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    • 4. 发明授权
    • Loadport bridge for semiconductor fabrication tools
    • 用于半导体制造工具的承载桥
    • US08944739B2
    • 2015-02-03
    • US13486024
    • 2012-06-01
    • Shih-Hung ChenYing XiaoChin-Hsiang Lin
    • Shih-Hung ChenYing XiaoChin-Hsiang Lin
    • H01L21/677
    • H01L21/6773H01L21/67733H01L21/67775
    • A wafer handling system with apparatus for transporting wafers between semiconductor fabrication tools. In one embodiment, the apparatus is a loadport bridge mechanism including an enclosure having first and second mounting ends, a docking port at each end configured and dimensioned to interface with a loadport of a semiconductor tool, and at least one wafer transport robot operable to transport a wafer between the docking ports. The wafer transport robot hands off or receives a wafer to/from a tool robot at the loadports of a first and second tool. The bridge mechanism allows one or more wafers to be transferred between loadports of different tools on an individual basis without reliance on the FAB's automated material handling system (AMHS) for bulk wafer transport inside a wafer carrier such as a FOUP or others.
    • 一种具有用于在半导体制造工具之间传输晶片的装置的晶片处理系统。 在一个实施例中,该装置是装载端口机构,其包括具有第一和第二安装端的外壳,每个端部处的对接端口被构造和尺寸设计成与半导体工具的承载端口相接合,以及至少一个可运输的晶片传送机械手 在对接端口之间的晶片。 晶片传送机器人在第一和第二工具的载荷端口移动或接收来自工具机器人的晶片。 桥接机构允许一个或多个晶片在不同工具的载荷端口之间单独传输,而不依赖于FAB的自动化材料处理系统(AMHS),用于在诸如FOUP或其它晶片载体之间的体晶片传输。
    • 6. 发明申请
    • METHOD FOR FORMING INTERLAYER CONNECTORS TO A STACK OF CONDUCTIVE LAYERS
    • 将层间连接器形成到导电层堆叠的方法
    • US20140193973A1
    • 2014-07-10
    • US13735922
    • 2013-01-07
    • Shih-Hung CHEN
    • Shih-Hung CHEN
    • H01L21/768
    • H01L21/76816H01L21/0273H01L21/32139H01L21/76838H01L27/11548H01L27/11575
    • A method forms interlayer connectors extending to conductive layers of a stack of W conductive layers interleaved with dielectric layers. The stack is etched to expose landing areas at W−1 conductive layers using a set of M etch masks. For each etch mask m, m going from 0 to M−1, there is a first etching step, at least one mask trimming step, and a subsequent etching step following each trimming step. The etch mask may cover Nm+1 of the landing areas and the open etch region may cover Nm of the landing areas. N equals 2 plus the number of trimming steps. The trimming step may be carried out so that the increased size open etch region overlies an additional 1/N of the landing areas. Part of the stack surface may be shielded during the removing step to create dummy areas without contact openings.
    • 一种方法形成延伸到与电介质层交错的W导电层的堆叠的导体层的层间连接。 使用一组M蚀刻掩模蚀刻堆叠以暴露W-1导电层的着陆区域。 对于从0到M-1的每个蚀刻掩模m,m,在每个修整步骤之后,存在第一蚀刻步骤,至少一个掩模修剪步骤和随后的蚀刻步骤。 蚀刻掩模可以覆盖着陆区域的Nm + 1,并且开放蚀刻区域可以覆盖着陆区域的Nm。 N等于2加上修剪步骤的数量。 可以进行修整步骤,使得增大的开口蚀刻区域覆盖附加的1 / N的着陆区域。 在去除步骤期间可以屏蔽堆叠表面的一部分以产生没有接触开口的虚拟区域。
    • 7. 发明授权
    • Integration of 3D stacked IC device with peripheral circuits
    • 集成3D堆叠式IC器件与外围电路
    • US08759899B1
    • 2014-06-24
    • US13739914
    • 2013-01-11
    • Hang-Ting LueYi-Hsuan HsiaoShih-Hung ChenYen-Hao Shih
    • Hang-Ting LueYi-Hsuan HsiaoShih-Hung ChenYen-Hao Shih
    • H01L29/788
    • H01L22/12H01L22/20H01L27/11531H01L27/11556H01L27/11573H01L27/11582H01L29/0649
    • An integrated circuit device includes a substrate including a first region and a second region. A pit is formed in the first region. A stack of active layers alternating with insulating layers is deposited in the pit. The stack includes a particular insulating layer. The particular insulating layer has a first thickness, where a sum of the first thickness, thickness of active layers, and thicknesses of other insulating layers is essentially equal to a depth of the pit. The first thickness is different than the thicknesses of the other insulating layers by an amount within a range of process variations for the depth of the pit, for the thicknesses of the active layers, and for the thicknesses of other insulating layers. The device includes a planarized surface over the first and second regions, where an uppermost one of the active layers has a top surface below the planarized surface.
    • 集成电路器件包括包括第一区域和第二区域的衬底。 在第一区域形成凹坑。 与绝缘层交替的一叠有源层沉积在凹坑中。 堆叠包括特定的绝缘层。 特定绝缘层具有第一厚度,其中第一厚度,有源层的厚度和其它绝缘层的厚度之和基本上等于凹坑的深度。 第一厚度不同于其它绝缘层的厚度,在凹坑的深度,有源层的厚度和其它绝缘层的厚度的工艺变化范围内的量。 该装置包括在第一和第二区域之上的平坦化表面,其中最上面的一个活性层在平坦化表面下方具有顶表面。
    • 8. 发明授权
    • Method for forming interlayer connectors to a stack of conductive layers
    • 用于将层间连接器形成到导电层的叠层的方法
    • US08759217B1
    • 2014-06-24
    • US13735922
    • 2013-01-07
    • Shih-Hung Chen
    • Shih-Hung Chen
    • H01L21/00
    • H01L21/76816H01L21/0273H01L21/32139H01L21/76838H01L27/11548H01L27/11575
    • A method forms interlayer connectors extending to conductive layers of a stack of W conductive layers interleaved with dielectric layers. The stack is etched to expose landing areas at W−1 conductive layers using a set of M etch masks. For each etch mask m, m going from 0 to M−1, there is a first etching step, at least one mask trimming step, and a subsequent etching step following each trimming step. The etch mask may cover Nm+1 of the landing areas and the open etch region may cover Nm of the landing areas. N equals 2 plus the number of trimming steps. The trimming step may be carried out so that the increased size open etch region overlies an additional 1/N of the landing areas. Part of the stack surface may be shielded during the removing step to create dummy areas without contact openings.
    • 一种方法形成延伸到与电介质层交错的W导电层的堆叠的导体层的层间连接。 使用一组M蚀刻掩模蚀刻堆叠以暴露W-1导电层的着陆区域。 对于从0到M-1的每个蚀刻掩模m,m,在每个修整步骤之后,存在第一蚀刻步骤,至少一个掩模修剪步骤和随后的蚀刻步骤。 蚀刻掩模可以覆盖着陆区域的Nm + 1,并且开放蚀刻区域可以覆盖着陆区域的Nm。 N等于2加上修剪步骤的数量。 可以进行修整步骤,使得增大的开口蚀刻区域覆盖附加的1 / N的着陆区域。 在去除步骤期间可以屏蔽堆叠表面的一部分以产生没有接触开口的虚拟区域。
    • 10. 发明授权
    • Memory device, manufacturing method and operating method of the same
    • 存储器件,制造方法和操作方法相同
    • US08363476B2
    • 2013-01-29
    • US13009464
    • 2011-01-19
    • Hang-Ting LueShih-Hung Chen
    • Hang-Ting LueShih-Hung Chen
    • G11C16/00
    • H01L29/7926G11C16/0466G11C16/3418H01L27/11578H01L27/11582H01L29/66833
    • A memory device, a manufacturing method and an operating method of the same are provided. The memory device includes a substrate, stacked structures, a channel element, a dielectric element, a source element, and a bit line. The stacked structures are disposed on the substrate. Each of the stacked structures includes a string selection line, a word line, a ground selection line and an insulating line. The string selection line, the word line and the ground selection line are separated from each other by the insulating line. The channel element is disposed between the stacked structures. The dielectric element is disposed between the channel element and the stacked structure. The source element is disposed between the upper surface of the substrate and the lower surface of the channel element. The bit line is disposed on the upper surface of the channel element.
    • 提供了一种存储器件,其制造方法和操作方法。 存储器件包括衬底,堆叠结构,沟道元件,电介质元件,源元件和位线。 堆叠结构设置在基板上。 每个堆叠结构包括串选择线,字线,接地选择线和绝缘线。 串选择线,字线和接地选择线通过绝缘线彼此分离。 通道元件设置在堆叠结构之间。 电介质元件设置在通道元件和堆叠结构之间。 源元件设置在基板的上表面和通道元件的下表面之间。 位线设置在通道元件的上表面上。