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    • 2. 发明授权
    • Formation of integrated circuit electrodes
    • 集成电路电极的形成
    • US5057455A
    • 1991-10-15
    • US443766
    • 1989-11-30
    • Pang-Dow FooWilliam T. LynchChien-Shing Pai
    • Pang-Dow FooWilliam T. LynchChien-Shing Pai
    • H01L29/73H01L21/285H01L21/311H01L21/3213H01L21/331H01L21/762H01L21/768H01L21/8249H01L27/06H01L29/732
    • H01L21/76802H01L21/28525H01L21/31144H01L21/32139H01L21/762H01L21/8249Y10S438/97
    • In the fabrication of electrodes for transistors in the BiCMOS integrated circuit, vertical windows etched in a relatively thick TEOS (or other suitable dielectric) layer, located on a relatively thin polysilicon layer, in turn located on relatively tin oxide layer areas and on relatively thick oxide layer areas, are used to define areas where polysilicon electrode material is to remain. Polysilicon is deposited in the windows in the relatively thick insulating layer, to form the basis for the desired electrode in each window. The relatively thin polysilicon layer (or, alternatively an .alpha.-amorphous silicon layer) is thereafter used as an etch stop during the subsequent removal of the relatively thick dielectric layer. Thereafter both MOS and bipolar transistors can be fabricated using the windows to define the extents of the gate regions of the MOS transistors and the extents of the emitter regions of the bipolar transistors. In addition, both the source and drain electrodes of the MOS transistors and the base electrodes of the bipolar transistors can then be simultaneously formed in a self-aligned manner without the need for etching into the underlying semiconductor substrate in which the integrated circuit is being formed.
    • 在BiCMOS集成电路中用于晶体管的电极的制造中,在位于相对较薄的多晶硅层上的相对较厚的TEOS(或其它合适的电介质)层中蚀刻的垂直窗口依次位于相对锡氧化物层区域上并且相对较厚 氧化物层区域用于限定保留多晶硅电极材料的区域。 多晶硅沉积在相对厚的绝缘层中的窗口中,以形成每个窗口中所需电极的基础。 此后,在相对较厚的电介质层的去除期间,相对薄的多晶硅层(或者可选地,α-非晶硅层)被用作蚀刻停止层。 此后,可以使用窗口来制造MOS和双极晶体管,以限定MOS晶体管的栅极区域的范围和双极晶体管的发射极区域的范围。 此外,MOS晶体管的源电极和漏电极以及双极晶体管的基极可以以自对准的方式同时形成,而不需要蚀刻到其中形成集成电路的下面的半导体衬底 。
    • 7. 发明授权
    • RF LDMOS on partial SOI substrate
    • RF LDMOS在部分SOI衬底上
    • US06461902B1
    • 2002-10-08
    • US09618263
    • 2000-07-18
    • Shuming XuHanhua FengPang-Dow Foo
    • Shuming XuHanhua FengPang-Dow Foo
    • H01L2100
    • H01L29/66659H01L29/0653H01L29/4175H01L29/41766H01L29/66636H01L29/7835Y10S438/923
    • In the prior art LDMOSFET devices capable of handling high power have been made by locating the source contact on the bottom surface of the device, allowing for good heat sinking, with connection to the source region being made through a sinker. However, this structure has poor high frequency characteristics. Also in the prior art, good high frequency performance has been achieved by introducing a dielectric layer immediately below the source/drain regions (SOI) but this structure has poor handling capabilities. The present invention achieves both good high frequency behavior as well as good power capability in the same device. Instead of inserting a dielectric layer over the entire cross-section of the device, the dielectric layer is limited to being below the heavily doped section of the drain with a small amount of overlap into the lightly doped section. The structure is described in detail together with a process for manufacturing it.
    • 在现有技术中,能够处理高功率的LDMOSFET器件已经通过将源极接触定位在器件的底表面上,通过连接到源极区域通过沉降片而实现良好的散热。 然而,该结构具有差的高频特性。 同样在现有技术中,通过在源极/漏极区域(SOI)之下引入介电层已经实现了良好的高频性能,但是该结构具有差的处理能力。 本发明在同一设备中实现了良好的高频行为以及良好的功率能力。 代替在器件的整个横截面上插入电介质层,电介质层被限制在漏极的重掺杂部分之下,在轻掺杂部分中具有少量的重叠。 详细描述该结构及其制造方法。