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US2014524A - Article - Google Patents

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Publication number
US2014524A
US2014524AUS668305AUS66830533AUS2014524AUS 2014524 AUS2014524 AUS 2014524AUS 668305 AUS668305 AUS 668305AUS 66830533 AUS66830533 AUS 66830533AUS 2014524 AUS2014524 AUS 2014524A
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United States
Prior art keywords
lamina
trace
panels
conductor
coil
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Expired - Lifetime
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US668305A
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Erwin E Franz
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AT&T Corp
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Western Electric Co Inc
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Priority to US668305ApriorityCriticalpatent/US2014524A/en
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Publication of US2014524ApublicationCriticalpatent/US2014524A/en
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Sept. 17, 1935.
E. E. FRANZ ARTICLE Filed April 28, 1935 FIG.
MA R VF m. E
A TTOR/VEV Patented Sept. 17, 1935 UNITED STATES PATENT OFFICE C mpany.
rporated, New
em York, N. Y., a corporation of New York Application April 28, 1933, Serial No. 668.305
priate dielectric material of the designer trace of a spiral coil or other desired electrical member in a graphite ink or other conducting medium. The two printed traces extend to a common point at one of the principal edges of the sheet or to a common point at the edge of a preformed perforation in the sheet. The traces are then coated with copper or other conductor substance and the gap between the two traces is bridged by the coating process although there is no contact between the traces. The resulting dielectric sheets bearing the continuous conducting members thus formed thereon may then be assembled singly or in groups, by interfolding or otherwise into completed articles.
Other objects and characteristic features will appear from the following detailed description of one embodiment of the invention taken in connection with the accompanying drawing in which the same reference numerals are applied to' identical parts in the several figures and in which Fig. 1 is a diagrammatic view of a section of coil constructed in accordance with the invention and shown before folding;
Fig. 2 is a similar perspective view thereof partly folded;
Fig. 3 is a diagrammatic view in perspective of a finished coil;
' Fig. 4 is a view in section on the line 4-4 of Fig, 1 of the dielectric lamina before treatment;
Fig. 5 is a similar view showing the conductive ink in place;
Fig. 6 is a similar view after the electroplating operation; and
Fig. 7 is a view in perspective of an intercalary insulating lamina.
As herein disclosed a thin lamina or sheet it of cellophane or other dielectric material may be prepared for use as the base or carrier of a conductive trace I! by being precreased for sub-' sequent folding as at l3 and further by being provided, e. g. by punching, with perforations I4 which will subsequently be aligned to receive a core I! if desired. The lamina is herein shown geneous conductor.
as comprising five connected panels but may be of any continuous length as desired, and in prac tice will preferably have many more such panels in connected sequence. The perforation l4 may further be formed to have a notch l6 at one point 6 of one edge.
Upon the lamina thus prepared is then deposited a trace or outline ll of the desired conductor in a conducting medium. This may be most simply done by printing the trace with an 10 ink containing graphite or a metallic pigment in an adhesive medium, or the trace may be applied by stencilling, or by means of a transfer roller, or by decalcomania, or by any other satisfactory means. The trace is applied as indicated in the drawing to both sides of the lamina and on any one given panel will, in general, form two disconnected sections both ending at the same point of the perforation i 4 as indicated at l6. It will be understood that the dimensions of the lamina, 2o trace and conductor are strongly exaggerated transversely to the lamina in Figs. 4, 5 and 6 to clarify the structure. The trace upon each side of any given panel will, in general, be continuous with the trace upon the same side of one neighboring panel as indicated at IT, the trace passing without solution of continuity across the creases l3. Further to ensure against rupture of electrical continuity at the creases l3 when the lamina. is subsequently folded, it may in some cases be desirable to widen the trace across and in the immediate vicinity of the creases l3 as also indicated at IT. The trace may also be provided with enlarged portions as at i8 at its extremities to afford convenient contacts for ultimate attachment of leads l9 to the finished coil.
The lamina with the electrically conductive trace thereon is then immersed in an appropriate electroplating bath and the various sections of the trace are made simultaneous negative electrodes so that deposition of metal takes place simultaneously upon each pair of trace sections which terminate at any one common point l6 of the perimeter of a perforation M. It is found that deposition proceeds more rapidly at the very narrow neighboring edges 20 (Fig. 5) than for I example upon the broad faces 2| and 22 of the two sections of the trace. The principal result of this efiect is that the metallic deposit i2 grows acrossthe edge of the lamina at the point l6 as shown in Fig. 6 and thus unites the two sections of the metallic deposit on the two sides of the lamina into one continuous, jointless, homo.-
The lamina is removed from the electroplating apparatus when a sufllcient mass of conductor has been deposited thereon and is subjected to such washing and drying'processes as may be necessary or desirable.
The conductor bearing lamina thus prepared may then be assembled with a similar creased and perforated but otherwise untreated, i. e. conductor-less,lamina 23 applied to each face thereof and the three laminae folded together accordion fashion on the creases l3, thus intercalating a double insulating layer of conductorless dielectric between each two consecutive panels of the conductor bearing sheet. The whole may then be compressed, a core I! inserted and terminal leads ll attached to produce a finished coil as shown in Fig. 3. Or asingle lamina 23 may be intercalated interfolding it with the lamina III with the folds of each lying atright angles to those of the other and embracing the upper and lower edges alternately of successive panels of the other, thus interposlng only one thickness of insulation between consecutive conductor bearing panels.
As herein disclosed the invention is shown embodied in a self-inductive coil. It is evident that the self inductiveness depends only upon the dis-, position or directions of turn of the conductor spiral sections upon consecutive panels and the coil could equally well be non-self inductive. So also the drawing shows conductor spirals of one turn only for simplicity and clearness, but selfevidently the spiral on each panel is limited as to number of turns only by the relative dimensions of its parts. Indeed it is not essential to the invention that the completed structure be a coil at .all. The invention applies to many possible arrangements in which a pair of electrically con- 5 ducting members are separated by. a dielectric member except for conductive connection across the dielectric at substantially small portions thereof. The embodiment herein disclosed is illustrative merely and maybe departed from and 10 modified in many ways without departing from the spirit and scope of the invention as pointed out in and limited only by the appended claim.
What is claimed is:
As a new article of manufacture, a lamina of i5 dielectric material comprising a hinged sequence of panels folded together, an insulating sheet disposed between two consecutive panels, a narrow band of conductive material disposed upon each face of each of the two consecutive panels so that each of the two bands upon one of the said panels extends to a common point on an edge of the panel and so that one band upon one of the two panels is continuous with one band upon the other panel on the same side thereof,- and a conductive coating uponthe four, bands and continuous on both sides andacross an edge-of the lamina at each of thetwo common point each suchband and coating being enlargedin width where they cross a hinge between consecutive panels.
ERWIN E. FRANZ.
US668305A1933-04-281933-04-28ArticleExpired - LifetimeUS2014524A (en)

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Cited By (77)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2666254A (en)*1949-10-041954-01-19Hermoplast LtdMethod of manufacturing electrical windings
US2699424A (en)*1949-10-071955-01-11Motorola IncElectroplating process for producing printed circuits
US2745170A (en)*1950-06-301956-05-15Chrysler CorpProcess for manufacturing electrical coils
US2762113A (en)*1950-11-031956-09-11Standard Coil Prod Co IncMethod of making tuner devices
US2786187A (en)*1950-04-061957-03-19Chrysler CorpElectrical coil
US2820871A (en)*1953-09-301958-01-21Paul H SmithElectronic computer contact and process of making same
US2823360A (en)*1955-05-201958-02-11Burroughs CorpMagnetic core assembly
US2832935A (en)*1954-06-091958-04-29Aircraft Armaments IncPrinted circuit delay line
US2851765A (en)*1954-07-291958-09-16Hanlet Jacques Marie NoelElectrical windings
US2874360A (en)*1959-02-17Eisler
US2876391A (en)*1953-12-091959-03-03Sanders Associates IncElectrical circuit assembly
US2883447A (en)*1958-04-281959-04-21Frank L DahlUniversally adaptable conductivecircuit board
US2886880A (en)*1952-05-261959-05-19Hermoplast LtdMethod of producing electric circuit components
US2911605A (en)*1956-10-021959-11-03Monroe Calculating MachinePrinted circuitry
US2921165A (en)*1957-12-271960-01-12Texas Instruments IncElectrical device
DE1075738B (en)*1960-02-18Siemens &. Halske Aktiengesellschaft, Berlin und München Coil arrangement with printed or etched windings
US2978683A (en)*1955-12-221961-04-04Burroughs CorpInformation storage device
US2979615A (en)*1956-11-061961-04-11Liberty Mfg CorpApparatus for tuning a radio frequency
US3002260A (en)*1961-10-03shortt etal
US3011247A (en)*1954-01-151961-12-05Visseaux S A JMethod of manufacturing printed electrical windings
US3015152A (en)*1955-08-231962-01-02Hazeltine Research IncProcess of manufacturing magnetic deflection yokes
US3068435A (en)*1954-04-191962-12-11Sylvania Electric ProdElectromagnetic coils
US3069636A (en)*1960-05-041962-12-18Sylvania Electric ProdModular tuned circuits
US3080541A (en)*1963-03-05parker
US3113374A (en)*1953-12-301963-12-10Sylvania Electric ProdMethod of making spiral electromagnetic coils
US3226638A (en)*1962-02-261965-12-28Virginia R BrainApparatus for use in phase relationship determinations including a plurality of coils mounted on a flat structural member
US3234632A (en)*1955-08-251966-02-15Hazeltine Research IncMethod of manufacturing magnetic deflection yokes
US3238480A (en)*1966-03-01Printed circuit electrical windings andinductive apparatus using such windings
US3484731A (en)*1967-10-051969-12-16Edward L RichPrinted circuit inductor
US3495327A (en)*1965-06-031970-02-17Paul EislerMethod of making electrical coils
US3682098A (en)*1969-01-111972-08-08Messerschmitt Boelkow BlohmExplosive charge ignition system
US3697911A (en)*1971-01-201972-10-10William A Strauss JrCoil form
US3736543A (en)*1972-03-311973-05-29Bendix CorpPhotoetched induction coil assembly
US3848210A (en)*1972-12-111974-11-12Vanguard ElectronicsMiniature inductor
US4110715A (en)*1977-07-271978-08-29The United States Of America As Represented By The Secretary Of The NavyBroadband high pass microwave filter
US4227238A (en)*1977-09-281980-10-07Nippon Gakki Seizo Kabushiki KaishaMounting and electrical connection means for operation unit for electric devices
US4262245A (en)*1979-01-301981-04-14Rca Corp.High frequency ferroresonant transformer
DE3016067A1 (en)*1980-04-251981-10-29Siemens AG, 1000 Berlin und 8000 MünchenHybrid circuit with integral inductor - wound with turns partly on substrate and partly on flexible insulation ribbon
US4310821A (en)*1978-09-081982-01-12Frances Andre LSpiralled printed inductance
DE3044332A1 (en)*1980-04-251982-06-16Siemens AG, 1000 Berlin und 8000 MünchenHybrid circuit including hybrid transformer windings - which are formed from conducting tracks, saving space on substrate
US4517540A (en)*1977-05-131985-05-14Mcdougal John ASpiral windings
US4561709A (en)*1983-12-091985-12-31Amp IncorporatedMembrane type circuit having improved tail
US4621231A (en)*1984-06-191986-11-04Westinghouse Electric Corp.Toroidal sensor coil and method
US4651254A (en)*1982-08-241987-03-17Dynamit Nobel AktiengesellschaftInductive igniters with secondary coil
US4700880A (en)*1986-05-291987-10-20Westinghouse Electric Corp.Process for manufacturing electrical equipment utilizing printed circuit boards
US4763035A (en)*1986-11-201988-08-09U.S. Philips CorporationInductive winding for flat motor
WO1990001781A1 (en)*1988-08-041990-02-22Caterpillar Inc.Inductive coil structure
US4914561A (en)*1989-02-031990-04-03Eldec CorporationDual transformer device for power converters
WO1997010607A1 (en)*1995-09-141997-03-20Philips Electronics N.V.Inductive device
EP0830053A3 (en)*1996-09-121999-03-17Nec CorporationCoil included printed wiring board
US5918364A (en)*1989-12-181999-07-06Polymer Flip Chip CorporationMethod of forming electrically conductive polymer interconnects on electrical substrates
US6136128A (en)*1998-06-232000-10-24Amerasia International Technology, Inc.Method of making an adhesive preform lid for electronic devices
US6236297B1 (en)*1998-07-082001-05-22Winbond Electronics Corp.Combinational inductor
US6297564B1 (en)1998-04-242001-10-02Amerasia International Technology, Inc.Electronic devices employing adhesive interconnections including plated particles
US6316289B1 (en)1998-11-122001-11-13Amerasia International Technology Inc.Method of forming fine-pitch interconnections employing a standoff mask
US6399178B1 (en)1998-07-202002-06-04Amerasia International Technology, Inc.Rigid adhesive underfill preform, as for a flip-chip device
US6406988B1 (en)1998-04-242002-06-18Amerasia International Technology, Inc.Method of forming fine pitch interconnections employing magnetic masks
US6409859B1 (en)1998-06-302002-06-25Amerasia International Technology, Inc.Method of making a laminated adhesive lid, as for an Electronic device
US20020079134A1 (en)*2000-12-212002-06-27Yutaka KanedaProcesses for manufacturing multilayer flexible wiring boards
US6428650B1 (en)1998-06-232002-08-06Amerasia International Technology, Inc.Cover for an optical device and method for making same
US6577220B2 (en)*1999-11-152003-06-10Power-One, Inc.Continuous multi-turn coils
US6580035B1 (en)1998-04-242003-06-17Amerasia International Technology, Inc.Flexible adhesive membrane and electronic device employing same
US20030127915A1 (en)*2002-01-092003-07-10Seagate Technology LlcCoil construction for voice coil motor
US20040075525A1 (en)*2000-11-042004-04-22Sippola Mika MattiInductive components
US20060077029A1 (en)*2004-10-072006-04-13Freescale Semiconductor, Inc.Apparatus and method for constructions of stacked inductive components
US20090066463A1 (en)*2007-09-122009-03-12Thomas KolbeckMethod to produce a curved coil, in particular a sub-coil of a gradient coil for a magnetic resonance apparatus
US7743963B1 (en)2005-03-012010-06-29Amerasia International Technology, Inc.Solderable lid or cover for an electronic circuit
US20110057629A1 (en)*2009-09-042011-03-10Apple Inc.Harnessing power through electromagnetic induction utilizing printed coils
DE102011003754A1 (en)*2011-02-082012-08-09Bolzenschweißtechnik Heinz Soyer GmbHWinding element, useful for forming a winding packet for a transformer, comprises connecting elements, and an insulating element arranged between two windings
US20130305520A1 (en)*2012-05-202013-11-21Trevor Graham NiblockBatch Manufacturing Meso Devices on flexible substrates
US20140232503A1 (en)*2013-02-212014-08-21Pulse Electronics, Inc.Flexible substrate inductive apparatus and methods
US20170062119A1 (en)*2015-08-242017-03-02Qorvo Us, Inc.Stacked laminate inductors for high module volume utilization and performance-cost-size-processing-time tradeoff
US10320339B2 (en)2013-03-152019-06-11Qirvo US, Inc.Weakly coupled based harmonic rejection filter for feedback linearization power amplifier
US10468172B2 (en)2013-03-152019-11-05Qorvo Us, Inc.Advanced 3D inductor structures with confined magnetic field
US10965258B2 (en)2013-08-012021-03-30Qorvo Us, Inc.Weakly coupled tunable RF receiver architecture
US11139238B2 (en)2016-12-072021-10-05Qorvo Us, Inc.High Q factor inductor structure
US12224096B2 (en)2013-03-152025-02-11Qorvo Us, Inc.Advanced 3D inductor structures with confined magnetic field

Cited By (93)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
DE1075738B (en)*1960-02-18Siemens &. Halske Aktiengesellschaft, Berlin und München Coil arrangement with printed or etched windings
US3238480A (en)*1966-03-01Printed circuit electrical windings andinductive apparatus using such windings
US3080541A (en)*1963-03-05parker
US3002260A (en)*1961-10-03shortt etal
US2874360A (en)*1959-02-17Eisler
US2666254A (en)*1949-10-041954-01-19Hermoplast LtdMethod of manufacturing electrical windings
US2699424A (en)*1949-10-071955-01-11Motorola IncElectroplating process for producing printed circuits
US2786187A (en)*1950-04-061957-03-19Chrysler CorpElectrical coil
US2745170A (en)*1950-06-301956-05-15Chrysler CorpProcess for manufacturing electrical coils
US2762113A (en)*1950-11-031956-09-11Standard Coil Prod Co IncMethod of making tuner devices
US2886880A (en)*1952-05-261959-05-19Hermoplast LtdMethod of producing electric circuit components
US2820871A (en)*1953-09-301958-01-21Paul H SmithElectronic computer contact and process of making same
US2876391A (en)*1953-12-091959-03-03Sanders Associates IncElectrical circuit assembly
US3113374A (en)*1953-12-301963-12-10Sylvania Electric ProdMethod of making spiral electromagnetic coils
US3011247A (en)*1954-01-151961-12-05Visseaux S A JMethod of manufacturing printed electrical windings
US3068435A (en)*1954-04-191962-12-11Sylvania Electric ProdElectromagnetic coils
US2832935A (en)*1954-06-091958-04-29Aircraft Armaments IncPrinted circuit delay line
US2851765A (en)*1954-07-291958-09-16Hanlet Jacques Marie NoelElectrical windings
US2823360A (en)*1955-05-201958-02-11Burroughs CorpMagnetic core assembly
US3015152A (en)*1955-08-231962-01-02Hazeltine Research IncProcess of manufacturing magnetic deflection yokes
US3234632A (en)*1955-08-251966-02-15Hazeltine Research IncMethod of manufacturing magnetic deflection yokes
US2978683A (en)*1955-12-221961-04-04Burroughs CorpInformation storage device
US2911605A (en)*1956-10-021959-11-03Monroe Calculating MachinePrinted circuitry
US2979615A (en)*1956-11-061961-04-11Liberty Mfg CorpApparatus for tuning a radio frequency
US2921165A (en)*1957-12-271960-01-12Texas Instruments IncElectrical device
US2883447A (en)*1958-04-281959-04-21Frank L DahlUniversally adaptable conductivecircuit board
US3069636A (en)*1960-05-041962-12-18Sylvania Electric ProdModular tuned circuits
US3226638A (en)*1962-02-261965-12-28Virginia R BrainApparatus for use in phase relationship determinations including a plurality of coils mounted on a flat structural member
US3495327A (en)*1965-06-031970-02-17Paul EislerMethod of making electrical coils
US3484731A (en)*1967-10-051969-12-16Edward L RichPrinted circuit inductor
US3682098A (en)*1969-01-111972-08-08Messerschmitt Boelkow BlohmExplosive charge ignition system
US3697911A (en)*1971-01-201972-10-10William A Strauss JrCoil form
US3736543A (en)*1972-03-311973-05-29Bendix CorpPhotoetched induction coil assembly
US3848210A (en)*1972-12-111974-11-12Vanguard ElectronicsMiniature inductor
US4517540A (en)*1977-05-131985-05-14Mcdougal John ASpiral windings
US4110715A (en)*1977-07-271978-08-29The United States Of America As Represented By The Secretary Of The NavyBroadband high pass microwave filter
US4227238A (en)*1977-09-281980-10-07Nippon Gakki Seizo Kabushiki KaishaMounting and electrical connection means for operation unit for electric devices
US4310821A (en)*1978-09-081982-01-12Frances Andre LSpiralled printed inductance
US4262245A (en)*1979-01-301981-04-14Rca Corp.High frequency ferroresonant transformer
DE3016067A1 (en)*1980-04-251981-10-29Siemens AG, 1000 Berlin und 8000 MünchenHybrid circuit with integral inductor - wound with turns partly on substrate and partly on flexible insulation ribbon
DE3044332A1 (en)*1980-04-251982-06-16Siemens AG, 1000 Berlin und 8000 MünchenHybrid circuit including hybrid transformer windings - which are formed from conducting tracks, saving space on substrate
US4651254A (en)*1982-08-241987-03-17Dynamit Nobel AktiengesellschaftInductive igniters with secondary coil
US4561709A (en)*1983-12-091985-12-31Amp IncorporatedMembrane type circuit having improved tail
US4621231A (en)*1984-06-191986-11-04Westinghouse Electric Corp.Toroidal sensor coil and method
US4700880A (en)*1986-05-291987-10-20Westinghouse Electric Corp.Process for manufacturing electrical equipment utilizing printed circuit boards
US4763035A (en)*1986-11-201988-08-09U.S. Philips CorporationInductive winding for flat motor
WO1990001781A1 (en)*1988-08-041990-02-22Caterpillar Inc.Inductive coil structure
US4918418A (en)*1988-08-041990-04-17Caterpillar Inc.Inductive coil structure with electrical return path
AU620763B2 (en)*1988-08-041992-02-20Caterpillar Inc.Inductive coil structure
US4914561A (en)*1989-02-031990-04-03Eldec CorporationDual transformer device for power converters
US6138348A (en)*1989-12-182000-10-31Polymer Flip Chip CorporationMethod of forming electrically conductive polymer interconnects on electrical substrates
US5918364A (en)*1989-12-181999-07-06Polymer Flip Chip CorporationMethod of forming electrically conductive polymer interconnects on electrical substrates
WO1997010607A1 (en)*1995-09-141997-03-20Philips Electronics N.V.Inductive device
US5801611A (en)*1995-09-141998-09-01U.S. Philips CorporationInductive device
EP0830053A3 (en)*1996-09-121999-03-17Nec CorporationCoil included printed wiring board
US6406988B1 (en)1998-04-242002-06-18Amerasia International Technology, Inc.Method of forming fine pitch interconnections employing magnetic masks
US6297564B1 (en)1998-04-242001-10-02Amerasia International Technology, Inc.Electronic devices employing adhesive interconnections including plated particles
US6580035B1 (en)1998-04-242003-06-17Amerasia International Technology, Inc.Flexible adhesive membrane and electronic device employing same
US20040170825A1 (en)*1998-06-232004-09-02Chung Kevin Kwong-TaiDevice cover having a gapped adhesive preform thereon for covering a device on an electronic substrate
US6432253B1 (en)1998-06-232002-08-13Amerasia International Technology, Inc.Cover with adhesive preform and method for applying same
US6136128A (en)*1998-06-232000-10-24Amerasia International Technology, Inc.Method of making an adhesive preform lid for electronic devices
US6428650B1 (en)1998-06-232002-08-06Amerasia International Technology, Inc.Cover for an optical device and method for making same
US6409859B1 (en)1998-06-302002-06-25Amerasia International Technology, Inc.Method of making a laminated adhesive lid, as for an Electronic device
US6236297B1 (en)*1998-07-082001-05-22Winbond Electronics Corp.Combinational inductor
US6399178B1 (en)1998-07-202002-06-04Amerasia International Technology, Inc.Rigid adhesive underfill preform, as for a flip-chip device
US6316289B1 (en)1998-11-122001-11-13Amerasia International Technology Inc.Method of forming fine-pitch interconnections employing a standoff mask
US6577220B2 (en)*1999-11-152003-06-10Power-One, Inc.Continuous multi-turn coils
US20040075525A1 (en)*2000-11-042004-04-22Sippola Mika MattiInductive components
US20050140487A1 (en)*2000-11-042005-06-30Profec Technologies OyInductive components
US20020079134A1 (en)*2000-12-212002-06-27Yutaka KanedaProcesses for manufacturing multilayer flexible wiring boards
US7211735B2 (en)*2000-12-212007-05-01Sony CorporationProcesses for manufacturing multilayer flexible wiring boards
US6768229B2 (en)2002-01-092004-07-27Seagate Technology LlcCoil construction for voice coil motor
US20030127915A1 (en)*2002-01-092003-07-10Seagate Technology LlcCoil construction for voice coil motor
US20060077029A1 (en)*2004-10-072006-04-13Freescale Semiconductor, Inc.Apparatus and method for constructions of stacked inductive components
US7743963B1 (en)2005-03-012010-06-29Amerasia International Technology, Inc.Solderable lid or cover for an electronic circuit
US20090066463A1 (en)*2007-09-122009-03-12Thomas KolbeckMethod to produce a curved coil, in particular a sub-coil of a gradient coil for a magnetic resonance apparatus
US7782167B2 (en)*2007-09-122010-08-24Siemens AktiengesellschaftMethod to produce a curved coil, in particular a sub-coil of a gradient coil for a magnetic resonance apparatus
CN101387695B (en)*2007-09-122013-09-18西门子公司Method to produce a curved coil, in particular a sub-coil of a gradient coil for a magnetic resonance apparatus
US20110057629A1 (en)*2009-09-042011-03-10Apple Inc.Harnessing power through electromagnetic induction utilizing printed coils
US8193781B2 (en)*2009-09-042012-06-05Apple Inc.Harnessing power through electromagnetic induction utilizing printed coils
US8362751B2 (en)2009-09-042013-01-29Apple Inc.Harnessing power through electromagnetic induction utilizing printed coils
DE102011003754A1 (en)*2011-02-082012-08-09Bolzenschweißtechnik Heinz Soyer GmbHWinding element, useful for forming a winding packet for a transformer, comprises connecting elements, and an insulating element arranged between two windings
US20130305520A1 (en)*2012-05-202013-11-21Trevor Graham NiblockBatch Manufacturing Meso Devices on flexible substrates
US20140232503A1 (en)*2013-02-212014-08-21Pulse Electronics, Inc.Flexible substrate inductive apparatus and methods
US10320339B2 (en)2013-03-152019-06-11Qirvo US, Inc.Weakly coupled based harmonic rejection filter for feedback linearization power amplifier
US10468172B2 (en)2013-03-152019-11-05Qorvo Us, Inc.Advanced 3D inductor structures with confined magnetic field
US11177064B2 (en)2013-03-152021-11-16Qorvo Us, Inc.Advanced 3D inductor structures with confined magnetic field
US11190149B2 (en)2013-03-152021-11-30Qorvo Us, Inc.Weakly coupled based harmonic rejection filter for feedback linearization power amplifier
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