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    • 2. 发明授权
    • Method of planarization of topologies in integrated circuit structures
    • 集成电路结构拓扑的平面化方法
    • US4954459A
    • 1990-09-04
    • US376176
    • 1989-07-03
    • Steven C. AvanzinoJacob D. Haskell
    • Steven C. AvanzinoJacob D. Haskell
    • H01L21/76H01L21/3105H01L21/3205H01L21/321H01L21/762
    • H01L21/3212H01L21/31056H01L21/76229Y10S148/051Y10S438/959
    • A method is disclosed for making a highly planarized integrated circuit structure having deposited oxide portions planarized to the level of adjacent portions of the integrated circuit structure which comprises: depositing, over an integrated circuit structure having first portions at a height higher than the remainder of the integrated circuit structure, a conformal oxide layer having a thickness which exceeds the height of said first portions above the remainder of the integrated circuit structure; forming a patterned mask layer over said deposited oxide layer with one or more openings therein in registry with the higher height first portions of the integrated circuit structure; etching exposed portions of said conformal oxide layer through the mask openings down to a level approximately equal to the level of the unexposed portion of the conformal oxide layer; removing the mask layer; and polishing the oxide layer to remove raised portions of the conformal oxide layer remaining after the etching step to form a highly planarized structure. Optionally, the oxide layer may be further etched anisotropically until the upper surfaces of the underlying integrated circuit structure is exposed.
    • 公开了一种用于制造具有平坦化到集成电路结构的相邻部分的平面的沉积氧化物部分的高度平坦化的集成电路结构的方法,其包括:在集成电路结构上沉积,该集成电路结构具有高于其余部分的高度的第一部分 集成电路结构,具有超过所述集成电路结构的其余部分之上的所述第一部分的高度的厚度的共形氧化物层; 在其上具有一个或多个开口的所述沉积的氧化物层上形成图案化掩模层,与所述集成电路结构的较高高度的第一部分对齐; 将所述保形氧化物层的暴露部分通过所述掩模开口蚀刻到约等于所述共形氧化物层的未曝光部分的水平的水平; 去除掩模层; 并抛光氧化物层以除去在蚀刻步骤之后残留的保形氧化物层的凸起部分,以形成高度平坦化的结构。 任选地,可以进一步各向异性地蚀刻氧化物层,直到暴露底层集成电路结构的上表面。
    • 4. 发明授权
    • Dynamic random access memory cell having a charge amplifier
    • 具有电荷放大器的动态随机存取存储单元
    • US4677589A
    • 1987-06-30
    • US759532
    • 1985-07-26
    • Jacob D. HaskellCraig S. Sander
    • Jacob D. HaskellCraig S. Sander
    • G11C11/404G11C11/405G11C11/24
    • G11C11/404G11C11/405
    • An improved dynamic random access memory (DRAM) cell circuit (46) having a charge amplifier is presented. The improvement comprises a bipolar amplification means (64) for amplifying a charge as it is read out of the memory cell (46). According to one embodiment of the present invention, in addition to a standard charge storage capacitor (50) and MOS transistor (48), the memory cell (46) also includes a write control line (60) and a second MOS transistor (62) for writing a "1" bit of information into the memory cell (46). These improvements require little or no additional space when used in a DRAM circuit and allow a reduction in the required capacitor area.
    • 提出了具有电荷放大器的改进的动态随机存取存储器(DRAM)单元电路(46)。 该改进包括用于在从存储单元(46)读出电荷时放大电荷的双极放大装置(64)。 根据本发明的一个实施例,除了标准电荷存储电容器(50)和MOS晶体管(48)之外,存储单元(46)还包括写控制线(60)和第二MOS晶体管(62) 用于将“1”位信息写入存储单元(46)。 当在DRAM电路中使用时,这些改进需要很少或没有额外的空间,并且可以减少所需的电容器面积。
    • 8. 发明授权
    • Method of making a high performance MOS device having LDD regions with
graded junctions
    • 制造具有分级结的LDD区的高性能MOS器件的方法
    • US4818714A
    • 1989-04-04
    • US127995
    • 1987-12-02
    • Jacob D. Haskell
    • Jacob D. Haskell
    • H01L21/336H01L21/8238H01L29/78H01L21/265H01L21/70H01L27/00
    • H01L29/6659H01L21/823814H01L29/6656H01L29/78Y10S148/106Y10S148/131Y10S257/90
    • An MOS structure and a method for making same, including the formation of el-shaped shielding members used to form one or more lightly doped drain regions to avoid short channel and punch-through problems is disclosed which comprises forming a shielding layer of an insulating material over a gate electrode on a substrate; forming another layer of a dissimilar material over the shielding layer; anisotropically etching the layer of dissimilar material to form spacer portions adjacent the sidewalls of the gate electrode; removing the portions of the shielding layer not masked by the spacer portions, leaving one or more el-shaped shielding members; removing the spacer portions; N+ or P+ implanting the substrate at a sufficiently low energy to prevent penetration of the dopant through the el-shaped shielding member to form a highly doped source/drain region in the substrate not shielded by the el-shaped shielding member or the gate electrode; N- or P- implanting the substrate at a sufficiently high energy to penetrate through the el-shaped shielding member to form a lightly doped source/drain region in the portion of the substrate adjacent the P+ or N+ source/drain regions and separating the channel region of the substrate beneath the gate electrode from the P+ or N+ source/drain region.
    • 公开了一种MOS结构及其制造方法,包括形成用于形成一个或多个轻掺杂漏极区的el形屏蔽构件以避免短沟道和穿通问题,其包括形成绝缘材料的屏蔽层 在基板上的栅电极上; 在所述屏蔽层上形成不同材料的另一层; 各向异性地蚀刻不同材料层以形成邻近栅电极的侧壁的间隔部分; 去除未被隔离物部分掩蔽的屏蔽层的部分,留下一个或多个el形屏蔽构件; 移除间隔部分; N +或P +以足够低的能量注入衬底以防止掺杂剂穿过el形屏蔽构件,以在衬底中形成高度掺杂的源极/漏极区域,而不被EL形屏蔽构件或栅电极屏蔽; N或P-以足够高的能量注入衬底以穿透el形屏蔽构件,以在衬底的与P +或N +源极/漏极区相邻的部分中形成轻掺杂的源极/漏极区,并分离沟道 从P +或N +源极/漏极区域到栅电极下方的衬底的区域。