会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • VERTICAL SOI BIPOLAR JUNCTION TRANSISTOR AND MANUFACTURING METHOD THEREOF
    • 垂直SOI双极晶体管及其制造方法
    • US20110233727A1
    • 2011-09-29
    • US13055577
    • 2010-07-14
    • Jing ChenJiexin LuoQingqing WuJianhua ZhouXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuJianhua ZhouXiaolu HuangXi Wang
    • H01L29/70H01L21/328
    • H01L29/7317H01L29/66265
    • The present invention discloses a vertical SOI bipolar junction transistor and a manufacturing method thereof. The bipolar junction transistor includes an SOI substrate from down to up including a body region, a buried oxide layer and a top silicon film; an active region located in the top silicon film formed by STI process; a collector region located in the active region deep close to the buried oxide layer formed by ion implantation; a base region located in the active region deep close to the top silicon film formed by ion implantation; an emitter and a base electrode both located over the base region; a side-wall spacer located around the emitter and the base electrode. The present invention utilizing a simple double poly silicon technology not only can improve the performance of the transistor, but also can reduce the area of the active region in order to increase the integration density. Furthermore, the present invention utilizes side-wall spacer process to improve the compatibility of SOI BJT and SOI CMOS, which simplifies the SOI BiCMOS process and thus reduce the cost.
    • 本发明公开了一种垂直SOI双极结型晶体管及其制造方法。 双极结型晶体管包括从下到上的包括主体区域,掩埋氧化物层和顶部硅膜的SOI衬底; 位于由STI工艺形成的顶部硅膜中的有源区; 位于靠近由离子注入形成的掩埋氧化物层的有源区域的集电极区域; 位于靠近通过离子注入形成的顶部硅膜的深度的有源区域中的基极区域; 发射极和基极两者都位于基极区域之上; 位于发射极和基极周围的侧壁间隔物。 利用简单的双重多晶硅技术的本发明不仅可以改善晶体管的性能,而且可以减小有源区的面积,以增加集成密度。 此外,本发明利用侧壁间隔物工艺来改善SOI BJT和SOI CMOS的相容性,这简化了SOI BiCMOS工艺,从而降低了成本。
    • 2. 发明授权
    • Vertical SOI bipolar junction transistor and manufacturing method thereof
    • 垂直SOI双极结型晶体管及其制造方法
    • US08629029B2
    • 2014-01-14
    • US13055577
    • 2010-07-14
    • Jing ChenJiexin LuoQingqing WuJianhua ZhouXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuJianhua ZhouXiaolu HuangXi Wang
    • H01L21/331
    • H01L29/7317H01L29/66265
    • The present invention discloses a vertical SOI bipolar junction transistor and a manufacturing method thereof. The bipolar junction transistor includes an SOI substrate from down to up including a body region, a buried oxide layer and a top silicon film; an active region located in the top silicon film formed by STI process; a collector region located in the active region deep close to the buried oxide layer formed by ion implantation; a base region located in the active region deep close to the top silicon film formed by ion implantation; an emitter and a base electrode both located over the base region; a side-wall spacer located around the emitter and the base electrode. The present invention utilizing a simple double poly silicon technology not only can improve the performance of the transistor, but also can reduce the area of the active region in order to increase the integration density. Furthermore, the present invention utilizes side-wall spacer process to improve the compatibility of SOI BJT and SOI CMOS, which simplifies the SOI BiCMOS process and thus reduce the cost.
    • 本发明公开了一种垂直SOI双极结型晶体管及其制造方法。 双极结型晶体管包括从下到上的包括主体区域,掩埋氧化物层和顶部硅膜的SOI衬底; 位于由STI工艺形成的顶部硅膜中的有源区; 位于靠近由离子注入形成的掩埋氧化物层的有源区域的集电极区域; 位于靠近通过离子注入形成的顶部硅膜的深度的有源区域中的基极区域; 发射极和基极两者都位于基极区域之上; 位于发射极和基极周围的侧壁间隔物。 利用简单的双重多晶硅技术的本发明不仅可以改善晶体管的性能,而且可以减小有源区的面积,以增加集成密度。 此外,本发明利用侧壁间隔物工艺来改善SOI BJT和SOI CMOS的相容性,这简化了SOI BiCMOS工艺,从而降低了成本。
    • 4. 发明申请
    • SOI MOS DEVICE HAVING BTS STRUCTURE AND MANUFACTURING METHOD THEREOF
    • 具有BTS结构的SOI MOS器件及其制造方法
    • US20120012931A1
    • 2012-01-19
    • US13132879
    • 2010-09-07
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • H01L29/78H01L21/336
    • H01L29/78615H01L29/458H01L29/78621
    • The present invention discloses a SOI MOS device having BTS structure and manufacturing method thereof. The source region of the SOI MOS device comprises: two heavily doped N-type regions, a heavily doped P-type region formed between the two heavily doped N-type regions, a silicide formed above the heavily doped N-type regions and the heavily doped P-type region, and a shallow N-type region which is contact to the silicide; an ohmic contact is formed between the heavily doped P-type region and the silicide thereon to release the holes accumulated in body region of the SOI MOS device and eliminate floating body effects thereof without increasing the chip area and also overcome the disadvantages such as decreased effective channel width of the devices in the BTS structure of the prior art. The manufacturing method comprises steps of: forming a heavily doped P-type region via ion implantation, forming a metal layer above the source region and forming a silicide via the heat treatment between the metal layer and the Si underneath. The device in the present invention could be fabricated via simplified fabricating process with great compatibility with traditional CMOS technology.
    • 本发明公开了一种具有BTS结构的SOI MOS器件及其制造方法。 SOI MOS器件的源极区域包括:两个重掺杂N型区域,形成在两个重掺杂N型区域之间的重掺杂P型区域,在重掺杂N型区域上形成的硅化物, 掺杂P型区域和与硅化物接触的浅N型区域; 在重掺杂的P型区域和其上的硅化物之间形成欧姆接触以释放积聚在SOI MOS器件的体区中的空穴,并且消除其浮体效应而不增加芯片面积,并且还克服了诸如降低有效性 现有技术的BTS结构中的设备的信道宽度。 该制造方法包括以下步骤:通过离子注入形成重掺杂的P型区,在源区上方形成金属层,并通过金属层与Si之间的Si之间的热处理形成硅化物。 本发明中的器件可以通过简化的制造工艺制造,与传统CMOS技术具有很好的兼容性。
    • 5. 发明申请
    • MOS Structure with Suppressed SOI Floating Body Effect and Manufacturing Method thereof
    • 具有抑制SOI浮体效应的MOS结构及其制造方法
    • US20110291191A1
    • 2011-12-01
    • US12937360
    • 2010-07-14
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • H01L29/772
    • H01L29/78612H01L21/266H01L29/1087H01L29/66772H01L29/78624
    • The present invention discloses a MOS structure with suppressed floating body effect including a substrate, a buried insulation layer provided on the substrate, and an active area provided on the buried insulation layer comprising a body region, a first conductive type source region and a first conductive type drain region provided on both sides of the body region respectively and a gate region provide on top of the body region, wherein the active area further comprises a highly doped second conductive type region between the first conductive type source region and the buried insulation layer. For manufacturing this structure, implant ions into a first conductive type source region via a mask having an opening thereon forming a highly doped second conductive type region under the first conductive type source region and above the buried insulation layer. The present invention will not increase chip area and is compatible with conventional CMOS process.
    • 本发明公开了一种具有抑制的浮体效应的MOS结构,包括基板,设置在基板上的掩埋绝缘层,以及设置在掩埋绝缘层上的有源区,包括主体区,第一导电型源极区和第一导电 型漏极区域分别设置在主体区域的两侧,并且栅极区域提供在主体区域的顶部,其中有源区域还包括在第一导电型源极区域和掩埋绝缘层之间的高度掺杂的第二导电类型区域。 为了制造该结构,通过其上具有开口的掩模将离子注入到第一导电类型源区中,形成在第一导电类型源极区之下和掩埋绝缘层之上的高度掺杂的第二导电类型区。 本发明不会增加芯片面积并且与常规CMOS工艺兼容。
    • 6. 发明申请
    • MOS-TYPE ESD PROTECTION DEVICE IN SOI AND MANUFACTURING METHOD THEREOF
    • SOI中的MOS型ESD保护器件及其制造方法
    • US20110221002A1
    • 2011-09-15
    • US13055553
    • 2010-07-14
    • Jing ChenJiexin LuoQingqing WuBingxu NingZhongying XueXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuBingxu NingZhongying XueXiaolu HuangXi Wang
    • H01L29/786H01L21/336
    • H01L27/0266
    • The present invention discloses a MOS ESD protection device for SOI technology and a manufacturing method for the device. The MOS ESD protection device comprises: an epitaxial silicon layer grown on top of an SOI substrate; a first side-wall spacer disposed on both sides of the epitaxial silicon layer so as to isolate the ESD protection device from the intrinsic active structures; a source region and a drain region disposed respectively on two sides of the epitaxial silicon layer; a poly silicon gate and a gate dielectric formed on top of the epitaxial silicon layer; and a second side-wall spacer disposed on both sides of the poly silicon gate of . ESD leakage current passes down to the SOI substrate for protection. Because ESD protection device and intrinsic MOS transistor are located in the same plane, this fabrication process can be inserted in the current MOS process flow.
    • 本发明公开了一种用于SOI技术的MOS ESD保护器件和该器件的制造方法。 MOS ESD保护器件包括:在SOI衬底的顶部上生长的外延硅层; 设置在所述外延硅层的两侧的第一侧壁间隔件,以将所述ESD保护装置与所述固有活性结构隔离; 分别设置在所述外延硅层的两侧的源极区域和漏极区域; 形成在外延硅层顶部的多晶硅栅极和栅极电介质; 以及设置在多晶硅栅极两侧的第二侧壁间隔物。 ESD泄漏电流通过SOI衬底进行保护。 由于ESD保护器件和本征MOS晶体管位于同一平面内,所以该制造工艺可以插入当前的MOS工艺流程中。
    • 7. 发明授权
    • Manufacturing method of SOI MOS device eliminating floating body effects
    • SOI MOS器件的制造方法消除浮体效应
    • US08324035B2
    • 2012-12-04
    • US13128914
    • 2010-09-08
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • H01L21/00H01L21/84H01L21/336H01L21/44
    • H01L29/78654H01L29/78612
    • The present invention discloses a manufacturing method of SOI MOS device eliminating floating body effects. The active area of the SOI MOS structure according to the present invention includes a body region, a N-type source region, a N-type drain region, a heavily doped P-type region, wherein the N-type source region comprises a silicide and a buried insulation region and the heavily doped P-type region is located between the silicide and the buried insulation region. The heavily doped P-type region contacts to the silicide, the body region, the buried insulation layer and the shallow trench isolation (STI) structure respectively. The manufacturing method of the device comprises steps of forming a heavily doped P-type region via ion implantation method, forming a metal layer on a part of the surface of the source region, then obtaining a silicide by the heat treatment of the metal layer and the Si material below. The present invention utilizes the silicide and the heavily doped P-type region to form an ohmic contact in order to release the holes accumulated in the body region of SOI MOS device and eliminate SOI MOS floating body effects. Besides, the manufacturing process is simple and can be easily implement. Further, the manufacturing process according to the present invention will not increase chip area and is compatible with conventional CMOS process.
    • 本发明公开了一种消除浮体效应的SOI MOS器件的制造方法。 根据本发明的SOI MOS结构的有源区包括体区,N型源极区,N型漏极区,重掺杂P型区,其中N型源区包括硅化物 并且掩埋绝缘区域和重掺杂P型区域位于硅化物和掩埋绝缘区域之间。 重掺杂的P型区域分别与硅化物,体区,掩埋绝缘层和浅沟槽隔离(STI)结构接触。 该器件的制造方法包括以下步骤:通过离子注入法形成重掺杂的P型区,在源区表面的一部分上形成金属层,然后通过金属层的热处理获得硅化物, 下面的Si材料。 本发明利用硅化物和重掺杂的P型区域形成欧姆接触,以便释放积聚在SOI MOS器件的体区中的空穴并消除SOI MOS浮体效应。 此外,制造工艺简单,易于实施。 此外,根据本发明的制造方法不会增加芯片面积并且与常规CMOS工艺兼容。
    • 8. 发明申请
    • PD SOI DEVICE WITH A BODY CONTACT STRUCTURE
    • 具有身体接触结构的PD SOI器件
    • US20120205743A1
    • 2012-08-16
    • US13128907
    • 2010-09-08
    • Jing ChenQingqing WuJiexin LuoXiaolu HuangXi Wang
    • Jing ChenQingqing WuJiexin LuoXiaolu HuangXi Wang
    • H01L29/78
    • H01L29/42384H01L21/266H01L29/66575H01L29/7833H01L29/78612
    • The present invention discloses a PD SOI device with a body contact structure. The active region of the PD SOI device includes: a body region; a gate region, which is inverted-L shaped, formed on the body region; a N-type source region and a N-type drain region, formed respectively at the two opposite sides of the anterior part the body region; a body contact region, formed at one side of the posterior part of the body region, which is side-by-side with the N-type source region; and a first silicide layer, formed on the body contact region and the N-type source region, which is contact to both of the body contact region and the N-type source region. The body contact region of the device is formed on the border of the source region and the leading-out terminal of the gate electrode. It can suppress floating body effect of the PD SOI device meanwhile not increasing the chip area, thereby overcoming the shortcoming in the prior art that the chip area is enlarged when the traditional body contact structure is employed. Furthermore, the fabrication process provided herein is simple and compatible to the CMOS technology.
    • 本发明公开了一种具有体接触结构的PD SOI器件。 PD SOI器件的有源区包括:主体区域; 形成在身体区域上的倒L形的栅极区域; 分别形成在身体区域的前部的两个相对侧的N型源极区域和N型漏极区域; 身体接触区域,形成在与N型源区并排的身体区域的后部的一侧; 以及形成在与所述本体接触区域和所述N型源极区域接触的所述本体接触区域和所述N型源极区域上的第一硅化物层。 器件的体接触区域形成在栅极电极的源极区域和引出端子的边界上。 它可以抑制PD SOI器件的浮体效应,同时不增加芯片面积,从而克服了现有技术中使用传统的体接触结构时芯片面积扩大的缺点。 此外,本文提供的制造工艺简单且与CMOS技术兼容。
    • 9. 发明申请
    • MANUFACTURING METHOD OF SOI MOS DEVICE ELIMINATING FLOATING BODY EFFECTS
    • SOI MOS器件消除浮动体效应的制造方法
    • US20120115287A1
    • 2012-05-10
    • US13128914
    • 2010-09-08
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • Jing ChenJiexin LuoQingqing WuXiaolu HuangXi Wang
    • H01L21/336
    • H01L29/78654H01L29/78612
    • The present invention discloses a manufacturing method of SOI MOS device eliminating floating body effects. The active area of the SOI MOS structure according to the present invention includes a body region, a N-type source region, a N-type drain region, a heavily doped P-type region, wherein the N-type source region comprises a silicide and a buried insulation region and the heavily doped P-type region is located between the silicide and the buried insulation region. The heavily doped P-type region contacts to the silicide, the body region, the buried insulation layer and the shallow trench isolation (STI) structure respectively. The manufacturing method of the device comprises steps of forming a heavily doped P-type region via ion implantation method, forming a metal layer on a part of the surface of the source region, then obtaining a silicide by the heat treatment of the metal layer and the Si material below. The present invention utilizes the silicide and the heavily doped P-type region to form an ohmic contact in order to release the holes accumulated in the body region of SOI MOS device and eliminate SOI MOS floating body effects. Besides, the manufacturing process is simple and can be easily implement. Further, the manufacturing process according to the present invention will not increase chip area and is compatible with conventional CMOS process.
    • 本发明公开了一种消除浮体效应的SOI MOS器件的制造方法。 根据本发明的SOI MOS结构的有源区包括体区,N型源极区,N型漏极区,重掺杂P型区,其中N型源区包括硅化物 并且掩埋绝缘区域和重掺杂P型区域位于硅化物和掩埋绝缘区域之间。 重掺杂的P型区域分别与硅化物,体区,掩埋绝缘层和浅沟槽隔离(STI)结构接触。 该器件的制造方法包括以下步骤:通过离子注入法形成重掺杂的P型区,在源区表面的一部分上形成金属层,然后通过金属层的热处理获得硅化物, 下面的Si材料。 本发明利用硅化物和重掺杂的P型区域形成欧姆接触,以便释放积聚在SOI MOS器件的体区中的空穴并消除SOI MOS浮体效应。 此外,制造工艺简单,易于实施。 此外,根据本发明的制造方法不会增加芯片面积并且与常规CMOS工艺兼容。
    • 10. 发明授权
    • PD SOI device with a body contact structure
    • PD SOI器件具有体接触结构
    • US08937354B2
    • 2015-01-20
    • US13128907
    • 2010-09-08
    • Jing ChenQingqing WuJiexin LuoXiaolu HuangXi Wang
    • Jing ChenQingqing WuJiexin LuoXiaolu HuangXi Wang
    • H01L27/12H01L29/423H01L29/786H01L21/266H01L29/66H01L29/78
    • H01L29/42384H01L21/266H01L29/66575H01L29/7833H01L29/78612
    • The present invention discloses a PD SOI device with a body contact structure. The active region of the PD SOI device includes: a body region; a gate region, which is inverted-L shaped, formed on the body region; a N-type source region and a N-type drain region, formed respectively at the two opposite sides of the anterior part the body region; a body contact region, formed at one side of the posterior part of the body region, which is side-by-side with the N-type source region; and a first silicide layer, formed on the body contact region and the N-type source region, which is contact to both of the body contact region and the N-type source region. The body contact region of the device is formed on the border of the source region and the leading-out terminal of the gate electrode. It can suppress floating body effect of the PD SOI device meanwhile not increasing the chip area, thereby overcoming the shortcoming in the prior art that the chip area is enlarged when the traditional body contact structure is employed. Furthermore, the fabrication process provided herein is simple and compatible to the CMOS technology.
    • 本发明公开了一种具有体接触结构的PD SOI器件。 PD SOI器件的有源区包括:主体区域; 形成在身体区域上的倒L形的栅极区域; 分别形成在身体区域的前部的两个相对侧的N型源极区域和N型漏极区域; 身体接触区域,形成在与N型源区并排的身体区域的后部的一侧; 以及形成在与所述本体接触区域和所述N型源极区域接触的所述本体接触区域和所述N型源极区域上的第一硅化物层。 器件的体接触区域形成在栅极电极的源极区域和引出端子的边界上。 它可以抑制PD SOI器件的浮体效应,同时不增加芯片面积,从而克服了现有技术中使用传统的体接触结构时芯片面积扩大的缺点。 此外,本文提供的制造工艺简单且与CMOS技术兼容。