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    • 71. 发明授权
    • Methods and arrangements for reducing stress and preventing cracking in a silicide layer
    • 降低应力并防止硅化物层开裂的方法和装置
    • US06211074B1
    • 2001-04-03
    • US09076584
    • 1998-05-12
    • Richard J. HuangGuarionex Morales
    • Richard J. HuangGuarionex Morales
    • H01L214763
    • H01L27/11521H01L21/32053H01L27/115
    • Methods and arrangements that increase the process control during the fabrication of the control gate configuration in a non-volatile memory semiconductor device are provided. The methods and arrangements effectively prevent cracks from developing within a tungsten suicide layer that is part of a control gate structure within a non-volatile memory cell. Cracks within the tungsten silicide layer can affect the performance of the memory cell by increasing the resistance of the control gate configuration. The methods and arrangements prevent cracking of the tungsten silicide layer by minimizing the relative difference between temperatures associated with the deposition of the tungsten suicide layer and deposition of a subsequent overlying cap layer.
    • 提供了在制造非易失性存储器半导体器件中的控制栅极配置期间增加过程控制的方法和布置。 该方法和装置有效地防止在作为非易失性存储单元内的控制栅极结构的一部分的硅化钨层内发生裂纹。 硅化钨层内的裂纹可以通过增加控制栅极配置的电阻来影响存储单元的性能。 所述方法和装置通过使与硅化钨层的沉积相关的温度之间的相对差异和随后的上覆盖层的沉积最小化来防止硅化钨层的破裂。
    • 76. 发明授权
    • Landing pad technology doubled up as a local interconnect and borderless
contact for deep sub-half micrometer IC application
    • 作为本地互连和无边界接触,着陆垫技术加倍,用于深度二分之一微米IC应用
    • US5674781A
    • 1997-10-07
    • US608377
    • 1996-02-28
    • Richard J. HuangRobin W. CheungRajat RakkhitRaymond T. Lee
    • Richard J. HuangRobin W. CheungRajat RakkhitRaymond T. Lee
    • H01L23/522H01L23/532H01L21/441
    • H01L21/76895H01L21/28518H01L23/485H01L23/53257H01L2924/0002Y10S257/915
    • The present invention is directed to a technology that simplifies the process of fabricating multilayer interconnects and reduces capacitance in integrated circuits employing multilayer interconnects. The novel landing pad technology of the present invention simplifies the current process steps involved in the formation of multilayer interconnects. The same contact/via etch, the same PVD TiN deposition, etc., can be modularized and repeated to build up multilayer metalization. The process of the present invention for forming multilayer interconnects involves the formation of Ti/TiN stack interconnect structures that can be used as local interconnects and contact landing pads on the same level. The contact landing pads facilitate the use of a borderless contact approach which enables a reduction in the size of the source-drain area. As the source-drain area is reduced, junction capacitance decreases, and packing density can be increased. Source-drain real estate can be also be minimized by using the Ti/TiN stack interconnect structures as contact landing pads in the implementation of raised source-drain technology. The Ti/TiN stack interconnect structures can also be used as short local interconnects in SRAM devices.
    • 本发明涉及一种简化多层互连的制造工艺并减少采用多层互连的集成电路中的电容的技术。 本发明的新型着陆垫技术简化了形成多层互连所涉及的当前工艺步骤。 相同的接触/通孔蚀刻,相同的PVD TiN沉积等可以被模块化和重复以建立多层金属化。 用于形成多层互连的本发明的方法涉及形成可用作局部互连的Ti / TiN叠层互连结构并且在相同的层上接触着陆焊盘。 接触着陆垫有利于使用无边界接触方法,这使得能够减小源极 - 漏极区域的尺寸。 随着源极 - 漏极面积的减小,结电容降低,堆积密度增加。 在实施升高的源极 - 漏极技术中,通过使用Ti / TiN堆叠互连结构作为接触着陆焊盘,也可以最大限度地减少源极漏极空间。 Ti / TiN堆叠互连结构也可以用作SRAM器件中的短局部互连。
    • 77. 发明授权
    • Landing pad technology doubled up as local interconnect and borderless
contact for deep sub-half micrometer IC application
    • 作为本地互连和无边界接触,着陆垫技术加倍,用于深半微米IC应用
    • US5654589A
    • 1997-08-05
    • US466649
    • 1995-06-06
    • Richard J. HuangRobin W. CheungRajat RakkhitRaymond T. Lee
    • Richard J. HuangRobin W. CheungRajat RakkhitRaymond T. Lee
    • H01L23/522H01L23/532H01L23/48H01L23/52H01L29/40
    • H01L21/76895H01L21/28518H01L23/485H01L23/53257H01L2924/0002Y10S257/915
    • The present invention is directed to a technology that simplifies the process of fabricating multilayer interconnects and reduces capacitance in integrated circuits employing multilayer interconnects. The novel landing pad technology of the present invention simplifies the current process steps involved in the formation of multilayer interconnects. The same contact/via etch, the same PVD TiN deposition, etc., can be modularized and repeated to build up multilayer metalization. The process of the present invention for forming multilayer interconnects involves the formation of Ti/TiN stack interconnect structures that can be used as local interconnects and contact landing pads on the same level. The contact landing pads facilitate the use of a borderless contact approach which enables a reduction in the size of the source-drain area. As the source-drain area is reduced, junction capacitance decreases, and packing density can be increased. Source-drain real estate can be also be minimized by using the Ti/TiN stack interconnect structures as contact landing pads in the implementation of raised source-drain technology. The Ti/TiN stack interconnect structures can also be used as short local interconnects in SRAM devices.
    • 本发明涉及一种简化多层互连的制造工艺并减少采用多层互连的集成电路中的电容的技术。 本发明的新型着陆垫技术简化了形成多层互连所涉及的当前工艺步骤。 相同的接触/通孔蚀刻,相同的PVD TiN沉积等可以被模块化和重复以建立多层金属化。 用于形成多层互连的本发明的方法涉及形成可用作局部互连的Ti / TiN叠层互连结构并且在相同的层上接触着陆焊盘。 接触着陆垫有利于使用无边界接触方法,这使得能够减小源极 - 漏极区域的尺寸。 随着源极 - 漏极面积的减小,结电容降低,堆积密度增加。 在实施升高的源极 - 漏极技术中,通过使用Ti / TiN堆叠互连结构作为接触着陆焊盘,也可以最大限度地减少源极漏极空间。 Ti / TiN堆叠互连结构也可以用作SRAM器件中的短局部互连。