Plural Coils With Plural Cores Patents (Class 336/131)
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Patent number: 7598839Abstract: Improved inductive electronic apparatus and methods for manufacturing the same. In one exemplary embodiment, the apparatus comprises an inductive device module comprising N inductors and N+1 core elements. The core elements comprise ferrite core pieces that are optionally identical to one another. These core elements are stacked (e.g., in a longitudinal coaxial arrangement) such that the back of one core element associated with a first inductor provides a magnetic flux path for a second inductor. Form-less (bonded) windings are also optionally used to simplify the manufacture of the device, reduce its cost, and allow it to be made more compact (or alternatively additional functionality to be disposed therein). One variant utilizes a termination header for mating to a PCB or other assembly, while another totally avoids the use of the header by directly mating to the PCB.Type: GrantFiled: August 12, 2005Date of Patent: October 6, 2009Assignee: Pulse Engineering, Inc.Inventor: Timothy Craig Wedley
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Publication number: 20090185658Abstract: Methods and apparatus for an imaging system are provided. The imaging system includes a gantry having a stationary member coupled to a rotating member. The rotating member has an opened area proximate an axis about which the rotating member rotates. An x-ray source provided on the rotating member. An x-ray detector may be disposed on the rotating member and configured to receive x-rays from the x-ray source. A rotary transformer having circumferentially disposed primary and secondary windings may form part of a contactless power transfer system that rotates the rotatable portion of the gantry at very high speeds, the primary winding being disposed on the stationary member and the secondary winding being disposed on the rotating member.Type: ApplicationFiled: January 18, 2008Publication date: July 23, 2009Inventors: Jason Stuart Katcha, Gregory Martin Dunlap, Kai Chi Chan
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Patent number: 7562432Abstract: A method for manufacturing a magnetostrictive torque sensor having low nonuniformity of sensitivity characteristics. The residual austenite content in the rotating shaft of the torque sensor is measured first. A magnetic film is subsequently subjected to a heat treatment under heat treatment conditions that are different for each of the measured residual austenite contents, and magnetic anisotropy is imparted.Type: GrantFiled: October 19, 2006Date of Patent: July 21, 2009Assignee: Honda Motor Co., Ltd.Inventors: Hitoshi Harata, Nobuhiko Yoshimoto, Tomohiro Hoshi, Yukiya Kashimura
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Patent number: 7454299Abstract: A device is embodied for detecting a first variable that is representative of an induced voltage induced by a movement of a valve piston in the coil of a valve. The device is further embodied for determining a second variable representative of a first derivation of a first variable according to time. Furthermore the device is embodied for detecting the end of the movement of the valve piston in the valve if the first variable is greater than a predetermined first threshold value and the second variable drops be low a predetermined second threshold value.Type: GrantFiled: September 20, 2006Date of Patent: November 18, 2008Assignee: Siemens AktiengesellschaftInventor: Stephan Bolz
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Patent number: 7323964Abstract: A non-contact power system transfers power and signals simultaneously. The signals control the non-contact power system. And an operational frequency is operated on a resonant frequency so that there is no voltage alternating on power switch and power loss is reduced.Type: GrantFiled: December 1, 2006Date of Patent: January 29, 2008Assignee: National Central UniversityInventors: Kuo-Kai Shyu, Ko-Wen Jwo, Chih-Hung Lo
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Patent number: 7044005Abstract: A rotation angle sensor and a method of winding a rotation angle sensor involve a single electrical wire that is wound from a rotor transformer to a magnetic rotor. The magnetic rotor is axially spaced on a shaft from the rotor transformer. A notch is formed in a wall of a bobbin of the rotor transformer to permit the wire to pass from the rotor transformer to the magnetic rotor. The ends of the single wire are electrically connected together at a junction, and the junction is fixed to the rotor transformer with resin.Type: GrantFiled: July 16, 2004Date of Patent: May 16, 2006Assignee: Minebea Co., Ltd.Inventors: Toshisada Koyama, Mutsumi Matsuura, Takashi Sano
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Patent number: 6952152Abstract: A spacer 2 is provided between an inner core 62 and a resolver rotor 63, which are respectively attached to a rotary shaft 68. A cutout groove 42 is formed at a flange 41 of the inner core 62. A fixing groove 3 and the cutout groove 42 are aligned in the rotary shaft 68 direction. The rotary transformer output winding 65 and resolver excitation windings 64 are soldered and electrically connected by a crossover 60. The crossover 60 is covered with an insulating tube 6. The crossover 60 is fitted into the fixing groove 3. The fixing groove 3 and an inter-magnet space 631 are misaligned in the circumferential direction of the rotor 63. Thus, a frictional force is applied between the insulating tube 6 and the fixing groove 3, which secures the crossover 60 and prevents the crossover 60 from escaping from the fixing groove 3.Type: GrantFiled: October 9, 2003Date of Patent: October 4, 2005Assignee: Minebea Co., Ltd.Inventors: Taiichi Miya, Mutsumi Matsuura
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Patent number: 6897756Abstract: The invention relates to an apparatus with a device for simultaneous transfer of electrical power and information between two components being movable to each other and preferably comprising a stationary and a movable component. According to the invention the apparatus includes a transfer device for the common transfer of power and information, with a primary coil arrangement (5, 6) mounted on one of the components and a secondary coil arrangement (11) mounted on the other component, a power supply (35, 41, 59) connected to the primary coil arrangement (5, 6) and based on pulse width modulation, and means (71, 72) for modifying signals generated by the power supply in dependence on the information to be transferred. The information can be transferred both from the one component to the other component and vice versa (FIG. 6).Type: GrantFiled: July 15, 2003Date of Patent: May 24, 2005Assignee: Sipra Patententwicklungs- und Beteiligungsgesellschaft mbHInventor: Erwin Haisch
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Patent number: 6891460Abstract: A rotor transformer positioning mechanism permitting automatic positioning of a rotor transformer, having a first winding, relative to a rotor stack, having a second winding, mounted on a common rotary shaft to thereby permit a crossover having a predetermined length to be installed between the first and second windings includes a crossover positioning cutout disposed in a first flange of the rotor transformer. In an exemplary case, the rotor transformer includes the first flange and a second flange disposed on opposite ends of the first coil, and the second flange is proximate to the crossover. A method of assembling a rotating machine using the rotor transformer positioning mechanism is also described.Type: GrantFiled: April 1, 2003Date of Patent: May 10, 2005Assignee: Minebea Co., Ltd.Inventors: Tsuneo Tezuka, Genta Yoshii
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Publication number: 20030117250Abstract: The invention concerns an inductive transmitter comprising two coils (1, 2), each with one core (3, 4). The two cores (3, 4) are capable of being moved relative to each other. Two systems are integrated in the transmitter that make it possible to simultaneously transmit data and/or energy, as well as the position of the two cores (3, 4) relative to each other. Finally, the transmission of data and/or energy takes place by means of induction, and the determination of the position of the two cores (3, 4) relative to each other takes place via a measurement of the magnetic field that exists between the two coils (1, 2).Type: ApplicationFiled: November 12, 2002Publication date: June 26, 2003Inventor: Juergen Schirmer
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Patent number: 6441712Abstract: A tuned filter for connection to a busbar in a high voltage electric power system. The filter incorporates a variable inductor comprising a main winding, auxiliary windings and switching circuitry associated with each auxiliary winding. The auxiliary windings are arranged to act in inductive series with respect to the main winding, and the switching circuitry is used to selectively connect the auxiliary windings in electrical series with the main winding, so allowing the inductance of the inductor to be varied. To achieve enhanced variability of the inductance, each auxiliary winding has a number of turns substantially equal to x2(n−1), where n is a positive integer corresponding to the position of each auxiliary winding in the inductive series of auxiliary windings and x is also a positive integer.Type: GrantFiled: March 1, 2001Date of Patent: August 27, 2002Assignee: AlstomInventor: John Desmond Ainsworth
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Patent number: 6388548Abstract: It is intended to provide a non-contact transformer which simplifies attachment work, causes no sound of rubbing between wires or resistance during steering wheel manipulation, increases the transmission efficiency, and can be manufactured easily by virtue of a minimized warp occurring during manufacture of a core. A non-contact transformer is provided that includes two disc-shaped magnetic cores (19) each having at least one concentric and radial groove (21), and a magnetic sleeve (25) having a cylindrical shape or a pot shape having an opening at the center of the bottom surface. The two magnetic cores are opposed to each other with a predetermined distance left therebetween in a space enclosed by the magnetic sleeve. A wining (23) of wire is accommodated in the at least one concentric groove. Each of the magnetic cores is a combination of a plurality of fan-shaped partial cores (27) to be formed in a disc shape.Type: GrantFiled: April 27, 2000Date of Patent: May 14, 2002Assignees: Tokin Corp., Alps Electric Co., Ltd.Inventors: Yoshitaka Saito, Hideki Masudaya
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Patent number: 6326713Abstract: A structure for an a.c. electrical machine and method of transducing power between two different systems. The machine comprises two electrically balanced transformers which are generally, but not exclusively, three phase. Initially the transformers are in balance and no currents flow in the secondary windings of the transformers. An electrical or mechanical imbalance is introduced between the transformers causing current to circulate in the secondary windings. The secondary windings in one embodiment are provided on a rotor in which case the currents induced in the secondary windings cause a torque to be exerted on the rotor. It is also possible to arrange the machine as a transformer or alternator.Type: GrantFiled: June 7, 1999Date of Patent: December 4, 2001Inventor: John Judson
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Patent number: 6157188Abstract: A compact, long-range inductive absolute position transducer system has two members movable relative to each other and includes a code track transducer and at least one fine wavelength transducer. The two members include a read head member and a scale member. The phase difference between the phase angles of two fine wavelength transducers may be used to generate an intermediate wavelength. Alternatively, the phase difference between the phase angles of one fine wavelength transducer and the code track transducer may be used to generate an intermediate wavelength. The code track includes sequential n-bit code words. Each sequential code word identifies an absolute position of one member with respect to the other with a first resolution. Each intermediate wavelength includes an integer number of code words greater than or equal to one. Using this relationship, the intermediate wavelength is used to identify the start position (start bit) of the appropriate code word.Type: GrantFiled: August 31, 1998Date of Patent: December 5, 2000Assignee: Mitutoyo CorporationInventor: Kurt E. Steinke
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Patent number: 5973583Abstract: A core assembly for coil units and a method for producing the same which can suppress a raise of temperature are provided. A secondary core (21) made of a ferrite includes a pair of core members (25, 25) which are symmetrical with respect to each other and are adapted to be coupled to each other. Each core member (25) is provided in its coupling surface (44) with a groove or apertune (43). When the core members (25, 25) are coupled to each other, the integrated grooves (43, 43) define a flow path (40) adapted to flow a cooling medium in the secondary core (21). Thus, it is possible to form a flow path in a core made of a sintered material which is too hard to be worked.Type: GrantFiled: February 25, 1998Date of Patent: October 26, 1999Assignees: Sumitomo Wiring Systems, Ltd., Sumitomo Electric Industries, Ltd.Inventors: Kunihiko Watanabe, Toshiro Shimada
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Patent number: 5886519Abstract: An inductive absolute position transducer system, usable in high accuracy applications such as linear encoders, has two members movable relative to each other and includes three inductive position transducers. Each inductive position transducer includes at least one transmitter winding for generating a magnetic field and two or more receiver windings for receiving the magnetic field. Each inductive position transducer also includes a plurality of flux modulators which modulate the magnetic field generated by the transmitter winding. Each receiver winding has a plurality of symmetric loops arranged along a measurement axis. The receiver windings of two of the inductive position transducers define two wavelengths that are similar to each other, but not equal. Thus, a phase relationship between the inductive position transducers has a wavelength much longer than the wavelength of either of the two inductive position transducers.Type: GrantFiled: January 29, 1997Date of Patent: March 23, 1999Assignee: Mitutoyo CorporationInventors: Karl G. Masreliez, Nils Ingvar Andermo, Kim W. Atherton
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Patent number: 5841274Abstract: A high-accuracy inductive absolute position transducer system has two members movable relative to each other and includes a code track transducer and may include a fine track transducer. The code track transducer includes a code track transmitter winding and at least one set of code track receiver windings. Each set of code track receiver windings includes n balanced pairs. Each balanced pair extends along the measuring axis and includes a positive polarity winding and a negative polarity winding. A code track has a plurality of flux modulator zones distributed along the measuring axis. Flux modulators are formed in at least some of the flux modulator zones. A signal generating and processing circuit is connected to the transmitter winding and each balanced pair. The code track transmitter winding and each balanced pair form an inductive coupling.Type: GrantFiled: January 29, 1997Date of Patent: November 24, 1998Assignee: Mitutoyo CorporationInventors: Karl G. Masreliez, Nils Ingvar Andermo, Kim W. Atherton
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Patent number: 5774320Abstract: A modular current transformer containing both air and metal cores on a common load strap provides sensing current to the electronic trip unit within the circuit interrupter along with supplying operating power to the trip unit components. The current sensing coil is arranged concentricity within the transformer core while the power generating coil is arranged concentricity outside the core.Type: GrantFiled: October 24, 1996Date of Patent: June 30, 1998Assignee: General Electric CompanyInventors: Raymond K. Seymour, Ertugrul Berkcan
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Patent number: 5598090Abstract: In one aspect of the present invention, a joystick is disclosed. The joystick includes a control shaft and a pivotal mount for the control shaft. A plurality of centering springs bias the control shaft to a neutral position, and extend and contract in response to pivotal movement of the control shaft. An oscillator circuit is coupled to the centering springs and produces an output signal having a frequency responsive to the inductance of the centering springs.Type: GrantFiled: July 31, 1995Date of Patent: January 28, 1997Assignee: Caterpillar Inc.Inventors: Thomas M. Baker, George Codina, Larry H. Franzen
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Patent number: 5583732Abstract: A modular current transformer containing both air and metal cores on a common load strap provides sensing current to the electronic trip unit within the circuit interrupter along with supplying operating power to the trip unit components.Type: GrantFiled: December 19, 1994Date of Patent: December 10, 1996Assignee: General Electric CompanyInventors: Raymond K. Seymour, Ertugrul Berkcan
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Patent number: 4764744Abstract: A static trip overload relay includes a plurality of phase current sensing transformers having two-piece cores. One core piece of each transformer core is positionally mounted by the relay housing, while the other piece is positionally mounted by a carrying case movably mounted within the housing. By varying the case position within the housing, the air gaps between the two core pieces of each transformer core are correspondingly and concurrently varied pursuant to calibrating the relay to operate at any one of a range of circuit current ratings.Type: GrantFiled: December 17, 1987Date of Patent: August 16, 1988Assignee: General Electric CompanyInventors: Robert P. Alley, Fred G. Turnbull
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Patent number: 4685678Abstract: A joystick position transducer system for use in a video game. The joystick position transducer includes a pair of inductors each having a movable slug, the slugs being coupled to a control handle or knob by means of respective linkages. The control handle or knob is responsive to external stimulus to move the slugs, the inductors providing respective first and second analog signals which are proportional to the position of the slugs. Coupled to each of the inductors is an oscillator and counter for providing a pulsed output, the pulse width of which is proportional to the position of the respective slug. A controller, such as a computer control or logic sequence circuit, is provided to control the oscillators and counters. The controller is further responsive to the counter outputs to control a display presentation on a video display coupled thereto.Type: GrantFiled: March 19, 1985Date of Patent: August 11, 1987Assignee: Bally Manufacturing CorporationInventor: Jeffrey E. Frederiksen
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Patent number: 4532447Abstract: The invention relates to a rotary electric machine able to be used as a speed variator and/or a torque converter. It comprises a stator with s pairs of poles, a central rotor (RM) with p pairs of poles and an intermediate rotor (RT) comprising, at its inner face, at least one primary electric circuit subjected to the field of the central rotor (RM) and, at its outer face, at least one secondary electric circuit subjected to the stator field. A switching circuit controls the passage, through the secondary circuit, of the current produced in the primary circuit, in a direction such that the torque exerted by the stator (F) on the rotor (RT) is in the same direction.Type: GrantFiled: July 21, 1983Date of Patent: July 30, 1985Inventor: Pierre Cibie
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Patent number: 4512367Abstract: A rotation detecting apparatus for a power steering system of a vehicle is described which comprises a control valve coupled to a steering shaft of a steering wheel of the vehicle for controlling a flow of power fluid supplied to a power cylinder for powering a steering operation, a rotator magnet secured on an input shaft of the control valve to rotate therewith as a body, a concentric-circle shaped stator coil adapted to face to the rotor magnet, and a casing functioning also as an iron core yoke mounted on a housing of the control valve for receiving the rotor magnet and the stator coil and supporting the stator coil, whereby, when the input shaft is rotated in response to the steering operation of the steering wheel, an electromotive force is produced so as to detect a displacement in rotation of the input shaft.Type: GrantFiled: March 7, 1983Date of Patent: April 23, 1985Assignee: Tokai TRW & Co. Ltd.Inventors: Michio Abe, Naoyuki Maeda, Robert M. Lynas
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Patent number: 4498064Abstract: A pushbutton tuner wherein tuning coils are disposed in two decks, upper and lower, and the upper or lower tuning coils are disposed in front of the others. A printed circuit board to be connected to said tuning coils by lead wires is divided in two parts and each part is disposed close to the tuning coils in the associated deck.Type: GrantFiled: November 4, 1982Date of Patent: February 5, 1985Assignee: Clarion Co., Ltd.Inventor: Takao Chaki
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Patent number: 4445103Abstract: A rotary differential transformer is provided which has a constant amplitude output the phase angle of which varies with the angular displacement of a rotor. The rotor contains a pair of core segments of magnetic material which serve to couple portions of first and second primary coils to a secondary coil. The primary coils are connected to AC sources 90.degree. out of phase with each other.Type: GrantFiled: August 10, 1983Date of Patent: April 24, 1984Assignee: Pickering & Company, Inc.Inventor: Jacob Chass
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Patent number: 4211993Abstract: A high-frequency device, comprising a number of solenoid coils which are arranged in a row along the edge of a board. Parallel to the row of coils there is provided a plate which extends perpendicularly to the board and which is provided with apertures which are coaxial with the coils. Adjusting cores for adjusting the coils are provided in the apertures.Type: GrantFiled: October 18, 1978Date of Patent: July 8, 1980Assignee: U.S. Philips CorporationInventor: Johannes H. Hendriks