Patent application number | Description | Published |
20090066326 | MAGNETIC DEVICE - A magnetic device comprises a magnetic element, a first magnetic field applying means, and a second magnetic field applying means. The first and second magnetic field applying means are disposed on mutually opposite sides of the magnetic element. The magnetic element is, for example, an element in which a soft magnetic film is formed in a meandering shape on a nonmagnetic substrate. The first and second magnetic field applying means create a magnetic field in one direction from the first magnetic field applying means toward the second magnetic field applying means. The bias magnetic field in one direction is thereby applied to the entire soft magnetic film in the magnetic element disposed between the first and second magnetic field applying means. | 03-12-2009 |
20100090692 | MAGNETIC SENSOR MODULE AND PISTON POSITION DETECTOR - A magnetic sensor module which includes: a semiconductor substrate including an integrated circuit for switching operation; a magneto-resistive element which is disposed on a first surface of the semiconductor substrate and has a magneto-sensitive direction in a direction along the first surface; and a bias magnetic field applying member provided on the semiconductor substrate and disposed on a surface which is parallel to the first surface, wherein: the bias magnetic field applying member is magnetized in a direction along the surface on which the bias magnetic field applying member is disposed; and when no external magnetic field is applied, the bias magnetic field applying member applies a bias magnetic field in the direction along the first surface on which the magneto-resistive element is provided. | 04-15-2010 |
20100109663 | MAGNETIC DEVICE - A magnetic device comprises a magnetic element, a first magnetic field applying means, and a second magnetic field applying means. The first and second magnetic field applying means are disposed on mutually opposite sides of the magnetic element. The magnetic element is, for example, an element in which a soft magnetic film is formed in a meandering shape on a nonmagnetic substrate. The first and second magnetic field applying means create a magnetic field in one direction from the first magnetic field applying means toward the second magnetic field applying means. The bias magnetic field in one direction is thereby applied to the entire soft magnetic film in the magnetic element disposed between the first and second magnetic field applying means. | 05-06-2010 |
Patent application number | Description | Published |
20080266920 | CONTROL APPARATUS OF POWER CONVERSION SYSTEM - The invention provides a control apparatus of a power conversion system for driving an induction motor via a VVVF inverter, wherein the AC voltage generated by the inverter is increased so as to expand the high-speed side property of the induction motor, to thereby improve the performance during power running and regenerative braking. In the present system, a DC power supply source having a power storage system with a capacity capable of processing the current flowing into or out of the inverter is inserted in series to the ground side of the input of the inverter, and the output voltage thereof is controlled from zero in a continuous manner to be added to the trolley voltage, which is then applied to the inverter. | 10-30-2008 |
20100265746 | DRIVE CIRCUIT OF SEMICONDUCTOR DEVICE - The invention provides a switching circuit of a power semiconductor device having connected in parallel SiC diodes with a small recovery current, capable of significantly reducing turn-on loss and recovery loss without increasing the noise in the MHz band, and contributing to reducing the loss and noise of inverters. The present invention provides a switching circuit and an inverter circuit of a power semiconductor device comprising a module combining Si-IGBT and SiC diodes, wherein an on-gate resistance is set smaller than an off-gate resistance. | 10-21-2010 |
20120229055 | POWER CONVERTER AND POWER CONVERTER OF ROLLING STOCK - A power converter includes a first electric power conversion unit having an inverter for converting a first DC electric power to an AC electric power, an AC circuit connected to the first electric power conversion means; | 09-13-2012 |
20130073125 | DRIVE DEVICE FOR RAILWAY VEHICLE - A control device for a railway vehicle controls an inverter device based on a direct-current link voltage Vfc between the opposite terminals of a filter capacitor. A direct-current voltage applied to the inverter device during regeneration is the sum of a voltage Vb of power storage equipment and an overhead wire voltage Vs, so that only detecting the direct-current link voltage Vfc is not enough to separate the voltage Vb of the power storage equipment and the overhead wire voltage Vs from each other. The power storage equipment can be connected in series with the inverter device, and a voltage sensor that detects the overhead wire voltage Vs is provided between a current collector device and a grounding point. The power storage equipment is controlled based on the detection result from the voltage sensor. | 03-21-2013 |
Patent application number | Description | Published |
20120021917 | SUBSTRATE FOR SUPERCONDUCTING WIRING, SUPERCONDUCTING WIRING AND PRODUCTION METHOD FOR SAME - Disclosed is a low-cost metal substrate which is resistant to high-temperature oxidation, has excellent strength, is non-magnetic and is ideal for a high-temperature superconducting wire to be used at or lower than liquid nitrogen temperature. Austenitic stainless steel containing 0.4 weight or more of nitrogen is used as the metal substrate for the superconducting wire. After heat treatment of 700 to 950° C. in the high-temperature superconducting layer formation step is carried out, the metal substrate has an extremely high 0.20 proof stress at liquid nitrogen temperature. | 01-26-2012 |
20130137579 | METHOD OF PRODUCING SUPERCONDUCTING CONDUCTOR, SUPERCONDUCTING CONDUCTOR, AND SUBSTRATE FOR SUPERCONDUCTING CONDUCTOR - A method for producing a superconductive conductor includes: a base material preparation process of preparing a base material having a groove formed on at least one face thereof; a superconducting layer formation process of forming a superconducting layer on a surface of the base material at a side at which the groove is formed; and a cutting process of cutting completely through the base material along the groove. | 05-30-2013 |
20130137581 | SUBSTRATE FOR SUPERCONDUCTOR THIN FILM, SUPERCONDUCTOR THIN FILM, AND METHOD FOR PRODUCING SUBSTRATE FOR SUPERCONDUCTOR THIN FILM - A superconducting thin film having excellent critical current characteristics is provided. A substrate for a superconducting thin film includes a substrate body ( | 05-30-2013 |
20150024942 | SUPERCONDUCTING WIRE - A superconducting wire has: a substrate; a superconducting layer that is layered on one main surface side of the substrate; a stabilization layer that covers a surface of the superconducting layer and another main surface of the substrate; and an insulating layer that covers a surface of the stabilization layer, and that has an identification portion that identifies the substrate side and the superconducting layer side. | 01-22-2015 |
20150038334 | SUPERCONDUCTING FILM-FORMING SUBSTRATE, SUPERCONDUCTING WIRE, AND SUPERCONDUCTING WIRE MANUFACTURING METHOD - A tape-shaped superconducting film-forming substrate is disclosed, which includes a film-forming face for forming a laminate including a superconducting layer thereon, a rear face that is a face at a side opposite to the film-forming face, a pair of end faces connected to the film-forming face and the rear face, and a pair of side faces connected to the film-forming face, the rear face, and the pair of end faces, in which each of the pair of side faces includes a spreading face that spreads toward an outer side in an in-plane direction of the film-forming face from an edge part of the film-forming face toward the rear face side. A superconducting wire and a superconducting wire manufacturing method are also disclosed. | 02-05-2015 |