Class / Patent application number | Description | Number of patent applications / Date published |
336170000 | THREE OR MORE WINDINGS | 77 |
20080197961 | Method and apparatus for directly mounting fuses to transformer terminals - A transformer which includes a primary winding having a plurality of primary winding taps, and a secondary winding having a plurality of secondary winding taps. A core is included on which the primary winding and the secondary winding are mounted. The primary winding and the secondary winding are electromagnetically coupled through the core. At least one terminal block is provided where each terminal block is connected to the primary winding taps or the plurality of secondary winding taps. Each terminal block includes at least a first row of terminals and a second row of terminals, and at least some of the first row of terminals are each connected to a corresponding one of the winding taps. | 08-21-2008 |
20080197962 | MULTIPLE-PRIMARY HIGH FREQUENCY TRANSFORMER INVERTER - A transformer based inverter system comprises a transformer core, a secondary winding wound around the transformer core, a plurality of primary winding circuits each comprising a clockwise or counterclockwise winding wound around the transformer core and a switch operative to selectively open and close to allow current to flow through the winding. Each primary winding circuit is connected to terminals of a DC generator to drive current around the transformer core in a clockwise or counterclockwise direction. A control system is operative to open and close the switches such that an input DC voltage from a generator is transformed and inverted into an AC voltage that has a frequency and voltage equal to a desired frequency and voltage, and such that as the input DC voltage varies within a range, the AC voltage at the terminal ends of the secondary winding remains substantially constant. | 08-21-2008 |
20080211615 | INVERTER TRANSFORMER - An inverter transformer includes a coil unit and a transformer core unit. The coil unit includes a bobbin formed with a core-receiving compartment, and a plurality of windings including two primary windings and two secondary windings wound around the bobbin. The secondary windings are disposed adjacent to each other and are coupled electromagnetically and respectively to the primary windings. The transformer core unit includes an internal core part that extends into the core-receiving compartment of the bobbin, and an external core part that forms a magnetic circuit path with the internal core part. The external core part includes a main segment extending externally at one side of the bobbin and a protrusion segment extending from the main segment toward a portion of the bobbin that is disposed between the secondary windings. | 09-04-2008 |
20080224809 | MAGNETIC INTEGRATION STRUCTURE - A magnetic part having a first iron core wound with a winding constituting a transformer and an inductance component of a parallel coil and a second iron core wound with an inductance component of a series coil, in which a ratio of the dimensions of the first iron core and the second iron core are in accordance with their respective winding densities. | 09-18-2008 |
20080290976 | Signal transmitter and signal transmission apparatus - Disclosed is a signal transmitter including a primary winding, a first and at least one second secondary winding which are arranged at a distance from the primary winding in a first direction and are in each case inductively coupled to the primary winding, and each of which has at least two series-connected winding sections, with the at least two winding sections of each of the first and second secondary windings being arranged in at least two different winding levels, and a signal transmission apparatus having a signal transmitter such as this. | 11-27-2008 |
20090096564 | TRANSFORMER - A transformer is provided. The transformer includes at least a high voltage coil, at least a low voltage coil and a soft-magnetic colloid element. The soft-magnetic colloid element is disposed between the high voltage coil and the low voltage coil. | 04-16-2009 |
20090128277 | TRANSFORMER - A transformer | 05-21-2009 |
20090167473 | TRANSFORMER STRUCTURE - The present invention discloses a transformer structure, which has a winding reel. The winding reel has an iron-core frame. A first primary winding, a second primary winding and at least one secondary winding are wound on the iron-core frame. The first primary winding is electrically connected to the second primary winding. The secondary winding is arranged in between the first primary winding and the second primary winding. In the present invention, a plurality of the secondary windings may be arranged in between the first primary winding and the second primary winding and surrounded by the first primary winding and the second primary winding so that the transformer can drive a plurality of loads. | 07-02-2009 |
20090231076 | TRANSFORMER POWER COMBINER HAVING SECONDARY WINDING CONDUCTORS MAGNETICALLY COUPLED TO PRIMARY WINDING CONDUCTORS AND CONFIGURED IN TOPOLOGY INCLUDING SERIES CONNECTION AND PARALLEL CONNECTION - A transformer power combiner having a plurality of input ports and an output port is provided. The transformer power combiner includes a plurality of primary winding conductors and a plurality of secondary winding conductors. The primary winding conductors are electrically connected to the input ports, respectively; in addition, each of the primary winding conductors is electrically connected between a positive terminal and a negative terminal of a corresponding input port. The secondary winding conductors are magnetically coupled to the primary winding conductors, respectively. The secondary winding conductors are configured in a topology including series connection and parallel connection between a positive terminal and a negative terminal of the output port. | 09-17-2009 |
20090295524 | POWER CONVERTER MAGNETIC DEVICES - Magnetic structures for use in components utilized in switched mode power supplies can be combined to provide space and cost savings. Portions of magnetic cores can be utilized to form more than one component and/or separate magnetic cores can be combined into a single core. Further, a layer of material that has a higher flux density saturation point than the core and that is lower in permeability than the core (but higher than that of air) can be placed adjacent to the air gap in a core to decrease the magnetic flux passing through the vicinity surrounding the core so as to reduce EMI. A differential-mode choke and a separate common-mode choke can be combined onto a single core. An extra leg for a PFC choke core can be added to an isolation transformer core to form a single combined core. A pair of E-E core structures can be combined into a single core structure such as could be used to combine a pair of separate PFC chokes into an integrated pair of PFC chokes. | 12-03-2009 |
20090309685 | METHOD FOR PRODUCING A TRANSFORMER COIL, AND A TRANSFORMER COIL PRODUCED USING THIS METHOD - A method for winding a coil for a transformer comprising providing a cylindrical inner tube of insulating material including a radially outwardly projected first end wall section disposed at a first end of the cylindrical inner tube and a radially outwardly projecting second wall section disposed at a second end of the cylindrical inner tube; winding a first insulating layer onto the cylindrical inner tube so as to extend to the first end wall section and the second end wall section; and winding a first winding wire layer onto the first insulating layer so as to provide a first distance between a first end of the first winding wire layer and the first wall section and a second distance between a second end of the first winding layer and the second end wall section. | 12-17-2009 |
20100039201 | CHOKE DEVICE FOR FREQUENCY CONVERTER - A choke device for a frequency converter, comprising three windings composed of conductors wound around three substantially parallel axes (A, B, C), respectively, the windings being located triangularly with respect to each other in such a manner that, when the choke device is viewed in the longitudinal direction of said winding axes (A, B, C), the winding axes are located at the vertices of the triangle, the choke device further comprising an envelope ( | 02-18-2010 |
20100060399 | TRANSFORMER - A transformer includes primary and secondary windings coupled electromagnetically to each other and wounded respectively around primary and secondary winding portions of a bobbin unit, and a core unit mounted to the bobbin unit and including first and second core parts that form a magnetic circuit path. The first core part includes insertion and extension segments extending from a connecting segment. The second core part includes insertion and extension segments, and an adjusting segment extending from a connecting segment toward the first core part. The extension segments of the first and second core parts contact each other. The insertion segments of the first and second core parts extend respectively through the primary and secondary winding portions to contact each other. | 03-11-2010 |
20100117778 | Transformer - A transformer is provided. The transformer comprises a coil frame, an input coil and an output coil. The input coil and the output coil are both disposed on the coil frame and interlaced with each other. A second voltage outputted by the output coil is induced by a first voltage inputted into the input coil. The output coil comprises at least one metal strip to enhance the output power. The coil frame is formed with a plurality of coil openings with chamfered angles or rounded angles, so that the bended angle formed by the input coil at the location where the input coil passes each of the coil openings is substantially less than 15 degrees. | 05-13-2010 |
20100134230 | TRANSFORMER WITH HIGH LEAKAGE INDUCTANCE - The present invention provides a high leakage inductance transformer for solving the problem of insufficient leakage inductance in the conventional transformer. The transformer of the present invention includes a primary winding portion, two secondary winding portions mounted at two ends of the primary winding portion, and an iron core set having inner iron cores for penetrating the primary winding portion and the secondary winding portions and outer iron cores exposed out of the primary winding portion and the secondary winding portions and connected with the inner iron cores, so as to form a magnetic loop, wherein the primary winding portion has an intensifying winding portion for being penetrated by the outer iron cores, so as to increase the leakage inductance. | 06-03-2010 |
20100214049 | TRANSFORMER - The present invention provides a transformer capable of driving a plurality of lamps with one transformer by increasing the number of outer bobbins wrapping an outer circumferential surface of an inner bobbin wound by a coil and the number of output terminals by winding other coils around the outer bobbins. | 08-26-2010 |
20100237974 | IMPEDANCE TRANSFORMER AND APPLICATIONS THEREOF - An impedance transformer includes a first winding and a second winding. The first winding includes a first plurality of winding components, wherein each of the first plurality of winding components is on a corresponding layer of a first set of layers of a supporting substrate. The second winding includes a second plurality of winding components, wherein each of the second plurality of winding components is on a corresponding layer of a second set of layers of the supporting substrate and the first and second sets of layers are interleaved. The first winding has a first impedance within a desired frequency range and the second winding has a second impedance within the desired frequency range, where the first and second impedances are based on at least one of spacing, trace width, and trace length of the first and second plurality of winding components. | 09-23-2010 |
20100237975 | TRANSFORMER POWER COMBINER HAVING A PLURALITY OF CURRENT COMBINERS COUPLED IN SERIES AND A VOLTAGE COMBINER COUPLED TO A SERIES CONNECTION OF THE CURRENT COMBINERS - A transformer power combiner includes a plurality of current combiners and a voltage combiner. The current combiners are coupled in series, and include a plurality of primary winding conductors magnetically coupled to a plurality of secondary winding conductors respectively. Each of the current combiners is configured to combine currents flowing therethrough. The voltage combiner is coupled to a series connection of the current combiners, and is configured to combine voltages across the current combiners to thereby generate an output of the transformer power combiner. | 09-23-2010 |
20100253458 | TRANSFORMER HAVING LEAKAGE INDUCTANCE - A transformer includes a bobbin assembly, a primary winding coil, a first secondary winding coil, a second secondary winding coil, and a magnetic core assembly. The bobbin assembly includes a primary winding part, a first secondary winding part, a second secondary winding part and a channel. A first opening is formed in a bottom surface of the bobbin assembly and communicates with the channel. The primary winding coil is wound around the primary winding part. The first secondary winding coil is wound around the first secondary winding part. The second secondary winding coil is wound around the second secondary winding part. The magnetic core assembly is partially embedded into the channel of the bobbin assembly, and includes a first magnetic part and a second magnetic part. The second magnetic part includes a first extension post, and the first extension post is inserted into the first opening of the bobbin assembly. | 10-07-2010 |
20100265020 | RADIO FREQUENCY (RF) COIL ARRAY WITH DOUBLE ASYMMETRIC SADDLE COIL PAIRS - A radio frequency (RF) coil array includes a plurality of RF coil sections arranged in a superior-inferior direction. Each RF coil section includes a plurality of asymmetric saddle coil pairs configured in an overlapping arrangement in a left-right direction. The plurality of asymmetric saddle coil pairs may include three asymmetric saddle coil pairs arranged in a left-right direction. The position of the asymmetric saddle coil pairs on the left and right may be shifted in the superior-inferior direction with respect to the middle asymmetric saddle coil pair. In an alternative configuration, each RF coil section includes a first loop coil, an asymmetric saddle coil pair and a second loop coil arranged in a left-right direction. | 10-21-2010 |
20100301982 | HIGH FREQUENCY TRANSFORMER AND MULTI-OUTPUT CONSTANT CURRENT SOURCE WITH HIGH FREQUENCY TRANSFORMER - In various embodiments, a high frequency transformer is provided. The high frequency transformer may include a magnetic core; a primary winding; and a plurality of secondary windings; wherein the plurality of secondary windings and the primary winding are arranged separately, and each secondary winding constitutes a parasite current transformer with the primary winding. | 12-02-2010 |
20100315189 | TRANSFORMER AND TRANSFORMER DEVICE - A transformer that is capable of setting any characteristics of a detection voltage of a detection winding and accurately detecting an output voltage includes a bobbin, a magnetic core, a first input winding, an output winding, a second input winding, and a detection winding. The bobbin is tubular and includes a plurality of winding regions located at its outer portion. The magnetic core is inserted in the bobbin. The first input winding is wound in a first winding region. The output winding is wound in a second winding region adjacent to the first winding region. The second input winding is wound in a third winding region adjacent to the second winding region. The detection winding is wound in the vicinity of the first input winding. The first input winding and the second input winding have different numbers of turns and are connected in series in the same winding direction. | 12-16-2010 |
20100328006 | POWER TRANSFER DEVICE - This invention relates to a power transfer device via electromagnetic interaction. this invention proposes a power transfer device, comprising: a primary coil for transferring a power, including a first primary coil and a second primary coil; a secondary coil for transferring the power with the primary coil via electromagnetic interaction; wherein the secondary coil is positioned between the first primary coil and the second primary coil, the first and the second primary coil being configured to render the directions of the magnet fields they induce across the secondary coil consistent. With the specific association and positioning of the primary coil and the secondary coil, the power can be transferred between the primary coil and the secondary coil effectively; therefore, the size of the transfer device can be reduced significantly. This invention can be used for charging device, e.g. components of lighting products, electrical charging device, etc. | 12-30-2010 |
20110063065 | INTERGRATED MAGNETIC COMPONENT - A magnetic component, with a first and a second U/UR core (U | 03-17-2011 |
20110074534 | TRANSFORMER FOR A COMPUTER TOMOGRAPHY GANTRY - The invention provides a transformer for a computer tomography gantry ( | 03-31-2011 |
20110084790 | NEUTRAL-GROUNDED STRUCTURE FOR DELTA-CONNECTED WINDINGS AND METHOD THEREOF - A neutral-grounded structure and a method for delta-connected windings are provided. The delta-connected windings include a first phase winding, a second phase winding, and a third phase winding. A grounding winding is disposed on at least one of the phase windings. The first end of the grounding winding is connected to a grounded point which is utilized as a neutral point. The second end of the grounding winding is connected to a tap of one of the other two phase windings. The voltage phase displacement between the grounding winding and the phase winding corresponding to the grounding winding is 180 degrees. According to the above-mentioned neutral-grounded structure, all the three phase-to-ground voltages are the same when the three phase voltages are balanced. Accordingly, the present invention can solve correlated problems due to differences of the three phase-to-ground voltages of delta-connected windings with conventional grounding methods. | 04-14-2011 |
20110221556 | TRANSFORMER - A transformer is provided with at least one core leg on which three windings are arranged side by side, whose discharges are designed to be mutually insulated. Each winding is formed by a near-core low-voltage winding, which are each wound by an associated high-voltage winding, and the discharges of the low-voltage windings are axially designed, so that the lateral spacing of the windings to each other is minimized. | 09-15-2011 |
20110273256 | MODULAR RING-SHAPED CORE - The disclosure relates to a ring-shaped core for a power transformer. The ring-shaped core extends about an imaginary center axis in the form of a closed toroidal structure and is constituted of a plurality of adjacent layers of sheet metal. The ring-shaped core, along the length of the toroidal structure, is constituted of at least three core section modules that can be connected to and detached from each other, the core section modules being interconnected by an overlap of individual sheet layers and/or sheet layer sections. The disclosure also relates to the arrangement of ring-shaped cores having winding modules. The latter can be arranged in a common connecting structure and every ring core having winding modules arranged therein can be separately introduced into the connecting structure and removed therefrom in a non-destructive manner. | 11-10-2011 |
20120056704 | COMPOSITE TRANSFORMER - A composite transformer includes: a transformer core including transformer-core legs; inductor cores including inductor-core legs; windings wound around the transformer-core legs and the inductor-core legs; the transformer core includes a pair of transformer bases connected to both ends of each of the transformer-core legs, and allows formation of closed magnetic circuits in the transformer core; each of the inductor cores includes one of the inductor-core legs, an outer core leg, and a pair of inductor bases connected to both ends of the one of the inductor-core legs and both ends of the outer core leg, and allows formation of a closed magnetic circuit in each inductor core; and the windings are wound in such directions that the magnetic fluxes produced in the transformer-core legs cancel each other in the closed magnetic circuits in the transformer core whichever of the windings is energized. | 03-08-2012 |
20120092115 | CURRENT TRANSFORMER - A current transformer ( | 04-19-2012 |
20120098632 | Core and Coil Construction for Multi-Winding Magnetic Structures - Multi-winding magnetic structures and methods of making multi-winding magnetic structures are disclosed. In one embodiment, a multi-winding magnetic structure includes a core constructed of a magnetic material and a plurality of windings. The core includes a core top, a core bottom, and a plurality of columns. The core top has an exterior edge defining a shape of the core top. A central section of the core top has a substantially constant thickness that defines a thickness of the core top. The core bottom is beneath the core top and has an exterior edge defining a shape of the core bottom. A central section of the core bottom has a substantially constant thickness that defines a thickness of the core bottom. The thickness of one of the core bottom and the core top decreases from an edge of its central section to its exterior edge. The plurality of columns extends from the core bottom to the core top and the plurality of windings are wound around the columns. | 04-26-2012 |
20120098633 | Transformer - A transformer ( | 04-26-2012 |
20120126925 | INDUCTOR AND TRANSFORMER - An inductor and a transformer, each of which includes a first bobbin on which a first coil is wound and a second bobbin on which a second coil is wound, are provided. The first bobbin includes a first bobbin part on which the first coil is wound and a first support part provided at one end of the first bobbin part. The second bobbin includes a second bobbin part on which the second coil is wound and a second support part provided at one end of the second bobbin part. Another end of the first bobbin part is coupled to the second support part and another end of the second bobbin part is coupled to the first support part. | 05-24-2012 |
20120154091 | INTEGRATED ELECTROMAGNETIC INTERFERENCE FILTER - Disclosed is an integrated electromagnetic interference filter capable of providing a leakage inductance sufficient to filter the differential mode electromagnetic interference by integrating four inductors for interference filtering in one core structure and controlling the coupling degree between the four inductors for interference filter. | 06-21-2012 |
20120182110 | SUPER HIGH POWER TRANSFORMER - A super high power transformer of the invention includes a base, a plurality of plate bodies, and a plurality of isolating bodies. The base further includes a main core part, a plurality of opening slots, and a plurality of side wing parts. The main core part has a penetrating hole at the center thereof Each of the plate bodies has an open hole for slipping on the main core part and a guided slot that has a pole lead on both sides thereof Each of the isolating bodies has a through hole for slipping on the main core part and a guided slot. There is also a pole lead positioned on both sides of the guided slot. To be slipped on the main core part, the plurality of plate bodies and the insulating bodies are alternately stacked up with the plate bodies staggering in turning a 90-degree angle apart sequentially. | 07-19-2012 |
20120194313 | AC POWER CONDITIONING CIRCUIT - A multi-coil choke for an AC power conditioner includes a magnetic core having first, second and third parallel legs. A first coil wrapped around the first leg terminates in first and second leads at respective ends. A second coil wrapped around the second leg terminates in first and second leads at respective ends. A third coil wrapped around the third leg terminates in first and second leads at respective ends. A fourth coil is formed from a proximal portion of the second lead of said first coil. The fourth coil is wrapped around a distal portion of the second lead of the third coil. A fifth coil is formed from a proximal portion of the second lead of the third coil. The fifth coil is wrapped around a distal portion of the second lead of the first coil. AC power conditioners using one or more such chokes are also disclosed. | 08-02-2012 |
20120223797 | CHOKE COIL - Provided is a choke coil including: a first primary winding portion formed by winding a primary coil by n turns; a second primary winding portion formed by winding the primary coil by N turns; a first secondary winding portion formed by winding a secondary coil by N turns; and a second secondary winding portion formed by winding the secondary coil by n turns, wherein the n and N satisfy the condition: n≦N. | 09-06-2012 |
20120242444 | COMBINED TRANSFORMER - A combined transformer is provided. The transformer comprises at least three bobbins arranged abreast and a core assembly. Each of the bobbins includes two separated guard plates, a winding column, a through groove and two metal pins; the winding column is disposed between the guard plates, while the through groove extends through the guard plates and the winding column. Furthermore, the two metal pins are disposed on one of the guard plates; the winding column is wound with a coil, and two end portions of the coil are connected to the two metal pins respectively. The core assembly includes two separated magnetic plates and at least three separated magnetic columns disposed between the magnetic plates. The bobbins are sandwiched between the magnetic plates, and the magnetic columns are located in the through grooves. Thus, the combined transformer can have a reduced thickness and multiple outputs. | 09-27-2012 |
20120242445 | INTEGRATED REACTANCE MODULE - The invention relates to an integrated reactance module comprising a magnetic core and a plurality of windings of reactance elements. It has at least two windings of reactance elements (L1), (L2) . . . (LN) situated in a common magnetic element (EM) and separated from each other by means of magnetic flux conductors (SM) constituting an integral part of the magnetic element (EM), which is configured to concentrate magnetic field lines generated by the reactance elements (L1), (L2) . . . (LN). | 09-27-2012 |
20120249279 | TRANSFORMER - A transformer includes a pair of first coils and at least one second coil. The first and second coils are stacked so that the at least one second coil is interposed between the first coils in a common winding axial direction of the first and second coils. Each of the first coils is covered by insulating films and integrated with the insulating films into an integrated body, so that the first coils are electrically insulated from the at least one second coil. | 10-04-2012 |
20120326825 | INDUCTIVE DOWNHOLE TOOL HAVING MULTILAYER TRANSMITTER AND RECEIVER AND RELATED METHODS - A downhole tool including a transmitter coil assembly and a receiver coil assembly. The coil assembly includes at least one first coil having a first support member with a first single layer of wire wound therearound. The coil assembly further includes at least one second coil. The second coil includes a second support member having a second single layer of wire wound therearound. The first support member is disposed within the second support member, and the first single layer spaced apart from the second single wire by a distance of D. | 12-27-2012 |
20130033351 | POWER SUPPLY APPARATUS - Disclosed is a power supply apparatus. The power supply apparatus includes a first magnetic core; a second magnetic core having a shape equal to a shape of the first magnetic core; a third magnetic core between the first and second magnetic cores; a first coil wound around one of the first and third magnetic cores; and a second coil wound around one of the second and third magnetic cores. | 02-07-2013 |
20130063237 | REACTOR - A core member ( | 03-14-2013 |
20130099885 | PLANAR TRANSFORMER - The present invention relates to a planar transformer, the transformer including a core provided to induce formation of a magnetic field, a bobbin coupled to the core, at least one primary winding interposed between the core and the bobbin to supply a power signal, a first insulation unit provided to the at least one primary winding to insulate at least the one first primary winding, at least one secondary winding provided to the first insulation unit and insulated by the first insulation unit to transform the power signal, and a second insulation unit provided to the at least one secondary winding to insulate the at least one secondary winding. | 04-25-2013 |
20130106550 | COIL COMPONENT AND MANUFACTURING METHOD THEREOF | 05-02-2013 |
20130106551 | TRANSFORMER INCORPORATED IN ELECTRONIC CIRCUITS | 05-02-2013 |
20130141203 | Inductor Structure - An inductor structure includes an even number of segments, each segment adjacent to two segments, each segment including a loop, each loop having a first end and a second end; and a crossover section adjacent to each segment, the crossover section coupling each of the first ends and second ends of the loops so as to cause current to circulate around the loop of each segment in an opposite rotational direction to the direction of current circulation in the loops of the segments adjacent to that segment. | 06-06-2013 |
20130187741 | AUTO-TRANSFORMER RECTIFIER UNIT CORE - A ferromagnetic core includes a ferromagnetic center portion including a plurality of legs each receptive of a conductive winding. The plurality of legs extend from a common center point and are equally angularly spaced. A ferromagnetic outer ring is positioned around the center portion at an outer radial extent of the plurality of legs. A transformer includes a transformer core having a center portion. The center portion includes a plurality of legs extending from a common center point. The plurality of legs are equally angularly spaced. An outer ring is positioned around the center portion at an outer radial extent of the plurality of legs. A conductive winding is located at each leg. | 07-25-2013 |
20130200974 | Multi-Winding Magnetic Structures - Multi-winding magnetic structures and methods of making multi-winding magnetic structures are disclosed. A multi-winding magnetic structure includes a plurality of windings ( | 08-08-2013 |
20130200975 | INTEGRATED COMMON MODE, DIFFERENTIAL MODE AUDIO FILTER INDUCTOR - An inductor including common mode and differential mode flux paths. The inductor comprises a first core having a first connecting portion. A first segment extends from a first end of the connecting portion. A second segment extends from a second end of the connecting portion and first bridge segment extends from a middle of the connecting portion. A first wiring arrangement is at least partially disposed around the first segment. A second core has a second connecting portion. A third segment extends from a first end of the connecting portion. A fourth segment extends from a second end of the connecting portion and a second bridge segment extends from a middle of the connecting portion. A second wiring arrangement is at least partially disposed around the third segment. A first suspension connects the first segment to the fourth segment. A second suspension connects the second segment to the third segment. | 08-08-2013 |
20130207766 | Planar Transformer - Disclosed is a planar transformer including a first planar core which is formed of a magnetic substance, a lower secondary winding which is disposed to enclose a first left sill of the first planar core between a first rear sill and a first front sill of the first planar core; a primary winding which is disposed on the lower secondary winding so as to enclose first left and right sills of the first planar core; an upper secondary winding which is disposed on the primary winding to enclose the first left sill of the first planar core; and a second planar core disposed on the upper secondary winding. | 08-15-2013 |
20130335182 | RADIO FREQUENCY TRANSMISSION LINE TRANSFORMER - Radio frequency (RF) transmission line transformers are disclosed. Unlike conventional transformers that employ magnetic cores that transmit energy from input to output through magnetic flux linkages, the embodiments of the RF transmission line transformer disclosed herein transfer energy by configuring transformer coils as balanced transmission lines. More specifically, the RF transmission line transformers have a primary transformer coil that forms at least one primary winding and a secondary transformer coil that forms at least a pair of secondary windings. The primary winding of the primary transformer coil is disposed between the pair of secondary windings so that the primary winding forms a different balanced transmission line with each one of the pair of secondary windings. This results in greater bandwidth and higher transformer power efficiency (TPE) at RF frequencies. Furthermore, the arrangement allows for reduced parasitic inductances and capacitances and thus is particularly advantageous when utilized in laminated substrates. | 12-19-2013 |
20140077913 | SUPPLEMENTARY TRANSFORMER WINDING - A transformer winding and a dry-transformer are disclosed, which include a main transformer winding, and a supplementary transformer winding configured to be electrically connected in series with the main transformer winding. The supplementary transformer winding can include a first winding module, a second winding module, and a third winding module, each of the winding modules having at least a first, a second and a third winding segment, and wherein each of the winding segments has a tap. A changer is configured to be connected to the taps of the second winding module, and wherein the second winding module is configured to be electrically connected in series to at least one winding segment of the first winding module and the third winding module. | 03-20-2014 |
20140085029 | LAMINATED "Y"-CORE TRANSFORMER - A “Y”-shaped transformer includes a “Y” shaped magnetic core that includes a top portion and a bottom portion. The top portion and the bottom portion both include a plurality of “Y”-shaped laminates stacked on top of one another and bent to form a plurality of core limbs. A plurality of input windings are wound around each of the plurality of core limbs. A plurality of output windings wound are wound around each of the plurality of core limbs. | 03-27-2014 |
20140167898 | SYSTEMS AND METHODS FOR COUPLED POWER INDUCTORS - Power inductor has a magnetically isotropic core including two or more laminations. At least a first lamination can include anisotropic magnetic material having a first orientation of magnetic anisotropy. At least a second lamination can include anisotropic magnetic material having a second orientation of magnetic anisotropy, the second orientation being different than the first orientation. | 06-19-2014 |
20140176274 | ANTENNA WITH A CONCENTRATED MAGNETIC FIELD - An antenna with a concentrated magnetic field has a main coil and at least one pair of auxiliary coils. Each of the main coil and each auxiliary coil has at least one coil conductor. Each one of the at least one coil conductor has a virtual reference plane. The at least one pair of auxiliary coils are mounted around the main coil and an included angle is formed between the virtual reference plane of each coil conductor of each auxiliary coil and that of each coil conductor of the main coil. Lines of magnetic field generated by each coil conductor of each auxiliary coil concentrate the lines of magnetic field of the main coil to orient to a corresponding virtual reference plane of the main coil, thereby solving the magnetic leakage and EMI easily occurring outside the zone of active transmission for conventional coils using electromagnetic induction. | 06-26-2014 |
20140266530 | INTEGRATED MAGNETIC ASSEMBLIES AND METHODS OF ASSEMBLING SAME - An integrated magnetic assembly includes a magnetic core, an input winding inductively coupled to the magnetic core, a first output winding inductively coupled to the magnetic core, and a second output winding inductively coupled to the magnetic core. The magnetic core includes first and second non-winding legs, and first and second winding legs. The first and second non-winding legs are spaced apart from one another, and the magnetic core defines an opening between the first and second non-winding legs. The input winding extends through the opening between the first and second non-winding legs, and is wound around each of the first and second winding legs. The first output winding is wound around the first winding leg. The second output winding is wound around the second winding leg. | 09-18-2014 |
20140266531 | WEAKLY COUPLED BASED HARMONIC REJECTION FILTER FOR FEEDBACK LINEARIZATION POWER AMPLIFIER - Radio frequency (RF) filters configured to filter undesired signal components (e.g., noise and harmonics) from RF signals are disclosed. In one embodiment, an RF filter includes a first inductor coil having a first winding and a second inductor coil having a second winding and a third winding. The second winding of the second inductor coil is configured to have a first mutual magnetic coupling with the first winding, while the third winding of the second inductor coil is configured to have a second mutual magnetic coupling with the first winding. The second winding is connected to the third winding such that the first mutual magnetic coupling and the second mutual magnetic coupling are in opposition. In this manner, the first inductor coil and the second inductor coil may be provided in a compact arrangement while providing weak mutual magnetic coupling between the first inductor coil and the second inductor coil. | 09-18-2014 |
20140347154 | INTERLEAVED PLANAR PCB RF TRANSFORMER - A radio-frequency (RF) planar transformer includes three spaced-apart, single-turn primary strip-windings connected electrically in parallel with each other. A one-turn secondary strip-winding is located between each adjacent pair of primary strip-windings. The secondary strip-windings are connected in electrical series with each other. The transformer functions as a transformer having a one-turn primary winding and a two-turn secondary winding. | 11-27-2014 |
20150009002 | MICROTECHNICAL COMPONENT FOR A MAGNETIC SENSOR DEVICE OR A MAGNETIC ACTUATOR AND PRODUCTION METHOD FOR A MICROTECHNICAL COMPONENT FOR A MAGNETIC SENSOR DEVICE OR A MAGNETIC ACTUATOR - A microtechnical component for a magnetic sensor device or a magnetic actuator includes: a magnetic core oriented along an axis; a first drive coil having windings arranged in a first direction of rotation about the magnetic core; a contact, via which a first current flow is created in a first current direction through the first drive coil; and a second drive coil having windings arranged in a second direction of rotation about the magnetic core, the first and second directions of rotation differing from one another. Simultaneously with the first current flow, a second current flow is created via the contact in a second current direction opposite the first current direction through the second drive coil. | 01-08-2015 |
20150028979 | HIGH EFFICIENCY ON-CHIP 3D TRANSFORMER STRUCTURE - A transformer structure includes at least three sections, each corresponding to metal layers of an integrated circuit. A first section of the at least three sections is electrically coupled to a third section with a second section disposed between the first and third sections. The at least three sections includes inductor coils, all of which are wound in a same direction and voltage phase starting at an outer terminal and continuing to an inner terminal of each inductor coil. At least one radial wiring channel passes through a portion of a coil in one of the three sections to provide an external connection to an internal terminal of the coil in at least one of the three sections. | 01-29-2015 |
20150035634 | COIL SUBSTRATE, METHOD FOR MANUFACTURING COIL SUBSTRATE, AND INDUCTOR - A coil substrate includes a substrate, a coil-shaped wiring provided on one surface of the substrate, the coil-shaped wiring including adjacent parts provided adjacent to each other, and an insulating layer formed between the adjacent parts of the coil-shaped wiring. The coil-shaped wiring includes a first wiring, and a second wiring that is layered on the first wiring and has a thickness greater than a thickness of the first wiring. A space is provided between a side surface of the first wiring and the insulating layer. The second wiring fills the space and covers the first wiring. Both side surfaces of the second wiring contact the insulating layer. | 02-05-2015 |
20150061807 | Transformer - A transformer includes a magnetic core, a primary winding, and a plurality of secondary windings. The magnetic core has an axial and a radial direction. The primary winding includes a plurality of winding sections and at least one connecting section. The winding sections are arranged along the axial direction. The connecting section is connected between the two adjacent winding sections. Each of the winding sections includes a plurality of primary winding layers and pull-out portions. The primary winding layers surround the magnetic core and are arranged along the radial direction. One pull-out portion connects two primary winding layers adjacent to the pull-out portion. Part of normal projections of the primary winding layers on a surface of the magnetic core are located between normal projections of the pull-out portions on the surface of the magnetic core. The secondary windings surround the primary winding. | 03-05-2015 |
20150077207 | THREE-PHASE-TWO-PHASE STATIONARY TRANSFORMER WITH FORCED LINKED FLUX - A three-phase-two-phase transformer including a magnetic circuit, three-phase windings, and two-phase windings, wherein the magnetic circuit includes a first column, a second column, and a third column that are magnetically connected together, the three-phase windings including a first winding, a second winding, and a third winding. The two-phase windings include a fourth winding around the first column, a fifth winding around the first column, a sixth winding around the third column, and a seventh winding around the third column, the fourth winding and the seventh winding being connected in series and forming a first two-phase phase, and the fifth winding and the sixth winding being connected in series and forming a second two-phase phase. | 03-19-2015 |
20150102883 | Planar Transformer - The present invention relates to a planar transformer, the transformer including a core provided to induce formation of a magnetic field, a bobbin coupled to a core, at least one primary winding interposed between the core and the bobbin to supply a power signal, a first insulation unit provided to the at least one primary winding to insulate the at least one primary winding, at least one secondary winding provided to the first insulation unit and insulated by the first insulation unit to transform the power signal, and a second insulation unit provided to the at least one secondary winding to insulate the at least one secondary winding. | 04-16-2015 |
20150332838 | Planar Transformer - A planar transformer is provided, which comprises a plate-shaped conductor substrate with integrated primary winding, secondary winding and coupling winding. The conductor substrate has pairs of recesses, and a respective two-part ferromagnetic core having yoke legs is inserted through each pair of recesses. One leg of each core is surrounded by the primary winding or the secondary winding, while the coupling winding is looped around the remaining legs of the cores. At least a minimum total isolation separation distance made up of partial isolation separation distances between the coupling winding and adjacent yoke legs or adjacent windings is maintained for electrical isolation between the primary winding and the secondary winding. | 11-19-2015 |
20150348704 | 0.2Ss class special-type high-voltage measuring current transformer - 0.2Ss class special-type high-voltage measuring current transformer belongs to a field of current transformer. An iron core includes two kinds of “L”-shaped sheets with the same size, wherein a ratio of a long side to a short side of each “L”-shaped sheet is 3:2; a first kind of the “L”-shaped sheets are permalloy sheets (1) and a second kind of the “L”-shaped sheets are cold rolled silicon steel sheets (2); and required windings are wound on each side of the iron core. Sheets of the iron core of the current transformer include the permalloy sheets and the cold rolled silicon steel sheets, which improves performance of the iron core. Utilizing structural characteristics of the iron core of different materials, a fractional turn compensation of coils is formed, which realizes a precise measurement. | 12-03-2015 |
20160055959 | Fixing Structure for Upper Pressing Blocks of Stereoscopic Wound Core Open-Ventilated Dry-Type Transformer - A fixing structure for the upper pressing blocks of a stereoscopic wound core open-ventilated dry-type transformer, including three coils arranged vertically. Three coils are arranged in triangle; an insulation ring is arranged at the upper end of each of the coils; a pressing block used for pressing the corresponding coil is placed on the upper surface of each insulation ring; an upper clamp is arranged above the pressing blocks; and press rods for pressing the pressing blocks are arranged on the bottom surface of the upper clamp. According to the disclosure, the upper clamp presses the pressing blocks and then the pressing blocks 3 press the coils, so the loosening of the coils is prevented and impact resistance of the coils is ensured; moreover, the pressing blocks which press the coils do not need to be tensioned by a lower clamp through utilizing a screw, and thus, the phase-to-phase distance between three coils will not be increased and the insulation distance between the coils is not to be increased; and in addition, four pressing blocks are evenly arranged on each coil, and thus, the coils bear more uniform stress, so the coils can be pressed better. | 02-25-2016 |
20160111204 | COMMON MODE CHOKE COIL - A common mode choke coil includes a core and a first winding, a second winding, and a third winding that are wrapped around the core. A number of turns in the third winding is less than a number of turns in the first winding and a number of turns in the second winding. | 04-21-2016 |
20160118180 | TRANSFORMER WITH TWO TRANSFORMATION RATIO - A transformer includes a first winding conductor and a second winding conductor, magnetically coupled to the first winding conductor. A first transformation ratio is achieved between the second winding conductor and the first winding conductor. A first distance between the first winding conductor and the second winding conductor is higher than a distance threshold, and accordingly, a first coupling factor between the first winding conductor and the second winding conductor is lower than a coupling factor threshold. | 04-28-2016 |
20160133373 | NON-PLANAR INDUCTIVE ELECTRICAL ELEMENTS IN SEMICONDUCTOR PACKAGE LEAD FRAME - The present disclosure relates to non-planar inductive electrical elements in semiconductor package lead frames. A non-planar inductive element is formed from a lead frame in a semiconductor package. The semiconductor package also includes at least one semiconductor die coupled to the lead frame. The non-planar inductive element could be formed by deforming portions of a patterned planar lead frame blank to form the non-planar inductive element in a deformed lead frame blank. The deformed lead frame blank and the at least one semiconductor die could then be packaged into a semiconductor package. A setting tool could be used to deform the lead frame blank. A configurable lead frame blank could be configurable into any of a variety of inductive elements, through interconnection of lead frame segments using wire bonds, for example. | 05-12-2016 |
20160148747 | Transformer - There is provided a transformer including an E shaped and two I shaped magnetic cores and a first, second and third windings, wherein: one I shaped magnetic core is located between one side and a middle legs of the E shaped magnetic core, another is located between another side and the middle legs; there is an air gap on each of the two I shaped magnetic cores or two side or bottom legs of the E shaped magnetic core, the first winding is wound on a part of the magnetic cores where the air gap exists; the second and third windings are wound on the middle leg; and the first winding is connected in parallel with the second winding to constitute a primary winding; the third winding is a secondary winding. With the transformer provided by the disclosure, transformer winding loss can be reduced, and transformer efficiency can be improved. | 05-26-2016 |
20160379744 | Coupling Element for Differential Hybrid Coupler - A coupling element is disclosed, comprising four coils that are arranged such that each one of the coils extends both in a first layer and a second layer. The first layer and the second layer are stacked with respect to each other and separated by an intermediate dielectric layer. The layout of each layer is configured to provide a transformer coupling between a first one and a third one of the coils, and between a second one and a fourth one of the coils. Further, the first coil and the second coil, and the third coil and the fourth coil, respectively, are routed so as to allow a differential signaling. A semiconductor device and a differential hybrid coupler comprising the coupling element are also disclosed. | 12-29-2016 |
336171000 | Noninductively related windings | 4 |
20100295645 | Transformer Arrangement - A transformer arrangement comprising a transformer having a neutral and formed as a symmetrical transformer, in particular a cage transformer and having a reactor coil connected to the neutral of the transformer is provided. The transformer can be of any type having a neutral such as a Y-n/Y-n, Z-n/Z-n, Y-n/Z-n or a Z-n/Y-n transformer. By providing a transformer having symmetrical phases connected to a reactor coil a transformer arrangement having less weight is obtained. The lower weight is obtained because in comparison to using an E core for the transformer all phases will be symmetrical so that if a ground fault occurs in one of then phases there is no need for any compensatory windings regardless of which phase suffers the ground fault. | 11-25-2010 |
20120092116 | HIGH VOLTAGE TRANSFORMER - A high voltage transformer includes a first core and a second core coupled to the first core. The first core includes a protruding portion isolating the second core into a first winding portion and a second winding portion. The first winding portion is wrapped by a first primary winding and a first secondary winding to define a first magnetic circuit, and the second winding portion is wrapped by a second primary winding and a second secondary winding to define a second magnetic circuit. Direction of the first magnetic circuit is reversed to that of the second magnetic circuit. Width of the protruding portion is adjustable to achieve different leakage inductances between the first secondary winding and the second secondary winding, so as to balance current flowing through the first secondary winding and the second secondary winding. | 04-19-2012 |
20120326826 | Inductor Structure - An inductor structure includes a first inductor and a second inductor. The second inductor includes a loop that surrounds the first inductor. The first inductor includes a first loop and a second loop, and a crossover section coupling the first loop to the second loop so as to cause current flowing through the first inductor to circulate around the first loop in a first rotational direction and around the second loop in a second rotational direction opposite to the first rotational direction; wherein the first and second inductors are arranged in an equilibrated configuration about a first axis that bisects the inductor structure such that the first loop is on one side of the first axis and the second loop is on a second side of the first axis, such that the magnetic interaction between the inductors due to current flow in the inductors is cancelled out. | 12-27-2012 |
20180025834 | Integrated Copper Bar for Secondary Power Circuit of Power Electronic Converter | 01-25-2018 |