| TOSHIBA MITSUBISHI-ELECTRIC INDUS. SYS.CORP. Patent applications |
| Patent application number | Title | Published |
|---|
| 20110181220 | SYNCHRONOUS MACHINE STARTING DEVICE - A synchronous machine starting device includes a power conversion unit for converting supplied power into AC power and supplying the AC power to an armature of a synchronous machine, an AC voltage detection unit for detecting AC voltage supplied to the armature of the synchronous machine, a rotor position detection unit for detecting a rotor position of the synchronous machine, based on the detected AC voltage, and a power conversion control unit for controlling the power conversion portion, based on the detected rotor position. The rotor position detection portion includes a level monitoring unit outputting a first position signal indicating a timing at which a level of AC voltage supplied to the armature of the synchronous machine reaches a prescribed value, based on the detected AC voltage, a feedback operation unit for calculating an error of an estimated phase based on the estimated phase indicating the rotor position and the detected AC voltage, calculating the estimated phase based on the calculated phase error, and outputting a second position signal indicating the calculated estimated phase, and a selector circuit receiving the first position signal or a position signal obtained based on the first position signal, and the second position signal, selecting one of the received two position signals, and outputting the selected signal to the power conversion control unit as a signal indicating the rotor position of the synchronous machine. | 07-28-2011 |
| 20110143053 | METHOD OF FORMING ZINC OXIDE FILM (ZNO) OR MAGNESIUM ZINC OXIDE FILM (ZNMGO) AND APPARATUS FOR FORMING ZINC OXIDE FILM OR MAGNESIUM ZINC OXIDE FILM - A method of forming a zinc oxide film or a magnesium zinc oxide film which has a high transmittance. The method of forming a zinc oxide film or a magnesium zinc oxide film includes (A) converting a solution containing zinc, or zinc and magnesium into mist, (B) heating a substrate, and (C) supplying the solution converted into mist, and ozone to a first main surface of the substrate under heating. | 06-16-2011 |
| 20110023862 | HEAT EQUALIZER - A heat equalizer includes a container structure, a material feed pipe, and a heating mechanism. The container structure includes an inner container and an outer container. In the outer container, a working fluid is held. Respective upper ends of the inner container and the outer container are joined to form a hollow portion between the inner container and the outer container. The material feed pipe extends from an outside of the container structure to the inner surface of the inner container. The heating mechanism is placed at the bottom of the outer container. At the bottom surface of the inner container, a plurality of protrusions protruding toward the inside of the inner container and depressions formed by the bottom surface depressed inward of the protrusions and capable of receiving the vaporized working fluid are formed. | 02-03-2011 |
