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 |
20080290500 | Semiconductor device - A semiconductor device has a ceramic substrate having a first surface and a second surface, a metal layer that is coupled to the second surface, a heat sink that is coupled to the metal layer and a stress relaxation member. The stress relaxation member is arranged between the metal layer and the heat sink and has a first surface that is coupled to the metal layer and a second surface that is coupled to the heat sink. A plurality of stress relaxation spaces are provided over the entire surface of at least one of the first and second surfaces of the stress relaxation member. The stress relaxation spaces that are arranged at the outermost portions of the stress relaxation member are deeper than the other stress relaxation spaces. | 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 |
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 |