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    • 32. 发明授权
    • Semiconductor memory device having pre-emphasis signal generator
    • 具有预加重信号发生器的半导体存储器件
    • US07391238B2
    • 2008-06-24
    • US11429296
    • 2006-05-05
    • Hyun-Jin KimKwang-Il ParkWoo-Jin Lee
    • Hyun-Jin KimKwang-Il ParkWoo-Jin Lee
    • H03K19/094H03K19/0175
    • G06F13/4072H04L25/0278H04L25/028
    • A semiconductor memory device includes a primary output driver which outputs a data signal through an output terminal; a secondary output driver which is connected to the output terminal and performs a pre-emphasis operation; and a pre-emphasis signal generator which outputs a pre-emphasis signal to enable the secondary output driver The pre-emphasis signal generator includes a auto pulse generator which generates an auto pulse in response to a transition of a control signal; a delay circuit which receives the auto pulse output from the auto pulse generator, delays the auto pulse by a predetermined period, and outputs a pre-emphasis signal; and a delay control unit which applies a delay control signal to the delay circuit and controls a delay amount of the delay circuit.
    • 半导体存储器件包括通过输出端输出数据信号的初级输出驱动器; 二次输出驱动器,其连接到输出端子并执行预加重操作; 以及预加重信号发生器,其输出预加重信号以使得辅助输出驱动器。预加重信号发生器包括自动脉冲发生器,其响应于控制信号的转变而产生自动脉冲; 接收从自动脉冲发生器输出的自动脉冲的延迟电路将自动脉冲延迟预定周期,并输出预加重信号; 以及延迟控制单元,其向延迟电路施加延迟控制信号并控制延迟电路的延迟量。
    • 34. 发明申请
    • Plastic microchip for microparticle analysis and method for manufacturing the same
    • 用于微粒分析的塑料微芯片及其制造方法
    • US20070238164A1
    • 2007-10-11
    • US11732979
    • 2007-04-05
    • Hyun Jin Kim
    • Hyun Jin Kim
    • C12M1/34H01L21/00
    • G01N15/1484B01L3/502707B01L2200/12B81B2201/058B81C1/00119B81C2201/019B81C2201/036G01N15/1459G01N15/1463G01N2015/1486
    • Disclosed herein is a plastic microchip used in counting the number of microparticles and a method for manufacturing the same and, more particularly, to a plastic microchip including a negative microgrid pattern formed on a lower substrate, a solvent channel and solvent inlets for a solvent welding process, and a method for manufacturing the plastic microchip by injection molding the lower substrate on which a negative microgrid pattern is formed and by injecting a solvent through the solvent inlets so as to fix an upper substrate to the lower substrate.According to the present invention, it is possible to form a microgrid pattern of a relatively narrow width deeply and uniformly as a negative microgrid pattern is formed on the lower substrate and thereby to provide a clear microgrid pattern, thus facilitating accurate observation of microparticles. Moreover, it is also possible to provide a uniform height of an injection chamber by welding an upper substrate and a lower substrate to each other by a solvent welding process, thus ensuring a more accurate analysis result.
    • 本文公开了用于计数微粒数量的塑料微芯片及其制造方法,更具体地,涉及一种塑料微芯片,其包括形成在下基板上的负微阵列图案,溶剂通道和用于溶剂焊接的溶剂入口 工艺,以及通过注射模制形成负微型格栅图案的下基板并通过溶剂入口注入溶剂以将上基板固定到下基板来制造塑料微芯片的方法。 根据本发明,由于在下基板上形成负的微格栅图案,所以可以深度均匀地形成相对较窄宽度的微网格图案,从而提供清晰的微网格图案,从而有助于微粒的准确观察。 而且,也可以通过溶剂焊接工艺将上部基板和下部基板相互焊接来提供喷射室的均匀高度,从而确保更准确的分析结果。
    • 40. 发明申请
    • Display apparatus
    • 显示装置
    • US20060076881A1
    • 2006-04-13
    • US11247884
    • 2005-10-10
    • Hyun-Jin KimSeok-Hyun NamDon-Chan ChoSang-Yu Lee
    • Hyun-Jin KimSeok-Hyun NamDon-Chan ChoSang-Yu Lee
    • H01J63/04H01J1/62
    • G02F1/133617G02F1/133621H01J63/02H01J63/04H01J63/06
    • A display apparatus includes a top substrate, a middle substrate, and a bottom substrate. The top substrate includes a first substrate. The middle substrate includes a second substrate, an anode electrode and a fluorescent layer. The second substrate includes an upper surface facing the first substrate and a lower surface that is opposite to the upper surface. An array layer is formed on either the upper surface of the second substrate or a lower surface of the first substrate. The anode electrode is formed on the lower surface of the second substrate. The fluorescent layer is formed on the anode electrode. The bottom substrate includes a third substrate and a cathode electrode formed on the third substrate such that the cathode electrode faces the fluorescent layer. Therefore, a thickness may be reduced and luminance of a light may be enhanced.
    • 显示装置包括顶部基板,中间基板和底部基板。 顶部衬底包括第一衬底。 中间基板包括第二基板,阳极电极和荧光层。 第二基板包括面向第一基板的上表面和与上表面相对的下表面。 在第二基板的上表面或第一基板的下表面上形成阵列层。 阳极电极形成在第二基板的下表面上。 荧光层形成在阳极电极上。 底部基板包括形成在第三基板上的第三基板和阴极,使得阴极面对荧光层。 因此,可以减小厚度,并且可以提高光的亮度。