatedly laminated, the second capacitor unit includes third and fourth inner electrodes, and the second capacitor unit includes at least one capacitor element having a pair of the third and fourth inner electrodes repeatedly laminated, and at least one of the capacitor elements of the first capacitor unit is different from the other capacitor elements of the first capacitor unit in a lamination number of the first and second inner electrodes or a resonant frequency. | 02-11-2010 |
20100091427 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes: a capacitor body having a plurality of dielectric layers laminated therein and comprising first and second capacitor units; and first to fourth external electrodes formed on an outer surface of the capacitor body, wherein the first capacitor unit comprises first and second internal electrodes facing each other with the dielectric layer interposed therebetween, connected to the first and second external electrodes, and having different polarities, each pair of first and second internal electrodes being laminated one or more times to discriminate a plurality of capacitors with a certain capacitance, the second capacitor unit comprises third and fourth internal electrodes facing each other with the dielectric layer interposed therebetween, connected to the third and fourth external electrodes, and having the same polarities as those of the first and second internal electrodes, each pair of third and fourth internal electrodes being laminated one or more times to discriminate one or more capacitors each with a certain capacitance, and at least three capacitors included in the first and second capacitor units have different capacitances or resonance frequencies. | 04-15-2010 |
20100149769 | CIRCUIT BOARD DEVICE AND INTEGRATED CIRCUIT DEVICE - A circuit board device includes a circuit board comprising a mounting area, and first and second power lines and a ground pad formed on the mounting area, and a vertical multilayer chip capacitor (MLCC) comprising a capacitor body, a plurality of first and second polarity inner electrodes, first and second outer electrodes, and a third outer electrode, wherein the first and second power lines are separately disposed on the mounting area, connected to the first and second outer electrodes, and electrically connected to each other only by the vertical MLCC, and the ground pad is disposed between the first and second power lines and connected to the third outer electrode. | 06-17-2010 |
20100238605 | MULTILAYER CHIP CAPACITOR AND METHOD OF FABRICATING THE SAME - A multilayer chip capacitor includes: a capacitor main body; a plurality of first and second inner electrodes; and m (m≧3) number of first and second outer electrodes. The plurality of first and second inner electrodes are connected with two outer electrodes positioned on both opposing surfaces and having the same polarity as that of the first and second inner electrodes, and classified into a plurality of groups depending on the locations of the outer electrodes connected to the first and second inner electrodes. At least one of two outer electrodes connected with inner electrodes of each group is different from an outer electrode connected with inner electrodes of a different group having the same polarity, and inner electrodes of one group are connected to outer electrodes connected with at least another one group so that all the inner electrodes belonging to the same polarity can be electrically connected. | 09-23-2010 |
20100254070 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes: a capacitor body having first and second side surfaces and a bottom surface; a plurality of first and second internal electrodes in the capacitor body; first and second external electrodes having a first polarity and formed on the first and second side surfaces, respectively, to cover a respective lower edge of the side surfaces and to partially extend to the bottom surface; and a third external electrode having a second polarity and formed on the bottom surface. The internal electrodes are disposed in perpendicular to the bottom surface. Each of the first internal electrodes has a first lead drawn to the first side and bottom surfaces and a second lead drawn to the second side and bottom surfaces. Each of the second internal electrodes has a third lead drawn to the bottom surface. | 10-07-2010 |
20110085277 | MULTILAYER CHIP CAPACITOR - A multilayer chip capacitor includes a capacitor body, a plurality of internal electrodes, and a plurality of external electrodes. The capacitor body is formed of a ceramic sintered product and has first and second side surfaces facing each other. The plurality of internal electrodes each of which has two leads extending to the first and second side surfaces of the capacitor body, respectively, are arranged such that the internal electrodes with one polarity and the internal electrodes with the other polarity are alternately stacked inside the capacitor body. The plurality of external electrodes are formed on the first and second side surfaces of the capacitor body along a stacked direction of the internal electrodes such that the external electrodes with one polarity and the external electrodes with the other polarity are alternately arranged on each of the first and second side surfaces, and are connected to the leads. | 04-14-2011 |
20110252814 | Thermal insulator for construction using thermoelectric module - The present invention provides a thermal insulator for construction including: a thermoelectric module inserted in a wall or floor of a building and including a plurality of thermoelectric elements; a power supply module for supplying power to the thermoelectric module; and a power control module for controlling size and polarity of the power supplied to the thermoelectric module from the power supply module. This thermal insulator for construction can provide much better thermal insulation performance in comparison with a conventional thermal insulator, and it is possible to reduce thickness of the wall or floor in comparison with when using the conventional thermal insulator since the thermoelectric element has very small size. Further, it is possible to implement a cooling or heating effect only by changing polarity and size of applied current. | 10-20-2011 |
20110259018 | Thermoelectric module and method for manufacturing the same - Disclosed herein are a thermoelectric module including a first substrate and a second substrate that are opposite to each other and spaced from each other; first and second electrodes that are disposed on the inner side surfaces of the first and second substrates, respectively; and a thermoelectric element that is interposed between the first and second electrodes and is electrically bonded to the first and second electrodes, wherein at least any one of the first and second substrates has an insulating layer disposed on one surface and a fluid flowing line for moving a fluid transferring heat therein, and a method for manufacturing the same. | 10-27-2011 |
20110294073 | PREPARING METHOD OF METAL POWDER AND METHOD OF MANUFACTURING INNER ELECTRODE OF MULTILAYER CERAMIC CAPACITOR USING THE SAME - The present invention provides a method for preparing metal powder, which includes the steps of: providing a base substrate; forming a pattern layer, having a concave-convex pattern of a predetermined shape, on the base substrate; forming a metal film separated from the pattern layer by the concave-convex pattern; and separating the metal film from the pattern layer, thereby naturally patterning the metal film in the predetermined shape, and a method for manufacturing inner electrodes of a multilayer ceramic capacitor using the same. | 12-01-2011 |
20120023970 | COOLING AND HEATING WATER SYSTEM USING THERMOELECTRIC MODULE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a cooling and heating water system using a thermoelectric module and a method of manufacturing the same. The cooling and heating water system using a thermoelectric module includes first and second substrates disposed to be spaced apart from each other, while facing each other; a cooling water line formed in the first substrate so as to flow cooling water therethrough; a heating water line formed in the second substrate so as to flow heating water therethrough; first and second insulating layers disposed on the inner side surfaces of the first and second substrates, respectively; and a thermoelectric device interposed between the first and second insulating layers, whereby it is possible to variously control a temperature of drinking water without generating noise by using the thermoelectric module in cooling the drinking water. | 02-02-2012 |
20120024335 | MULTI-LAYERED THERMOELECTRIC DEVICE AND METHOD OF MANUFACTURING THE SAME - The present invention provides a multi-layered thermoelectric device and a method of manufacturing the same. The method for manufacturing a multi-layered thermoelectric device includes the steps of: forming a P-type semiconductor and an N-type semiconductor in a sheet type by mixing thermoelectric semiconductor materials at a preset component ratio; cutting the sheets according to a preset specification of the thermoelectric device; stacking sheets which are made by mixing the thermoelectric semiconductor materials at a preset component ratio and are cut into the same size for each of them; and forming a final thermoelectric device by compressing the stacked sheets. By using the method, scattering phenomenon due to a short wavelength of phonon occurs at a boundary of each layer, which results in active scattering of phonon. Therefore, it is possible to expect an effect of improving a thermoelectric figure of merit of a thermoelectric device. | 02-02-2012 |
20120100036 | METHOD OF MANUFACTURING ULTRA FINE METAL POWDER AND ULTRA FINE METAL POWDER MANUFACTURED BY THE SAME - Disclosed are a method of manufacturing ultra fine metal powder used for an electrode for an MLCC and ultra fine metal powder manufactured by the same. The method of manufacturing ultra fine metal powder includes: preparing a master mold in which a pattern is formed; forming a sacrificial layer by applying a polymer material on the pattern; forming a metal layer on the sacrificial layer; and forming individual ultra fine metal powder by removing the sacrificial layer and separating the metal layer from the master mold. | 04-26-2012 |
20120126460 | APPARATUS AND METHOD FOR MANUFACTURING BOARD FOR PRODUCTION OF METAL FLAKE - There are provided an apparatus and method for manufacturing a board for the production of a metal flake. The apparatus includes: a base board supplying part; a patterning part forming a pattern layer on a base board supplied from the base board supplying part; a coating part forming a sacrificial layer on the base board having the pattern layer formed thereon, the sacrificial layer being decomposable by a solvent; and a base board recovering part recovering the base board having the sacrificial layer formed thereon. | 05-24-2012 |
20120135262 | METHOD OF MANUFACTURING FINE METAL POWDER AND FINE METAL POWDER MANUFACTURED BY USING THE SAME - There are disclosed a method of manufacturing fine metal powder and fine metal powder manufactured by using the same. The method of manufacturing fine metal powder includes forming a pattern having a predetermined size and shape on a base substrate, forming a metal film on the pattern, and separating the metal film from the pattern to obtain individual metal particles having a predetermined size and shape. The fine metal powder manufactured by the method has a uniform shape and a uniform particle size distribution. The fine metal powder is in the form of flakes, having a large ratio of particle diameter to thickness. | 05-31-2012 |
20120169447 | NANOCOMPOSITE POWDER FOR INNER ELECTRODE OF MULTILAYER CERAMIC ELECTRONIC DEVICE AND FABRICATING METHOD THEREOF - There are disclosed a nanocomposite powder for an inner electrode of a multilayer ceramic electronic device and a manufacturing method thereof. The nanocomposite powder for an inner electrode of a multilayer ceramic electronic device includes a first metal particle having electrical conductivity, and a second metal coating layer formed on a top surface or a bottom surface of the first metal particle and having a higher melting point than that of the first metal particle. | 07-05-2012 |
20120313484 | ULTRASONIC SENSOR - Disclosed herein is an ultrasonic sensor, including: a conductive case having at least one groove disposed on a bottom surface thereof; a piezoelectric element fixed to the bottom surface of the case through a non-conductive adhesive; a conductive adhesive injected into the groove to electrically connect the case to the piezoelectric element; a temperature compensation capacitor disposed on an upper portion of the piezoelectric element; a first lead wire led-in from the outside of the case and being electrically connected to one surface of the temperature compensation capacitor and the piezoelectric element; and a second lead wire led-in from the outside of the case and being electrically connected to the other surface of the temperature compensation capacitor and the case. | 12-13-2012 |
20120313487 | ULTRASONIC SENSOR - Disclosed herein is an ultrasonic sensor, including: a conductive case having a groove disposed at a bottom surface thereof; a piezoelectric element inserted into the groove and fixed to the groove by a conductive adhesive; a temperature compensation capacitor disposed on a top of the piezoelectric element, electrically connected to the piezoelectric element, and fixed to the case by a non-conductive adhesive; a first lead wire led-in from an outside of the case and electrically connected to one surface of the temperature compensation capacitor and the case; and a second lead wire lead-in from the outside of the case and electrically connected to the other surface of the temperature compensation capacitor, whereby the piezoelectric element which is easily damaged can be protected by the temperature compensation capacitor, without using the separate substrate for fixing the temperature compensation capacitor. | 12-13-2012 |
20120326563 | ULTRASONIC SENSOR AND METHOD OF MANUFACTURING THE SAME - Disclosed herein are an ultrasonic sensor and a method of manufacturing the same. The ultrasonic sensor includes: a conductive case; a piezoelectric element fixed to a bottom. surface of the case through a conductive adhesive; a temperature compensation capacitor positioned over the piezoelectric element; a first lead wire lead from the outside of the case and electrically connected to one surface of the temperature compensation capacitor and the piezoelectric element; a second lead wire lead from the outside of the case and electrically connected to the other surface of the temperature compensation capacitor and the case; and a first molding part closely adhered to outer portions of the temperature compensation capacitor and the first and second lead wires. | 12-27-2012 |
20130014516 | THERMOELECTRIC MODULEAANM Yang; Ju HwanAACI Gyeonggi-doAACO KRAAGP Yang; Ju Hwan Gyeonggi-do KRAANM Choi; Dong HyeokAACI Gyeonggi-doAACO KRAAGP Choi; Dong Hyeok Gyeonggi-do KRAANM Lee; Sung HoAACI Gyeonggi-doAACO KRAAGP Lee; Sung Ho Gyeonggi-do KRAANM Wi; Sung KwonAACI SeoulAACO KRAAGP Wi; Sung Kwon Seoul KR - Disclosed herein is a thermoelectric module. The thermoelectric module includes a first substrate, a second substrate, a diffusion prevention layer, and a thermoelectric device, wherein each of the first and second substrates is stacked with: a heat radiation layer performing heat generation reaction or heat adsorption reaction when power is applied to the thermoelectric module; an insulating layer formed on one surface of the heat radiation layer and formed in a first square wave pattern having a first protrusion part and a first groove part; and an electrode layer buried into the first groove part formed on a surface of the insulating layer. | 01-17-2013 |
20130014795 | THERMOELECTRIC MODULEAANM YANG; Ju HwanAACI Gyeonggi-doAACO KRAAGP YANG; Ju Hwan Gyeonggi-do KRAANM CHOI; Dong HyeokAACI Gyeonggi-doAACO KRAAGP CHOI; Dong Hyeok Gyeonggi-do KRAANM LEE; Sung HoAACI Gyeonggi-doAACO KRAAGP LEE; Sung Ho Gyeonggi-do KRAANM WI; Sung KwonAACI SeoulAACO KRAAGP WI; Sung Kwon Seoul KR - Disclosed herein is a thermoelectric module. The thermoelectric module includes: an upper substrate and a lower substrate each having a plurality of grooves formed on one surface thereof; a plurality of heat radiation pads embedded in the plurality of grooves; a plurality of electrodes formed on surfaces of the plurality of heat radiation pads and corresponding to the plurality of heat radiation pads one by one; and thermoelectric elements including p-type elements and n-type elements and electrically connected to the plurality of electrodes. According to the present invention, the heat radiation pads are embedded in the respective grooves formed on the upper substrate and the lower substrate, thereby maximizing heat transfer efficiency, and functioning as an insulator for preventing an electric short between the substrates and the electrodes. | 01-17-2013 |
20130020842 | PIEZOELECTRIC MODULE AND SEAT FOR VEHICLE INCLUDING THE SAME - Disclosed herein are a piezoelectric module and a sheet for a vehicle including the same. The sheet includes: a seat board part supporting a passenger's lower body; a backplate part formed to be extended in a direction perpendicular to one side of the seat board part and supporting the passenger's upper body; and a piezoelectric module formed in the seat board part and generating warm air or cold air using a flow of a current generated by vehicle vibration to thereby transfer the generated warm air or cold air to the passenger's body. | 01-24-2013 |
20130038417 | COIL COMPONENT AND MANUFACTURING METHOD THEREOF - There are provided a coil component and a manufacturing method thereof which secure coupling force between a coil and a substrate. The coil component includes: a substrate unit including a first substrate layer, an insulating layer stacked on the first substrate, and a second substrate layer stacked on the insulating layer; and coil layers each interposed between the first substrate layer and the insulating layer and between the insulating layer and the second substrate layer. | 02-14-2013 |
20130038980 | INNER ELECTRODE, AND MULTILAYERED CERAMIC CAPACITOR COMPRISING THE INNER ELECTRODE - Disclosed herein are inner electrodes of a multilayered ceramic capacitor including metal powders including graphene layers formed on a surface thereof and a multilayered ceramic capacitor including the inner electrodes. An exemplary embodiment of the present invention can include metal powders including graphene layers formed on a surface thereof as inner electrode materials of a multilayered ceramic capacitor to more effectively prevent necking of the metal powders than the related art including only dielectric ceramic powders, thereby increasing necking temperature and necking and control inner electrode shrinkage, thereby reducing a thickness of the inner electrode and defects such as short/cracks, and the like, of the inner electrode. Therefore, it is possible to provide the multilayered ceramic capacitor with excellent reliability by minimizing a difference in shrinkage between the dielectric layer and the inner electrodes. | 02-14-2013 |
20130043764 | ULTRASONIC SENSOR - Disclosed herein is an ultrasonic sensor including: a conductive case; a piezoelectric element fixed to a bottom surface of the case through a conductive adhesive; a temperature compensation capacitor positioned on the piezoelectric element; a first lead wire and electrically connected to one surface of the temperature compensation capacitor; a first wire electrically connecting one surface of the temperature compensation capacitor and the case to each other; a second lead wire and electrically connected to the other surface of the temperature compensation capacitor; a second wire electrically connecting the other surface of the temperature compensation capacitor and an upper surface of the piezoelectric element to each other; and a fixing part fixing the first lead wire and the first wire to one surface of the temperature compensation capacitor and fixing the second lead wire and the second wire to the other surface thereof. | 02-21-2013 |
20130045385 | METAL POWDER, METHOD FOR PREPARING THE SAME, AND MULTILAYERED CERAMIC CAPACITOR INCLUDING INNER ELECTRODE MADE OF METAL POWDER - A metal powder including a graphene layer irregularly formed on a surface of the metal powder, a method for preparing the same, and a multilayered ceramic capacitor including an inner electrode using the metal powder. By using the metal powder having the graphene irregularly formed on the surface thereof as the inner electrode material of the multilayered ceramic capacitor, and allowing the necking phenomenon to occur on only the surface where the graphene is not formed, the necking of the metal powder is delayed and the shrinkage of the inner electrode is controlled, so that reduction of the thickness of the inner electrode and disconnection/crack can be prevented. | 02-21-2013 |
20130049917 | CONDUCTOR PATTERN AND ELECTRONIC COMPONENT HAVING THE SAME - Disclosed herein are a conductor pattern of an electronic component formed in an oval coil shape on a magnetic substrate, the conductor pattern including: a straight part; and a curved part connected to the straight part at both sides thereof, wherein a line width of the curved part is smaller than that of the straight part, and an electronic component including the same. With the conductor pattern and the electronic component including the same according to the present invention, the high precision fine line width and the high resolution conductor pattern may be implemented to improve connectivity, thereby improving characteristics and reliability of the electronic component. | 02-28-2013 |
20130057378 | MAGNETIC SUBSTRATE, COMMON MODE FILTER, METHOD FOR MANUFACTURING MAGNETIC SUBSTRATE AND METHOD FOR MANUFACTURING COMMON MODE FILTER - Disclosed herein are a magnetic substrate, a common mode filter, a method for manufacturing a magnetic substrate, and a method for manufacturing a common mode filter. The common mode filter includes: a coil part including an insulation layer and a conductor pattern formed in the insulation layer; and a magnetic substrate coupled to one surface or both surfaces of the coil part, wherein the magnetic substrate includes: an electrostatic absorbing layer made of an electrostatic absorbing material; a magnetic layer provided on one surface or both surfaces of the electrostatic absorbing layer and made of a magnetic material; and an electrode provided between the magnetic layer and the electrostatic absorbing layer and made of a conductive material. Therefore, common mode filter may maintain high efficiency characteristics while preventing an electrostatic discharge phenomenon. | 03-07-2013 |
20130082812 | COIL PARTS AND METHOD OF FABRICATING THE SAME - A coil part is provided. The coil part includes a coil layer including a core and a first coil and a second coil disposed on and under the core, a lower magnetic layer bonded under the coil layer, and an upper magnetic layer bonded on the coil layer. Accordingly, it is possible to improve process and productivity and cut fabrication costs by preventing process defects that occur during the fabrication process of a coil part using a ferrite substrate. | 04-04-2013 |
20130082813 | COIL PARTS - A coil part is provided. The coil part includes a coil layer, a lower magnetic layer, and an upper magnetic layer. The coil layer includes a primary coil pattern, a secondary coil pattern, and a dielectric including the primary coil pattern and the secondary coil pattern. The lower magnetic layer is disposed under the coil layer. The upper magnetic layer is disposed on the lower magnetic layer to fill up the center and the periphery of the coil layer and cover the coil layer. Accordingly, the coil part can improve filtering characteristics by more smoothly increasing a magnetic flux surrounding the coil pattern. Also, the coil part can cut fabrication costs by reducing the length of the coil pattern with respect to the same characteristics. | 04-04-2013 |
20130112651 | METHOD FOR MANUFACTURING COIL PARTS - The present invention discloses a method for manufacturing coil parts including a ferrite substrate, a conductor line formed on the ferrite substrate, and an external electrode for external electrical connection of the conductor line, including: coating a magnetic layer to cover the external electrode; planarizing a surface of the magnetic layer by mechanical polishing so that a portion of the magnetic layer remains on the external electrode; and exposing the external electrode by removing the remaining magnetic layer by chemical polishing. | 05-09-2013 |
20130113594 | STAMP FOR MANUFACTURING CONDUCTOR LINE AND VIA AND METHOD FOR MANUFACTURING COIL PARTS - The present invention discloses a stamp for manufacturing a conductor line and a via including: an imprint body portion having a plate shape; a line imprint portion continuing in a spiral shape from an outer side to a center side of the imprint body portion while projecting from one surface of the imprint body portion; and a via imprint portion projecting from an end portion of the line imprint portion positioned on the center side of the imprint body portion while projecting from one surface of the imprint body portion, and a method for manufacturing coil parts using the same. | 05-09-2013 |
20130135074 | INDUCTOR AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a stacked chip inductor. According to one aspect of the present invention, provided is an inductor including: a stacked structure; and an external electrode structure formed outside of the stacked structure, wherein the stacked structure: an insulating layer; and a polymer layer is stacked on the insulating layer. | 05-30-2013 |
20130141205 | CONDUCTOR PATTERN AND COIL PARTS HAVING THE SAME - A conductor pattern of a coil part formed in a spiral shape on a magnetic substrate, which includes: a primary conductor pattern; and a secondary conductor pattern formed on the primary conductor pattern. The primary conductor pattern is formed to have a longitudinal section including a first horizontal portion and a first vertical portion electrically connected to an end portion of one surface of the first horizontal portion. The secondary conductor pattern is formed to have a longitudinal section including a second horizontal portion corresponding to the first horizontal portion and a second vertical portion electrically connected to an end portion of one surface of the second horizontal portion. | 06-06-2013 |
20130141206 | COMMON MODE NOISE FILTER - Disclosed herein is a common mode noise filter including: a plurality of insulation layers configuring a laminated body formed on a substrate; internal electrode coils included in the plurality of insulation layers; external electrode terminals connected to an end portion of the internal electrode coils; and a magnetic layer formed on a surface of the laminated body. According to the present invention, the common mode noise filter has the magnetic layer including the conductive metal on the uppermost layer thereof, such that the permeability of the ferrite composite may be increased and the ferrite powder may be effectively compensated for the eddy current loss of the internal electrode coil, thereby making it possible to improve the impedance characteristics of the common mode noise filter. | 06-06-2013 |
20130147592 | COIL PARTS AND METHOD OF MANUFACTURING THE SAME - The present invention discloses a coil part including: a lower magnetic body; primary and secondary lower patterns formed on the lower magnetic body in a spiral shape in parallel to each other; a lower insulating layer covering the primary and secondary lower patterns; primary and secondary upper patterns electrically connected to the primary and secondary lower patterns, respectively, and formed on the lower insulating layer in a spiral shape in parallel to each other to correspond to the primary and secondary lower patterns; and an upper magnetic body formed on the primary and secondary upper patterns, wherein the primary and secondary upper patterns have portions which cross the primary and secondary lower patterns on the plane, and a method of manufacturing the same. | 06-13-2013 |
20130147595 | COIL PARTS - Disclosed herein are coil parts including: a lower magnetic substance; a primary coil pattern disposed on the lower magnetic substance; a first complex layer for covering the primary coil pattern; a secondary coil pattern correspondingly disposed on an upper side of the primary coil pattern; a second complex layer for covering the secondary coil pattern; and an insulation layer disposed between the primary coil pattern and the secondary coil pattern and blocking an electrical connection between the primary coil pattern and the secondary coil pattern. The coil parts according to the present invention can have a simple structure and processing capable of increasing magnetic permeability and accordingly improving an impedance characteristic of the coil parts, thereby implementing excellent performance and characteristic. | 06-13-2013 |
20130152379 | METHOD OF MANUFACTURING NOISE REMOVING FILTER - Disclosed herein is a method of manufacturing a noise removing filter, including preparing at least one conductive pattern, an insulating layer for covering the at least one conductive pattern, and a lower magnetic body including input/output stud terminals for electrically inputting and outputting electricity to and from the at least one conductive pattern; disposing a recognizable portion on upper surfaces of the input/output stud terminals; disposing an upper magnetic body on the recognizable portion and the insulating layer; polishing the upper magnetic body; and removing the recognizable portion such that a level of an upper surface of the upper magnetic body is higher than levels of the upper surfaces of the input/output stud terminals. | 06-20-2013 |
20130154767 | FILTER FOR REMOVING NOISE - The present invention discloses a filter for removing noise, which includes: a lower magnetic substrate; a coil layer disposed on the lower magnetic substrate and including at least one conductor pattern and an insulating layer covering the conductor pattern; an upper magnetic substrate disposed on the coil layer; and a magnetic permeability enhancing layer disposed on the magnetic substrate with lower magnetic permeability of the lower magnetic substrate and the upper magnetic substrate. | 06-20-2013 |
20130154770 | FILTER FOR REMOVING NOISE AND METHOD OF MANUFACTURING THE SAME - The present invention discloses a filter for removing noise, which includes: a lower magnetic body; an insulating layer disposed on the lower magnetic body and including at least one conductor pattern; input and output stud terminals electrically connected to the conductor pattern for electrical input and output of the conductor pattern; and an upper magnetic body consisting of an inner upper magnetic body including ferrite powder with a size corresponding to the interval between the input and output stud terminals and an outer upper magnetic body including ferrite powder with a size corresponding to the interval between the input and output stud terminals and an outer surface of the lower magnetic body. | 06-20-2013 |
20130162371 | FILTER FOR REMOVING NOISE AND METHOD OF MANUFACTURING THE SAME - The present invention discloses a filter for removing noise, which includes: a lower magnetic body; an insulating layer provided on the lower magnetic body and including at least one conductor pattern; and an upper magnetic body including a primary ferrite composite provided on the insulating layer and a secondary ferrite composite provided on the primary ferrite composite to cover a pore formed on a surface of the primary ferrite composite, and a method of manufacturing the same. | 06-27-2013 |
20130162385 | COIL PARTS AND METHOD OF MANUFACTURING THE SAME - The present invention discloses a coil part including: a first coil body including a first magnetic substrate, a first coil pattern provided on the first magnetic substrate, and a first insulating layer covering the first coil pattern; a second coil body including a second magnetic substrate corresponding to the first magnetic substrate, a second coil pattern provided on the second magnetic substrate to correspond to the first coil pattern, and a second insulating layer covering the second coil pattern; and a ferrite composite interposed between the first insulating layer and the second insulating layer to couple the first coil body and the second coil body and having a spacer ball inside. | 06-27-2013 |
20130169381 | COMMON MODE FILTER AND METHOD OF MANUFACTURING THE SAME - The present invention relates to a common mode filter and a method of manufacturing the same. In order to implement a common mode filter with low shrinkage, high substrate sintered density, and high strength, the present invention provides a common mode filter including: a lower substrate; an insulating layer having a conductor pattern inside and provided on the lower substrate; an upper substrate provided on the insulating layer; and a ferrite core made of ferrite and provided in the center of the insulating layer, the lower substrate, and the upper substrate by penetrating the insulating layer, the lower substrate, and the upper substrate, and a method of manufacturing the same. | 07-04-2013 |
20130169399 | THIN FILM-TYPE COIL COMPONENT AND METHOD OF FABRICATING THE SAME - There is provided a thin film-type coil component having a size equal to or less than 0806 and including a ceramic main body, external electrodes including a plurality of first external electrodes formed on one surface of the ceramic main body and a plurality of second external electrodes formed on the other surface facing one surface of the ceramic main body, and a coil unit including a plurality of coil layers stacked in the ceramic main body, thereby obtaining low direct current (DC) resistance. | 07-04-2013 |
20130263440 | METHOD FOR MANUFACTURING INDUCTOR - Disclosed herein is a method for manufacturing an inductor, including: forming a coil laminate by inserting spiral coils into a guide shaft disposed at a center of a magnetic substrate; providing a molding part so as to surround the coil laminate; removing the guide shaft; and providing a ferrite composite so as to surround the molding part. | 10-10-2013 |
20130316291 | INDUCTOR AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a stacked chip inductor. According to one aspect of the present invention, provided is an inductor including: a stacked structure; and an external electrode structure formed outside of the stacked structure, wherein the stacked structure: an insulating layer; and a polymer layer is stacked on the insulating layer. | 11-28-2013 |
20140153147 | METHOD FOR MANUFACTURING MAGNETIC SUBSTRATE AND COMMON MODE FILTER - A common mode filter is manufactured to include a coil part including an insulation layer and a conductor pattern formed in the insulation layer; and a magnetic substrate coupled to one surface or both surfaces of the coil part. The magnetic substrate includes: an electrostatic absorbing layer made of an electrostatic absorbing material; a magnetic layer provided on one surface or both surfaces of the electrostatic absorbing layer and made of a magnetic material; and an electrode provided between the magnetic layer and the electrostatic absorbing layer and made of a conductive material. Therefore, common mode filter may maintain high efficiency characteristics while preventing an electrostatic discharge phenomenon. | 06-05-2014 |
20140184376 | ELECTRONIC COMPONENT - An electronic component including a substrate, an insulating unit provided on the substrate, and a conductor coil provided within the insulating unit, wherein a distance from the outermost portion of the conductor coil in one axial direction to the outermost portion of the substrate in one axial direction is greater than 0.0125 times a length of the substrate in one axial direction, thus having enhanced reliability. | 07-03-2014 |
20140193656 | METHOD OF MANUFACTURING FINE METAL POWDER AND FINE METAL POWDER MANUFACTURED BY USING THE SAME - There are disclosed a method of manufacturing fine metal powder and fine metal powder manufactured by using the same. The method of manufacturing fine metal powder includes forming a pattern having a predetermined size and shape on a base substrate, forming a metal film on the pattern, and separating the metal film from the pattern to obtain individual metal particles having a predetermined size and shape. The fine metal powder manufactured by the method has a uniform shape and a uniform particle size distribution. The fine metal powder is in the form of flakes, having a large ratio of particle diameter to thickness. | 07-10-2014 |
20150029623 | COMMON MODE FILTER - Disclosed herein is a common mode filter, including: first and second coil layers electromagnetically coupled to each other; a pair of external terminals connected to ends of the first coil layer and a pair of external terminals connected to ends of the second coil layer; a first ESD prevention member connecting between the pair of external terminals carrying electric current with the first coil layer and a second ESD prevention member connecting between the pair of external terminals carrying electric current with the second coil layer; and a ground electrode connecting the first ESD prevention member to the second ESD prevention member, wherein the ground electrode has a stepped portion formed at the center. | 01-29-2015 |