Patent application number | Description | Published |
20130300354 | VEHICLE, POWER RECEIVING DEVICE, POWER TRANSMITTING DEVICE, AND CONTACTLESS POWER SUPPLY SYSTEM - A vehicle is able to contactlessly receive electric power from a power transmitting device and to charge a mounted electrical storage device (electric load). The vehicle includes a communication unit that carries out wireless communication with the power transmitting device and a vehicle ECU (control fit) that controls the communication unit. The communication unit is able to switch a communication range between a wide communication range (wire-area communication) and a narrow communication range (narrow-area communication). The vehicle ECU, at the time of identifying a power transmitting device from which electric power should be received, controls the communication unit such that the communication unit communicates with the power transmitting device using the narrow-area communication. | 11-14-2013 |
20130307471 | VEHICLE, POWER TRANSMITTING DEVICE AND CONTACTLESS POWER SUPPLY SYSTEM - A contactless power supply system contactlessly transmits electric power from a power transmitting device to a vehicle. The vehicle includes: a power receiving unit that contactlessly receives electric power from the power transmitting device; an electrical storage device that stores electric power received by the power receiving unit; and an impedance adjustment unit that includes a DC/DC converter and a relay and that is used to adjust an impedance between the power receiving unit and the electrical storage device. A vehicle ECU switches between a power supply path of which the impedance is adjusted by the DC/DC converter and a power supply path that does not use the DC/DC converter on the basis of a state of charge of the electrical storage device. | 11-21-2013 |
20150115704 | ELECTRIC POWER TRANSMISSION DEVICE, ELECTRIC POWER RECEPTION DEVICE, VEHICLE, AND NON-CONTACT ELECTRIC POWER FEED SYSTEM - In a non-contact electric power feed system, electric power is supplied in a non-contact manner from an electric power transmission device to a vehicle representing an electric power reception device. The electric power transmission device includes an electric power transmission unit, a communication unit for radio communication with the electric power reception device, and a control device for controlling the electric power transmission unit. The control device varies transmitted electric power from the electric power transmission unit while the electric power transmission unit transmits electric power, and determines whether or not pairing between the vehicle specified as an electric power transmission target and the electric power transmission unit is appropriate, based on information on variation in electric power from the vehicle specified as the electric power transmission target through radio communication. | 04-30-2015 |
20150239354 | NON-CONTACT POWER SUPPLY SYSTEM, AND POWER TRANSMISSION DEVICE AND VEHICLE USED THEREIN - A non-contact power supply system supplies electric power in a non-contact manner from a power transmission device to a vehicle. The power transmission device includes an impedance adjusting unit configured to adjust an impedance between a power supply unit and a power transmission unit. A vehicle ECU assists an alignment between the power transmission unit and the power receiving unit in the parking operation based on a power transmission efficiency between the power transmission unit and the power receiving unit. A power transmission ECU, at the time of the alignment in the parking operation, controls the impedance adjusting unit based on a distance between the power transmission unit and the power receiving unit in a vertical direction (vehicle height). Accordingly, lowering of the power transmission efficiency caused by a change in an impedance along with a change in the vehicle height can be suppressed. | 08-27-2015 |
Patent application number | Description | Published |
20100079913 | MAGNETIC DISK DEVICE INCLUDES A SENSOR IN A CASE - A magnetic disk device includes a magnetic head assembly, which includes magnetic heads, support plates, and a flexible wiring substrate that are integrally formed. The magnetic heads include heating elements for making head element parts protrude toward magnetic disks by thermal expansion, the support plate supports the magnetic head, the flexible wiring substrate is provided along the support plate and electrically connects the magnetic heads to a circuit system, and the magnetic head assembly and the magnetic disks are assembled in a case. The magnetic disk device includes a sensor and a floating distance control circuit. The sensor detects at least one of atmospheric pressure, temperature, and humidity in the case. The floating distance control circuit increases or decreases current supplied to the heating element on the basis of the output of the sensor and controls the floating distance of the magnetic head so that the floating distance is constant. While being received in a package made of high temperature co-fired ceramic, the sensor is mounted on a circuit mounting surface of the flexible wiring substrate in the case. | 04-01-2010 |
20120112368 | MEMS SENSOR PACKAGE - An MEMS sensor package includes an MEMS sensor and a driving IC that controls driving of the MEMS sensor, which are fixed onto the same mounting surface made of a given package material, wherein an MEMS sensor mounting area and a driving IC mounting area are set on the mounting surface, a die attach metalized layer is formed on a package material of the driving IC mounting area, the driving IC is mounted on the die attach metalized layer, and the MEMS sensor is mounted on a package material of the MEMS sensor mounting area. | 05-10-2012 |
20140062956 | INPUT DEVICE AND METHOD FOR DETECTING LOADS ON MULTIPLE POINTS USING THE INPUT DEVICE - An input device includes a capacitance type touch panel sensor configured to detect positional coordinates of multiple pressing points that are simultaneously pressed on an operation face, load detection sensors configured to detect barycentric coordinates of and a barycentric load on the pressing points, and a controller configured to calculate loads on the pressing points on the basis of the positional coordinates of, the barycentric coordinates of, and the barycentric load on the pressing points. | 03-06-2014 |