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    • 1. 发明申请
    • Method of manufacturing barrier ribs for pdp by etching of thick film using water-based solution and compositions therefor
    • 通过使用水溶液蚀刻厚膜及其组合物来制造pdp隔壁的方法
    • US20050156522A1
    • 2005-07-21
    • US10510036
    • 2002-04-08
    • Yong KimJin HwangYong Kim
    • Yong KimJin HwangYong Kim
    • H01J9/24H01J11/12H01J11/36H01J17/49
    • H01J9/242H01J11/12H01J11/36H01J2211/366
    • Disclosed is a method of manufacturing barrier ribs for a Plasma Display Panel (PDP), which includes the steps of forming a thick film (or, “green tape”) for barrier ribs on a glass or metal substrate by using composition for forming the barrier ribs, which contains water soluble components and solvent soluble components together a binder; forming a protective pattern film partially soluble or insoluble to the water based solution on the thick film; etching the thick film into a barrier rib shape by using solution or mixed solution containing ceramic powder as an etching accelerator, and sintering the etched thick film. This method causes rare environmental pollution, enables to make barrier ribs having fine and complex shapes and reduces material costs required for the barrier rib. Thus, the method may improve quality of DPD and reduce manufacture costs of the rear plate.
    • 公开了一种制造用于等离子体显示面板(PDP)的隔壁的方法,其包括以下步骤:通过使用用于形成屏障的组合物在玻璃或金属基板上形成用于隔壁的厚膜(或“生胶条”) 肋骨,其含有水溶性成分和溶剂可溶性成分在一起的粘合剂; 在厚膜上形成部分溶解或不溶于水基溶液的保护性图案膜; 通过使用含有陶瓷粉末作为蚀刻加速剂的溶液或混合溶液将厚膜蚀刻成隔壁形状,并烧结蚀刻的厚膜。 这种方法造成罕见的环境污染,能够形成具有精细和复杂形状的隔肋,并且减少隔壁所需的材料成本。 因此,该方法可以提高DPD的质量并降低后板的制造成本。
    • 4. 发明申请
    • Circuit and method for compensating for an electrode motion artifact
    • 用于补偿电极运动伪影的电路和方法
    • US20070142735A1
    • 2007-06-21
    • US11372373
    • 2006-03-10
    • Kun ShinJong KimJin HwangHyun Hwang
    • Kun ShinJong KimJin HwangHyun Hwang
    • A61B5/04
    • A61B5/0424A61B5/0428
    • A circuit and method for compensating for an electrode motion artifact in which the electrode motion artifact is generated because impedance between a subject and a measuring electrode changes during measurement of the subject's biosignal, and the electrode motion artifact can be differentially measured and an electrocardiogram signal can be compensated by introducing a predetermined voltage or an electric current to the subject. A circuit and method for compensating electrode motion artifact, which can differentially measure the difference information between impedance components by introducing a predetermined voltage or electric current to a subject, in association with the electrode motion artifact. In this instance, the impedance component is a component of electrode motion artifact and the electrode motion artifact is generated when measuring a biosignal.
    • 一种用于补偿电极运动假象的电路和方法,其中由于受测者和测量电极之间的阻抗在对象的生物信号的测量期间发生变化而产生电极运动伪像,并且可以差异地测量电极运动假象,并且心电图信号可以 通过向对象引入预定电压或电流来补偿。 一种用于补偿电极运动假象的电路和方法,其可以通过与电极运动伪影相关联地向对象引入预定的电压或电流来差异地测量阻抗分量之间的差异信息。 在这种情况下,阻抗分量是电极运动伪影的分量,并且当测量生物信号时产生电极运动伪像。
    • 5. 发明申请
    • Electrode for living body and device for detecting living signal
    • 活体电极和检测生物信号的装置
    • US20070093705A1
    • 2007-04-26
    • US11487316
    • 2006-07-17
    • Kun ShinJin HwangJong KimHyung YeoSang Kim
    • Kun ShinJin HwangJong KimHyung YeoSang Kim
    • A61B5/04
    • A61B5/0416A61B5/0006A61B5/04087
    • A biosignal measurement device includes an electrode and a signal processing member. The electrode includes an insulation sheet having a hole, a device contact portion provided on the top surface of the insulation sheet and a body contact portion provided on the bottom surface of the insulation sheet, the device contact portion and the body contact portion electrically connected to each other via the hole. The signal processing member includes an externally exposed terminal to make surface contact with the device contact portion, an analog signal processing unit, an A/D signal converter and a digital signal processing unit. Also, the device contact portion and the body contact portion are formed of a material which is both conductive and adhesive. Accordingly, the signal processing member may be directly attached. Noise may be reduced. Also, a biosignal may be accurately measured.
    • 生物信号测量装置包括电极和信号处理部件。 电极包括具有孔的绝缘片,设置在绝缘片的顶表面上的器件接触部分和设置在绝缘片的底表面上的本体接触部分,该器件接触部分和本体接触部分电连接到 彼此通过孔。 信号处理部件包括外部暴露端子以与器件接触部分进行表面接触,模拟信号处理单元,A / D信号转换器和数字信号处理单元。 此外,器件接触部分和身体接触部分由导电和粘合剂的材料形成。 因此,信号处理部件可以直接安装。 噪音可能会降低。 此外,可以精确地测量生物信号。
    • 8. 发明申请
    • Portable device having biosignal-measuring instrument
    • 具有生物信号测量仪器的便携式设备
    • US20070021676A1
    • 2007-01-25
    • US11432546
    • 2006-05-12
    • Wan HanJin HwangSang ShinHyung Yeo
    • Wan HanJin HwangSang ShinHyung Yeo
    • A61B5/04
    • A61B5/0452A61B5/0404
    • A portable device having a biosignal measuring instrument includes: at least one first electrocardiogram signal sensor portion on a first surface of the portable device that contacts a first hand of a user, to measure a first electrocardiogram signal of the user; at least one second electrocardiogram signal sensor portion on a second surface of the portable device that contacts a wrist of a second hand of the user, to measure a second electrocardiogram signal from the wrist; a pulse waveform sensor on the second surface and in parallel with the second electrocardiogram signal sensor portion, to sense a pulse waveform from the wrist; a waveform controller generating an electrocardiogram waveform of the user from the measured first electrocardiogram signal and second electrocardiogram signal, generating a pulse waveform of the user from the sensed pulse waveform, and detecting at least one characteristic point of the pulse waveform by referring to the electrocardiogram waveform; and an output portion providing a result of the pulse wave analysis based on the at least one detected characteristic point of the user.
    • 具有生物信号测量仪器的便携式设备包括:便携式设备的第一表面上的至少一个第一心电图信号传感器部分,其接触用户的第一只手,测量用户的第一心电图信号; 所述便携式设备的第二表面上的至少一个第二心电图信号传感器部分接触到所述用户的第二只手的腕部,以测量来自所述手腕的第二心电图信号; 在所述第二表面上并与所述第二心电图信号传感器部分并联的脉搏波形传感器,用于感测来自所述手腕的脉搏波形; 波形控制器,从所测量的第一心电图信号和第二心电图信号产生用户的心电图波形,从感测到的脉搏波形产生用户的脉搏波形,并通过参考心电图检测脉搏波形的至少一个特征点 波形; 以及输出部,其基于所述用户的所述至少一个检测到的特征点提供所述脉搏波分析的结果。
    • 9. 发明申请
    • Apparatus of withdrawing cash from cash transaction machine
    • 从现金交易机提取现金的手段
    • US20060244193A1
    • 2006-11-02
    • US11195700
    • 2005-08-03
    • Won LeeDong LeeJoong HanJin Hwang
    • Won LeeDong LeeJoong HanJin Hwang
    • B65H5/00
    • G07D11/14
    • Provided is a withdrawal apparatus of a cash transaction machine, including: a storage means for storing paper media; a stack means for stacking the paper media transferred from the storage means; a withdrawal means for providing a stack of the paper media transferred from the stack means to a customer; a first transfer means transferring the paper media from the storage means to the stack means; a second transfer means for transferring the stack of the paper media from the stack means to the withdrawal means, which is separated from the first transfer means; and a stack transfer means for transferring the stack of the paper media in the stack means to a pathway defined by the second transfer means. The pathways defined respectively by the first and second transfer units are separately divided, thereby rapidly transferring the paper media and distinguishing the structure for transferring the paper media from the structure for transferring the stack of the paper media in order to prevent a trouble of the apparatus.
    • 提供一种现金交易机的提取装置,包括:存储纸介质的存储装置; 堆叠装置,用于堆叠从存储装置传送的纸张介质; 提取装置,用于提供从堆叠装置传送到顾客的纸张介质的堆叠; 将纸张介质从存储装置传送到堆叠装置的第一传送装置; 第二传送装置,用于将纸介质的堆叠从堆叠装置传送到与第一传送装置分离的抽出装置; 以及堆叠传送装置,用于将堆叠装置中的纸张介质的堆叠传送到由第二传送装置限定的路径。 分别由第一和第二转印单元限定的通道被分开分开,从而快速地传送纸张介质并区分用于传送纸张介质的结构与用于传送纸张介质的堆叠的结构,以防止设备的故障 。
    • 10. 发明申请
    • Color optical link using transparently jacketed plastic optical fiber and method for achieving the same
    • 使用透明夹克塑料光纤的彩色光链路和实现相同的方法
    • US20060147161A1
    • 2006-07-06
    • US10765102
    • 2004-01-28
    • Mu KimJin HwangJin ChoiHan Cho
    • Mu KimJin HwangJin ChoiHan Cho
    • G02B6/36
    • G02B6/4249G02B6/0006G02B6/02033G02B6/2804G02B6/4298
    • Disclosed is a color optical link using a transparently jacketed plastic optical fiber which optically transmits data and uses light, scattered and emitted to the outside, for the purpose of illumination, and a method for achieving the color optical link. The color optical link includes a first driver for receiving digital or analog signals and a coloring signal in parallel and converting the received signals into optical signals through a plurality of light sources; the plurality of light sources for emitting light having different wavelengths in order to output the optical signals; a first POF coupler for inputting a plurality of the optical signals received from the plurality of the light sources into the transparently jacketed plastic optical fiber; the transparently jacketed plastic optical fiber having one end connected to the first POF coupler and the other end connected to a second POF coupler; the second POF coupler being provided for separating an optical signal transmitted from the transparently jacketed plastic optical fiber into a plurality of optical signals and respectively inputting the optical signals into a plurality of optical detectors; the plurality of the optical detectors respectively having filters for separating the received optical signal into plural signals according to wavelengths; and a second driver for receiving the optical signals from the optical detectors and converting the received optical signals into electrical signals.
    • 公开了一种使用透明夹层的塑料光纤的彩色光学链路,其用于光照传输数据并使用散射并发射到外部的光,用于照明,以及用于实现彩色光学链路的方法。 彩色光链路包括并行接收数字或模拟信号和着色信号的第一驱动器,并通过多个光源将接收到的信号转换成光信号; 所述多个光源用于发射具有不同波长的光,以输出光信号; 第一POF耦合器,用于将从所述多个光源接收的多个光信号输入到所述透明夹套的塑料光纤中; 透明夹套的塑料光纤,其一端连接到第一POF耦合器,另一端连接到第二POF耦合器; 所述第二POF耦合器被提供用于将从所述透明夹套的塑料光纤传输的光信号分离成多个光信号,并分别将所述光信号输入到多个光检测器中; 所述多个光检测器分别具有根据波长将接收的光信号分离成多个信号的滤波器; 以及第二驱动器,用于从光学检测器接收光信号并将接收到的光信号转换为电信号。