Patent application number | Description | Published |
20080277679 | Light-emitting device - A light-emitting device, including a compound semiconductor layer disposed on a substrate, includes a light-emitting layer, and a dielectric constant change structure formed in a part of the compound semiconductor layer including a main surface as a light extraction surface of the compound semiconductor layer. The dielectric constant change structure is devoid of revolution symmetry provided by randomly changing a periodicity of a dielectric constant in a two-dimensional lattice pattern, with respect to a photonic crystal structure in which more than two kinds of materials having different dielectric constants are periodically and alternately disposed on the main surface in the two-dimensional lattice pattern. | 11-13-2008 |
20110024781 | Light emitting device - A light emitting device has a light emitting layer having a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type different from the first conductivity type, and an active layer sandwiched between the first semiconductor layer and the second semiconductor layer, a reflecting layer provided on a side of one surface of the light emitting layer, which reflects a light emitted from the active layer, a supporting substrate provided on an opposite side of the reflecting layer with respect to the light emitting layer, which supports the light emitting layer via an adhesion layer, an ohmic contact portion provided on a part of the reflecting layer, which electrically connects between the reflecting layer and the light emitting layer, and convexo-concave portions formed on other surface of the light emitting layer and side surfaces of the light emitting layer, respectively, and an insulating film configured to cover the convexo-concave portions. | 02-03-2011 |
20150204915 | CURRENT DETECTION STRUCTURE - A current detection structure includes a busbar to flow a current therethrough, a magnetic detection element to detect a strength of a magnetic field generated by the current flowing through the busbar, and a current detecting portion to determine the current flowing through the busbar based on the magnetic field detected by the magnetic detection element. A through-hole is formed penetrating the busbar such that a current path is formed on both sides of the through-hole. The magnetic detection element is disposed in the through-hole. The current detecting portion determines the current flowing through the busbar based on a strength of a synthetic magnetic field detected by the magnetic detection element. The synthetic magnetic field is produced by combining a magnetic field that is generated by a current flowing through the current path on the both sides of the through-hole. | 07-23-2015 |
20150204916 | ELECTRIC CURRENT SENSOR - An electric current sensor includes a plurality of bus bars arranged in parallel, a plurality of magnetic detection elements that are adapted to detect a strength of a magnetic field generated by an electric current flowing through the bus bars and to output a voltage according to the strength of the magnetic field detected, and an arithmetic operation part to arithmetically operate an electric current flowing through the bus bars based on the voltage output from the plurality of magnetic detection elements. The arithmetic operation part includes a magnetic flux density arithmetic operation part to arithmetically operate a magnetic flux density based on the voltage, and an electric current arithmetic operation part to arithmetically operate an electric current I | 07-23-2015 |
20150204919 | CURRENT DETECTION STRUCTURE - A current detection structure includes a plurality of busbars arranged in parallel, and a plurality of magnetic detection elements each provided for corresponding one of the plurality of busbars so as to measure a strength of a magnetic field generated by a current flowing through the corresponding busbar. The plurality of magnetic detection elements are mounted on a single circuit board. | 07-23-2015 |
20150221418 | NOISE SUPPRESSION CABLE - A noise suppression cable includes a plurality of twisted pair wires, an inclusion that includes an insulating material and a magnetic powder and separates the plurality of twisted pair wires, and a sheath that includes an insulating material and covers a periphery of the plurality of twisted pair wires and the inclusion. | 08-06-2015 |
20150228377 | Shielded Cable - A shielded cable includes an insulated wire including a conductor wire and an insulation formed around the conductor wire, and a shield layer formed around the insulated wire and including a shield wire. The shield wire includes a tubular member including a conductive material and defining a gap therein, and a magnetic powder is filled in the gap. | 08-13-2015 |
20150233980 | CONNECTOR - A connector for being attached to a power-supply unit including a switching element and for mating with a mating connector of a wire harness, the connector including a connecting terminal including an end portion connected to an output terminal in a casing of the power-supply unit, a housing fixed to the casing and enclosing at least a portion of the connecting terminal, a current sensor enclosed in the housing so as to detect a magnetic field generated by an electric current flowing through the connecting terminal, and a signal line for transmitting an output signal of the current sensor. | 08-20-2015 |
20150235738 | Noise Suppression Cable, Core Assembly, And Electrical Device - A noise suppression cable includes an electrical wire, a first magnetic material including a pair of first surfaces formed along an axis direction of the electrical wire and a convex portion projecting from the first surfaces, and a second magnetic material including a pair of second surfaces disposed on a periphery of the electrical wire, the pair of the second surfaces contacting the pair of the first surfaces such that a tubular shape is formed by the first and second magnetic materials. The first magnetic material and the second magnetic material are configured to generate a compression stress in the convex portion of the first magnetic material by receiving an external force so as to reduce a relative permeability of the convex portion. | 08-20-2015 |
20150235741 | Noise Suppression Cable - A noise suppression cable includes a conductor wire, and a magnetic insulation layer that is formed around the conductor wire and includes an insulating material and a flat-shaped magnetic powder. A flatness direction of the magnetic powder is oriented in a circumferential direction of the magnetic insulation layer. | 08-20-2015 |