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1.发明申请Termination Structure with Multiple Embedded Potential Spreading Capacitive Structures for Trench MOSFET and Method 有权具有多个嵌入式电位扩展结构的端接结构,用于沟槽MOSFET和方法公开(公告)号:US20140167212A1
公开(公告)日:2014-06-19
申请号:US13712980
申请日:2012-12-13
申请人: Xiaobin Wang , Anup Bhalla , Hamza Yilmaz , Daniel Ng
发明人: Xiaobin Wang , Anup Bhalla , Hamza Yilmaz , Daniel Ng
IPC分类号: H01L21/762 , H01L29/06
CPC分类号: H01L29/407 , H01L21/76205 , H01L29/04 , H01L29/0619 , H01L29/0638 , H01L29/0649 , H01L29/0696 , H01L29/402 , H01L29/41766 , H01L29/42368 , H01L29/66727 , H01L29/66734 , H01L29/7803 , H01L29/7811 , H01L29/7813 , H01L2924/0002 , H01L2924/00
摘要: A termination structure with multiple embedded potential spreading capacitive structures (TSMEC) and method are disclosed for terminating an adjacent trench MOSFET atop a bulk semiconductor layer (BSL) with bottom drain electrode. The BSL has a proximal bulk semiconductor wall (PBSW) supporting drain-source voltage (DSV) and separating TSMEC from trench MOSFET. The TSMEC has oxide-filled large deep trench (OFLDT) bounded by PBSW and a distal bulk semiconductor wall (DBSW). The OFLDT includes a large deep oxide trench into the BSL and embedded capacitive structures (EBCS) located inside the large deep oxide trench and between PBSW and DBSW for spatially spreading the DSV across them. In one embodiment, the EBCS contains interleaved conductive embedded polycrystalline semiconductor regions (EPSR) and oxide columns (OXC) of the OFLDT, a proximal EPSR next to PBSW is connected to an active upper source region and a distal EPSR next to DBSW is connected to the DBSW.
摘要翻译: 公开了具有多个嵌入式电位扩展电容结构(TSMEC)和方法的端接结构,用于在具有底部漏电极的体半导体层(BSL)的顶部端接邻近的沟槽MOSFET。 BSL具有支持漏极 - 源极电压(DSV)的近端体半导体壁(PBSW),并将TSMEC与沟槽MOSFET分离。 TSMEC具有由PBSW和远端体半导体壁(DBSW)界定的氧化物填充的大深沟槽(OFLDT)。 OFLDT包括位于大深度氧化物沟槽内部以及PBSW和DBSW之间的BSL中的大型深层氧化物沟槽和嵌入式电容结构(EBCS),用于在其间空间扩展DSV。 在一个实施例中,EBCS包含OFLDT的交错导电嵌入式多晶半导体区域(EPSR)和氧化物柱(OXC),与PBSW相邻的近端EPSR连接到活动上部源区域,并且与DBSW相邻的远端EPSR被连接到 星展集团
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2.发明申请Termination Structure with Multiple Embedded Potential Spreading Capacitive Structures for Trench MOSFET and Method 有权具有多个嵌入式电位扩展结构的端接结构,用于沟槽MOSFET和方法公开(公告)号:US20110198605A1
公开(公告)日:2011-08-18
申请号:US12704528
申请日:2010-02-12
申请人: Xiaobin Wang , Anup Bhalla , Hamza Yilmaz , Daniel Ng
发明人: Xiaobin Wang , Anup Bhalla , Hamza Yilmaz , Daniel Ng
CPC分类号: H01L29/407 , H01L21/76205 , H01L29/04 , H01L29/0619 , H01L29/0638 , H01L29/0649 , H01L29/0696 , H01L29/402 , H01L29/41766 , H01L29/42368 , H01L29/66727 , H01L29/66734 , H01L29/7803 , H01L29/7811 , H01L29/7813 , H01L2924/0002 , H01L2924/00
摘要: A termination structure with multiple embedded potential spreading capacitive structures (TSMEC) and method are disclosed for terminating an adjacent trench MOSFET atop a bulk semiconductor layer (BSL) with bottom drain electrode. The BSL has a proximal bulk semiconductor wall (PBSW) supporting drain-source voltage (DSV) and separating TSMEC from trench MOSFET. The TSMEC has oxide-filled large deep trench (OFLDT) bounded by PBSW and a distal bulk semiconductor wall (DBSW). The OFLDT includes a large deep oxide trench into the BSL and embedded capacitive structures (EBCS) located inside the large deep oxide trench and between PBSW and DBSW for spatially spreading the DSV across them. In one embodiment, the EBCS contains interleaved conductive embedded polycrystalline semiconductor regions (EPSR) and oxide columns (OXC) of the OFLDT, a proximal EPSR next to PBSW is connected to an active upper source region and a distal EPSR next to DBSW is connected to the DBSW.
摘要翻译: 公开了具有多个嵌入式电位扩展电容结构(TSMEC)和方法的端接结构,用于在具有底部漏电极的体半导体层(BSL)的顶部端接邻近的沟槽MOSFET。 BSL具有支持漏极 - 源极电压(DSV)的近端体半导体壁(PBSW),并将TSMEC与沟槽MOSFET分离。 TSMEC具有由PBSW和远端体半导体壁(DBSW)界定的氧化物填充的大深沟槽(OFLDT)。 OFLDT包括位于大深度氧化物沟槽内部以及PBSW和DBSW之间的BSL中的大型深层氧化物沟槽和嵌入式电容结构(EBCS),用于在其间空间扩展DSV。 在一个实施例中,EBCS包含OFLDT的交错导电嵌入式多晶半导体区域(EPSR)和氧化物柱(OXC),与PBSW相邻的近端EPSR连接到活动上部源区域,并且与DBSW相邻的远端EPSR被连接到 星展集团
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3.发明授权Termination structure with multiple embedded potential spreading capacitive structures for trench MOSFET and method 有权具有多个嵌入式电位扩展电容结构的端接结构,用于沟槽MOSFET和方法公开(公告)号:US08399925B2
公开(公告)日:2013-03-19
申请号:US12704528
申请日:2010-02-12
申请人: Xiaobin Wang , Anup Bhalla , Hamza Yilmaz , Daniel Ng
发明人: Xiaobin Wang , Anup Bhalla , Hamza Yilmaz , Daniel Ng
IPC分类号: H01L29/66
CPC分类号: H01L29/407 , H01L21/76205 , H01L29/04 , H01L29/0619 , H01L29/0638 , H01L29/0649 , H01L29/0696 , H01L29/402 , H01L29/41766 , H01L29/42368 , H01L29/66727 , H01L29/66734 , H01L29/7803 , H01L29/7811 , H01L29/7813 , H01L2924/0002 , H01L2924/00
摘要: A termination structure with multiple embedded potential spreading capacitive structures (TSMEC) and method are disclosed for terminating an adjacent trench MOSFET atop a bulk semiconductor layer (BSL) with bottom drain electrode. The BSL has a proximal bulk semiconductor wall (PBSW) supporting drain-source voltage (DSV) and separating TSMEC from trench MOSFET. The TSMEC has oxide-filled large deep trench (OFLDT) bounded by PBSW and a distal bulk semiconductor wall (DBSW). The OFLDT includes a large deep oxide trench into the BSL and embedded capacitive structures (EBCS) located inside the large deep oxide trench and between PBSW and DBSW for spatially spreading the DSV across them. In one embodiment, the EBCS contains interleaved conductive embedded polycrystalline semiconductor regions (EPSR) and oxide columns (OXC) of the OFLDT, a proximal EPSR next to PBSW is connected to an active upper source region and a distal EPSR next to DBSW is connected to the DBSW.
摘要翻译: 公开了具有多个嵌入式电位扩展电容结构(TSMEC)和方法的端接结构,用于在具有底部漏电极的体半导体层(BSL)的顶部端接邻近的沟槽MOSFET。 BSL具有支持漏极 - 源极电压(DSV)的近端体半导体壁(PBSW),并将TSMEC与沟槽MOSFET分离。 TSMEC具有由PBSW和远端体半导体壁(DBSW)界定的氧化物填充的大深沟槽(OFLDT)。 OFLDT包括位于大深度氧化物沟槽内部以及PBSW和DBSW之间的BSL中的大型深层氧化物沟槽和嵌入式电容结构(EBCS),用于在其间空间扩展DSV。 在一个实施例中,EBCS包含OFLDT的交错导电嵌入式多晶半导体区域(EPSR)和氧化物柱(OXC),与PBSW相邻的近端EPSR连接到活动上部源区域,并且与DBSW相邻的远端EPSR被连接到 星展集团
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公开(公告)号:US20100163846A1
公开(公告)日:2010-07-01
申请号:US12319164
申请日:2008-12-31
申请人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
发明人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
CPC分类号: H01L29/7827 , H01L29/0619 , H01L29/0634 , H01L29/0638 , H01L29/0649 , H01L29/0653 , H01L29/0696 , H01L29/0878 , H01L29/404 , H01L29/66136 , H01L29/66348 , H01L29/66666 , H01L29/66734 , H01L29/7322 , H01L29/7395 , H01L29/7397 , H01L29/7802 , H01L29/7811 , H01L29/7813 , H01L29/8083 , H01L29/861 , H01L29/872
摘要: This invention discloses a semiconductor power device disposed in a semiconductor substrate and the semiconductor substrate has a plurality of trenches. Each of the trenches is filled with a plurality of epitaxial layers of alternating conductivity types constituting nano tubes functioning as conducting channels stacked as layers extending along a sidewall direction with a “Gap Filler” layer filling a merging-gap between the nano tubes disposed substantially at a center of each of the trenches. The “Gap Filler” layer can be very lightly doped Silicon or grown and deposited dielectric layer. In an exemplary embodiment, the plurality of trenches are separated by pillar columns each having a width approximately half to one-third of a width of the trenches.
摘要翻译: 本发明公开了一种设置在半导体衬底中的半导体功率器件,半导体衬底具有多个沟槽。 每个沟槽填充有多个交替导电类型的外延层,其构成纳米管,其功能是作为沿着侧壁方向延伸的层堆叠的导电通道,“间隙填充”层填充基本上位于其上的纳米管之间的合并间隙 每个沟渠的中心。 “间隙填料”层可以非常轻掺杂硅或生长和沉积的介电层。 在一个示例性实施例中,多个沟槽被柱柱分隔开,柱柱各自具有沟槽宽度的大约一半到三分之一的宽度。
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5.发明申请NANO MOSFET WITH TRENCH BOTTOM OXIDE SHIELDED AND THIRD DIMENSIONAL P-BODY CONTACT 有权NANO MOSFET,带有TRENCH BOTTOM OXIDE SILIELDED和第三维P-BODY接触公开(公告)号:US20130200451A1
公开(公告)日:2013-08-08
申请号:US13364948
申请日:2012-02-02
申请人: Hamza Yilmaz , Daniel Ng , Daniel Calafut , Madhur Bobde , Anup Bhalla , Ji Pan , Yeeheng Lee , Jongoh Kim
发明人: Hamza Yilmaz , Daniel Ng , Daniel Calafut , Madhur Bobde , Anup Bhalla , Ji Pan , Yeeheng Lee , Jongoh Kim
IPC分类号: H01L29/78 , H01L21/336
CPC分类号: H01L29/7813 , H01L21/26586 , H01L27/088 , H01L29/0623 , H01L29/0626 , H01L29/086 , H01L29/0865 , H01L29/0869 , H01L29/1095 , H01L29/404 , H01L29/407 , H01L29/41766 , H01L29/4236 , H01L29/42368 , H01L29/456 , H01L29/66727 , H01L29/66734 , H01L29/7811
摘要: A semiconductor power device may include a lightly doped layer formed on a heavily doped layer. One or more devices are formed in the lightly doped layer. Each device may include a body region, a source region, and one or more gate electrodes formed in corresponding trenches in the lightly doped region. Each of the trenches has a depth in a first dimension, a width in a second dimension and a length in a third dimension. The body region is of opposite conductivity type to the lightly and heavily doped layers. The source region is formed proximate the upper surface. One or more deep contacts are formed at one or more locations along the third dimension proximate one or more of the trenches. The contacts extend in the first direction from the upper surface into the lightly doped layer and are in electrical contact with the source region.
摘要翻译: 半导体功率器件可以包括在重掺杂层上形成的轻掺杂层。 在轻掺杂层中形成一个或多个器件。 每个器件可以包括主体区域,源极区域和形成在轻掺杂区域中的对应沟槽中的一个或多个栅电极。 每个沟槽具有第一维度的深度,第二维度中的宽度和第三维度中的长度。 体区与轻掺杂层和重掺杂层具有相反的导电类型。 源区域靠近上表面形成。 在靠近一个或多个沟槽的第三维度的一个或多个位置处形成一个或多个深触点。 触点在第一方向上从上表面延伸到轻掺杂层中并与源区电接触。
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公开(公告)号:US07943989B2
公开(公告)日:2011-05-17
申请号:US12319164
申请日:2008-12-31
申请人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
发明人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
IPC分类号: H01L29/66
CPC分类号: H01L29/7827 , H01L29/0619 , H01L29/0634 , H01L29/0638 , H01L29/0649 , H01L29/0653 , H01L29/0696 , H01L29/0878 , H01L29/404 , H01L29/66136 , H01L29/66348 , H01L29/66666 , H01L29/66734 , H01L29/7322 , H01L29/7395 , H01L29/7397 , H01L29/7802 , H01L29/7811 , H01L29/7813 , H01L29/8083 , H01L29/861 , H01L29/872
摘要: This invention discloses a semiconductor power device disposed in a semiconductor substrate and the semiconductor substrate has a plurality of trenches. Each of the trenches is filled with a plurality of epitaxial layers of alternating conductivity types constituting nano tubes functioning as conducting channels stacked as layers extending along a sidewall direction with a “Gap Filler” layer filling a merging-gap between the nano tubes disposed substantially at a center of each of the trenches. The “Gap Filler” layer can be very lightly doped Silicon or grown and deposited dielectric layer. In an exemplary embodiment, the plurality of trenches are separated by pillar columns each having a width approximately half to one-third of a width of the trenches.
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公开(公告)号:US20130221430A1
公开(公告)日:2013-08-29
申请号:US13594837
申请日:2012-08-26
申请人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
发明人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
CPC分类号: H01L29/7827 , H01L29/0619 , H01L29/0634 , H01L29/0638 , H01L29/0649 , H01L29/0653 , H01L29/0696 , H01L29/0878 , H01L29/404 , H01L29/66136 , H01L29/66348 , H01L29/66666 , H01L29/66734 , H01L29/7322 , H01L29/7395 , H01L29/7397 , H01L29/7802 , H01L29/7811 , H01L29/7813 , H01L29/8083 , H01L29/861 , H01L29/872
摘要: This invention discloses a semiconductor power device disposed in a semiconductor substrate and the semiconductor substrate has a plurality of trenches. Each of the trenches is filled with a plurality of epitaxial layers of alternating conductivity types constituting nano tubes functioning as conducting channels stacked as layers extending along a sidewall direction with a “Gap Filler” layer filling a merging-gap between the nano tubes disposed substantially at a center of each of the trenches. The “Gap Filler” layer can be very lightly doped Silicon or grown and deposited dielectric layer. In an exemplary embodiment, the plurality of trenches are separated by pillar columns each having a width approximately half to one-third of a width of the trenches.
摘要翻译: 本发明公开了一种设置在半导体衬底中的半导体功率器件,半导体衬底具有多个沟槽。 每个沟槽填充有多个交替导电类型的外延层,其构成纳米管,其功能是作为沿着侧壁方向延伸的层堆叠的导电通道,“间隙填充”层填充基本上位于其上的纳米管之间的合并间隙 每个沟渠的中心。 “间隙填料”层可以非常轻掺杂硅或生长和沉积的介电层。 在一个示例性实施例中,多个沟槽被柱柱分隔开,柱柱各自具有沟槽宽度的大约一半到三分之一的宽度。
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8.发明授权Nano MOSFET with trench bottom oxide shielded and third dimensional P-body contact 有权具有沟槽底部氧化物屏蔽和三维P体接触的纳米MOSFET公开(公告)号:US08785278B2
公开(公告)日:2014-07-22
申请号:US13364948
申请日:2012-02-02
申请人: Hamza Yilmaz , Daniel Ng , Daniel Calafut , Madhur Bobde , Anup Bhalla , Ji Pan , Yeeheng Lee , Jongoh Kim
发明人: Hamza Yilmaz , Daniel Ng , Daniel Calafut , Madhur Bobde , Anup Bhalla , Ji Pan , Yeeheng Lee , Jongoh Kim
IPC分类号: H01L21/331
CPC分类号: H01L29/7813 , H01L21/26586 , H01L27/088 , H01L29/0623 , H01L29/0626 , H01L29/086 , H01L29/0865 , H01L29/0869 , H01L29/1095 , H01L29/404 , H01L29/407 , H01L29/41766 , H01L29/4236 , H01L29/42368 , H01L29/456 , H01L29/66727 , H01L29/66734 , H01L29/7811
摘要: A semiconductor power device may include a lightly doped layer formed on a heavily doped layer. One or more devices are formed in the lightly doped layer. Each device may include a body region, a source region, and one or more gate electrodes formed in corresponding trenches in the lightly doped region. Each of the trenches has a depth in a first dimension, a width in a second dimension and a length in a third dimension. The body region is of opposite conductivity type to the lightly and heavily doped layers. The source region is formed proximate the upper surface. One or more deep contacts are formed at one or more locations along the third dimension proximate one or more of the trenches. The contacts extend in the first direction from the upper surface into the lightly doped layer and are in electrical contact with the source region.
摘要翻译: 半导体功率器件可以包括在重掺杂层上形成的轻掺杂层。 在轻掺杂层中形成一个或多个器件。 每个器件可以包括主体区域,源极区域和形成在轻掺杂区域中的对应沟槽中的一个或多个栅电极。 每个沟槽具有第一维度的深度,第二维度中的宽度和第三维度中的长度。 体区与轻掺杂层和重掺杂层具有相反的导电类型。 源区域靠近上表面形成。 在靠近一个或多个沟槽的第三维度的一个或多个位置处形成一个或多个深触点。 触点在第一方向上从上表面延伸到轻掺杂层中并与源区电接触。
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公开(公告)号:US09024375B2
公开(公告)日:2015-05-05
申请号:US13594837
申请日:2012-08-26
申请人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
发明人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
IPC分类号: H01L29/66 , H01L29/78 , H01L29/732 , H01L29/739 , H01L29/808 , H01L29/861 , H01L29/872 , H01L29/06 , H01L29/08 , H01L29/40
CPC分类号: H01L29/7827 , H01L29/0619 , H01L29/0634 , H01L29/0638 , H01L29/0649 , H01L29/0653 , H01L29/0696 , H01L29/0878 , H01L29/404 , H01L29/66136 , H01L29/66348 , H01L29/66666 , H01L29/66734 , H01L29/7322 , H01L29/7395 , H01L29/7397 , H01L29/7802 , H01L29/7811 , H01L29/7813 , H01L29/8083 , H01L29/861 , H01L29/872
摘要: This invention discloses a semiconductor power device disposed in a semiconductor substrate and the semiconductor substrate has a plurality of trenches. Each of the trenches is filled with a plurality of epitaxial layers of alternating conductivity types constituting nano tubes functioning as conducting channels stacked as layers extending along a sidewall direction with a “Gap Filler” layer filling a merging-gap between the nano tubes disposed substantially at a center of each of the trenches. The “Gap Filler” layer can be very lightly doped Silicon or grown and deposited dielectric layer. In an exemplary embodiment, the plurality of trenches are separated by pillar columns each having a width approximately half to one-third of a width of the trenches.
摘要翻译: 本发明公开了一种设置在半导体衬底中的半导体功率器件,半导体衬底具有多个沟槽。 每个沟槽填充有多个交替导电类型的外延层,其构成纳米管,其功能是作为沿着侧壁方向延伸的层堆叠的导电通道,“间隙填充”层填充基本上位于其上的纳米管之间的合并间隙 每个沟渠的中心。 “间隙填料”层可以非常轻掺杂硅或生长和沉积的介电层。 在一个示例性实施例中,多个沟槽被柱柱分隔开,柱柱各自具有沟槽宽度的大约一半到三分之一的宽度。
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公开(公告)号:US08263482B2
公开(公告)日:2012-09-11
申请号:US13065880
申请日:2011-03-31
申请人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
发明人: Hamza Yilmaz , Daniel Ng , Lingpeng Guan , Anup Bhalla , Wilson Ma , Moses Ho , John Chen
CPC分类号: H01L29/7827 , H01L29/0619 , H01L29/0634 , H01L29/0638 , H01L29/0649 , H01L29/0653 , H01L29/0696 , H01L29/0878 , H01L29/404 , H01L29/66136 , H01L29/66348 , H01L29/66666 , H01L29/66734 , H01L29/7322 , H01L29/7395 , H01L29/7397 , H01L29/7802 , H01L29/7811 , H01L29/7813 , H01L29/8083 , H01L29/861 , H01L29/872
摘要: This invention discloses a semiconductor power device disposed in a semiconductor substrate and the semiconductor substrate has a plurality of trenches. Each of the trenches is filled with a plurality of epitaxial layers of alternating conductivity types constituting nano tubes functioning as conducting channels stacked as layers extending along a sidewall direction with a “Gap Filler” layer filling a merging-gap between the nano tubes disposed substantially at a center of each of the trenches. The “Gap Filler” layer can be very lightly doped Silicon or grown and deposited dielectric layer. In an exemplary embodiment, the plurality of trenches are separated by pillar columns each having a width approximately half to one-third of a width of the trenches.
摘要翻译: 本发明公开了一种设置在半导体衬底中的半导体功率器件,半导体衬底具有多个沟槽。 每个沟槽填充有多个交替导电类型的外延层,其构成纳米管,其功能是作为沿着侧壁方向延伸的层堆叠的导电通道,“间隙填充”层填充基本上位于其上的纳米管之间的合并间隙 每个沟渠的中心。 “间隙填料”层可以非常轻掺杂硅或生长和沉积的介电层。 在一个示例性实施例中,多个沟槽被柱柱分隔开,柱柱各自具有沟槽宽度的大约一半到三分之一的宽度。
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