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    • 7. 发明授权
    • Method for fabricating a trench DRAM
    • 沟槽DRAM的制造方法
    • US5017506A
    • 1991-05-21
    • US385344
    • 1989-07-25
    • Bing-Whey ShenRandy McKeeGishi Chung
    • Bing-Whey ShenRandy McKeeGishi Chung
    • H01L21/311H01L21/8242H01L27/108
    • H01L27/10861H01L21/31116H01L27/10829Y10S438/948
    • The described embodiments of the present invention provide DRAM cells, structures and manufacturing methods. A DRAM cell with a trench capacitor having a first plate formed as a diffusion on the outside surface of a trench formed in the substrate and a second plate having a conductive region formed inside the trench is fabricated. The transfer transistor is formed using a field plate isolation structure which includes a self-aligned moat area for the transfer transistor. The moat area slightly overlaps the capacitor area and allows for increased misalignment tolerance thus foregoing the requirement for misalignment tolerances built into the layout of the DRAM cell. The field plate itself is etched so that it has sloped sidewalls to avoid the formation of conductive filaments from subsequent conductive layers formed on the integrated circuit. The use of a self-aligned bitline contact between two memory cells alows for the elimination of alignment tolerances between the bitline contact and the gates of the transfer transistor of the memory cells.
    • 本发明的所述实施例提供了DRAM单元,结构和制造方法。 制造具有沟槽电容器的DRAM单元,该沟槽电容器具有形成为在衬底中形成的沟槽的外表面上的扩散的第一板和形成在沟槽内的导电区域的第二板。 转移晶体管使用场板隔离结构形成,该场板隔离结构包括用于转移晶体管的自对准的沟槽区域。 护城河区域与电容器区域稍微重叠,并且允许增加的不对准公差,从而对DRAM单元的布局中内置的未对准公差的要求进行了前提。 场板本身被蚀刻,使得其具有倾斜的侧壁,以避免由形成在集成电路上的后续导电层形成导电细丝。 使用两个存储器单元之间的自对准位线接触,从而消除位线接触和存储器单元的传输晶体管的栅极之间的对准公差。
    • 8. 发明授权
    • Method of making trench DRAM cell with stacked capacitor and buried
lateral contact
    • 制造具有堆叠电容器和埋入侧面接触的沟槽DRAM单元的方法
    • US4978634A
    • 1990-12-18
    • US385327
    • 1989-07-25
    • Bing-Whey ShenMasaaki YashiroRandy McKeeGishi ChungKiyoshi ShiraiClarence TengDonald J. Coleman, Jr.
    • Bing-Whey ShenMasaaki YashiroRandy McKeeGishi ChungKiyoshi ShiraiClarence TengDonald J. Coleman, Jr.
    • H01L27/04H01L21/822H01L21/8242H01L27/10H01L27/108
    • H01L27/10861
    • The described embodiments of the present invention provide DRAM cells, structures and manufaturing methods. In a first embodiment, a DRAM cell with a trench capacitor having a first plate formed as a diffusion on the outside surface of a trench formed in the substrate and a second plate having a conductive region formed inside the trench is fabricated. The transfer transistor is formed using a field plate isolation structure which includes a self-aligned moat area for the transfer transistor. The moat area slightly overlaps the capacitor area and allows for increased misalignment tolerance thus foregoing the requirement for misalignment tolerances built into the layout of the DRAM cell. The field plate itself is etched so that it has sloped sidewalls to avoid the formation of conductive filaments from subsequent conductive layers formed on the integrated circuit. The use of a self-aligned bitline contact between two memory cells allows for the elimination of alignment tolerances between the bitline contact and the gates of the transfer transistors of the memory cells.
    • 本发明的所述实施例提供了DRAM单元,结构和制造方法。 在第一实施例中,制造具有沟槽电容器的DRAM单元,该沟槽电容器具有形成为在衬底中形成的沟槽的外表面上的扩散的第一板,以及形成在沟槽内部的导电区域的第二板。 转移晶体管使用场板隔离结构形成,该场板隔离结构包括用于转移晶体管的自对准的沟槽区域。 护城河区域与电容器区域稍微重叠,并且允许增加的不对准公差,从而对DRAM单元的布局中内置的未对准公差的要求进行了前提。 场板本身被蚀刻,使得其具有倾斜的侧壁,以避免由形成在集成电路上的后续导电层形成导电细丝。 使用两个存储单元之间的自对准位线接触允许消除位线接触和存储器单元的传输晶体管的栅极之间的对准公差。