Electromechanical switch
    2.
    发明申请
    Electromechanical switch 失效
    机电开关

    公开(公告)号:US20070126536A1

    公开(公告)日:2007-06-07

    申请号:US11292421

    申请日:2005-12-02

    IPC分类号: H01H51/22

    CPC分类号: H01H59/0009 H01H2059/0081

    摘要: In one aspect, an electromechanical switching device is illustrated. The electromechanical switching device includes a relay with at least one first conductive portion, at least one second conductive portion, and at least one actuation component that moves the at least one first conductive portion and the at least one second conductive portion into and out of conductive contact. The at least one first conductive portion includes a conductive stationary end coupled to a substrate and a conductive free-floating end. The at least one actuation component includes an actuation stationary end coupled to the substrate and an actuation free-floating end. The actuation free floating end, when the at least one actuation component is not energized, curls, which curls the conductive free floating end into or out of conductive contact with the at least one second conductive portion.

    摘要翻译: 在一个方面,示出了机电开关装置。 机电开关装置包括具有至少一个第一导电部分,至少一个第二导电部分和至少一个致动部件的继电器,所述至少一个致动部件将至少一个第一导电部分和至少一个第二导电部分移入和移出导电部分 联系。 所述至少一个第一导电部分包括耦合到衬底的导电固定端和导电自由浮动端。 所述至少一个致动部件包括联接到所述基板的致动固定端和致动自由浮动端。 当所述至少一个致动部件未通电时,所述致动自由浮动端部卷曲,所述自由浮动端部将所述导电自由浮动端部与所述至少一个第二导电部分导电接触或者脱离所述至少一个第二导电部分的导电接触。

    Method using monolayer etch masks in combination with printed masks
    8.
    发明申请
    Method using monolayer etch masks in combination with printed masks 失效
    使用单层蚀刻掩模与印刷掩模组合的方法

    公开(公告)号:US20070221610A1

    公开(公告)日:2007-09-27

    申请号:US11388718

    申请日:2006-03-24

    IPC分类号: H01B13/00 B44C1/22

    摘要: A method to pattern films into dimensions smaller than the printed pixel mask size. A printed mask is deposited on a thin film on a substrate. The second mask layer is selectively deposited onto the film, but not to the printed mask. A third mask is then printed onto the substrate to pattern a portion of the second mask. Certain solvents are then used to remove the printed mask but not the mask layer on the thin film. The mask layer is then used to form a pattern on the thin film in combination with etching. The features formed in the thin film are smaller than the smallest dimension of the printed mask. The coated mask layer can be a self-assembled mono-layer or other material that selectively binds to the thin film.

    摘要翻译: 将薄膜图案尺寸小于印刷像素掩模尺寸的方法。 印刷的掩模沉积在基底上的薄膜上。 第二掩模层选择性地沉积在膜上,而不是印刷在掩模上。 然后将第三掩模印刷到基底上以对第二掩模的一部分进行图案化。 然后使用某些溶剂去除印刷的掩模,而不是薄膜上的掩模层。 然后将掩模层与蚀刻结合在薄膜上形成图案。 形成在薄膜中的特征小于印刷掩模的最小尺寸。 涂覆的掩模层可以是选择性地结合薄膜的自组装单层或其它材料。

    Xerographic micro-assembler
    10.
    发明申请
    Xerographic micro-assembler 有权
    静电复印机

    公开(公告)号:US20060128057A1

    公开(公告)日:2006-06-15

    申请号:US11011652

    申请日:2004-12-14

    申请人: Jeng Lu Eugene Chow

    发明人: Jeng Lu Eugene Chow

    IPC分类号: H01L21/50 H01L21/30 B23P21/00

    摘要: Xerographic micro-assembler systems and methods are disclosed. The systems and methods involve manipulating charge-encoded micro-objects. The charge encoding identifies each micro-object and specifies its orientation for sorting. The micro-objects are sorted in a sorting unit so that they have defined positions and orientations. The sorting unit has the capability of electrostatically and magnetically manipulating the micro-objects based on their select charge encoding. The sorted micro-objects are provided to an image transfer unit. The image transfer unit is adapted to receive the sorted micro-objects, maintain them in their sorted order and orientation, and deliver them to a substrate. Maintaining the sorted order as the micro-objects are delivered to the substrate may be accomplished through the use of an electrostatic image, as is done in xerography. The substrate with the micro-objects is further processed to interconnect the micro-objects—through electrical wiring, for example—to form the final micro-assembly.

    摘要翻译: 公开了静电印刷微组装系统和方法。 系统和方法涉及操纵电荷编码的微物体。 电荷编码识别每个微物体并指定其排列方向。 微物体在分类单元中排序,使得它们具有定义的位置和取向。 分选单元具有基于其选择电荷编码的静电和磁性操纵微物体的能力。 分类的微物体被提供给图像传送单元。 图像传送单元适于接收分类的微物体,将它们保持在排列顺序和方位,并将其传送到基底。 将排序的顺序作为微物体传送到基底可以通过使用静电图像来实现,如在静电复印中所做的那样。 具有微物体的衬底被进一步处理以使例如微通孔电线互连,以形成最终的微组件。