Class / Patent application number | Description | Number of patent applications / Date published |
336220000 | TWO WINDINGS | 68 |
20090128278 | SWITCHED MODE POWER SUPPLY TRANSFORMER - A switched mode power supply transformer for use in a modular switched mode power supply, the transformer comprising a primary winding, a magnetic core and at least one configurable secondary winding so as to provide a switched mode power supply transformer that is small in size, low in weight, is user configurable and has low power losses. | 05-21-2009 |
20090134965 | EFFICIENT METHODOLOGY FOR THE DECOUPLING FOR MULTI-LOOP RF COIL GEOMETRIES FOR MAGNETIC RESONANCE IMAGING - A multi-loop RF coil includes a plurality of channels and is formed of a plurality of coil elements. The coil includes a pair of coil elements that at least partially overlap with one another as part of a geometric decoupling scheme between the pair of coil elements. | 05-28-2009 |
20090146771 | Apparatus for Generating Secondary Electricity from an Electromagnetic Field Around a Wire - Disclosed is an apparatus for generating secondary electricity from an electromagnetic field around a wire. The apparatus includes a coil unit, a wire and a rectifier. The coil unit comprising a highly magnetically conductive ring and a coil provided wound around the highly magnetically conductive ring. The wire is wound around the highly magnetically conductive ring. The rectifier is connected to the coil. | 06-11-2009 |
20090153284 | INDUCTOR PACKAGING FOR POWER CONVERTERS - A vehicular power converter includes switches and first and second inductive components. The first and second inductive components have substantially adjacent portions and are coupled to the plurality of switches such that when current flows from the plurality of switches and through the first and second inductive components, flux generated by the current flowing through the adjacent portions of the first and second inductive components and located between the adjacent portions is oriented in substantially opposite directions. | 06-18-2009 |
20090153285 | METHOD AND APPARATUS FOR TRANSFERRING ENERGY IN A POWER CONVERTER CIRCUIT - A reduced cost energy transfer element for power converter circuits. In one embodiment, an energy transfer element according to an embodiment of the present invention includes a magnetic element having an external surface with at least a first winding and a second winding wound around the external surface of the magnetic element without a bobbin. As such, energy to be received from a power converter circuit input is to be transferred from the first winding to the second winding through a magnetic coupling provided by the magnetic element to a power converter circuit output. | 06-18-2009 |
20090174516 | SYSTEM FOR ISOLATING A MEDIUM VOLTAGE - A signal isolating transformer may be arranged such that a first coil of the signal isolating transformer is located in a medium voltage compartment and a second coil of the signal isolating transformer is located external to the medium voltage compartment. The transformer spans an opening defined by a grounded wall to isolate faults in the medium voltage compartment. | 07-09-2009 |
20090295530 | Multi-Chamber Transformer - A transformer includes: —a plurality of windings (P, S | 12-03-2009 |
20100001825 | DOUBLE-TUNED CIRCUIT - A double-tuned circuit includes a primary side tuned circuit having a first air-cored coil and a secondary side tuned circuit having a second air-cored coil. The first air-cored coil and the second air-cored coil are opposed to each other so that one opening end of the first air-cored coil and one opening end of the second air-cored coil are capable of being coupled to each other on a coil mounting surface. The coil mounting surface is provided with a first conductive pattern formed adjacent to the first air-cored coil in a direction perpendicular to an arrangement direction of the first and second air-cored coils, and both ends of first conductive pattern are connected to a ground. | 01-07-2010 |
20100019874 | Transformer With Split Primary Winding - A transformer includes a core having a first leg, a second leg and a third leg, a split primary winding including first turns about the first leg electrically coupled with second turns about the third leg, and a secondary winding about the second leg. Magnetic flux linking the first turns of the split primary winding and magnetic flux linking the second turns of the primary winding link the secondary winding. | 01-28-2010 |
20100019875 | HIGH VOLTAGE TRANSFORMER EMPLOYED IN AN INVERTER - A high voltage transformer employed in an inverter includes a first core and a second core. The second core is coupled to the first core. One end of the second core is wrapped by a primary winding, and the other end thereof is wrapped by a secondary winding. A conductive coefficient of the first core is at least 100 times of that of the second core. | 01-28-2010 |
20100102915 | Electrical connector system - The present invention relates to a connector system that provides the transfer of electrical power and/or data communications signals between two systems. The connector has no conductive electrical connection and can operate independently of angular orientation. | 04-29-2010 |
20100102916 | SHARED REACTOR TRANSFORMER - In order to additionally furnish the transformer with the reactor capability easily without having to change the structure of the transformer, a transformer is formed by winding an input-side coil | 04-29-2010 |
20100123540 | Contactless connector for use in a gas turbine - The invention provides a system for monitoring an operational parameter of a gas turbine, including a magnetic coupling between a signal source and a data output terminal. The magnetic coupling comprises a primary coil electrically connected to the signal source and wound around a first magnetic core section, and a secondary coil electrically connected to the output terminal but electrically isolated from the primary coil and wound around a second magnetic core section, wherein the first and second magnetic core sections are physically separated from one another. | 05-20-2010 |
20100148912 | WIRE-WOUND COIL AND METHOD FOR MANUFACTURING WIRE-WOUND COIL - A wire-wound coil has a characteristic impedance that can be flexibly adjusted and can be prevented from varying undesirably. In the coil of the present invention, a primary wire part | 06-17-2010 |
20100176907 | TRANSFORMER, SWITCHING POWER SUPPLY DEVICE, AND DC-DC CONVERTER DEVICE - The transformer includes: first and second cores each including a magnetic center leg and a magnetic outer leg positioned outside of the magnetic center leg; a first adhesion part that adheres the magnetic center leg of the first core and the magnetic center leg of the second core to each other; a second adhesion part that adheres the magnetic outer leg of the first core and the magnetic outer leg of the second core to each other; a bobbin inserted through the magnetic center leg of the first core and the magnetic center leg of the second core, a primary coil and a secondary coil being wound on the bobbin; and an elastic member that applies pressure to the magnetic outer leg of the first core and the magnetic outer leg of the second core in a neighborhood of the second adhesion part, in an inward direction of the transformer. | 07-15-2010 |
20100188183 | Magnetic Induction Devices And Methods For Producing Them - A magnetic induction device (MID) is disclosed. The MID includes a core, and at least one first winding including at least one conductive strip deposited on the core and including at least two turns which are substantially simultaneously shaped. Related apparatus and methods are also disclosed. | 07-29-2010 |
20100214052 | Communications transformer - A communications transformer in which the primary and secondary windings are each divided into equal halves is disclosed. One primary and one secondary half winding is disposed about one section of a magnetic core, while the other halves are disposed about a second, parallel section. Voltages in the primary half windings and secondary half windings caused by stray magnetic fields are subtracted. | 08-26-2010 |
20100245014 | HIGH-VOLTAGE TRANSFORMER AND POWER SUPPLY FOR AN X-RAY TUBE INCLUDING SUCH A TRANSFORMER - A high-voltage transformer has a plurality of elementary transformers. Each elementary transformer comprises an elementary primary circuit configured to be powered by an elementary primary voltage, an elementary secondary circuit comprising at least one secondary winding and at least one capacitor that is connected to the terminals of a secondary winding, and an elementary magnetic circuit configured to couple the elementary primary circuit and the elementary secondary circuit. The output voltage of the transformer is equal to the sum of the elementary balanced secondary voltages, and the elementary primary circuits are connected to one another so as to form a common circuit with the elementary transformers. The common circuit is configured to be supplied by a primary voltage, which is equal to the sum of the elementary primary voltages. | 09-30-2010 |
20110025445 | MAGNETIC ELEMENT MODULE - A magnetic element module includes a magnetic core assembly and at least one first winding structure. The magnetic core assembly includes a first magnetic core and a second magnetic core. The first magnetic core includes a first magnetic slab and a first magnetic post. The second magnetic core includes a second magnetic slab and a second magnetic post. The first winding structure is sheathed around the first magnetic post. The first magnetic post is placed on a second edge of the second magnetic slab. The second magnetic post is placed on a first edge of the first magnetic slab. The first magnetic core, the second magnetic core and the first winding structure are combined together, thereby producing the magnetic element module. | 02-03-2011 |
20110043319 | PULSE TRANSFORMER - A pulse transformer having a primary core ( | 02-24-2011 |
20110068888 | HIGH VOLTAGE TRANSFORMER EMPLOYED IN AN INVERTER - A high voltage transformer employed in an inverter includes a first core and a second core. The second core is coupled to the first core. The second core is wrapped by at least one primary winding and at least one secondary winding of the transformer. The first core is made of manganese-zinc alloy, and the second core is made of nickel-zinc alloy, so as to achieve that conductive coefficient of the first core is much higher than conductive coefficient of the second core. | 03-24-2011 |
20110084792 | SIP (Symmetrical-in-Parallel) Induction Coils for Electromagnetic Devices - A SIP (Symmetrical-in-Parallel) induction coil is made of winding two conductive wires symmetrically around a magnetic core and connecting them in parallel (refer to four figures in four pages). Such SIP induction coils can be applied to construct electromagnetic devices which have unique outstanding features of reduced magnetization current, reduced cupper loss, higher power efficiency, lower temperature-rise and reduced size (volume) of the electromagnetic devices. | 04-14-2011 |
20110090037 | TRANSFORMER STRUCTURE - A transformer includes a bobbin, a primary winding coil, a secondary winding coil, a cover member and a magnetic core assembly. The bobbin includes a main body and a channel running through the main body. The main body includes a first winding section, a second winding section and a first coupling part. The primary winding coil is wound around the first winding section of the main body of the bobbin. The secondary winding coil is wound around the second winding section of the main body of the bobbin. The cover member is placed over the bobbin for partially sheltering the bobbin. The cover member has a second coupling part corresponding to the first coupling part. The magnetic core assembly is partially accommodated within the channel of the bobbin. | 04-21-2011 |
20110254651 | TRANSFORMER AND ELECTRONIC APPARATUS INCLUDING THE SAME - Provided are a transformer, capable of simplifying a manufacturing process and enhancing heat dissipation characteristics and insulating characteristics by adopting a dual-bobbin structure and configuring a secondary winding as a metallic plate extending to the outside, and an electronic device including the same. Heat dissipation from a primary winding is facilitated by forming a primary winding at the outer side. Furthermore, a secondary metallic plate, although formed inside, includes extension portions to thereby facilitate heat dissipation from the secondary metallic plate. Also, by adopting a dual bobbin structure for outer and inner bobbins, a sufficient distance for insulation between the primary winding and the secondary metallic plate is ensured to thereby enhance an insulating function. Further, a manufacturing process can be simplified by forming a secondary winding as a metallic plate manufactured in advance. | 10-20-2011 |
20110260824 | TRANSFORMER - A transformer assembly. In some embodiments, the transformer assembly comprises a transformer, comprising a magnetic core; a primary winding wound around the magnetic core, wherein the primary winding comprises one or two turns of a first conductive material; and a secondary winding wound around the magnetic core, wherein the secondary winding comprises a plurality of turns of a second conductive material, and wherein a diameter of the magnetic core is sized such that the transformer achieves a first inductance with a core loss comparable to a winding loss. | 10-27-2011 |
20110279214 | High Frequency Semiconductor Transformer - A semiconductor transformer provides high frequency operation by forming the primary windings of the transformer around a section of magnetic material that has a hard axis that lies substantially parallel to the direction of the magnetic field generated by the primary windings. The core can also be formed to have a number of sections where the magnetic flux follows the hard axis through each section of the core. | 11-17-2011 |
20120032768 | LINEAR VARIABLE DIFFERENTIAL TRANSFORMERS - Linear variable differential transformers include a core comprising a non-ferromagnetic material and a ferromagnetic material, and a coil assembly including an axial bore within which the core is disposed and through which the core axially translates. | 02-09-2012 |
20120044035 | WINDING AND METHOD FOR PRODUCING A WINDING - A winding includes a wound electrical conductor having an electrical insulator. A method is also provided for producing a winding. The winding can be produced as a single piece by using a support on which the electrical conductor can be disposed and electrically insulated. The support is particularly implemented in the form of a cylindrical spiral as a coil, and thereby allows practically unlimited single-piece production of the winding. The cross section and/or the width of the electrical conductor can simultaneously be varied by location on the support. | 02-23-2012 |
20120075051 | Magnetic Devices and Transformer Circuits Made Therewith - A magnetic device producing a small amount of leakage flux and capable of substantially eliminating the amount of leakage flux that escapes the magnetic core of the device. The device includes at least a portion of an electronic circuit that includes an interphase transformer arranged on a magnetic core. The reactor windings on each leg of the magnetic core are disposed in close proximity to each other and can be wound concentrically or in a bifilar fashion. The resulting combination of the magnetic core and windings provides a high degree of magnetic coupling between reactor windings disposed on the same leg and between reactor windings disposed on differing legs. The high degree of magnetic coupling substantially reduces the amount of leakage flux that can affect other metal objects proximate the magnetic device. | 03-29-2012 |
20120081203 | System and Method for Multiple Band Transmission - In accordance with embodiments of the present disclosure, a multi-tap integrated transformer may include one or more windings, wherein each of the one or more windings include at least one pair of primary taps for receiving at least one differential input signal, a first pair of secondary taps for outputting a first output signal, and a second pair of secondary taps for outputting a second output signal. The first and second output signals may be based on the at least one differential input signal and a mutual inductance between portions of the one or more windings associated with the at least one pair of primary taps, the first pair of secondary taps, and the second pair of secondary taps. | 04-05-2012 |
20120092120 | REACTOR - A compact reactor with excellent productivity and heat dissipation is provided. Reactor | 04-19-2012 |
20120133476 | NON-CONTACT TRANSFORMER - A non-contact transformer includes a first core and a second core. The first core includes a first main body, a first coil-winding part extending from the first main body and having a primary winding wound around the first coil-winding part, and a first extending part extending from the first main body to be spaced apart from the first coil-winding part. The second core includes a second main body positioned to face the first main body, a second extending part extending from the second main body towards the first main body, and a second coil-winding part around which a secondary winding is wound. | 05-31-2012 |
20120182114 | BATHING SYSTEM TRANSFORMER DEVICE WITH FIRST AND SECOND LOW VOLTAGE OUTPUT POWER CONNECTIONS - A line voltage transformer device for a bathing installation includes a housing structure, with a line voltage electrical power connection including a line voltage wiring cable having an electrical connection at a distal end for connection to a line voltage AC supply outlet adjacent the bathing installation. A voltage transformer circuit is disposed within the housing and connected to the line voltage electrical power connection and is configured to transform AC line voltage electrical power from the line voltage electrical power connection to low voltage AC power at first and second low voltage AC terminals, wherein the low voltage AC power is delivered to the first and second low voltage AC terminals. A first low voltage wiring connection set is attached to the first and second low voltage AC terminals, the first wiring set including a first low voltage outlet connector for electrical connection to a first separate low voltage bathing installation device to provide low voltage AC power to the first separate device. A second low voltage wiring set is attached to the first and second low voltage AC terminals, the second wiring set including a second low voltage connector for connection to a second separate low voltage bathing installation device to provide low voltage AC power to the second separate device. | 07-19-2012 |
20120223799 | TRANSVERSE SHROUD AND BOBBIN ASSEMBLY - A transformer assembly includes a vertical bobbin and a shrouding element. The vertical bobbin includes a first winding portion, a second winding portion, and a flange. The flange is disposed between the first winding portion and the second winding portion. The flange includes a flange edge. The shrouding element, which substantially covers the first winding portion or the second winding portion, includes a shrouding edge that is operatively coupled to the flange edge. The flange edge and the shrouding edge have at least one complementary corrugation. In one example, the flange edge includes at least one groove and the shrouding edge includes at least one protrusion that is complementary to the groove. In another example, the shrouding edge includes at least one groove and the flange edge includes at least one protrusion that is complementary to the groove. | 09-06-2012 |
20130027173 | TRANSFORMER - A columnar leg portion | 01-31-2013 |
20130049918 | Common Mode Choke Apparatus and Method - An embodiment integrated common mode choke comprises a magnetic core, a magnetic plate, a first winding coil and a second winding coil. The magnetic plate is inserted within an inner circumference of the magnetic core. The first winding coil and the second winding coil are wound are wound in the same direction through the magnetic core. The integrated common mode choke is equivalent to a common mode choke and a differential mode choke connected in series. The inductance value of the differential mode choke can be changed by adjusting either the gap between the magnetic plate and the magnetic core or the thickness of the magnetic plate. | 02-28-2013 |
20130063240 | TRANSFORMER - A transformer includes: a core portion, which forms a magnetic circuit; a coil bobbin, which has a winding core portion to be wound by a winding wire, and which is attached on the core portion; a primary winding wire, which has a plurality of first divided winding wire portions divided in parallel; and a secondary winding wire, which has a plurality of second divided winding wire portions divided in parallel, wherein the plurality of first divided winding wire portions and the plurality of second divided winding wire portions are layered on the winding core portion, wherein at least one of the first divided winding wire portions becomes a first layer which is closest to the winding core portion, and at least one of the other of the first divided winding wire portions is interposed between two of the second divided winding wire portions. | 03-14-2013 |
20130099887 | REACTOR - Provided are a reactor which can perform step-up/step-down operations and soft switching with a small size and a smaller leakage inductance, and a method of adjusting a leakage inductance of the reactor. A reactor | 04-25-2013 |
20130106557 | INTEGRATED MAGNETIC ELEMENT | 05-02-2013 |
20130135076 | TRANSFORMER - A second inductor is disposed opposite to a first inductor and rotated around the center axis by 180°. The first inductor includes a plurality of lines concentrically formed in a first wiring layer, and a first intersection that is formed in a first area and connects a first line with a second line. The first intersection includes a first connection line formed in a second wiring layer, and a first interlayer line connecting the first and second lines with the first connection line. The second inductor includes a plurality of lines concentrically formed in a third wiring layer, and a second intersection that is formed in a second area and connects a third line with a fourth line. The second intersection includes a second connection line formed in a fourth wiring layer, and a second interlayer line connecting the third and fourth lines with the second connection line. | 05-30-2013 |
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 |
20130154787 | COIL DEVICE - A coil device | 06-20-2013 |
20130176097 | INSULATING TRANSFORMER - Provided is a one-input and two-output type insulating transformer which can secure a desired insulation distance between the primary and secondary sides with a simple structure without causing an increase in the size of the product as a whole. The insulating transformer includes a first tube-shaped bobbin | 07-11-2013 |
20130229254 | MAGNETIC DEVICE - A magnetic device including a first magnetic core is disclosed. The first magnetic core includes a base having a first edge; a first contacting structure disposed on the base; and a second contacting structure disposed on the base, wherein a distance between an inner surface of the first contacting structure and the first edge is larger than a distance between an inner surface of the second contacting structure and the first edge. | 09-05-2013 |
20130229255 | NETWORK TRANSFORMER MODULE AND MAGNETIC ELEMENT THEREOF - A network transformer module includes a first magnetic element, a second magnetic element, and a connection board. The first magnetic element includes a first winding set and a first core, and the first winding set is wound around the first core. The second magnetic element includes a second winding set and a second core, and the second winding set is wound around the second core. The first winding set of the first magnetic element is independent from the second winding set of the second magnetic element, and the first winding set is not wound around the second core. The connection board electrically couples the first winding set with the second winding set. A magnetic element is also disclosed herein. | 09-05-2013 |
20130285786 | CURRENT TRANSFORMER FOR SUPPLYING POWER TO ELECTRONIC CONTROLLER - A current transformer supplying a power for an electronic controller comprises two independent core magnetic circuits, wherein a first core magnetic circuit is a closed loop formed by connecting a U-shaped core and a linear core, a primary conductor extends through the closed loop, and a secondary winding for power supply is wound on the linear core; a second core magnetic circuit having an opening shape is disposed in parallel to the linear core of the first core magnetic circuit, and the open end of the second core magnetic circuit is coupled to the first core magnetic circuit through air gaps. The area of the cross section of the linear core is less than that of the cross section of the U-shaped core, so that the linear core can be magnetically saturated earlier than the U-shaped core. The centerline length of the U-shaped core is 1.5 to 4 times of that of the linear core. The current transformer of the present invention can not only normally start and work in case that a primary current is far lower than a rated current In, but also achieve the purpose of inhibiting rapid increase of an output current of the secondary windings and smoothing the output current in case that the primary current is far more than the rated current In. | 10-31-2013 |
20130293340 | TRANSFORMER WINDING - An exemplary transformer winding including at least two hollow-cylindrical, axially adjacent winding modules, which are arranged about a common winding axis and have an electrical conductor wound in layers, and a common electrical insulting layer, through which the winding modules are enveloped. The insulating layer has at least one annular, radial depression or annular, radial elevation, which is salient transversely to the winding axis on the radial outer face of said insulating layer. | 11-07-2013 |
20140077919 | TRANSFORMER CIRCUITS HAVING TRANSFORMERS WITH FIGURE EIGHT AND DOUBLE FIGURE EIGHT NESTED STRUCTURES - A transformer includes a first loops and second loops. The first loops include a first set of input terminals. The first loops include at least three loops that are conductively coupled to each other in series by first crossovers. The second loops include a first set of output terminals. The second loops include at least three loops that are conductively coupled to each other in series by second crossovers. Each of the second conductive loops is inductively coupled to and nested within a respective one of the first conductive loops. | 03-20-2014 |
20140085036 | COMPOSITE ISOLATING TRANSFORMER - A composite isolating transformer includes a main winding rack and a support rack. The main winding rack includes two winding portions coaxially formed to hold respectively a primary coil and a secondary coil, and a separating portion between the two winding portions. The support rack includes a first support half member and a second support half member coupling together to encase at least one winding portion. The first and second support half members have respectively a first cover and a second cover to cover two lateral sides of the winding portion, respectively a first insulating portion and a second insulating portion corresponding to the separating portion and extending towards the separating section to couple together, and respectively a first isolating portion and a second isolating portion extended from the first and second insulating portions towards the winding portion to cover another two lateral sides of the winding portion. | 03-27-2014 |
20140104030 | ROLLED-UP TRANSFORMER STRUCTURE FOR A RADIOFREQUENCY INTEGRATED CIRCUIT (RFIC) - A rolled-up transformer structure comprises a multilayer sheet having a rolled configuration comprising multiple turns about a longitudinal axis. The multilayer sheet comprises more than one conductive pattern layer on a strain-relieved layer, including a first conductive film and a second conductive film separated from the first conductive film in a thickness direction. The first conductive film comprises an even number of primary conductive strips, where each primary conductive strip has a length extending in the rolling direction, and the second conductive film comprises an even number of secondary conductive strips, where each secondary conductive strip has a length extending in the rolling direction. In the rolled configuration, turns of the primary conductive strips and turns of the secondary conductive strips wrap around the longitudinal axis. The primary conductive strips serve as a primary winding and the secondary conductive strips serve as a secondary winding of the rolled-up transformer structure. | 04-17-2014 |
20140167903 | COMMON MODE FILTER - A common mode filter includes first and second wires wound around a winding core portion by the same number of turns. Each of the first and second wires is wound by a number m | 06-19-2014 |
20140203901 | REACTOR AND ELECTRICAL DEVICE - To provide a small sized reactor with which it is possible to reduce the volume of a core and decrease electrical power losses. | 07-24-2014 |
20140266556 | CORE TUBE FOR A TRANSFORMER AND AN ASSOCIATED METHOD THEREOF - A core tube for a transformer is disclosed. The core tube includes a first half portion and a second half portion. The first half portion includes a first side portion, a first joining portion, and a second side portion. The first side portion is coupled to the second side portion via the first joining portion. The first side portion is longer than the second side portion or vice versa. The second half portion includes a third side portion, a second joining portion, and a fourth side portion. The third side portion is coupled to the fourth side portion via the second joining portion. The third side portion is longer than the fourth side portion or vice versa. The first half portion is coupled to the second half portion in an interleaved manner. | 09-18-2014 |
20140320254 | Assembly Having Transformer and Inductor Properties and Method of Making the Assembly - An assembly having transformer and inductor characteristics includes a primary transformer winding coil and a secondary transformer winding coil, each wound around a core axis. The primary coil has outer peripheral primary coil portions spaced radially of the core axis outwardly away from central primary coil portions of the primary coil. The secondary coil has outer peripheral secondary coil portions spaced radially of the core axis outwardly away from central secondary coil portions of the secondary coil. The central primary and secondary coil portions are electromagnetically coupled and stacked in a close confronting adjacent relationship to form a transformer. The outer peripheral primary and secondary coil portions diverge radially and outwardly away from the core axis to form an inductance. The diverging outer peripheral primary and secondary coil portions bound an angle whose angular spread determines a magnitude of the inductance. | 10-30-2014 |
20140327511 | PRIMARY SIDE MODULE AND TRANSFORMER WITH SAME - A transformer includes a primary side module, a secondary winding structure, and a magnetic core assembly. The primary side module includes a primary winding structure, a first covering structure and a second covering structure. The primary winding structure has a first opening. The first covering structure includes a second opening corresponding to the first opening and a first receiving recess for accommodating the primary winding structure. The first receiving recess is covered and sealed by the second covering structure. The second covering structure includes a third opening corresponding to the first opening. The first opening, the second opening and the third opening are in communication with each other to be defined as a channel. The secondary winding structure includes a fourth opening, which is in communication with the channel. The magnetic core assembly is partially embedded within the channel and the fourth opening. | 11-06-2014 |
20150102894 | MAGNETIC DEVICE - A magnetic device is provided. The magnetic device includes a bobbin including a hollow portion extending in a longitudinal direction, coils wound around the outside of the bobbin, a core coupled to the bobbin outside the bobbin. The bobbin includes a first winding portion around which the coil is wound, a second winding portion which is disposed at one side of the first winding portion in the longitudinal direction, and around which the coil is wound, a tolerance relief part disposed between the first and second winding portions, coupling parts symmetrically disposed to each other on the outsides of the first and second winding portions, respectively. The tolerance relief part is elastically deformable in the longitudinal direction. | 04-16-2015 |
20150145631 | COIL WINDING METHOD AND TRANSFORMER - In a manufacturing method of a coil, a plurality of unit coil portions is placed side by side in a winding axis direction, each of the unit coil portions is formed of a plurality of unit wound portions having mutually different inner circumferential lengths, and the unit wound portion having a small inner circumferential length enters inside the unit wound portion having a large inner circumferential length. In coil winding method, a step of forming an outward wound unit coil portion formed of a plurality of unit wound portions laminated from an inner circumferential side to an outer circumferential side and forming an inward wound unit coil portion formed of a plurality of unit wound portions laminated from the outer circumferential side toward the inner circumferential side are alternately repeated. In outward wound unit coil portion, a step of forming the unit wound portion on the outer circumferential side by laminating on an outer circumferential surface of the unit wound portion on the inner circumferential side is repeated. In inward wound unit coil portion, a step of forming the unit wound portion at position spaced apart from the outward wound unit coil portion and pushing in the unit wound portion until it makes contact with a side surface of the outward wound unit coil portion is repeated. | 05-28-2015 |
20150332836 | MAGNETIC DEVICES AND METHODS FOR MANUFACTURE USING FLEX CIRCUITS - Magnetic devices, and associated methods of manufacture, using flex circuits. Conductive flex circuit traces, or combinations of such traces with conductive printed circuit board or other substrate traces, form windings around toroidal ferromagnetic cores. Bending the flex circuit into a partial loop or a full loop forms partial or full windings respectively. Bonding or flow soldering electrically connects the windings together and to a printed circuit board or other substrate. The methods yield transformers with high conversion efficiency, are compatible with conventional printed circuit boards and readily available high-volume assembly equipment, and avoid the higher cost of manually made windings. | 11-19-2015 |
20150364249 | INTEGRATED TRANSFORMER - An integrated transformer includes a primary winding and a secondary winding each having a spiral planar arrangement coils. A dielectric portion of dielectric material is interposed between the primary winding and the secondary winding. A field plate winding is electrically coupled with the primary winding. The field plate winding includes at least one field plate coil having a first lateral extension greater than a second lateral extension of a primary outer coil of the primary winding. The field plate coil is superimposed in plan view to the primary outer coil of the primary winding. | 12-17-2015 |
20150380154 | POWER SUPPLYING SIDE COIL AND CONTACTLESS POWER SUPPLYING APPARATUS - A power supplying side resonant coil contactlessly supplies power to a power receiving side resonant coil. The power supplying side resonant coil includes a first power supplying side coil unit and a second power supplying side coil unit disposed side by side on the same axis. The first power supplying side coil unit and the second power supplying side coil unit are opposite to each other in the direction of winding. | 12-31-2015 |
20160104567 | OPTIMIZED ELECTROMAGNETIC TRANSFORMER COMPONENT DESIGN AND METHODS INCLUDING IMPROVED CONDUCTIVITY COMPOSITE CONDUCTOR MATERIAL - Electromagnetic transformer components include a magnetic core and at least two conductors assembled with the core and defining respective windings completing different numbers of turns. The conductors are fabricated from a composite material including carbon nanotubes having an improved conductivity. The transformer is fabricated to have performance parameters that are selected in view of a function of a ratio of conductivity and/or a function of a ratio of effective diameter of the composite conductor material relative to a reference conductor material as conventionally used in a transformer fabrication. | 04-14-2016 |
20160126000 | INDUCTOR DEVICE - An inductor device is provided. The inductor device includes a coil unit that includes a pair of first and second coils disposed adjacent to each other and coupled to each other, a core unit that surrounds inner and outer spaces of the coil unit, and an induction unit that is disposed in the coil unit and is induced by a magnetic field generated between the first and second coils. | 05-05-2016 |
20160155551 | Coupled Inductors With Non-Uniform Winding Terminal Distributions | 06-02-2016 |
20160172093 | COMMON MODE FILTER AND CORE THEREOF | 06-16-2016 |
20160172094 | INDUCTOR | 06-16-2016 |
20160181000 | MAGNETIC ELEMENT USING BANK WINDING METHOD | 06-23-2016 |
20160379746 | COIL COMPONENT - A coil component includes a core with a closed magnetic circuit structure, a primary-side coil wound around the core, and a secondary-side coil wound around the core, disposed in an axial direction of the primary-side coil, and magnetically coupled to the primary-side coil. The primary-side coil and the secondary-side coil each include a first coil portion, and a second coil portion electrically connected to the first coil portion. The second coil portion overlaps in an axial direction of the first coil portion and an axis of the second coil portion is eccentric from an axis of the first coil portion. A cross-sectional area of an inner magnetic path of the second coil portion in a direction orthogonal to the axis is smaller than a cross-sectional area of an inner magnetic path of the first coil portion in a direction orthogonal to the axis. | 12-29-2016 |
20160379750 | MANUFACTURE METHOD OF COIL COMPONENT, AND COIL COMPONENT - The manufacture method of a coil component includes the steps of bonding a dummy metal layer onto one face of a mounting base, stacking a base insulating resin on the dummy metal layer, stacking a first spiral wiring and a first insulating resin in this order on the base insulating resin to cover the first spiral wiring with the first insulating resin and stacking a second spiral wiring and a second insulating resin in this order on the first insulating resin to cover the second spiral wiring with the second insulating resin to thereby form a coil substrate, detaching the mounting base from the dummy metal layer in a bonding face between the one face of the mounting base and the dummy metal layer, removing the dummy metal layer from the coil substrate, and covering the coil substrate with a magnetic resin. | 12-29-2016 |