Patent application number | Description | Published |
20080290498 | Semiconductor Device - A semiconductor device is disclosed that includes a circuit board, a semiconductor element, a heat sink, and a stress relaxation member. The circuit board includes an insulated substrate, a metal circuit joined to one side of the insulated substrate, and a metal plate joined to the other side of the insulated substrate. The semiconductor element is joined to the metal circuit. The heat sink radiates heat generated in the semiconductor element. The stress relaxation member thermally joins the heat sink to the metal plate. The stress relaxation member is formed of a material having a high thermal conductivity. The stress relaxation member includes recesses, which curve inward from the peripheral portion of the stress relaxation member, to form stress relaxation spaces at the peripheral portion of the stress relaxation member. | 11-27-2008 |
20080290499 | Semiconductor device - A semiconductor device is disclosed that includes a ceramic substrate having first and second surfaces, a semiconductor element, a radiator, and an interposed portion located between the second surface and the radiator. The interposed portion has coupling regions that couple the second surface to the radiator, and non-coupling regions that do not couple the second surface to the radiator. Each non-coupling region is formed as an elongated groove. In the group of the non-coupling regions, the width of the outermost non-coupling region in the interposed portion is greater than the width of the innermost non-coupling region in the interposed portion. Regarding an adjacent pair of the non-coupling regions in the width direction, the width of the outer non-coupling region is greater than or equal to the width of the inner non-coupling region. | 11-27-2008 |
20080291636 | Semiconductor device - The semiconductor device includes a circuit board. The circuit board has an insulating substrate, a metal circuit fixed on a first side of the insulating substrate, and a metal plate fixed on a second side of the insulating substrate. The semiconductor device further has a semiconductor element mounted on the metal circuit, a stress reducing member fixed on the metal plate, and a heat sink fixed on the stress reducing member. The stress reducing member is plate-shaped and has round-shaped corners. | 11-27-2008 |
20090141451 | HEAT DISSIPATION APPARATUS - A heat dissipation apparatus including an insulation substrate, a heat sink, and a stress reduction member. The insulation substrate includes a first surface serving as a heated body receiving surface and a second surface opposite to the first surface. The heat sink is thermally coupled to the second surface of the insulation substrate. The heat sink, which includes an upper case and a lower case, serves as a liquid cooling device including a cooling passage. The stress reduction member is arranged between the insulation substrate and the upper case. The stress reduction member includes stress absorption hollows. The upper case includes a first portion that contacts the stress reduction member and a second portion defined by the remaining part of the upper case. The first portion has a thickness that is less than that of the second portion. | 06-04-2009 |
20090147479 | HEAT DISSIPATION APPARATUS - A heat dissipation apparatus including an insulation substrate, a heat sink, and a heat mass member. The insulation substrate includes a first surface serving as a heated body receiving surface and a second surface opposite to the first surface. A heat sink is thermally coupled to the second surface of the insulation substrate. A heat mass member includes a stress reduction portion and a heat mass portion arranged so that one is above the other. The stress reduction portion includes a plurality of recesses in at least either one of a surface facing toward the insulation substrate and a surface facing toward the heat sink of the heat mass member. The heat mass portion has a thickness that is greater than that of the stress reduction portion, and the heat mass member has a thickness that is greater than three millimeters. | 06-11-2009 |
20100002399 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed that includes an insulation substrate, a metal wiring layer, a semiconductor element, a heat sink, and a stress relaxation member located between the insulation substrate and the heat sink. The heat sink has a plurality of partitioning walls that extend in one direction and are arranged at intervals. The stress relaxation member includes a stress absorbing portion formed by through holes extending through the entire thickness of the stress relaxation member. Each hole is formed such that its dimension along the longitudinal direction of the partitioning walls is greater than its dimension along the arranging direction of the partitioning walls. | 01-07-2010 |
20100051234 | LIQUID-COOLED-TYPE COOLING DEVICE - A liquid-cooled-type cooling device includes a casing having a cooling-liquid inlet and a cooling-liquid outlet. A fin for forming flow channels is disposed within the casing between the inlet and the outlet. A portion of the interior of the casing located rearward of the fin is an inlet header section, and a portion of the interior of the casing located frontward of the fin is an outlet header section. A rear side surface within the inlet header section is skewed toward the fin in a direction from the right side toward the left side. A positioning vertical surface extending straight along the left-right direction and positioning a rear end portion of the fin is provided on a lower portion of a left end portion of the rear side surface within the inlet header section. The rear end portion of the fin is in contact with the positioning vertical surface. | 03-04-2010 |
20100051235 | LIQUID-COOLED-TYPE COOLING DEVICE - A liquid-cooled-type cooling device includes a casing which has a cooling-liquid inlet formed at a rear end portion of the casing and a cooling-liquid outlet formed at a front end portion of the casing. A corrugated fin for forming a plurality of flow channels through which a cooling liquid flows from the rear side toward the front side is disposed within the casing to be located between the cooling-liquid inlet and the cooling-liquid outlet. A heat-generating-body mounting region is provided on an outer surface of a top wall of the casing. Projections which come into contact with front and rear end portions of the corrugated fin to thereby position the corrugated fin in the front-rear direction are provided on an inner surface of the bottom wall of the casing at positions shifted, in the left-right direction, from an inner surface region corresponding to the heat-generating-body mounting region. | 03-04-2010 |
20100252235 | LIQUID-COOLED-TYPE COOLING DEVICE - A casing of a liquid-cooled-type cooling device has a peripheral wall including mutually facing right and left side walls. A cooling-liquid inlet is formed at one end of the right side wall, and a cooling-liquid outlet is formed at an end of the left side wall corresponding to the other end of the right side wall. A parallel-flow-channel section is provided within the casing to be located between the left and right side walls and between the cooling-liquid inlet and outlet and includes flow channels through which cooling liquid flows. Internal regions of the casing located upstream and downstream of the parallel-flow-channel section serve as inlet and outlet header sections, respectively. The cross-sectional area of the inlet header section reduces from the cooling-liquid inlet toward the left side wall. The outlet and inlet header sections are asymmetric in shape with respect to the width direction of the parallel-flow-channel section. | 10-07-2010 |
20110094722 | LIQUID-COOLED-TYPE COOLING DEVICE - A liquid-cooled-type cooling device includes a casing having a cooling-liquid flow channel. Fins are provided on an inner surface of a top wall of the casing. Each fin has a wavy shape on a horizontal plane perpendicular to a fin height direction. In a left fin of two adjacent fins, lines of intersection between the horizontal plane and right side surfaces of two slant portions connecting two adjacent wave crest portions and a wave trough portion therebetween intersect each other at a first point located on a first straight line. In a right fin, lines of intersection between the horizontal plane and left side surfaces of two slant portions connecting two adjacent wave trough portions and a wave crest portion therebetween intersect each other at a second point located on a second straight line. The first straight line is located on the right fin side of the second straight line. | 04-28-2011 |
20120113598 | BASE FOR POWER MODULE - A power module base includes a heat radiation substrate formed of a high-thermal-conduction material, an insulating substrate joined to an upper surface of the heat radiation substrate, a wiring layer provided on an upper surface of the insulating substrate, and a heat radiation fin joined to a lower surface of the heat radiation substrate. A component attachment plate thicker than the heat radiation substrate and including a through hole for accommodating the insulating substrate is joined to the upper surface of the heat radiation substrate such that the insulating substrate is located within the through hole. This power module base can maintain the upper surface of the component attachment plate flat, and various components for a power module, such as a casing, can be attached onto the component attachment plate. | 05-10-2012 |
20120262883 | HEAT RADIATOR AND MANUFACTURING METHOD THEREOF - A back metal layer ( | 10-18-2012 |
20130039010 | HEAT DISSIPATION DEVICE AND SEMICONDUCTOR DEVICE - Disclosed is a heat dissipation device which is reduced in the number of components, while having sufficient insulating function and cooling function with respect to an object to be cooled. The heat dissipation device includes a base that is formed from a ceramic and a refrigerant channel for circulating a refrigerant within the base. The base is formed by sintering a stacked body in which a plurality of ceramic sheets are stacked. The plurality of ceramic sheets include the ceramic sheet which is provided with a plurality of slits that constitute the refrigerant channel, and the ceramic sheets which are provided with communication paths that communicate the refrigerant channel and outside units with each other. A semiconductor device is configured by bonding a metal plate, on which a semiconductor element is mounted, to the heat dissipation device. | 02-14-2013 |
20130228319 | COOLING DEVICE - A cooling device includes a main body, a pipe, and a resin portion. The main body includes a first shell plate and a second shell plate each having a peripheral portion. The first shell plate and the second shell plate are integrated together by brazing the peripheral portions, and the main body includes a coolant passage and a port. The pipe is coupled to the main body and allows for circulation of coolant in the coolant passage through the port. The resin portion is molded on an outer surface of the main body at where the pipe is coupled to the main body to fix the pipe to the main body. | 09-05-2013 |
20130228909 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes a cooling device, an insulating substrate, a semiconductor element, an external connection terminal, and a resin portion. The insulating substrate is brazed to an outer surface of the cooling device. The semiconductor element is brazed to the insulating substrate. The external connection terminal includes a first end, which is electrically connected to the semiconductor element, and an opposite second end. The resin portion is molded to the insulating substrate, the semiconductor element, the first end of the external connection terminal, and at least part of the cooling device. | 09-05-2013 |
20130228910 | POWER CONVERSION DEVICE - A power conversion device is provided with a plurality of semiconductor modules. Each semiconductor module includes a heat dissipation member, an insulating substrate, a semiconductor element, an external connection terminal, and a resin portion. The insulating substrate is fixed to the heat dissipation member. The semiconductor element is mounted on the insulating substrate. The external connection terminal includes a first end, which is electrically connected to the semiconductor element, and an opposite second end. The resin portion is molded to the insulating substrate, the semiconductor element, the first end, and at least part of the heat dissipation member. The semiconductor modules each form a unit. | 09-05-2013 |
20130256867 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed that includes an insulation substrate, a metal wiring layer, a semiconductor element, a heat sink, and a stress relaxation member located between the insulation substrate and the heat sink. The heat sink has a plurality of partitioning walls that extend in one direction and are arranged at intervals. The stress relaxation member includes a stress absorbing portion formed by through holes extending through the entire thickness of the stress relaxation member. Each hole is formed such that its dimension along the longitudinal direction of the partitioning walls is greater than its dimension along the arranging direction of the partitioning walls. | 10-03-2013 |
20130264702 | SEMICONDUCTOR UNIT - A semiconductor unit includes a cooler having a fluid flow space, an insulating substrate bonded to the cooler through a metal, a semiconductor device soldered to the insulating substrate, an intermediate member interposed between the insulating substrate and the fluid flow space and having a first surface where the insulating substrate is mounted, and a mold resin having a lower coefficient of liner expansion than the intermediate member. The insulating substrate, the semiconductor device and the cooler are molded by the mold resin. The intermediate member has a second surface that extends upward or downward relative to the first surface. The first surface is covered by the mold resin. The second surface is covered by a resin cover. | 10-10-2013 |
20130277034 | HEAT DISSIPATION DEVICE AND METHOD FOR MANUFACTURING THE SAME - A heat dissipation device includes an insulating substrate, a metal layer connected to the insulating substrate via a first brazing filler material, a stress relaxation member connected to the insulating substrate via a second brazing filler material, and a cooler connected to the stress relaxation member via a third brazing filler material. The stress relaxation member has one or more stress relaxation spaces each including an opening that is open to at least one of a face side and a back side of the stress relaxation member. At least one of the second and third brazing filler materials has one or more through-holes. Each through-hole includes an opening overlapped with the opening of the stress relaxation space or with the opening of a corresponding one of the stress relaxation spaces, and an edge of each through-hole opening is located externally to an edge of the corresponding stress relaxation space opening. | 10-24-2013 |
20140091453 | COOLING DEVICE AND SEMICONDUCTOR DEVICE - A cooling device includes a base and a plurality of radiator fins. The base includes an exterior, an interior, an inlet, and an outlet. A heat generation element is connected to the exterior of the base. The radiator fins are located near the heat generation element in the interior of the base. The radiator fins are arranged from the inlet to the outlet. Each radiator fin has a sidewise cross-section with a dimension in a flow direction of the cooling medium and a dimension in a lateral direction orthogonal to the flow direction of the cooling medium. The dimension in the flow direction is longer than the dimension in the lateral direction. The radiator fins are separated from one another by a predetermined distance in the lateral direction. | 04-03-2014 |
20140332950 | SEMICONDUCTOR DEVICE - A semiconductor device includes a cooling portion, which is made of ceramic or resin and includes a mounting surface, a metal circuit board, which is mounted on the mounting surface of the cooling portion and includes an element mounting surface, and a semiconductor element mounted on the element mounting surface of the circuit board. At least a part of the circuit board, which corresponds to the element mounting surface, is covered with resin with respect to the cooling portion. | 11-13-2014 |
20150076685 | FLOW PATH MEMBER, AND HEAT EXCHANGER AND SEMICONDUCTOR DEVICE USING THE SAME - Provided are a flow path member that suppresses flow path breakage, a heat exchanger and a semiconductor device using the same. This flow path member has a flow path in which a fluid flows and which is constituted by a lid portion, a partition wall portion, a side wall portion and a bottom plate portion. At least one of the partition wall portion and the sidewall portion is partly embedded in at least one of the lid portion and the bottom plate portion for direct connection. | 03-19-2015 |