Methods of Fabricating High Voltage MOSFET Having Doped Buried Layer
    1.
    发明申请
    Methods of Fabricating High Voltage MOSFET Having Doped Buried Layer 失效
    制造具有掺杂埋层的高压MOSFET的方法

    公开(公告)号:US20070105298A1

    公开(公告)日:2007-05-10

    申请号:US11620091

    申请日:2007-01-05

    IPC分类号: H01L21/8234

    摘要: A MOSFET includes an insulated gate electrode on a surface of a semiconductor substrate having an impurity region of first conductivity type therein that extends to the surface. Source and drain regions of second conductivity type are provided in the impurity region. The source region includes a highly doped source contract region that extends to the surface and a lightly doped source extension. The lightly doped source extension extends laterally underneath a first end of the insulated gate electrode and defines a source-side P-N junction with the well region. The drain region includes a highly doped drain contact region that extends to the surface and a lightly doped drain extension. The lightly doped drain extension extends laterally underneath a second end of the insulated gate electrode and defines a drain-side P-N junction with the well region. This well region, which extends within the impurity region and defines a non-rectifying junction therewith, is more highly doped than the impurity region. The well region extends opposite the insulated gate electrode and has a sufficient width that dopants therein partially compensate innermost portions of the lightly doped source and drain extensions that extend underneath the insulated gate electrode. However, the well region is not so wide as to provide compensation to remaining portions of the lightly doped source and drain extensions or the source and drain contact regions.

    摘要翻译: MOSFET在半导体衬底的表面上具有绝缘栅电极,其中具有第一导电类型的杂质区延伸到表面。 第二导电类型的源区和漏区设置在杂质区中。 源极区域包括延伸到表面的高掺杂源极接合区域和轻掺杂源极延伸部分。 轻掺杂源极延伸部在绝缘栅电极的第一端下方横向延伸,并且与阱区域限定源极侧P-N结。 漏极区域包括延伸到表面的高度掺杂的漏极接触区域和轻掺杂漏极延伸部分。 轻掺杂的漏极延伸部在绝缘栅电极的第二端下方横向延伸,并且与阱区域限定漏极侧P-N结。 在杂质区域内延伸并且与其限定非整流结的阱区域比杂质区域更高掺杂。 阱区域与绝缘栅电极相对延伸并且具有足够的宽度,其中的掺杂剂部分地补偿在绝缘栅电极下方延伸的轻掺杂源极和漏极延伸部分的最内部分。 然而,阱区域不是如此宽,以便为轻掺杂源极和漏极延伸部分或源极和漏极接触区域的剩余部分提供补偿。

    High voltage MOSFET having doped buried layer
    2.
    发明授权
    High voltage MOSFET having doped buried layer 失效
    具有掺杂埋层的高压MOSFET

    公开(公告)号:US07176538B2

    公开(公告)日:2007-02-13

    申请号:US10860295

    申请日:2004-06-03

    IPC分类号: H01L29/772

    摘要: A MOSFET includes an insulated gate electrode on a surface of a semiconductor substrate having an impurity region of first conductivity type therein that extends to the surface. Source and drain regions of second conductivity type are provided in the impurity region. The source region includes a highly doped source contract region that extends to the surface and a lightly doped source extension. The lightly doped source extension extends laterally underneath a first end of the insulated gate electrode and defines a source-side P-N junction with the well region. The drain region includes a highly doped drain contact region that extends to the surface and a lightly doped drain extension. The lightly doped drain extension extends laterally underneath a second end of the insulated gate electrode and defines a drain-side P-N junction with the well region. This well region, which extends within the impurity region and defines a non-rectifying junction therewith, is more highly doped than the impurity region. The well region extends opposite the insulated gate electrode and has a sufficient width that dopants therein partially compensate innermost portions of the lightly doped source and drain extensions that extend underneath the insulated gate electrode. However, the well region is not so wide as to provide compensation to remaining portions of the lightly doped source and drain extensions or the source and drain contact regions.

    摘要翻译: MOSFET在半导体衬底的表面上具有绝缘栅电极,其中具有第一导电类型的杂质区延伸到表面。 第二导电类型的源区和漏区设置在杂质区中。 源极区域包括延伸到表面的高掺杂源极接合区域和轻掺杂源极延伸部分。 轻掺杂源极延伸部在绝缘栅电极的第一端下方横向延伸,并且与阱区域限定源极侧P-N结。 漏极区域包括延伸到表面的高度掺杂的漏极接触区域和轻掺杂漏极延伸部分。 轻掺杂的漏极延伸部在绝缘栅电极的第二端下方横向延伸,并且与阱区域限定漏极侧P-N结。 在杂质区域内延伸并且与其限定非整流结的阱区域比杂质区域更高掺杂。 阱区域与绝缘栅电极相对延伸并且具有足够的宽度,其中的掺杂剂部分地补偿在绝缘栅电极下方延伸的轻掺杂源极和漏极延伸部分的最内部分。 然而,阱区域不是如此宽,以便为轻掺杂源极和漏极延伸部分或源极和漏极接触区域的剩余部分提供补偿。

    Integrated circuit devices including distributed and isolated dummy conductive regions
    3.
    发明授权
    Integrated circuit devices including distributed and isolated dummy conductive regions 有权
    集成电路器件包括分布和隔离的虚拟导电区域

    公开(公告)号:US06255697B1

    公开(公告)日:2001-07-03

    申请号:US09343997

    申请日:1999-06-30

    IPC分类号: H01L2976

    摘要: An integrated circuit device is fabricated by forming at least one isolation region in an area of a semiconductor substrate, such as a monolithic semiconductor substrate or a silicon on insulator (SOI) substrate. The at least one isolation region defines at least one active region. A plurality of dummy conductive regions is distributed in the area of the semiconductor substrate, with the dummy conductive regions being constrained to overlie the at least one isolation region. The dummy conductive regions may be formed from a conductive layer that is also used to form, for example, a gate electrode, a capacitor electrode or a wiring pattern. The dummy conductive regions may be formed on an insulation layer, e.g., a gate insulation layer or an interlayer dielectric layer. Preferably, the dummy conductive regions are noncontiguous. In one embodiment, a lattice-shaped isolation region is formed including an array of node regions linked by interconnecting regions and defining an array of dummy active regions. The plurality of dummy conductive regions are formed on the node regions of the lattice-shaped isolation region. In another embodiment, an array of isolation regions is formed, defining a lattice-shaped dummy active region. An array of dummy conductive regions is formed on the array of isolation regions. Related integrated circuit devices are also described.

    摘要翻译: 通过在诸如单片半导体衬底或绝缘体上硅(SOI))衬底的半导体衬底的区域中形成至少一个隔离区域来制造集成电路器件。 所述至少一个隔离区域限定至少一个活性区域。 多个虚设导电区域分布在半导体衬底的区域中,其中虚拟导电区域被限制为覆盖至少一个隔离区域。 虚拟导电区域可以由也用于形成例如栅电极,电容器电极或布线图案的导电层形成。 虚拟导电区域可以形成在绝缘层上,例如栅极绝缘层或层间电介质层。 优选地,虚拟导电区域是不连续的。 在一个实施例中,形成格子状隔离区域,其包括通过互连区域链接并限定虚拟活动区域阵列的节点区域阵列。 多个虚设导电区域形成在格子状隔离区域的节点区域上。 在另一个实施例中,形成隔离区域阵列,限定了格状的虚拟有源区域。 在隔离区域阵列上形成一个虚拟导电区域阵列。 还描述了相关的集成电路器件。

    Methods for forming integrated circuit capacitors including dual
electrode depositions
    4.
    发明授权
    Methods for forming integrated circuit capacitors including dual electrode depositions 失效
    用于形成集成电路电容器的方法包括双电极沉积

    公开(公告)号:US5918135A

    公开(公告)日:1999-06-29

    申请号:US867070

    申请日:1997-06-02

    CPC分类号: H01L28/60

    摘要: A method for forming an integrated circuit device includes the steps of forming a first capacitor electrode on a substrate and forming a first wiring electrode on the substrate. An insulating layer is formed on the first capacitor electrode and on the first wiring electrode opposite the substrate. A second capacitor electrode is formed on a portion of the insulating layer opposite the first capacitor electrode. A contact hole is formed in the insulating layer exposing a portion of the first wiring electrode. A second wiring electrode is then formed on the exposed portion of the wiring electrode, after forming the second capacitor electrode. Related structures are also discussed.

    摘要翻译: 一种形成集成电路器件的方法包括以下步骤:在衬底上形成第一电容器电极,并在衬底上形成第一布线电极。 绝缘层形成在第一电容器电极上和与基板相对的第一布线电极上。 第二电容器电极形成在与第一电容器电极相对的绝缘层的一部分上。 在绝缘层中形成暴露第一布线电极的一部分的接触孔。 在形成第二电容器电极之后,在布线电极的露出部分上形成第二布线电极。 还讨论了相关结构。

    Method of fabricating semiconductor device having gate dielectrics with different thicknesses
    5.
    发明授权
    Method of fabricating semiconductor device having gate dielectrics with different thicknesses 有权
    制造具有不同厚度的栅极电介质的半导体器件的方法

    公开(公告)号:US07446000B2

    公开(公告)日:2008-11-04

    申请号:US11826714

    申请日:2007-07-18

    IPC分类号: H01L21/8234

    摘要: A method of fabricating a semiconductor device including gate dielectrics having different thicknesses may be provided. A method of fabricating a semiconductor device may include providing a substrate having a higher voltage device region and a lower voltage device region, forming an anti-oxidation layer on the substrate, and selectively removing portions of the anti-oxidation layer on the substrate. The method may also include performing a first thermal oxidization on the substrate to form a field oxide layer on the selectively removed portions of the anti-oxidation layer, removing the anti-oxidation layer disposed on the higher voltage device region, performing a second thermal oxidization on the substrate to form a central higher voltage gate oxide layer on the higher voltage device region, removing the anti-oxidation layer disposed on the lower voltage device region, and performing a third thermal oxidization on the substrate to form a lower voltage gate oxide layer on the lower voltage device region.

    摘要翻译: 可以提供制造包括具有不同厚度的栅极电介质的半导体器件的方法。 制造半导体器件的方法可以包括提供具有较高电压器件区域和较低电压器件区域的衬底,在衬底上形成抗氧化层,并选择性地去除衬底上的抗氧化层的部分。 该方法还可以包括在衬底上进行第一热氧化以在抗氧化层的选择性去除的部分上形成场氧化物层,去除设置在较高电压器件区上的抗氧化层,进行第二热氧化 在所述衬底上形成在所述较高电压器件区域上的中央较高电压栅极氧化物层,去除设置在所述较低电压器件区域上的所述抗氧化层,并在所述衬底上进行第三热氧化以形成低电压栅极氧化物层 在较低电压器件区域。

    Methods of fabricating high voltage MOSFET having doped buried layer
    6.
    发明授权
    Methods of fabricating high voltage MOSFET having doped buried layer 失效
    制造具有掺杂掩埋层的高压MOSFET的方法

    公开(公告)号:US07381621B2

    公开(公告)日:2008-06-03

    申请号:US11620091

    申请日:2007-01-05

    IPC分类号: H01L21/336

    摘要: A MOSFET includes an insulated gate electrode on a surface of a semiconductor substrate having an impurity region of first conductivity type therein that extends to the surface. Source and drain regions of second conductivity type are provided in the impurity region. The source region includes a highly doped source contract region that extends to the surface and a lightly doped source extension. The lightly doped source extension extends laterally underneath a first end of the insulated gate electrode and defines a source-side P-N junction with the well region. The drain region includes a highly doped drain contact region that extends to the surface and a lightly doped drain extension. The lightly doped drain extension extends laterally underneath a second end of the insulated gate electrode and defines a drain-side P-N junction with the well region. This well region, which extends within the impurity region and defines a non-rectifying junction therewith, is more highly doped than the impurity region. The well region extends opposite the insulated gate electrode and has a sufficient width that dopants therein partially compensate innermost portions of the lightly doped source and drain extensions that extend underneath the insulated gate electrode. However, the well region is not so wide as to provide compensation to remaining portions of the lightly doped source and drain extensions or the source and drain contact regions.

    摘要翻译: MOSFET在半导体衬底的表面上具有绝缘栅电极,其中具有第一导电类型的杂质区延伸到表面。 第二导电类型的源区和漏区设置在杂质区中。 源极区域包括延伸到表面的高掺杂源极接合区域和轻掺杂源极延伸部分。 轻掺杂源极延伸部在绝缘栅电极的第一端下方横向延伸,并且与阱区域限定源极侧P-N结。 漏极区域包括延伸到表面的高度掺杂的漏极接触区域和轻掺杂漏极延伸部分。 轻掺杂的漏极延伸部在绝缘栅电极的第二端下方横向延伸,并且与阱区域限定漏极侧P-N结。 在杂质区域内延伸并且与其限定非整流结的阱区域比杂质区域更高掺杂。 阱区域与绝缘栅电极相对延伸并且具有足够的宽度,其中的掺杂剂部分地补偿在绝缘栅电极下方延伸的轻掺杂源极和漏极延伸部分的最内部分。 然而,阱区域不是如此宽,以便为轻掺杂源极和漏极延伸部分或源极和漏极接触区域的剩余部分提供补偿。

    Method of fabricating semiconductor device having gate dielectrics with different thicknesses

    公开(公告)号:US20080124873A1

    公开(公告)日:2008-05-29

    申请号:US11826714

    申请日:2007-07-18

    IPC分类号: H01L21/8236

    摘要: A method of fabricating a semiconductor device including gate dielectrics having different thicknesses may be provided. A method of fabricating a semiconductor device may include providing a substrate having a higher voltage device region and a lower voltage device region, forming an anti-oxidation layer on the substrate, and selectively removing portions of the anti-oxidation layer on the substrate. The method may also include performing a first thermal oxidization on the substrate to form a field oxide layer on the selectively removed portions of the anti-oxidation layer, removing the anti-oxidation layer disposed on the higher voltage device region, performing a second thermal oxidization on the substrate to form a central higher voltage gate oxide layer on the higher voltage device region, removing the anti-oxidation layer disposed on the lower voltage device region, and performing a third thermal oxidization on the substrate to form a lower voltage gate oxide layer on the lower voltage device region.

    Semiconductor devices with multiple isolation structure and methods for fabricating the same
    8.
    发明授权
    Semiconductor devices with multiple isolation structure and methods for fabricating the same 有权
    具有多重隔离结构的半导体器件及其制造方法

    公开(公告)号:US06815794B2

    公开(公告)日:2004-11-09

    申请号:US10373445

    申请日:2003-02-25

    IPC分类号: H01L2900

    摘要: Semiconductor devices with a multiple isolation structure and methods for fabricating the same are provided. In one aspect, a semiconductor device comprises a heavily doped buried layer having a first conductivity type, which is formed in a predetermined region of a semiconductor substrate, and an epitaxial layer having the first conductivity type, which covers an entire surface of the semiconductor substrate. A device isolation structure is disposed such that the device isolation structure penetrates the epitaxial layer and a portion of the semiconductor substrate to define a device region. The device isolation structure includes an upper isolation structure penetrating an epitaxial layer as well as a lower isolation structure formed in the semiconductor substrate under the upper isolation structure.

    Methods of fabricating integrated circuit devices including distributed and isolated dummy conductive regions
    9.
    发明授权
    Methods of fabricating integrated circuit devices including distributed and isolated dummy conductive regions 有权
    制造集成电路器件的方法包括分布和隔离的虚拟导电区域

    公开(公告)号:US06656814B2

    公开(公告)日:2003-12-02

    申请号:US09825179

    申请日:2001-04-03

    IPC分类号: H01L2176

    摘要: An integrated circuit device is fabricated by forming at least one isolation region in an area of a semiconductor substrate, such as a monolithic semiconductor substrate or a silicon on insulator (SOI) substrate. The at least one isolation region defines at least one active region. A plurality of dummy conductive regions is distributed in the area of the semiconductor substrate, with the dummy conductive regions being constrained to overlie the at least one isolation region. The dummy conductive regions may be formed from a conductive layer that is also used to form, for example, a gate electrode, a capacitor electrode or a wiring pattern. The dummy conductive regions may be formed on an insulation layer, e.g., a gate insulation layer or an interlayer dielectric layer. Preferably, the dummy conductive regions are noncontiguous. In one embodiment, a lattice-shaped isolation region is formed including an array of node regions linked by interconnecting regions and defining an array of dummy active regions. The plurality of dummy conductive regions are formed on the node regions of the lattice-shaped isolation region. In another embodiment, an array of isolation regions is formed, defining a lattice-shaped dummy active region. An array of dummy conductive regions is formed on the array of isolation regions. Related integrated circuit devices are also described.

    摘要翻译: 通过在诸如单片半导体衬底或绝缘体上硅(SOI))衬底的半导体衬底的区域中形成至少一个隔离区域来制造集成电路器件。 所述至少一个隔离区域限定至少一个活性区域。 多个虚设导电区域分布在半导体衬底的区域中,其中虚拟导电区域被限制为覆盖至少一个隔离区域。 虚拟导电区域可以由也用于形成例如栅电极,电容器电极或布线图案的导电层形成。 虚拟导电区域可以形成在绝缘层上,例如栅极绝缘层或层间电介质层。 优选地,虚拟导电区域是不连续的。 在一个实施例中,形成格子状隔离区域,其包括通过互连区域链接并限定虚拟活动区域阵列的节点区域阵列。 多个虚设导电区域形成在格子状隔离区域的节点区域上。 在另一个实施例中,形成隔离区域阵列,限定了格状的虚拟有源区域。 在隔离区域阵列上形成一个虚拟导电区域阵列。 还描述了相关的集成电路器件。