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    • 4. 发明授权
    • Magnetic apparatus for arc ion plating
    • 用于电弧离子电镀的磁性设备
    • US5976636A
    • 1999-11-02
    • US45103
    • 1998-03-19
    • Ming-Sheng LeuWei-Cheng LihYuh-Wen LeeShau-Yi ChenWei-Jieh ChangShinn-Cherng HuangMau-Shen Liou
    • Ming-Sheng LeuWei-Cheng LihYuh-Wen LeeShau-Yi ChenWei-Jieh ChangShinn-Cherng HuangMau-Shen Liou
    • C23C14/32H05H1/50C23C14/14C23C14/00
    • C23C14/325H05H1/50
    • An electric arc ion plating apparatus to coat a metal material on an object includes: (a) an vacuum chamber; (b) an electric arc bombardment chamber in the vacuum chamber, comprising an anode, a cathode target, and an arc triggering electrode to generate metal particles when a voltage is applied on the anode and the cathode, and on the arc triggering electrode; and (c) a magnetic coil having a longitudinal axis. The magnetic coil emanates from the electric arc bombardment chamber and encloses at least a part of the electric bombardment chamber. The magnetic coil contains a constant-diameter section enclosing and immediately emanating from the electric arc bombardment chamber to guide the metal particles away from the cathode and toward the object, and a varying-diameter section away from the electric arc bombardment chamber to provide optimum distribution of the metal particles before they reach the object surface. The varying-diameter section can be a diverging section for effectively coating relatively large objects, or a converging section for efficiently coating a relatively small object.
    • 用于在物体上涂覆金属材料的电弧离子镀装置包括:(a)真空室; (b)真空室中的电弧轰击室,当在阳极和阴极上施加电压时,包括阳极,阴极靶和电弧触发电极以产生金属颗粒;以及电弧触发电极; 和(c)具有纵向轴线的电磁线圈。 电磁线圈从电弧轰击室发出并且包围电轰击室的至少一部分。 磁性线圈包含恒定直径部分,其包围并立即从电弧轰击室发出,以引导金属颗粒远离阴极并朝向物体,以及远离电弧轰击室的变化直径部分以提供最佳分布 的金属颗粒在它们到达物体表面之前。 变径部分可以是用于有效地涂覆较大物体的发散部分或用于有效地涂覆较小物体的会聚部分。
    • 6. 发明申请
    • TOUCH PANEL AND A MANUFACTURING METHOD THEREOF
    • 触控面板及其制造方法
    • US20140168099A1
    • 2014-06-19
    • US13717667
    • 2012-12-17
    • Yuh-Wen LeeXianbin XuKeming RuanQiong Yuan
    • Yuh-Wen LeeXianbin XuKeming RuanQiong Yuan
    • G06F1/16
    • G06F1/1643G06F3/03547G06F3/044
    • A touch panel and a method of manufacturing the same are provided. The touch panel comprises: a cover substrate comprising a visible area and a non-visible area, wherein the non-visible area is located in a peripheral area of the visible area; an electrode layer formed on the visible area and the non-visible area of the cover substrate; a conductive masking layer formed on the non-visible area and disposed on a part of the electrode layer that is located on the non-visible area; and a plurality of connecting wires formed on the conductive masking layer and electrically connected to the electrode layer through uniaxial conduction of the conductive masking layer. The present disclosure comprises a method of manufacturing the touch panel. Accordingly, product yield is increased and touch sensing precision is maintained.
    • 提供了触摸面板及其制造方法。 触摸面板包括:覆盖基板,包括可见区域和不可见区域,其中不可见区域位于可见区域的周边区域中; 形成在所述覆盖基板的可见区域和不可见区域上的电极层; 导电掩模层,其形成在所述不可见区域上并且设置在位于所述不可见区域上的所述电极层的一部分上; 以及形成在导电掩模层上并通过导电掩模层的单轴导电电连接到电极层的多个连接线。 本公开包括制造触摸面板的方法。 因此,产品产量增加并且保持了触摸感测精度。
    • 8. 发明授权
    • Microelectroforming mold using a preformed metal as the substrate and the fabrication method of the same
    • 使用预成型金属作为基板的微电成型模具及其制造方法
    • US06881369B2
    • 2005-04-19
    • US10124312
    • 2002-04-18
    • Yuh-Wen LeeLiang-Yu YaoChao-Chiun LiangJeng-En JuangChing-Yi Wu
    • Yuh-Wen LeeLiang-Yu YaoChao-Chiun LiangJeng-En JuangChing-Yi Wu
    • B28B7/36B29C33/38B29C33/44G03F7/00H01L21/302H01L21/461
    • G03F7/00
    • The invention discloses a microelectroforming mold using a preformed metal as the substrate and its fabrication method. Using a preformed metal as the substrate can avoid deformation of the microelectroforming mold due to residual stress in the electroforming metal. The fabrication method disclosed herein includes the steps of: forming a layer of bonding material on a surface of the preformed metal substrate after machining; forming a high aspect ratio photoresist microstructure on surfaces of the metal substrate and the bonding material; putting an electroforming material into the gaps of the photoresist microstructure to form an electroforming metal microstructure; and using a thermal process to bond the metal substrate and the metal micro structure by the bonding material and simultaneously bum off the photoresist microstructure to form a micro-electroforming mold. The invention shortens the electroforming time to be one third of the prior art, elongating the number of times the micro-electroforming mold can be used by a factor of more than three.
    • 本发明公开了一种使用预成型金属作为基板的微电气模具及其制造方法。 使用预成型金属作为基板可以避免微电铸模具由于电铸金属中的残余应力而发生变形。 本文公开的制造方法包括以下步骤:在加工后在预成型金属基板的表面上形成接合材料层; 在金属基板和接合材料的表面上形成高纵横比的光致抗蚀剂微结构; 将电铸材料放入光致抗蚀剂微结构的间隙中以形成电铸金属微观结构; 并且使用热处理通过接合材料粘合金属基板和金属微结构,并同时冲击光致抗蚀剂微结构以形成微电铸模具。 本发明将电铸时间缩短到现有技术的三分之一,将微电铸模具的使用次数延长三倍以上。
    • 10. 发明申请
    • Data storage device utilizing carbon nanotubes and method for operating
    • 利用碳纳米管的数据存储装置及其操作方法
    • US20070153668A1
    • 2007-07-05
    • US11602471
    • 2006-11-20
    • Yuh-Wen LeeChing-Hsing TsaiChing-Yi Wu
    • Yuh-Wen LeeChing-Hsing TsaiChing-Yi Wu
    • G11B9/00
    • G11B9/10B82Y10/00G01Q80/00G11B9/04G11B9/1409G11B9/1427
    • The present invention provides a data storage device that includes a medium capable of recording information, a movable arm above the medium, a carbon nanotube, a driving electrode and a focusing electrode between the driving electrode and the medium. The movable arm has a conductive micro-tip above a first area of the medium and capable of accessing the information recorded in the medium. The carbon nanotube extends from the conductive micro-tip toward a direction of the medium. The driving electrode is between the conductive micro-tip and the medium, providing an opening between the conductive micro-tip and the medium, and is capable of driving electrons from the carbon nanotube toward the direction of the medium. Further, the focusing electrode is between the driving electrode and the medium, providing an opening between the conductive micro-tip and the medium, and is capable of focusing electrons passing through the focusing electrode opening.
    • 本发明提供了一种数据存储装置,其包括能够记录信息的介质,介质上方的可移动臂,碳纳米管,驱动电极和在驱动电极和介质之间的聚焦电极。 可移动臂在介质的第一区域上方具有导电微尖端并且能够访问记录在介质中的信息。 碳纳米管从导电微尖端向培养基的方向延伸。 驱动电极在导电微尖端和介质之间,在导电微尖端和介质之间提供开口,并且能够从碳纳米管向介质的方向驱动电子。 此外,聚焦电极在驱动电极和介质之间,在导电微尖端和介质之间提供开口,并且能够聚焦通过聚焦电极开口的电子。