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1. 发明授权

US07063751B2 Semiconductor substrate formed by epitaxially filling a trench in a semiconductor substrate with a semiconductor material after smoothing the surface and rounding the corners 有权
标题翻译：半导体衬底通过在使表面平滑并使其四舍五入之后用半导体材料外延地填充半导体衬底中的沟槽而形成
公开(公告)号：US07063751B2
公开(公告)日：2006-06-20
申请号：US10132298
申请日：2002-04-26
申请人： Yasushi Urakami , Shoichi Yamauchi , Hitoshi Yamaguchi , Nobuhiro Tsuji
发明人： Yasushi Urakami , Shoichi Yamauchi , Hitoshi Yamaguchi , Nobuhiro Tsuji
IPC分类号： H01L29/12 , H01L29/30 , H01L21/20 , H01L21/36 , H01L29/04
CPC分类号： H01L21/763 , H01L21/30608 , H01L21/761
摘要： A trench is formed in a semiconductor substrate through a mask composed of a silicon oxide film formed on the semiconductor substrate. Then, an edge portion at an opening portion of the mask is etched so that the width of the mask opening width is greater than the width of the trench. After that, the inner surface of the trench is smoothed by thermal treatment around at 1000° C. in non-oxidizing or non-nitriding atmosphere under low pressure. Then, the trench is filled with an epitaxial film. After that, the epitaxial film is polished to complete the substrate.
摘要翻译：通过由形成在半导体衬底上的氧化硅膜构成的掩模，在半导体衬底中形成沟槽。然后，蚀刻掩模的开口部分的边缘部分，使得掩模开口宽度的宽度大于沟槽的宽度。之后，通过在低压下在非氧化或非氮化气氛中在1000℃左右的热处理使沟槽的内表面平滑化。然后，沟槽填充有外延膜。之后，抛光外延膜以完成基板。

2. 发明授权

US06406982B2 Method of improving epitaxially-filled trench by smoothing trench prior to filling 有权
标题翻译：通过在填充之前平滑沟槽来改善外延填充沟槽的方法
公开(公告)号：US06406982B2
公开(公告)日：2002-06-18
申请号：US09870705
申请日：2001-06-01
申请人： Yasushi Urakami , Shoichi Yamauchi , Toshio Sakakibara , Hitoshi Yamaguchi , Nobuhiro Tsuji
发明人： Yasushi Urakami , Shoichi Yamauchi , Toshio Sakakibara , Hitoshi Yamaguchi , Nobuhiro Tsuji
IPC分类号： H01L2120
CPC分类号： H01L21/763 , H01L21/30608 , H01L21/761
摘要： A trench is formed in a semiconductor substrate through a mask composed of a silicon oxide film formed on the semiconductor substrate. Then, an edge portion at an opening portion of the mask is etched so that an opening width thereof is wider than that of the trench. After that, an inner surface of the trench is smoothed by thermal treatment around at 1000° C. in non-oxidizing or non-nitriding atmosphere under low pressure. Then, the trench is filled with an epitaxial film. After that, the epitaxial film is polished, whereby a semiconductor substrate for forming a semiconductor device is obtained.
摘要翻译：通过由形成在半导体衬底上的氧化硅膜构成的掩模，在半导体衬底中形成沟槽。然后，蚀刻掩模的开口部分的边缘部分，使得其开口宽度比沟槽的宽度宽。之后，通过在低压下在非氧化或非氮化气氛中在1000℃左右的热处理使沟槽的内表面平滑化。然后，沟槽填充有外延膜。之后，对该外延膜进行研磨，得到半导体装置的半导体基板。

3. 发明授权

US06495883B2 Trench gate type semiconductor device and method of manufacturing 有权
标题翻译：沟槽型半导体器件及其制造方法
公开(公告)号：US06495883B2
公开(公告)日：2002-12-17
申请号：US10060379
申请日：2002-02-01
申请人： Takumi Shibata , Shoichi Yamauchi , Yasushi Urakami , Toshiyuki Morishita
发明人： Takumi Shibata , Shoichi Yamauchi , Yasushi Urakami , Toshiyuki Morishita
IPC分类号： H01L2976
CPC分类号： H01L29/7813 , H01L29/045 , H01L29/4232 , H01L29/42368 , H01L29/4238
摘要： A semiconductor device has a dielectric strength for a gate oxide film at a trench bottom that is higher than that of side walls used for channels. An n+0 type substrate 1 having substrate plane orientation of (110) is prepared, and the side walls of a trench where channels are formed are in (100) planes. The other, non-channel forming, side walls of the trench are in (110) planes. Thus, the growth rate of the gate oxide film 7 in the non-channel forming side walls and the trench bottom is faster than that in the channel forming side walls. As a result, the film thickness at the non-channel-forming side walls and the trench bottom is greater than that of the channel-forming side walls. Accordingly, the device has high mobility, and there is no drop of dielectric strength due to partial reduction of the thickness of the gate oxide film 7. This achieves both a reduction of the ON resistance and an increase in the dielectric strength of the semiconductor device.
摘要翻译：半导体器件在沟槽底部具有比用于沟道的侧壁高的栅极氧化膜的介电强度。制备具有（110）基板平面取向的n + 0型基板1，并且形成通道的沟槽的侧壁在（100）平面中。沟槽的另一个非通道形成侧壁在（110）平面中。因此，非通道形成侧壁和沟槽底部中的栅极氧化膜7的生长速度比形成沟道的侧壁的生长速度快。结果，在非沟道形成侧壁和沟槽底部处的膜厚度大于沟道形成侧壁的膜厚度。因此，器件具有高迁移率，并且由于栅极氧化膜7的厚度的部分减小而不会降低介电强度。这实现了导通电阻的降低和半导体器件的介电强度的增加。

4. 发明授权

US06642577B2 Semiconductor device including power MOSFET and peripheral device and method for manufacturing the same 有权
标题翻译：包括功率MOSFET和外围设备的半导体器件及其制造方法
公开(公告)号：US06642577B2
公开(公告)日：2003-11-04
申请号：US09804024
申请日：2001-03-13
申请人： Shoichi Yamauchi , Yasushi Urakami
发明人： Shoichi Yamauchi , Yasushi Urakami
IPC分类号： H01L2976
CPC分类号： H01L29/7816 , H01L27/088 , H01L29/4232 , H01L29/4238 , H01L29/78 , H01L29/7801 , H01L29/7813 , H01L29/7823
摘要： First and second trenches are formed on an n+ type substrate at a power MOSFET formation region and a peripheral device formation region, respectively. An n− type epitaxial film, a p type epitaxial film, and an n+ type epitaxial film are deposited on the substrate and in the trenches, and then flattening is performed. As a result, an n− type region is provided in the second trench of the peripheral device formation region. Then, a p type well layer is formed in the n− type region by ion-implantation. Accordingly, a power MOSFET and a peripheral device can been formed at the power MOSFET formation region and the peripheral device formation region easily.
摘要翻译：第一和第二沟槽分别在功率MOSFET形成区域和外围器件形成区域的n +型衬底上形成。在衬底上和沟槽中沉积n型外延膜，p型外延膜和n +型外延膜，然后进行平坦化。结果，在外围器件形成区域的第二沟槽中提供n +型区域。然后，通过离子注入在n +型区域中形成p型阱层。因此，能够容易地在功率MOSFET形成区域和外围器件形成区域形成功率MOSFET和外围器件。

5. 发明授权

US06495294B1 Method for manufacturing semiconductor substrate having an epitaxial film in the trench 有权
标题翻译：在沟槽中制造具有外延膜的半导体衬底的方法
公开(公告)号：US06495294B1
公开(公告)日：2002-12-17
申请号：US09696951
申请日：2000-10-27
申请人： Shoichi Yamauchi , Yasushi Urakami , Kunihiro Onoda , Toshio Sakakibara , Yoshinori Otsuka
发明人： Shoichi Yamauchi , Yasushi Urakami , Kunihiro Onoda , Toshio Sakakibara , Yoshinori Otsuka
IPC分类号： H01L2176
CPC分类号： H01L29/0634 , H01L21/02381 , H01L21/0243 , H01L21/0245 , H01L21/02532 , H01L21/02579 , H01L21/0262 , H01L21/02658 , H01L21/02661 , H01L21/743 , H01L21/761 , H01L29/045
摘要： A trench is formed in a silicon substrate, and an epitaxial film is formed on the substrate and in the trench. After a part of the epitaxial film formed around an opening portion of the trench is etched, another epitaxial film is formed on the substrate and in the trench. Accordingly, the trench can be filled with the epitaxial films completely. Then, the surface of the substrate is flattened.
摘要翻译：在硅衬底中形成沟槽，并且在衬底和沟槽中形成外延膜。在蚀刻形成在沟槽的开口部分周围的外延膜的一部分之后，在衬底和沟槽中形成另外的外延膜。因此，沟槽可以完全被外延膜填充。然后，使基板的表面变平。

6. 发明授权

US09051663B2 Manufacturing method of silicon carbide single crystal 有权
标题翻译：碳化硅单晶的制造方法
公开(公告)号：US09051663B2
公开(公告)日：2015-06-09
申请号：US13305019
申请日：2011-11-28
申请人： Yasushi Urakami , Ayumu Adachi , Itaru Gunjishima
发明人： Yasushi Urakami , Ayumu Adachi , Itaru Gunjishima
IPC分类号： C30B23/00 , C30B29/36 , C30B23/02 , H01L29/16
CPC分类号： C30B29/36 , C30B23/00 , C30B23/025 , H01L29/1608
摘要： A manufacturing method of a SiC single crystal includes a first growth process and a re-growth process. In the first growth process, a first seed crystal made of SiC is used to grow a first SiC single crystal. In the re-growth process, a plurality of growth steps is performed for (n−1) times. In a k-th growth step, a k-th seed crystal is cut out from a grown (k−1)-th SiC single crystal, and the k-th seed crystal is used to grow a k-th SiC single crystal (n≧2 and 2≦k≦n). When an offset angle of a growth surface of the k-th seed crystal is defined as θk, at least in one of the plurality of growth steps, the offset angle θk is smaller than the offset angle θk-1.
摘要翻译： SiC单晶的制造方法包括第一生长工序和再生长工序。在第一生长过程中，使用由SiC制成的第一晶种来生长第一SiC单晶。在再生长过程中，进行多次生长步骤（n-1次）。在第k个生长步骤中，从生长的（k-1）SiC单晶中切出第k个晶种，并且将第k个晶种用于生长第k个SiC单晶（ n≥2和2＆nlE; k＆nlE; n）。当第k种子晶体的生长表面的偏移角被定义为＆amp; k时，至少在多个生长步骤中的一个中，偏移角度θ小于偏移角度θ-k 。

7. 发明申请

US20140091325A1 SiC SINGLE CRYSTAL, PRODUCTION METHOD THEREFOR, SiC WAFER AND SEMICONDUCTOR DEVICE 有权
标题翻译： SiC单晶，其制造方法，SiC波导和半导体器件
公开(公告)号：US20140091325A1
公开(公告)日：2014-04-03
申请号：US14119710
申请日：2012-06-04
申请人： Itaru Gunjishima , Keisuke Shigetoh , Yasushi Urakami , Masanori Yamada , Ayumu Adachi , Masakazu Kobayashi
发明人： Itaru Gunjishima , Keisuke Shigetoh , Yasushi Urakami , Masanori Yamada , Ayumu Adachi , Masakazu Kobayashi
IPC分类号： C30B23/02 , C30B29/36 , H01L29/16
CPC分类号： C30B23/025 , C30B23/005 , C30B29/36 , H01L21/02378 , H01L21/0243 , H01L21/02433 , H01L21/02529 , H01L21/02587 , H01L21/02609 , H01L29/1608 , Y10T428/21
摘要： When an SiC single crystal having a large diameter of a {0001} plane is produced by repeating a-plane growth, the a-plane growth of the SiC single crystal is carried out so that a ratio Sfacet (=S1×100/S2) of an area (S1) of a Si-plane side facet region to a total area (S2) of the growth plane is maintained at 20% or less.
摘要翻译：当通过重复a面生长产生具有{0001}面大直径的SiC单晶时，进行SiC单晶的a面生长，使得Sfacet（= S1×100 / S2）的Si平面侧面面积（S1）与生长面的总面积（S2）保持在20％以下。

8. 发明申请

US20120132132A1 MANUFACTURING METHOD OF SILICON CARBIDE SINGLE CRYSTAL 有权
标题翻译：碳化硅单晶的制造方法
公开(公告)号：US20120132132A1
公开(公告)日：2012-05-31
申请号：US13305019
申请日：2011-11-28
申请人： Yasushi Urakami , Ayumu Adachi , Itaru Gunjishima
发明人： Yasushi Urakami , Ayumu Adachi , Itaru Gunjishima
IPC分类号： C30B23/02
CPC分类号： C30B29/36 , C30B23/00 , C30B23/025 , H01L29/1608
摘要： A manufacturing method of a SiC single crystal includes a first growth process and a re-growth process. In the first growth process, a first seed crystal made of SiC is used to grow a first SiC single crystal. In the re-growth process, a plurality of growth steps is performed for (n−1) times. In a k-th growth step, a k-th seed crystal is cut out from a grown (k−1)-th SiC single crystal, and the k-th seed crystal is used to grow a k-th SiC single crystal (n≧2 and 2≦k≦n). When an offset angle of a growth surface of the k-th seed crystal is defined as θk, at least in one of the plurality of growth steps, the offset angle θk is smaller than the offset angle θk−1.
摘要翻译： SiC单晶的制造方法包括第一生长工序和再生长工序。在第一生长过程中，使用由SiC制成的第一晶种来生长第一SiC单晶。在再生长过程中，进行多次生长步骤（n-1次）。在第k个生长步骤中，从生长的（k-1）SiC单晶中切出第k个晶种，并且将第k个晶种用于生长第k个SiC单晶（ n≥2和2＆nlE; k＆nlE; n）。当第k种子晶体的生长表面的偏移角被定义为＆amp; k时，至少在多个生长步骤中的一个中，偏移角度θ小于偏移角度θ-k 。

9. 发明申请

US20090032965A1 Seminconductor device having P-N column portion 有权
标题翻译：具有P-N柱部分的半导体器件
公开(公告)号：US20090032965A1
公开(公告)日：2009-02-05
申请号：US12216808
申请日：2008-07-10
申请人： Yasushi Urakami , Hitoshi Yamaguchi , Jun Sakakibara
发明人： Yasushi Urakami , Hitoshi Yamaguchi , Jun Sakakibara
IPC分类号： H01L23/48
CPC分类号： H01L29/7813 , H01L29/0615 , H01L29/0619 , H01L29/0634 , H01L29/0638 , H01L29/0878 , H01L29/1095 , H01L29/402 , H01L29/41741 , H01L29/7811 , H01L2924/0002 , H01L2924/00
摘要： A semiconductor device includes: a first semiconductor layer; a p-n column portion over the first semiconductor layer and including second and third semiconductor layers, which are alternately arranged; and a peripheral portion adjacently to the p-n column portion and including a fourth semiconductor layer. An end second semiconductor layer has an impurity amount equal to or larger than a half of other second semiconductor layers. The third semiconductor layers include a large impurity amount portion adjacent to the end second semiconductor layer. The large impurity amount portion includes at least one third semiconductor layer having an impurity amount larger than an impurity amount of other third semiconductor layers.
摘要翻译：一种半导体器件包括：第一半导体层; 在第一半导体层上的p-n列部分，并且包括交替布置的第二和第三半导体层; 以及与p-n列部分相邻并包括第四半导体层的周边部分。端部第二半导体层的杂质量等于或大于其它第二半导体层的一半。第三半导体层包括与端部第二半导体层相邻的大杂质量部分。大杂质量部分包括杂质量大于其它第三半导体层的杂质量的至少一个第三半导体层。

10. 发明申请

US20140027787A1 SIC SINGLE CRYSTAL, SIC WAFER, AND SEMICONDUCTOR DEVICE 有权
标题翻译： SIC单晶，SIC晶圆和半导体器件
公开(公告)号：US20140027787A1
公开(公告)日：2014-01-30
申请号：US14110574
申请日：2012-05-16
申请人： Itaru Gunjishima , Yasushi Urakami , Ayumu Adachi
发明人： Itaru Gunjishima , Yasushi Urakami , Ayumu Adachi
IPC分类号： H01L29/30 , H01L29/16
CPC分类号： H01L29/30 , C30B23/025 , C30B29/36 , H01L21/02378 , H01L21/02433 , H01L21/02529 , H01L21/0254 , H01L29/045 , H01L29/1608 , H01L29/32 , H01L29/861
摘要： An SiC single crystal having at least one orientation region where a basal plane dislocation has a high linearity and is oriented to three crystallographically-equivalent directions, and an SiC wafer and a semiconductor device which are manufactured from the SiC single crystal. The SiC single crystal can be manufactured by using a seed crystal in which the offset angle on a {0001} plane uppermost part side is small and the offset angle on an offset direction downstream side is large and growing another crystal on the seed crystal.
摘要翻译：具有至少一个取向区域的SiC单晶，其中基面位错具有高线性度并且取向为三个晶体上等同的<11-20>方向，以及由SiC单晶制造的SiC晶片和半导体器件。 SiC单晶可以通过使用其中{0001}平面最上部分侧的偏移角小并且偏移方向下游侧的偏移角大并且在晶种上生长另一晶体的晶种来制造。

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