Patent application number | Description | Published |
20100237507 | POWER MODULE - A power module includes a pair of power devices that are stacked with a plate-shaped output electrode arranged therebetween, and an N-electrode and a P-electrode that are stacked with the pair of power devices arranged therebetween. The output electrode is anisotropic such that the thermal conductivity in a direction orthogonal to the stacking direction is greater than the thermal conductivity in the stacking direction. Also, the output electrode extends in the orthogonal direction from a stacked area where the pair of power devices are stacked. The N-electrode and the P-electrode extend in the orthogonal direction while maintaining an opposing positional relationship. | 09-23-2010 |
20110108247 | COOLING APPARATUS FOR SEMICONDUCTOR ELEMENT - A semiconductor element cooling apparatus includes: a first member whose first surface on which a semiconductor element is mounted, and whose second surface has fins that define coolant flow paths, and that extend in a first direction, and that stand from the second surface to a predetermined height, and that are spaced from each other by predetermined intervals; and a second member that defines the coolant flow paths that extend in the first direction. The fins have grooves which extend in a second direction that intersects the first direction, and which have a depth that extends from the distal end side of the fins toward the second surface. The depth of the grooves is smaller than the height of the fins. A protrusion-forming member is disposed in the grooves, and extends across adjacent fins, and forms protrusions in the coolant flow paths defined by the adjacent fins. | 05-12-2011 |
20130206375 | COOLER - A cooler is provided which comprises a heat discharging unit in which a plurality of heat discharge fins are placed in a line and a coolant flows in a passage between the heat discharge fins, an inflow-side coolant reservoir provided extending in a lined direction of the heat discharge fins and connected to a side of one end of the passage between the heat discharge fins through a first diaphragm portion, and an outflow-side coolant reservoir provided extending in the lined direction of the heat discharge fins and connected to a side of the other end of the passage between the heat discharge fins through a second diaphragm portion. An inflow-side fin is formed on a surface of the inflow-side coolant reservoir opposing the first diaphragm portion, and a circulation cross-sectional area of the inflow-side coolant reservoir is set smaller than a circulation cross-sectional area of the outflow-side coolant reservoir. | 08-15-2013 |
20140138063 | COOLING FIN STRUCTURE - A cooling fin structure used in a cooler for an electric device includes a plurality of pin fins ( | 05-22-2014 |
20140284029 | COOLER - A cooler includes a base plate, fins, a coolant discharge passageway, and a coolant supply passageway. The coolant supply passageway includes a supply passageway partition that divides the coolant supply passageway into a plurality of divided supply passageways. The supply passageway partition extends in a coolant flowing direction within the coolant supply passageway. A first coolant supply port supplies the coolant to a first divided supply passageway that is at least one of the divided supply passageways, from one side along the base plate. A second coolant supply port supplies the coolant to a second divided supply passageway that is at least one of the divided supply passageways, from another side along the base plate. Coolant nozzles jet the coolant toward the fins. The coolant nozzles include a coolant nozzle communicating with the first divided supply passageway and a coolant nozzle communicating with the second divided supply passageway. | 09-25-2014 |
Patent application number | Description | Published |
20090278526 | CURRENT DETECTING DEVICE - A current detecting device is provided having a plurality of Hall elements, a board on which the Hall elements are surface-mounted, and a core which surrounds a pass-through section through which a bus bar, through which a current to be detected flows, is passed and which has, at a part of the core, an opening in which the Hall element is placed, wherein the plurality of Hall elements are placed in series along a direction of a magnetic field line formed in the opening when a current flows through the bus bar. With such a structure, a core size of the current detecting device which uses the Hall element is reduced. | 11-12-2009 |
20090279276 | ELECTRONIC COMPONENT - There is provided an electronic component which comprises an insulating member on which an electronic element is mounted, and a thermal diffusion member on which the insulating member is mounted, wherein a thermal expansion coefficient of the insulating member is lower than a thermal expansion coefficient of the thermal diffusion member, and the insulating member is mounted in an embedded manner in a recess formed on a surface of the thermal diffusion member. | 11-12-2009 |
20100172104 | HEAT DISSIPATION DEVICE AND POWER MODULE - A radiator having a radiator fin sandwiched between and joined to a top plate and a bottom plate is provided on an insulating substrate, which has a semiconductor element arranged on one face side thereof, on the other face side thereof. The radiator fin is a corrugated fin that includes a first region that includes a joint peak portion joined to the bottom plate and has a height in an amplitude direction which is substantially equal to a distance between the top plate and the bottom plate, and a second region that includes a non-joint peak portion separated from the bottom plate by a predetermined gap and has a height in the amplitude direction which is smaller than the distance between the top plate and the bottom plate. | 07-08-2010 |
20100175933 | DRIVE APPARATUS FOR VEHICLE - In a drive apparatus having an integrated structure where a rotating electric machine and an inverter and a voltage converter for driving the rotating electric machine are integrally stored in a case, lubricant oil carried up by the rotation of the motor-generator flows into a storage chamber for a reactor from an opening. The lubricant oil flown from the opening is stored inside the storage chamber with the use of a dividing wall provided between a portion where the motor-generator is stored and the storage chamber, whereby at least part of reactor is immersed in the lubricant oil. Thus, the performance of cooling the reactor is ensured. | 07-15-2010 |