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公开(公告)号:US08198539B2
公开(公告)日:2012-06-12
申请号:US11994896
申请日:2006-07-05
申请人: Kota Otoshi , Eiji Kono , Keiji Toh , Katsufumi Tanaka , Yuichi Furukawa , Shinobu Yamauchi , Ryoichi Hoshino , Nobuhiro Wakabayashi , Shintaro Nakagawa
发明人: Kota Otoshi , Eiji Kono , Keiji Toh , Katsufumi Tanaka , Yuichi Furukawa , Shinobu Yamauchi , Ryoichi Hoshino , Nobuhiro Wakabayashi , Shintaro Nakagawa
IPC分类号: H05K1/00
CPC分类号: H05K3/0061 , H01L23/367 , H01L23/3677 , H01L23/3735 , H01L23/473 , H01L2924/0002 , H05K1/0306 , H05K3/341 , H05K2201/0373 , H05K2201/1028 , H05K2203/0405 , Y02P70/613 , H01L2924/00
摘要: A heat radiator 1 includes an insulating substrate 3 whose first side serves as a heat-generating-element-mounting side, and a heat sink 5 fixed to a second side of the insulating substrate 3. A metal layer 7 is formed on the second side of the insulating substrate 3 opposite the heat-generating-element-mounting side. A stress relaxation member 4 formed of a high-thermal-conduction material intervenes between the metal layer 7 of the insulating substrate 3 and the heat sink 5 and includes a plate-like body 10 and a plurality of projections 11 formed at intervals on one side of the plate-like body 10. The end faces of the projections 11 of the stress relaxation member 4 are brazed to the metal layer 7, whereas the side of the plate-like body 10 on which the projections 11 are not formed is brazed to the heat sink 5. This heat radiator 1 is low in material cost and exhibits excellent heat radiation performance.
摘要翻译: 散热器1包括第一侧用作发热元件安装侧的绝缘基板3和固定到绝缘基板3的第二侧的散热片5.金属层7形成在第二侧 绝缘基板3与发热元件安装侧相反。 由高导热材料形成的应力松弛部件4介于绝缘基板3的金属层7和散热片5之间,并且包括板状体10和在一侧形成为间隔的多个突起11 板状体10的突起11的端面钎焊到金属层7,而没有形成突起11的板状体10的侧面钎焊到 该散热器1的材料成本低,散热性能优异。
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公开(公告)号:US20090200065A1
公开(公告)日:2009-08-13
申请号:US11994896
申请日:2006-07-05
申请人: Kota Otoshi , Eiji Kono , Keiji Toh , Katsufumi Tanaka , Yuichi Furukawa , Shinobu Yamauchi , Ryoichi Hoshino , Nobuhiro Wakabayashi , Shintaro Nakagawa
发明人: Kota Otoshi , Eiji Kono , Keiji Toh , Katsufumi Tanaka , Yuichi Furukawa , Shinobu Yamauchi , Ryoichi Hoshino , Nobuhiro Wakabayashi , Shintaro Nakagawa
IPC分类号: H05K7/20
CPC分类号: H05K3/0061 , H01L23/367 , H01L23/3677 , H01L23/3735 , H01L23/473 , H01L2924/0002 , H05K1/0306 , H05K3/341 , H05K2201/0373 , H05K2201/1028 , H05K2203/0405 , Y02P70/613 , H01L2924/00
摘要: A heat radiator 1 includes an insulating substrate 3 whose first side serves as a heat-generating-element-mounting side, and a heat sink 5 fixed to a second side of the insulating substrate 3. A metal layer 7 is formed on the second side of the insulating substrate 3 opposite the heat-generating-element-mounting side. A stress relaxation member 4 formed of a high-thermal-conduction material intervenes between the metal layer 7 of the insulating substrate 3 and the heat sink 5 and includes a plate-like body 10 and a plurality of projections 11 formed at intervals on one side of the plate-like body 10. The end faces of the projections 11 of the stress relaxation member 4 are brazed to the metal layer 7, whereas the side of the plate-like body 10 on which the projections 11 are not formed is brazed to the heat sink 5. This heat radiator 1 is low in material cost and exhibits excellent heat radiation performance.
摘要翻译: 散热器1包括第一侧用作发热元件安装侧的绝缘基板3和固定到绝缘基板3的第二侧的散热片5.金属层7形成在第二侧 绝缘基板3与发热元件安装侧相反。 由高导热材料形成的应力松弛部件4介于绝缘基板3的金属层7和散热片5之间,并且包括板状体10和在一侧形成为间隔的多个突起11 板状体10的突起11的端面钎焊到金属层7,而没有形成突起11的板状体10的侧面钎焊到 该散热器1的材料成本低,散热性能优异。
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公开(公告)号:US20140140004A1
公开(公告)日:2014-05-22
申请号:US13779519
申请日:2013-02-27
申请人: Hidehito KUBO , Masahiko Kimbara , Keiji Toh , Kota Otoshi , Eiji Kono , Katsufumi Tanaka , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
发明人: Hidehito KUBO , Masahiko Kimbara , Keiji Toh , Kota Otoshi , Eiji Kono , Katsufumi Tanaka , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
IPC分类号: H05K7/20
CPC分类号: H05K7/20263 , F28F3/027 , H01L23/3672 , H01L23/473 , H01L2924/0002 , H01L2924/00
摘要: A power module includes a power device and a heat sink. The heat sink includes a refrigerant passage in which a cooling medium flows and a corrugated fin body arranged in the refrigerant passage. The refrigerant passage is defined by a surface and a backside, and the power device is disposed in proximity to the surface. The corrugated fin body has crests and troughs that extend in the flow direction of the cooling medium and side walls each of which connects the corresponding one of the crests with the adjacent one of the troughs. Each adjacent pair of the side walls and the corresponding one of the crests or the corresponding one of the troughs arranged between the adjacent side walls form a fin. A guide that extends in the flow direction of the cooling medium and operates to stir the cooling medium is arranged in each of the fins.
摘要翻译: 功率模块包括功率器件和散热器。 散热器包括冷却介质流动的制冷剂通道和布置在制冷剂通道中的波纹状散热片体。 制冷剂通道由表面和背面限定,并且动力装置设置在表面附近。 波纹状散热片本体具有沿着冷却介质的流动方向延伸的波峰和波谷,每个侧壁将相应的波峰与相邻的波谷连接。 布置在相邻侧壁之间的每个相邻的一对侧壁和相应的一个峰或相应的一个槽形成翅片。 在每个散热片中布置有沿冷却介质的流动方向延伸并且用于搅拌冷却介质的引导件。
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公开(公告)号:US08411438B2
公开(公告)日:2013-04-02
申请号:US11922945
申请日:2006-06-27
申请人: Hidehito Kubo , Masahiko Kimbara , Keiji Toh , Kota Otoshi , Eiji Kono , Katsufumi Tanaka , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
发明人: Hidehito Kubo , Masahiko Kimbara , Keiji Toh , Kota Otoshi , Eiji Kono , Katsufumi Tanaka , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
IPC分类号: H05K7/20
CPC分类号: H05K7/20263 , F28F3/027 , H01L23/3672 , H01L23/473 , H01L2924/0002 , H01L2924/00
摘要: A heat sink (1) for power module is capable of mounting a power device (101) on at least a surface of the heat sink. The heat sink includes a refrigerant passage (1d) in which cooling medium that dissipates heat generated by the power device (101) flows and a corrugated fin body (1a) arranged in the refrigerant passage (1d). The corrugated fin body (1a) has crests (21b) and troughs (21c) that extend in the flow direction of the cooling medium, and side walls (21a) each of which connects the corresponding one of the crests (21b) with the adjacent one of the troughs (21c). Each adjacent pair of the side walls (21a) and the corresponding one of the crests (21b) or the corresponding one of the troughs (21c) arranged between the adjacent side walls (21a) form a fin (21). Each of the side walls (21a) has a louver (31) that operates to, at least, rotate the cooling medium flowing in the associated fin (21). The heat sink (1) thus has a further improved heat dissipating performance.
摘要翻译: 用于功率模块的散热器(1)能够将功率器件(101)安装在散热器的至少一个表面上。 散热器包括散发由动力装置(101)产生的热量的冷却介质流动的制冷剂通路(1d)和布置在制冷剂通路(1d)中的波纹状散热片体(1a)。 波纹状散热片体(1a)具有在冷却介质的流动方向上延伸的波峰(21b)和槽(21c),以及各个顶部(21b)的相应一个与相邻的顶部 一个槽(21c)。 布置在相邻侧壁(21a)之间的每个相邻的一对侧壁(21a)和相应的一个峰(21b)或相应的一个槽(21c)形成翅片(21)。 每个侧壁(21a)具有操作以使至少旋转在相关联的翅片(21)中流动的冷却介质的百叶窗(31)。 因此,散热器(1)具有进一步改善的散热性能。
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公开(公告)号:US20090174063A1
公开(公告)日:2009-07-09
申请号:US12086715
申请日:2006-12-11
申请人: Yuichi Furukawa , Shinobu Yamauchi , Nobuhiro Wakabayashi , Shintaro Nakagawa , Keiji Toh , Eiji Kono , Kota Otoshi , Katsufumi Tanaka
发明人: Yuichi Furukawa , Shinobu Yamauchi , Nobuhiro Wakabayashi , Shintaro Nakagawa , Keiji Toh , Eiji Kono , Kota Otoshi , Katsufumi Tanaka
IPC分类号: H01L23/06 , H01L23/535 , H01L23/34 , H01L23/48
CPC分类号: H01L23/3735 , H01L23/367 , H01L23/473 , H01L2224/32225 , H01L2924/1305 , H01L2924/13055 , H01L2924/00
摘要: A semiconductor module 10 includes a ceramic substrate having a front surface on which a semiconductor element 12 is mounted and a rear surface on the opposite side of the front surface, a front metal plate 15 joined to the front surface, a rear metal plate 16 joined to the rear surface, and a heat sink 13 joined to the rear metal plate 16. The rear metal plate 16 includes a joint surface 16b that faces the heat sink 13. The joint surface 16b includes a joint area and a non-joint area. The non-joint area includes recesses 18 which extend in the thickness direction of the rear metal plate 16. The joint area of the rear metal plate 16 is in a range from 65% to 85% of the total area of the joint surface 16b on the rear metal plate 16. As a result, excellent heat dissipating performance can be achieved while occurrence of distortion and cracking due to thermal stress is prevented.
摘要翻译: 半导体模块10包括陶瓷基板,其具有安装有半导体元件12的前表面和在前表面的相对侧上的后表面,与前表面接合的前金属板15,后金属板16接合 后部金属板16包括面向散热片13的接合面16b。接合面16b包括接合区域和非接合区域。 非接合区域包括在后金属板16的厚度方向上延伸的凹部18.后金属板16的接合面积在接合面16b的总面积的65%〜85%的范围内 后金属板16.结果,可以在发生由于热应力引起的变形和开裂的同时实现优异的散热性能。
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公开(公告)号:US07923833B2
公开(公告)日:2011-04-12
申请号:US12086715
申请日:2006-12-11
申请人: Yuichi Furukawa , Shinobu Yamauchi , Nobuhiro Wakabayashi , Shintaro Nakagawa , Keiji Toh , Eiji Kono , Kota Otoshi , Katsufumi Tanaka
发明人: Yuichi Furukawa , Shinobu Yamauchi , Nobuhiro Wakabayashi , Shintaro Nakagawa , Keiji Toh , Eiji Kono , Kota Otoshi , Katsufumi Tanaka
IPC分类号: H01L23/06
CPC分类号: H01L23/3735 , H01L23/367 , H01L23/473 , H01L2224/32225 , H01L2924/1305 , H01L2924/13055 , H01L2924/00
摘要: A semiconductor module 10 includes a ceramic substrate having a front surface on which a semiconductor element 12 is mounted and a rear surface on the opposite side of the front surface, a front metal plate 15 joined to the front surface, a rear metal plate 16 joined to the rear surface, and a heat sink 13 joined to the rear metal plate 16. The rear metal plate 16 includes a joint surface 16b that faces the heat sink 13. The joint surface 16b includes a joint area and a non-joint area. The non-joint area includes recesses 18 which extend in the thickness direction of the rear metal plate 16. The joint area of the rear metal plate 16 is in a range from 65% to 85% of the total area of the joint surface 16b on the rear metal plate 16. As a result, excellent heat dissipating performance can be achieved while occurrence of distortion and cracking due to thermal stress is prevented.
摘要翻译: 半导体模块10包括陶瓷基板,其具有安装有半导体元件12的前表面和在前表面的相对侧上的后表面,与前表面接合的前金属板15,后金属板16接合 后部金属板16包括面向散热片13的接合面16b。接合面16b包括接合区域和非接合区域。 非接合区域包括在后金属板16的厚度方向上延伸的凹部18.后金属板16的接合面积在接合面16b的总面积的65%〜85%的范围内 后金属板16.结果,可以在发生由于热应力引起的变形和开裂的同时实现优异的散热性能。
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公开(公告)号:US08387685B2
公开(公告)日:2013-03-05
申请号:US11919368
申请日:2006-04-19
申请人: Masahiko Kimbara , Keiji Toh , Hidehito Kubo , Katsufumi Tanaka , Kota Otoshi , Eiji Kono , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
发明人: Masahiko Kimbara , Keiji Toh , Hidehito Kubo , Katsufumi Tanaka , Kota Otoshi , Eiji Kono , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
CPC分类号: H01L23/473 , F28F3/086 , F28F3/12 , H01L23/3731 , H01L23/3736 , H01L2224/48091 , H01L2224/48137 , H01L2924/00014
摘要: A heat sink for a power module able to realize a further improvement of heat radiating performance and a further improvement of a mounting property is provided.The heat sink 1 for a power module has a laminating body 20, a first side plate 30 and a second side plate 40. The laminating body 20 has plural flow path plates 21 formed in a plate shape in which plural grooves 23 parallel to each other are concavely arranged on a flat joining face 22. Each groove 23 is set to a parallel flow path 50 parallel to a front face side by laminating each flow path plate 21 by each joining face 22. A portion other than each groove 23 of each joining face 22 forms a heat transfer path 70a to each parallel flow path 50 of a laminating direction. A flow-in path 30a and a flow-out path 40a are formed in the first and second side plates 30, 40. The flow-in path 30a and the flow-out path 40a are joined to side faces 26a, 26b of the laminating body 20, and are communicated with each parallel flow path 50. The flow-in path 30a flows a cooling medium into each parallel flow path 50. The flow-out path 40a flows the cooling medium out of each parallel flow path 50. A refrigerant flow path is constructed by the flow-in path 30a, each parallel flow path 50 and the flow-out path 40a.
摘要翻译: 提供了能够实现进一步提高散热性能的功率模块的散热器,并且进一步提高了安装特性。 用于功率模块的散热器1具有层叠体20,第一侧板30和第二侧板40.层叠体20具有多个形成为板状的流路板21,多个相互平行的槽23 凹陷地布置在平坦的接合面22上。每个槽23通过每个接合面22层压每个流路板21而设置成平行于前表面的平行流动路径50.每个连接的每个槽23之外的部分 面22对层叠方向的各平行流路50形成传热路径70a。 在第一和第二侧板30,40中形成有流入路径30a和流出路径40a。流入路径30a和流出路径40a与层叠的侧面26a,26b接合 主体20并与每个平行流动路径50连通。流入路径30a将冷却介质流入每个平行流动路径50.流出路径40a将冷却介质从每个平行流动路径50流出。制冷剂 流路由流入路径30a,每个平行流路50和流出路径40a构成。
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公开(公告)号:US20090314474A1
公开(公告)日:2009-12-24
申请号:US11919368
申请日:2006-04-19
申请人: Masahiko Kimbara , Keiji Toh , Hidehito Kubo , Katsufumi Tanaka , Kota Otoshi , Eiji Kono , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
发明人: Masahiko Kimbara , Keiji Toh , Hidehito Kubo , Katsufumi Tanaka , Kota Otoshi , Eiji Kono , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
CPC分类号: H01L23/473 , F28F3/086 , F28F3/12 , H01L23/3731 , H01L23/3736 , H01L2224/48091 , H01L2224/48137 , H01L2924/00014
摘要: A heat sink for a power module able to realize a further improvement of heat radiating performance and a further improvement of a mounting property is provided.The heat sink 1 for a power module has a laminating body 20, a first side plate 30 and a second side plate 40. The laminating body 20 has plural flow path plates 21 formed in a plate shape in which plural grooves 23 parallel to each other are concavely arranged on a flat joining face 22. Each groove 23 is set to a parallel flow path 50 parallel to a front face side by laminating each flow path plate 21 by each joining face 22. A portion other than each groove 23 of each joining face 22 forms a heat transfer path 70a to each parallel flow path 50 of a laminating direction. A flow-in path 30a and a flow-out path 40a are formed in the first and second side plates 30, 40. The flow-in path 30a and the flow-out path 40a are joined to side faces 26a, 26b of the laminating body 20, and are communicated with each parallel flow path 50. The flow-in path 30a flows a cooling medium into each parallel flow path 50. The flow-out path 40a flows the cooling medium out of each parallel flow path 50. A refrigerant flow path is constructed by the flow-in path 30a, each parallel flow path 50 and the flow-out path 40a.
摘要翻译: 提供了能够实现进一步提高散热性能的功率模块的散热器,并且进一步提高了安装特性。 用于功率模块的散热器1具有层叠体20,第一侧板30和第二侧板40.层叠体20具有多个形成为板状的流路板21,多个相互平行的槽23 凹陷地布置在平坦的接合面22上。每个槽23通过每个接合面22层压每个流路板21而设置成平行于前表面的平行流动路径50.每个连接的每个槽23之外的部分 面22对层叠方向的各平行流路50形成传热路径70a。 在第一和第二侧板30,40中形成有流入路径30a和流出路径40a。流入路径30a和流出路径40a与层叠的侧面26a,26b接合 主体20并与每个平行流动路径50连通。流入路径30a将冷却介质流入每个平行流动路径50.流出路径40a将冷却介质从每个平行流动路径50流出。制冷剂 流路由流入路径30a,每个平行流路50和流出路径40a构成。
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公开(公告)号:US20090302458A1
公开(公告)日:2009-12-10
申请号:US11922945
申请日:2006-06-27
申请人: Hidehito Kubo , Masahiko Kimbara , Keiji Toh , Kota Otoshi , Eiji Kono , Katsufumi Tanaka , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
发明人: Hidehito Kubo , Masahiko Kimbara , Keiji Toh , Kota Otoshi , Eiji Kono , Katsufumi Tanaka , Nobuhiro Wakabayashi , Shintaro Nakagawa , Yuichi Furukawa , Shinobu Yamauchi
IPC分类号: H01L23/367 , H05K7/20
CPC分类号: H05K7/20263 , F28F3/027 , H01L23/3672 , H01L23/473 , H01L2924/0002 , H01L2924/00
摘要: A heat sink (1) for power module is capable of mounting a power device (101) on at least a surface of the heat sink. The heat sink includes a refrigerant passage (1d) in which cooling medium that dissipates heat generated by the power device (101) flows and a corrugated fin body (1a) arranged in the refrigerant passage (1d). The corrugated fin body (1a) has crests (21b) and troughs (21c) that extend in the flow direction of the cooling medium, and side walls (21a) each of which connects the corresponding one of the crests (21b) with the adjacent one of the troughs (21c). Each adjacent pair of the side walls (21a) and the corresponding one of the crests (21b) or the corresponding one of the troughs (21c) arranged between the adjacent side walls (21a) form a fin (21). Each of the side walls (21a) has a louver (31) that operates to, at least, rotate the cooling medium flowing in the associated fin (21). The heat sink (1) thus has a further improved heat dissipating performance.
摘要翻译: 用于功率模块的散热器(1)能够将功率器件(101)安装在散热器的至少一个表面上。 散热器包括散发由动力装置(101)产生的热量的冷却介质流动的制冷剂通路(1d)和布置在制冷剂通路(1d)中的波纹状散热片体(1a)。 波纹状散热片体(1a)具有在冷却介质的流动方向上延伸的波峰(21b)和槽(21c),以及各个顶部(21b)的相应一个与相邻的顶部 一个槽(21c)。 布置在相邻侧壁(21a)之间的每个相邻的一对侧壁(21a)和相应的一个峰(21b)或相应的一个槽(21c)形成翅片(21)。 每个侧壁(21a)具有操作以使至少旋转在相关联的翅片(21)中流动的冷却介质的百叶窗(31)。 因此,散热器(1)具有进一步改善的散热性能。
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公开(公告)号:US20090139704A1
公开(公告)日:2009-06-04
申请号:US11910460
申请日:2006-04-06
申请人: Kota Otoshi , Eiji Kono , Hidehito Kubo , Masahiko Kimbara , Yuichi Furukawa , Shinobu Yamauchi , Ryoichi Hoshino , Nobuhiro Wakabayashi , Shintaro Nakagawa
发明人: Kota Otoshi , Eiji Kono , Hidehito Kubo , Masahiko Kimbara , Yuichi Furukawa , Shinobu Yamauchi , Ryoichi Hoshino , Nobuhiro Wakabayashi , Shintaro Nakagawa
IPC分类号: F28F7/00
CPC分类号: H01L23/367 , H01L23/3677 , H01L23/3735 , H01L23/473 , H01L2924/0002 , H05K1/0306 , H05K3/0061 , H05K3/341 , H05K3/4015 , H05K2201/0373 , H05K2201/09681 , H05K2201/0969 , Y02P70/613 , H01L2924/00
摘要: A heat radiator 1 includes an insulating substrate 3 whose first side serves as a heat-generating-element-mounting side, and a heat sink 5 fixed to a second side of the insulating substrate 3. A metal layer 7 is formed on a side of the insulating substrate 3 opposite the heat-generating-element-mounting side. A stress relaxation member 4 intervenes between the metal layer 7 of the insulating substrate 3 and the heat sink 5. The stress relaxation member 4 is formed of an aluminum plate 10 having a plurality of through holes 9 formed therein, and the through holes 9 serve as stress-absorbing spaces. The stress relaxation member 4 is brazed to the metal layer 7 of the insulating substrate 3 and to the heat sink 5. This heat radiator 1 is low in material cost and exhibits excellent heat radiation performance.
摘要翻译: 散热器1包括第一侧用作发热元件安装侧的绝缘基板3和固定到绝缘基板3的第二侧的散热片5.金属层7形成在 绝缘基板3与发热元件安装侧相反。 应力松弛部件4介于绝缘基板3的金属层7和散热片5之间。应力松弛部件4由形成有多个通孔9的铝板10形成,通孔9 作为应力吸收空间。 应力松弛部件4钎焊到绝缘基板3的金属层7和散热片5.该散热器1的材料成本低,散热性能优异。
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