Entries |
Document | Title | Date |
20080211613 | TRANSFORMER - A transformer is provided. The transformer includes a first electrical conductor, a second electrical conductor, a circuit board and a core set. The first electrical conductor has a through hole and the second electrical conductor is electromagnetically coupled with the first electrical conductor and includes a plurality of spiral coils formed by winding a single conductive wire, each spiral coil having a through hole. The circuit board has a through hole. The core set penetrates the through hole of the first electrical conductor, the through hole of the circuit board, and the through holes of the plurality of spiral coils of the second electrical conductor, and covers at least one portion of the first electrical conductor and the second electrical conductor. | 09-04-2008 |
20080218301 | MULTILAYER COIL COMPONENT AND METHOD OF MANUFACTURING THE SAME - A multilayer coil component includes a coil formed by stacking first ceramic sheets in which coil conductor patterns are provided and a second ceramic sheet having a lower magnetic permeability than the first ceramic sheets, the coil conductor patterns being connected to each other. The second ceramic sheet is disposed between the first ceramic sheets. In a main surface of the second ceramic sheet, holes or recesses are provided. The first ceramic sheets adjacent to the second ceramic sheet are in contact with inner peripheral surfaces of the holes. | 09-11-2008 |
20080231401 | EMBEDDED INDUCTOR AND MANUFACTURING METHOD THEREOF - A manufacturing method of an embedded inductor includes the steps of providing a magnetic plastic material, disposing at least one coil into a mold, and injecting or pressing the magnetic plastic material into the mold to form a magnetic body encapsulating the coil. An embedded inductor includes at least one magnetic body encapsulating the coil by injecting molding or pressing molding. | 09-25-2008 |
20080231402 | INDUCTOR DEVICES - The invention relates to a high frequency inductor device with high quality factor (Q). The inductor device comprises a substrate and a gradually sized conductive coil with a plurality of windings surrounded and disposed on the substrate. The windings comprises a first conductive segment disposed on a first surface of the substrate, a second conductive segment disposed on a second surface of the substrate, a first conductive via hole connecting the first and second conductive segments, and a second conductive via hole connecting the second conductive segment to a first conductive segment of the following winding. The length of the first conductive segment is different than that of the first conductive segment of the following winding | 09-25-2008 |
20080238598 | INDUCTOR - An inductor includes a first core, a second core, a fixing element and a winding. The first core has a first recess. The second core is coupled to the first core. The fixing element is disposed in the first recess. The winding is wound around the fixing element and has a plurality of connecting portions. | 10-02-2008 |
20080252406 | COIL COMPONENT - A coil component comprises: a core having a winding core portion, and a first flange and a second flange arranged at both ends of the winding core portion; a winding arranged in a region flanked by the first and second flanges, and wound so as to be in contact with the winding core portion; and a cover portion arranged in a region flanked by the first and second flanges, so as to cover the winding. The cover portion has a first cover portion comprising a resin cured product containing a magnetic material; and a second cover portion comprising a non-magnetic material. The second cover portion is interposed at least between the first flange and the first cover portion. | 10-16-2008 |
20080278273 | Inductor - An inductor includes a coil and a magnetic body. The magnetic body covers the coil. The magnetic body includes at least one magnetic material, at least one insulated magnetic material and at least one resin. The magnetic material is enveloped by the insulated magnetic material. Alternatively, the magnetic body is made by mixing the insulated magnetic material with the magnetic material. | 11-13-2008 |
20080309443 | INDUCTOR AND METHOD FOR PRODUCING IT - An inductor includes a coil formed by winding a metallic wire, terminal electrodes connected to the coil, a first resin which is configured to cover at least one portion of a peripheral side surface of the coil and contains a magnetic powder, and a second resin which does not contain the magnetic powder and is configured to seal the coil covered by the first resin. Thereby, it is possible to provide an inductor having a stable characteristic with an unchanging L value even when there is contact during mounting of the inductor or impact during use of an electronic device in which the inductor is installed. | 12-18-2008 |
20090002112 | Coil component and method and apparatus for producing the same - A coil component having a core including a winding portion, and first and second flanges disposed one on either end of the winding portion, A winding is wound about the winding portion, and first and second terminal electrodes are disposed on the first flange. The first flange has an octagonal shape including a bottom surface, a first peripheral surface, first and third omitted peripheral surfaces disposed one on either side of the first peripheral surface, a second peripheral surface opposing the first peripheral surface, and second and fourth omitted peripheral surfaces disposed one on either side of the second peripheral surface. The first terminal electrode is disposed across the first omitted peripheral surface, a part of the bottom surface in a region connecting the entire first omitted side to the entire third omitted side, and the third omitted peripheral surface. The second terminal electrode is disposed across the second omitted peripheral surface, a part of the bottom surface in a region connecting the entire second omitted side to the entire fourth omitted side, and the fourth omitted peripheral surface. The winding has a first end electrically connected to the first terminal electrode on the first omitted peripheral surface and a second end electrically connected to the second terminal electrode on the second omitted peripheral surface. | 01-01-2009 |
20090009275 | Ignition coil - An ignition coil includes a primary coil ( | 01-08-2009 |
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 |
20090051475 | EMBEDDED INDUCTOR AND MANUFACTURING METHOD THEREOF - An embedded inductor includes a coil and a magnetic body covering the coil. The magnetic body includes an insulated magnetic powder, a coupling agent and a resin. In addition, a manufacturing method of the embedded inductor includes steps of performing an insulation process for a magnetic powder to obtain an insulated magnetic powder; performing a surface process on the insulated magnetic powder; mixing the surface-processed insulated magnetic powder with a liquid resin to form a mixture; providing a coil; covering the coil with the mixture; and performing pressing and curing processes to obtain the embedded inductor. | 02-26-2009 |
20090066454 | HIGH POWERED INDUCTORS USING A MAGNETIC BASIS - A biased gap inductor includes a first ferromagnetic plate, a second ferromagnetic plate, a conductor sandwiched between the first ferromagnetic plate and the second ferromagnetic plate, and an adhesive between the first ferromagnetic plate and the second ferromagnetic plate, the adhesive comprising magnet powder to thereby form at least one magnetic gap. A method of forming an inductor includes providing a first ferromagnetic plate and a second ferromagnetic plate and a conductor, placing the conductor between the first ferromagnetic plate and the second ferromagnetic plate, adhering the first ferromagnetic plate to the second ferromagnetic plate with a composition comprising an adhesive and a magnet powder to form magnetic gaps, and magnetizing the inductor. | 03-12-2009 |
20090091412 | Coil Integrated Inductor - Disclosed is a coil integrated inductor. The coil integrated inductor includes a coil wound a predetermined number of times, electrodes joined to respective ends of the coil, and a magnetic body integrated with the coil and internal electrodes of the electrodes, in which the magnetic body includes magnetic powder, an organic binder and epoxy silane. When the magnetic body is formed, the mixed magnetic material including epoxy silane is used, so that the surface resistance and mechanical strength of the inductor according to the present invention can be remarkably increased. | 04-09-2009 |
20090102589 | INDUCTOR AND CORE THEREOF - An inductor includes a coil and a core. The core covers the coil and includes a plurality of magnetic particles. Each of the magnetic particles includes a nucleus and a first shell enveloping the nucleus. The nucleus and the first shell are formed by different materials with different specific gravities. When the nucleus includes a polymer material, the first shell includes the first magnetic material. When the nucleus includes the first magnetic material, the first shell includes the polymer material. | 04-23-2009 |
20090128275 | INDUCTOR AND ITS MANUFACTURING METHOD - An inductor | 05-21-2009 |
20090160592 | Helical core on-chip power inductor - An on-chip inductor structure includes a conductive inductor coil and a helical ferromagnetic inductor core that is formed to wrap around the conductive coil. The coil is space-apart from the ferromagnetic core by intervening dielectric material. The helical core structure includes at least one magnetic gap lithographically formed in the core. | 06-25-2009 |
20090184793 | Method to fabricate a molding coil structure and a molding coil structure - A method to fabricate a molding coil structure and a molding coil structure are provided. The method comprises the steps of: providing a conductive mean comprising two conductive plates and a connection part, wherein each of the conductive plates comprise a first end and a second end; providing a coil; forming at least one winding structure on the first end of each conductive plates to make the two ends of the coil be adapted in the at least one winding structure of the two conductive plates respectively; performing a welding process to connect the two ends of the coil on the at least one winding structure of the two conductive plates respectively; placing the two conductive plates and the coil into a mold and stuffing a magnetic material to form a covering structure surrounding and contacting the two conductive plates and the coil to form the molding coil structure. | 07-23-2009 |
20090212894 | CHOKE COIL - In one embodiment, a choke coil has a magnetic core, a coil, and magnetic material. The core has a first permeability which is from about 350 to 1200. The coil is wrapped around the core. The magnetic material surrounds the coil and has a second permeability. The first permeability is higher than the second permeability. The second permeability is from about 5 to 30. | 08-27-2009 |
20090237193 | Multi-core inductive device and method of manufacturing - A multi-core inductive device assembly for electrical or electronic applications. In one embodiment, the device assembly comprises a multiple core component structure providing multiple inductive devices (for example, that has N inductors and two core elements). Conductive windings are disposed between the core elements. The core elements comprise risers for each of the inductive devices which permit, among other things, individual control of the gap formed between the risers, and hence the magnetic and other performance aspects of each inductive device. This topology allows for a multi-element (N) inductor array with substantial isolation properties, and which allows for individualized control of saturated output power performance for each of the N inductors. Methods for use and manufacturing are also disclosed. | 09-24-2009 |
20090267719 | SPLITTER - The present invention provides a splitter including a seat, a first inner core, a second inner core, a first coil, an outer core and a second coil. The seat has a bobbin, and the first coil is wound on the bobbin. The first inner core and the second inner core, disposed on the bobbin, are assembled with each other to cover the bobbin. The outer core and the first inner core are assembled with each other. The second coil is disposed between the outer core and the first inner core. | 10-29-2009 |
20090322461 | PLANAR GROOVED POWER INDUCTOR STRUCTURE AND METHOD - An inductor may include a planar ferrite core. A first group of one or more grooves is formed in a first side of the ferrite core. A second group of two or more grooves is formed in a second side of the ferrite core. The grooves in the first and second groups are oriented such that each groove in the first group overlaps with two corresponding grooves in the second group. A first plurality of vias communicates through the ferrite core between the first and second sides of the ferrite core. Each via is located where a groove in the first group overlaps with a groove in the second group. A conductive material is disposed in the first and second groups of grooves and in the vias to form an inductor coil. | 12-31-2009 |
20100033283 | Electromotive Rectification System - An AC neutral bus electromotive power rectification unit includes a first coil unit and a second coil unit. The first coil unit includes a first conductive wire coil having a first end and an opposite second end. The conductive coil is disposed in a first non-conductive tube and is suspended in a ferrous matrix. The second coil unit includes a second conductive wire coil having a first end and an opposite second end. The first end of the second coil unit is electrically coupled to the first end of the first coil unit. The second coil unit is disposed in a second non-conductive tube and is surrounded by a non-conductive material. | 02-11-2010 |
20100039197 | Inductor structure - The invention of one inductor structure comprises one coil, which has one winding coil together with two extended terminals, and plural metal particles with magnetism at least where the winding coil inside plural metal particles is casted and sintered by the powder metallurgy technique and two extended terminals are flat and bended toward 90 degrees in automated punching equipment to become a one-piece chip inductor with costs & fabrication steps dramatically reduced and stable inductance provided. | 02-18-2010 |
20100052835 | MAGNETIC ELEMENT - A magnetic element includes a pair of coil sets. Each of the coil sets includes a first coil having a plurality of first metallic lines, a second coil having a plurality of second metallic lines, and at least one conductive column electrically connected between the first coil and the second coil. The magnetic element further includes a package body for enclosing the pair of coil sets therein. | 03-04-2010 |
20100109826 | INDUCTOR - Provided is an inductor capable of adjusting an inductance in dozens of nH increments without requiring a large number of components. The inductor includes: a conductor; a first core body and a second core body each having an opposed surface, the opposed surface of the first core body and the opposed surface of the second core body facing each other so as to enclose the conductor; and a holding part provided with a slide surface for varying an opposed area of the opposed surfaces of the first core body and the second core body, for holding at least one of the first core body and the second core body at a desired position. | 05-06-2010 |
20100127811 | Transformer with Center Tap Encompassing Primary Winding - A transformer housing encompasses a core and both primary and secondary windings. The primary or secondary windings can be incorporated into the housing, and the housing itself can provide a center tap for the transformer. | 05-27-2010 |
20100134227 | Electromagnetic pipe expanding inductor and method for manufacturing the same - Provided is an electromagnetic pipe expanding inductor in which the formation of voids during resin impregnation is suppressed, and electromagnetic reaction forces acting on the conductor periphery and on the interface between the shaft portion and the center-side fiber layer is diminished, and thereby durability is improved and the life of the inductor is prolonged. A glass cloth tape ( | 06-03-2010 |
20100171579 | MAGNETIC ELECTRICAL DEVICE - A magnetic component and a method for manufacturing a low profile, magnetic component. The method comprises the steps of providing at least one sheet, coupling at least a portion of at least one winding to the at least one sheet, and laminating the at least one sheet with at least a portion of the at least one winding. The magnetic component comprises at least one sheet and at least a portion of at least one winding coupled to the at least one sheet, wherein the at least one sheet is laminated to at least a portion of the at least one winding. The winding may comprise a clip, a preformed coil, a stamped conductive foil, or an etched trace using chemical or laser etching. The sheet may comprise any material capable of being laminated and/or rolled, including, but not limited to, flexible magnetic powder sheets. | 07-08-2010 |
20100182114 | METHOD FOR ADJUSTING INDUCTANCE OF CHOKE AND METHOD FOR DESIGNING CHOKE - A method for adjusting the inductance of a choke is provided by the present invention. The method includes with an unchanged structure and unchanged dimensions of the core of the choke, changing the kind of the magnetic materials composing the cores so as to adjust the magnetic permeability of the magnetic material. In addition, the present invention also provides a method for designing a choke, the method includes determining the structure of a first choke and a second choke, determining the dimensions of the cores of the chokes, and selecting magnetic materials composing the cores. | 07-22-2010 |
20100182115 | WIRE WOUND TYPE CHOKE COIL - A choke coil including a drum-core and at least one wire is provided. The drum-core includes a pillar, a first board and a second board. Two ends of the pillar are respectively connected to the first board and the second board. A material of the drum-core includes ferrous alloy. The wire has a winding portion wrapped around the pillar. | 07-22-2010 |
20100194511 | COMPACT INDUCTOR AND A METHOD FOR MANUFACTURING THE SAME - A compact inductor comprises a coil, a coil-burying body, and a body for a closed magnetic circuit. The coil-burying body is a fired porous ceramic body having a first magnetic permeability, in which the coil is buried. In the coil-burying body, “a through-hole | 08-05-2010 |
20100219924 | CHOKE - An electronic device including a core, at least a wire and a magnetic material is provided. The core includes a pillar, a top board and a bottom board. The pillar is disposed between the top board and the bottom board. An area of the top board is smaller than an area of the bottom board. A winding space is fanned among the top board, the bottom board and the pillar. The wire is winded around the pillar and located in the winding space. The magnetic material fills the winding space to encapsulate the wire. The magnetic material includes a resin and a metallic powder, wherein an average particle diameter of the magnetic powder is smaller than 20 μm. | 09-02-2010 |
20100237973 | SURFACE MOUNT MAGNETIC DEVICE, COIL STRUCTURE THEREOF AND FABRICATING PROCESS THEREOF - A process for fabricating a surface mount magnetic device includes the following steps. Firstly, a magnetic core assembly and a coil structure are provided. The magnetic core assembly includes a first magnetic part and a second magnetic part. The coil structure includes a main body and multiple pins extended from the main body. Each pin includes a bent part and a contact part. Next, the magnetic core assembly and the coil structure are combined together. The main body of the coil structure is disposed between the first magnetic part and the second magnetic part. The contact parts of the pins are contacted with a first surface of the second magnetic part. | 09-23-2010 |
20100253455 | Ignition Coil for Vehicle - A spark plug coil assembly has a primary core bearing primary windings and a secondary winding spool around which secondary windings are wound and in which the primary core is received. A case receives the spool with core. The entire case can be made of composite Iron to function as a magnetic return path for the core, or a composite Iron shield can be overmolded to an otherwise plastic case. | 10-07-2010 |
20100253456 | MINIATURE SHIELDED MAGNETIC COMPONENT AND METHODS OF MANUFACTURE - Low profile magnetic components and methods of manufacture include first and second core pieces extending interior and exterior to an open center area of a coil. Surface mount terminations are also provided to complete electrical connections to a circuit board. | 10-07-2010 |
20100271161 | MAGNETIC COMPONENTS AND METHODS OF MANUFACTURING THE SAME - Magnetic component assemblies including moldable magnetic materials formed into magnetic bodies, at least one conductive coil, and termination features are disclosed that are advantageously utilized in providing surface mount magnetic components such as inductors and transformers. | 10-28-2010 |
20110074532 | Low Cost Charger Transformer - A cost effective integrated automotive solution for a charger transformer with minimized fringing flux and core grounding for reducing electromagnetic interference (EMI). The method provides an air gap filled with a mixture of an adhesive and ferrite powder that bonds the ferrite core sections together. In addition, the ground pin of the transformer is exposed through a groove in the pocket of the bobbin on which the core is mounted and an electrical contact is established between the exposed end of the ground pin and the core surface by means of a drop of epoxy. | 03-31-2011 |
20110115592 | COIL COMPONENT - A coil component comprises: a core having a winding core portion, and a first flange and a second flange arranged at both ends of the winding core portion; a winding arranged in a region flanked by the first and second flanges, and wound so as to be in contact with the winding core portion; and a cover portion arranged in a region flanked by the first and second flanges, so as to cover the winding. The cover portion has a first cover portion comprising a resin cured product containing a magnetic material; and a second cover portion comprising a non-magnetic material. The second cover portion is interposed at least between the first flange and the first cover portion. | 05-19-2011 |
20110234353 | MAGNETIC COMPONENT AND METHOD OF MANUFACTURING THE SAME - A reactor (magnetic component) has a core that constitutes a magnetic circuit of a magnetic flux generated by energizing a coil. The coil has a cylindrical wound part made of a lead wire wound like a cylinder, and a pair of terminals that has both ends of the wound part projected from one end in an axial direction. The pair of terminals is made of a first terminal formed by leading out an end of the lead wire from a first end portion (one end portion in an axial direction) of the wound part, and a second terminal, which penetrates inside the wound part in the axial direction, formed by leading out another end of the lead wire from a second end portion (another end portion in the axial direction) of the wound part. | 09-29-2011 |
20120086534 | CHOKE HAVING A CORE WITH A PILLAR HAVING A NON-CIRCULAR AND NON-RECTANGULAR CROSS SECTION - A choke includes a single-piece core entirely made of a same material, the single-piece core having two boards and a pillar located between the two boards, a winding space being located among the two boards and the pillar, wherein the pillar has a non-circular and non-rectangular cross section along a direction substantially perpendicular to an axial direction of the pillar, the cross section of the pillar has a first axis and a second axis intersecting with each other at a center of the cross section of the pillar and are substantially perpendicular with each other, the first axis is longer than the second axis, and the cross section of the pillar is substantially symmetrical to both of the first axis and the second axis. | 04-12-2012 |
20120092111 | Fe-BASED AMORPHOUS ALLOY, POWDER CORE USING THE SAME, AND COIL ENCAPSULATED POWDER CORE - An Fe-based amorphous alloy of the present invention has a composition formula represented by Fe | 04-19-2012 |
20120169444 | LAMINATED INDUCTOR AND METHOD OF MANUFACTURING THE SAME - There is provided is a laminated inductor, including: a ceramic main body in which a plurality of ceramic layers are stacked; a plurality of inner electrodes formed on the plurality of ceramic layers and having a contact area with the ceramic layer that is 10% or less than that of the entire area of the ceramic layer; and via electrodes having a coil structure by connecting the plurality of inner electrodes. | 07-05-2012 |
20120188040 | COIL COMPONENT - As an embodiment, a pair of first conductive films | 07-26-2012 |
20120218066 | REACTOR - Provided is a reactor having a small size with consideration of loss reduction. A reactor | 08-30-2012 |
20120262265 | COIL ELECTRICAL COMPONENT AND METHOD OF MANUFACTURING THE SAME - A coil electrical component and a method of manufacturing the same. Magnetic material powder and adhesive powder are mixed in a predetermined proportion to form a solid mixture. The solid mixture and an object, such as a coil or a core material surrounded by the coil, are filled in a mold having a predetermined shape. The solid mixture in the mold is heated such that the magnetic material powder is adhered by the adhesive powder and covers the object, so as to form the coil electrical component. The coil electrical component corresponds in shape to the mold. Therefore, the coil electrical component has stable quality, and can be manufactured with less time and lower cost. | 10-18-2012 |
20120280776 | COMPOSITE WOUND ELEMENT AND TRANSFORMER USING SAME, TRANSFORMATION SYSTEM, AND COMPOSITE WOUND ELEMENT FOR NOISE-CUT FILTER - Disclosed is a composite wound element (Tra) which is used in a transformer or a transformation system, and used as a composite wound element for a noise-cut filter, wherein a plurality of coils ( | 11-08-2012 |
20130021128 | MINIATURE SHIELDED MAGNETIC COMPONENT - Low profile, shielded magnetic components for circuit board applications include self centering core and coil assemblies with coil receptacle and centering projections formed in core pieces that are assembled around a preformed coil. Welding and plating techniques for forming termination structure for the preformed coil avoid thermal shock issues. External gapping elements and agents to form a gapped core structure are avoided, and gap size in the cores may be tightly controlled over large production lot sizes. | 01-24-2013 |
20130027161 | MAGNETIC ELEMENT - A magnetic element including: a first magnetic core including a coil which is wound by a predetermined number of turns; a second magnetic core which includes the coil in the inside thereof and which is combined along the outer circumference of the first magnetic core; and a metal terminal which connects the coil and a mounting substrate, wherein the metal terminal includes a fixing portion for fixing the second magnetic core in a state of combining the first magnetic core and the second magnetic core. | 01-31-2013 |
20130033347 | LAMINATED INDUCTOR - A laminated inductor having an internal conductive wire forming region, as well as a top cover region and bottom cover region formed in a manner sandwiching the internal conductive wire forming region between top and bottom; wherein the internal conductive wire forming region has a magnetic part formed with soft magnetic alloy grains, as well as helical internal conductive wires embedded in the magnetic part and constituted by a conductor; and at least one of the top cover region and bottom cover region (or preferably both) is/are formed with soft magnetic alloy grains whose constituent elements are of the same types as those of, and whose average grain size is greater than that of, the soft magnetic alloy grains constituting the magnetic part in the internal conductive wire forming region. | 02-07-2013 |
20130033348 | Surface-Mount Inductor and Method of Producing the Same - A method of producing a surface-mount inductor by encapsulating a coil with an encapsulation material containing a resin and a filler using a mold die assembly is provided. A tablet is prepared by preforming the encapsulation material into a shape having a flat plate-shaped portion and a pillar-shaped convex portion on a peripheral thereof A coil is a wound conductive wire having a cross-section of rectangular-shape. The coil is placed on the tablet to allow both ends of the coil to extend along an outer side surface of the pillar-shaped convex portion of the tablet. The coil and the encapsulation material are integrated together while clamping the both ends of the coil between an inner wall surface of the mold die assembly and the outer side surface of the pillar-shaped convex portion of the tablet, to form a molded body. | 02-07-2013 |
20130038416 | LAMINATED INDUCTOR AND MANUFACTURING METHOD THEREOF - Provided is a laminated inductor having a magnetic body, a conductor part covered in a manner directly contacting the magnetic body, and external terminals provided on the outside of the magnetic body and conducting to the conductor part; wherein the magnetic body is a laminate constituted by layers containing soft magnetic alloy grains, and the soft magnetic alloy grain contacting the conductor part is flattened on the conductor part side. | 02-14-2013 |
20130057375 | FERRITE CERAMIC COMPOSITION, CERAMIC ELECTRONIC COMPONENT, AND PROCESS FOR PRODUCING CERAMIC ELECTRONIC COMPONENT - This disclosure provides a ferrite ceramic composition, a ceramic electronic component including the ceramic composition, and a process of producing a ceramic electronic component including the ferrite ceramic composition, of which the insulation performance can be secured even when fired simultaneously with a metal wire material containing Cu as the main component, and which can have good electric properties. The ferrite ceramic composition includes an Ni—Mn—Zn-based ferrite having a molar content of CuO of 5 mol % or less and in which, when the molar content (x) of Fe | 03-07-2013 |
20130099884 | LOW-PROFILE LARGE CURRENT INDUCTOR - A low-profile large current inductor includes an iron core having an expanded upper part, an expanded lower part, a core shank connected between the expanded upper part and the expanded lower part, two wire-mounting grooves extending across the bottom wall of the expanded lower part in a parallel manner and four arched notches respectively located on the expanded lower part at each of two distal ends of each of the two wire-mounting grooves, a winding wound round the core shank of the iron core with two end portions thereof respectively extended through the arched notches into the wire-mounting grooves, two flat electrodes respectively attached to the wire-mounting grooves and respectively connected with the end portions of the winding, and a magnetic coating surrounding the winding. The iron core has full round fillets in corner areas thereof for the passing of the two opposite end portions of the winding. | 04-25-2013 |
20130162382 | CHIP INDUCTOR AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a chip inductor including: a metal-polymer composite in which metal particles and polymer are mixed; a wiring pattern provided inside the metal-polymer composite to form a coil; an external electrode provided in a portion of an outer peripheral surface of the metal-polymer composite; and an insulating portion provided between the metal-polymer composite and the wiring pattern and between the metal-polymer composite and the external electrode, and a method for manufacturing the same. | 06-27-2013 |
20130200970 | COIL-TYPE ELECTRONIC COMPONENT AND PROCESS FOR PRODUCING SAME - A coil-type electronic component has a coil inside or on the surface of its base material wherein the base material in the coil-type electronic component is constituted by a group of grains of a soft magnetic alloy containing iron, silicon and other element that oxidizes more easily than iron; the surface of each soft magnetic alloy grain has an oxide layer formed on its surface as a result of oxidization of the grain; this oxide layer contains the other element that oxidizes more easily than iron by a quantity larger than that in the soft magnetic alloy grain; and grains are bonded with one another via this oxide layer. The coil-type electronic component can be produced at low cost and combines high magnetic permeability with high saturation magnetic flux density. | 08-08-2013 |
20130222101 | COIL COMPONENT AND METHOD FOR PRODUCING SAME - A coil component includes: an insulating resin layer provided between a first planar spiral conductor formed on a back surface of a first substrate and a second planer spiral conductor formed on a back surface of a second substrate; an upper core covering a third second planer spiral conductor formed on a front surface of the first substrate on which the insulating resin layer is formed; and a lower core covering a fourth planer spiral conductor formed on a front surface of the second substrate on which the insulating resin layer is formed. One of the upper and lower cores is formed of a metal-magnetic-powder-containing resin. The coil component includes connecting portions disposed respectively at center and outside portions of each of the first and second substrates so as to physically connect the upper and lower cores. | 08-29-2013 |
20130229250 | Magnetic Component Structure - An improved magnetic component structure, wherein the structure comprises a base and two iron cores, in which the base includes a centrally through winding axle tube and the openings at both the left and right ends of the winding axle tube individually extend out a baffle. Additionally, the two iron cores are caps, in which a core column extends out from the center of the iron core toward the opening of the winding axle tube, and the core column can be inserted to the centrally through part of the winding axle tube. Therefore, the two iron cores can be clip installed between the two sets of pin parts of the base and left and right assembled to the base such that the base combined with the two iron cores can be installed upright on one side having the notch of a drive circuit board in an LED light tube. | 09-05-2013 |
20130229251 | ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF - An electronic device comprising a first magnetic powder, a second magnetic powder and a conducting wire buried in the mixture of the first magnetic powder and the second magnetic powder is provided. The conducting wire comprises an insulating encapsulant and a conducting metal encapsulated by the insulating encapsulant. The Vicker's Hardness of the first magnetic powder is greater than the Vicker's Hardness of the second magnetic powder, and the mean particle diameter of the first magnetic powder is larger than the mean particle diameter of the second magnetic powder. By means of the hardness difference of the first magnetic powder and the second magnetic powder, the mixture of the first magnetic powder and the second magnetic powder and the conducting wire buried therein are combined to form an integral magnetic body at the temperature lower than the melting point of the insulating encapsulant. | 09-05-2013 |
20130300527 | METHOD OF MANUFACTURING COIL ELEMENT AND COIL ELEMENT - The present invention relates to a method of manufacturing a coil element and a coil element, which include a process of forming, aligning, and coupling a first auxiliary layer and a second auxiliary layer of which coil portions formed of a plating pattern are disposed on a substrate or an insulating layer, and it is possible to overcome limitations due to collapse or deformation of a photoresist pattern even when forming a fine-pitch fine conductor coil with a high aspect ratio by applying a plating method using a photoresist pattern. | 11-14-2013 |
20130307655 | Surface Mount Inductor and Method for Producing Surface Mount Inductor - A surface-mount inductor according to this invention comprises a coil formed by winding a rectangular conductive wire in an outward spiral pattern (so that opposite ends of the conductive wire become outermost periphery), a core made primarily of magnetic powders and binder, and an external electrode formed on one surface of the core. Further, the surface-mount inductor is characterized by encapsulating the coil in the core so that winding axis of the coil is parallel to the surface of the core on which the external electrode is formed. | 11-21-2013 |
20130328653 | CHOKE - A choke includes a single-piece core made of a same material, the single-piece core having a first board, a second board, and a pillar located between the first and second boards, a winding space located among the first board, the second board and the pillar, wherein the pillar has a non-circular and non-rectangular cross section having a first axis and a second axis substantially perpendicularly intersecting with each other at a center of the cross section of the pillar, and wherein a circumference of the cross section of the pillar includes two arc edges, four first substantially straight edges substantially parallel to the first axis, and two second substantially straight edges substantially parallel to the second axis, each of the first substantially straight edges being a joint of and in direct contact with one of the arc edges and one of the second substantially straight edges. | 12-12-2013 |
20140002221 | POWER INDUCTOR AND METHOD OF MANUFACTURING THE SAME | 01-02-2014 |
20140009252 | INDUCTOR - An inductor includes soft magnetic alloy powder-containing resin that contains amorphous soft magnetic alloy powder, which resin is used as a sealing material that seals a coil wound around a winding core of the core. This soft magnetic alloy powder-containing resin contains two groups of large and small particles having a first peak and second peak in their particle size distribution, where the particle size corresponding to the second peak is equal to or smaller than one-half the particle size corresponding to the first peak, and the magnitude ratio (abundance ratio) of the second peak and first peak is 0.2 or more but 0.6 or less. The inductor demonstrates improved DC superimposition characteristics and does not cause sealing irregularities. | 01-09-2014 |
20140015630 | LEAD-FRAMELESS POWER INDUCTOR AND METHOD FOR FABRICATING THE SAME - A lead-frameless power inductor and its fabrication method are disclosed. The power inductor comprises a lower substrate, a coil provided on the lower substrate, and an intermediate layer which encloses the coil, wherein the lower substrate can be a soft magnetic entrainer or a non-magnetic entrainer. The coil is made of an insulated wire, and the intermediate layer is a colloid consisting of magnetic powder. The steps of fabrication are: forming a wire package to fix on the upper surface of the lower substrate, wherein the wire package is formed of a lacquer insulated copper wire or the like, then coated with a colloid consisting of the magnetic powder, and then is cutting into granulated elements and forming in order. | 01-16-2014 |
20140055224 | LAMINATED INDUCTOR - A laminated inductor having an internal conductor forming region, as well as a top cover region and bottom cover region formed in a manner sandwiching the internal conductor forming region between top and bottom; wherein the internal conductor forming region has a magnetic part formed with soft magnetic alloy grains, as well as helical internal conductor embedded in the magnetic part; and at least one of the top cover region and bottom cover region (or preferably both) is/are formed with soft magnetic alloy grains whose average grain size is greater than that of grains in the internal conductor forming region including the soft magnetic alloy grains constituting the magnetic part. | 02-27-2014 |
20140062636 | COIL COMPONENT AND MANUFACTURING METHOD THEREOF - Disclosed herein are a coil component and a manufacturing method thereof. The coil component includes: an electrode body including coil electrodes disposed therein, the coil electrodes having an insulating film deposited on a surface thereof; and external terminals formed at both side portions of the electrode body and connected to the coil electrodes, wherein the electrode body is made of an insulating material with which magnetic powders are mixed, in order to improve impedance characteristics. | 03-06-2014 |
20140070912 | ELECTRONIC COMPONENT - A laminated body is formed by stacking insulating layers to be formed into a rectangular parallelepiped shape. A linear conductor is stacked together with the insulating layers and connects end surfaces of the laminated body that are opposed to each other with respect to a first direction. Lengths of the end surfaces of the laminated body in a second direction, which is perpendicular to the stacking direction and the first direction, are equal to or smaller than the lengths of the end surfaces in the stacking direction. | 03-13-2014 |
20140077912 | INDUCTOR - An inductor includes a first core, a conducting wire, a second core and a first lead frame. There is an accommodating space formed on a first side of the first core and there is a recess portion formed on a second side of the first core, wherein the first side is opposite to the second side. The first core has a first height. The conducting wire is disposed in the accommodating space. The second core is disposed on the first side of the first core and covers the accommodating space. The first lead frame has an embedded portion embedded in the recess portion. The embedded portion has a second height. After embedding the embedded portion in the recess portion of the first core, a total height of the embedded portion and the first core is smaller than the sum of the first height and the second height. | 03-20-2014 |
20140097921 | COIL COMPONENT - A coil component includes a coil section, an outer package, and a pair of outer electrodes. The outer package is made of magnetic material, embeds the coil section therein, and has a bottom face, a top face provided with cut-out sections, a first lateral face, and a second lateral face. Each of the pair of outer electrodes extends from both ends of the coil section, and is pulled out from the first lateral face, and then is bent toward the bottom face, and yet is bent along the bottom face and the second lateral face, and finally is bent toward the cut-out section of the top face. Recesses are formed on the bottom face at places overlapped with the pair of outer electrodes, and each of the outer electrodes is bent to form a projection protruding inside the corresponding recess. | 04-10-2014 |
20140097922 | Fe-BASED AMORPHOUS ALLOY, POWDER CORE USING THE SAME, AND COIL ENCAPSULATED POWDER CORE - An Fe-based amorphous alloy of the present invention has a composition formula represented by Fe | 04-10-2014 |
20140097923 | LAMINATED COIL COMPONENT, AND METHOD OF MANUFACTURING THE LAMINATED COIL COMPONENT - A laminated coil component includes a magnetic body part made of a ferrite material and a coil conductor wound into a coil shape and embedded in the magnetic body part to form a component base. The component base is divided into a first region near the coil conductor and a second region other than the first region. The grain size ratio of the average crystal grain size of the magnetic body part in the first region to the average crystal grain size of the magnetic body part in the second region is 0.9 or less. The molar content of CuO in the ferrite raw material is set to 0.2 to 4 mol %. In a method laminated coil component, the coil is formed from a conductive paste including Ag, and firing the laminated body is performed by setting the oxygen concentration is 0.1 volume % or less as a firing atmosphere. | 04-10-2014 |
20140132383 | MAGNETIC MATERIAL AND COIL COMPONENT - An object is to provide a magnetic material and coil component offering improved magnetic permeability and insulation resistance, while also offering improved high-temperature load, moisture resistance, water absorbency, and other reliability characteristics at the same time. A magnetic material that has multiple metal grains constituted by Fe—Si-M soft magnetic alloy (where M is a metal element that oxidizes more easily than Fe), as well as oxide film constituted by an oxide of the soft magnetic alloy and formed on the surface of the metal grains, wherein the magnetic material has bonding parts where adjacent metal grains are bonded together via the oxide film formed on their surface, as well as bonding parts where metal grains are directly bonded together in areas having no oxide film, and resin material is filled in at least some of the voids generating as a result of accumulation of the metal grains. | 05-15-2014 |
20140167897 | POWER INDUCTOR AND METHOD OF MANUFACTURING THE SAME - There is provided a power inductor including a coil supporting layer having a through-hole, first and second coil layers formed in a spiral shape on both surfaces of the coil supporting layer, an inductor body having the coil supporting layer and the first and second coil layers buried therein so that end portions of the first and second coil layers are exposed through both end surfaces thereof, and first and second external electrodes formed on both end surfaces of the inductor body, to be connected to the exposed end portions of the first and second coil layers, respectively, wherein in the inductor body, a core formed in the through-hole is formed of a magnetic material including spherical metal powder particles, and upper and lower cover parts are formed of a magnetic material including flake shaped metal powder particles. | 06-19-2014 |
20140184374 | POWER INDUCTOR AND METHOD OF MANUFACTURING THE SAME - There is provided a power inductor, including a magnetic body including a substrate having coils formed thereon, a first metal-polymer complex layer formed on upper and lower surfaces of the substrate, and a second metal-polymer complex layer formed on upper and lower surfaces of the first metal-polymer complex layer and including a higher content of a polymer than that included in the first metal-polymer layer. | 07-03-2014 |
20140266528 | STRUCTURE OF TRANSFORMER - An improved structure of transformer includes a lead frame main body ( | 09-18-2014 |
20140285297 | Power Supply Module - A power supply module is disclosed. the power supply module includes a coil including a coil body and connecting terminals; an electronic component including at least an integrated circuit chip; a magnetic core configured to enclose in and around the coil body, wherein a recess is provided on at least one side surface of the magnetic core, the electronic components are located in the recess, and an opening is provided on at least one side wall of the recess; a connector configured to be tightly attached to and cover the side surface where the recess is provided, and be electrically connected with the coil and the electronic component; and a heat conducting material provided in the recess and configured to cover the electronic component. | 09-25-2014 |
20140292457 | REACTOR - A reactor includes a core, and a coil, in which a projected shape of the coil in projection in a winding axis direction is a rectangle. The coil is embedded in the core. The coil is exposed an outer peripheral side of one of long sides of the rectangle of the coil from the core. | 10-02-2014 |
20140333401 | REACTOR AND COMPOUND USED IN SAME - [Problem] Provided is an injection-molded reactor which has excellent heat dissipation properties and in which the internal temperature of the core can be satisfactorily inhibited from rising due to heat generation when the reactor is in operation. | 11-13-2014 |
20150022301 | INJECTION-MOLDED REACTOR AND COMPOUND USED IN SAME - [Problem] Provided is an injection-molded reactor which has a further reduced loss when the reactor is in operation. | 01-22-2015 |
20150070122 | Three Piece Transformer Core - A three piece transformer core includes a top having a pair of top lateral faces, namely a top left lateral face and a top right lateral face. The top left lateral face has a lower edge bounded at a top lower left face. The top right lateral face has a lower edge bounded at a top lower right face. A core left side section has a core left side section first leg and a core left side section second leg. The core left side section has a left lateral upper face configured to abut the top lower left face of the top. A core right side section has a core right side section first leg and a core right side section second leg. The core right side section has a right lateral upper face configured to abut the top lower right face of the top. | 03-12-2015 |
20150130574 | TRANSFORMER AND POWER SUPPLY DEVICE INCLUDING THE SAME - A transformer includes a magnetic core, a first coil unit and a second coil unit. The first coil unit is disposed within the magnetic core and includes a laminated board having layers laminated therein and conductive patterns. Respective ones of the conductive patterns are disposed on the laminated layers. The second coil unit includes a conductive wire spaced apart from the conductive patterns of the laminated board by an insulating distance. The conductive wire includes a triple-insulated wire surrounded by three sheets of insulating paper to maintain the insulating distance from the conductive patterns. | 05-14-2015 |
20150130575 | TRANSFORMER AND POWER SUPPLY DEVICE INCLUDING THE SAME - A transformer includes a magnetic core, a first coil unit and a second coil unit. The first coil unit is disposed within the magnetic core and includes a laminated board having layers laminated therein and conductive patterns. Respective ones of the conductive patterns are disposed on the laminated layers. The second coil unit includes a conductive wire spaced apart from the conductive patterns of the laminated board by an insulating distance. The conductive wire includes a triple-insulated wire surrounded by three sheets of insulating paper to maintain the insulating distance from the conductive patterns. | 05-14-2015 |
20150294777 | Induction Component - An induction component includes a housing of ferrite material, a coil and a carrier element for the coil. The carrier element for the coil forms a holder for the same. The coil is connected to the carrier element and the winding ends of the coil are soldered to connection realizations of the carrier element. The carrier element is inserted with the coil into the housing and the connection contacts present on the carrier element serve for connecting the induction components to a printed circuit board. | 10-15-2015 |
20150302968 | MAGNETIC ELEMENT WITH MULTIPLE AIR GAPS - A magnetic element includes a first magnetic core, a second magnetic core, an intermediate magnetic core, a first winding coil, and a second winding coil. The intermediate magnetic core is arranged between the first magnetic core and the second magnetic core. After the first magnetic core and the intermediate magnetic core are coupled with each other, a first winding space and a first air gap are defined. After the second magnetic core and the intermediate magnetic core are coupled with each other, a second winding space and a second air gap are defined. The first winding coil is disposed within the first winding space and arranged around the first air gap. The second winding coil is disposed within the second winding space and arranged around the second air gap. The first winding coil and the second winding coil are connected with each other in series. | 10-22-2015 |
20150310975 | Choke - A choke includes a single-piece core made of a same material, the single-piece core having a first board, a second board, and a pillar located between the first and second boards, a winding space located among the first board, the second board and the pillar, wherein the pillar has a non-circular and non-rectangular cross section having a first axis and a second axis substantially perpendicularly intersecting with each other at a center of the cross section of the pillar, and wherein a circumference of the cross section of the pillar includes two arc edges, four first substantially straight edges substantially parallel to the first axis, and two second substantially straight edges substantially parallel to the second axis, each of the first substantially straight edges being a joint of and in direct contact with one of the arc edges and one of the second substantially straight edges. | 10-29-2015 |
20150348698 | AN INDUCTOR AND INDUCTOR CORE - The inductor core has a higher magnetic permeability than air, and includes an endless channel adapted for containing an inductor winding, where the inductor core extends along a first axis A, and the inductor winding extends completely around the first axis A of the inductor core in such a way that the inductor winding has a number of discrete positions or first sections where it extends in a direction being perpendicular to the first axis A of the inductor core, and wherein the inductor winding, between the discrete positions or first sections, has second sections where it extends at least partly along the first axis A. | 12-03-2015 |
20160055954 | INTEGRALLY-FORMED INDUCTOR - An inductive component is disclosed, the inductive component comprising: a metal structure, the metal structure comprising a conductor wire and a lead frame, wherein the lead frame and the conductor wire are integrally formed, wherein the lead frame comprises a first part and a second part space spaced apart from the first part, wherein a contiguous metal path is formed from the first part of the lead frame to the second part of the lead frame via the conductor wire; a magnetic body encapsulating the conductor wire, and a first portion of the first part and a second portion of the second part of the lead frame adjacent to the conductor wire. | 02-25-2016 |
20160055955 | CHIP ELECTRONIC COMPONENT - There is provided a chip electronic component including: a magnetic body containing magnetic metal powder particles; an internal coil part embedded in the magnetic body; and a plating spreading prevention layer disposed on at least one of upper and lower surfaces of the magnetic body, wherein the plating spreading prevention layer contains magnetic powder particles, and a D | 02-25-2016 |
20160064136 | COIL COMPONENT - A coil component is constituted by a composite magnetic material containing alloy grains whose oxygen atom concentration in their surfaces is 50 percent or less, and resin, and also by a coil. The coil component using the composite magnetic material does not require high pressure when formed. | 03-03-2016 |
20160078986 | COIL COMPONENT AND BOARD HAVING THE SAME - There are provided a coil component and a board having the same. The coil component includes: a magnetic body including a substrate having two cores, first and second coil parts disposed on one surface of the substrate and wound in the same direction, and third and fourth coil parts disposed on the other surface of the substrate to be spaced apart from each other; and first to fourth external electrodes disposed on outer surfaces of the magnetic body and connected to the first to fourth coil parts. | 03-17-2016 |
20160086725 | COIL COMPONENT - A coil component includes two or more coils configuring a common mode choke coil and functions as an inductor against a normal mode AC current. A coil component includes a pot-type core formed in a box-like shape, a flat plate core, coils, and a partition core formed of a magnetic substance. The coils are accommodated inside the pot-type core and form a common mode choke coil by making the central axes thereof substantially match each other. Further, each of end portions of the coils function as outer electrodes. The partition core is provided between the coils. | 03-24-2016 |
20160141087 | PACKAGING STRUCTURE OF A MAGNETIC DEVICE - An inductor is disclosed, the inductor comprising: a T-shaped magnetic core, being made of a material comprising an annealed soft magnetic metal material and having a base and a pillar integrally formed with the base, wherein the volume of the base is V1 and the volume of the pillar is V2; a coil wound on the pillar; and a magnetic body encapsulating the pillar, the coil and a portion of the base, wherein the ratio of V1 to V2 (V1/V2) is configured in a pre-determined range so as to reduce the total core loss of the inductor with the equivalent permeability of the inductor being between 28.511 and 52.949. | 05-19-2016 |
20160148740 | STACK-TYPE INDUCTOR ELEMENT AND METHOD OF MANUFACTURING THE SAME, AND COMMUNICATION DEVICE - A stack-type inductor element includes a stack including a magnetic element layer, a coil conductor pattern provided in the stack and the magnetic element layer defines a magnetic element core, a plurality of first pad electrodes provided on one main surface of the stack, and a plurality of second pad electrodes provided on the other main surface of the stack so as to be symmetric to the plurality of first pad electrodes. One end and the other end of the coil conductor pattern are electrically connected to two of the plurality of first pad electrodes, respectively, and the plurality of second pad electrodes are all electrically open. | 05-26-2016 |
20160155556 | COIL COMPONENT AND METHOD FOR MANUFACTURING THE SAME | 06-02-2016 |
20160155557 | COIL COMPONENT | 06-02-2016 |
20160181014 | SURFACE-MOUNT INDUCTOR AND METHOD FOR MANUFACTURING THE SAME | 06-23-2016 |
20160196913 | COIL COMPONENT AND METHOD OF MANUFACTURING THE SAME | 07-07-2016 |
20190148055 | COIL COMPONENT | 05-16-2019 |