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    • 2. 发明授权
    • Hydrogen generating apparatus and fuel cell power generation system
    • 氢发生装置和燃料电池发电系统
    • US08303782B2
    • 2012-11-06
    • US12421192
    • 2009-04-09
    • Bo-Sung KuJae-Hyuk JangKyoung-Soo ChaeJae-Hyoung Gil
    • Bo-Sung KuJae-Hyuk JangKyoung-Soo ChaeJae-Hyoung Gil
    • C25B9/18
    • H01M8/186H01M8/0656Y02E60/366Y02E60/528
    • A hydrogen generating apparatus is disclosed. The hydrogen generating apparatus in accordance with an embodiment of the present invention includes: a first hydrogen generating unit, which has a first electrode generating hydrogen by decomposing an electrolyte aqueous solution; a second hydrogen generating unit, which has a second electrode that is placed adjacent to the first hydrogen generating unit and surface thereof is formed with a super absorbent polymer that is gelled when water is absorbed; a solution separation membrane interposed between the first hydrogen generating unit and the second hydrogen generating unit; a reactor accommodating the first hydrogen generating unit, the second hydrogen generating unit and the solution separation membrane; and a hydrogen vent being formed on one side of the reactor, which is adjacent to the second hydrogen generating unit.
    • 公开了一种氢生成装置。 根据本发明实施例的氢生成装置包括:第一氢生成单元,其具有通过分解电解质水溶液而产生氢的第一电极; 具有与第一氢生成单元及其表面相邻的第二电极的第二氢生成单元形成有在吸收水时凝胶化的高吸水性聚合物; 介于所述第一氢生成单元和所述第二氢生成单元之间的溶液分离膜; 容纳第一氢生成单元,第二氢生成单元和溶液分离膜的反应器; 并且在所述反应器的与所述第二氢生成单元相邻的一侧上形成有氢气排出口。
    • 5. 发明申请
    • MUTUAL CAPACITIVE TOUCH PANEL
    • 电容触摸面板
    • US20110234530A1
    • 2011-09-29
    • US12818909
    • 2010-06-18
    • Woon Chun KIMJong Young LEEKyoung Soo CHAEYong Soo OH
    • Woon Chun KIMJong Young LEEKyoung Soo CHAEYong Soo OH
    • G06F3/045
    • G06F3/044G06F2203/04103
    • Disclosed herein is a mutual capacitive touch panel, including: a first transparent substrate; a first bar-shaped transparent electrode formed on the first transparent substrate and divided in a length direction; first wiring whose one set of ends are connected to the first bar-shaped transparent electrode and whose the other set of ends are arranged on one side of the first transparent substrate; a second transparent substrate; a second bar-shaped transparent electrode formed on the second transparent substrate and divided in a length direction; second wiring whose one set of ends are connected to the second bar-shaped transparent electrode and whose the other set of ends are arranged on one side of the second transparent substrate; and an adhesive layer disposed between the first bar-shaped transparent electrode and the second bar-shaped transparent electrode such that the first bar-shaped transparent electrode and the second bar-shaped transparent electrode face each other. The mutual capacitive touch panel is advantageous in that, since transparent electrodes are divided, low resistance can be realized even when the transparent electrodes are made of a conductive polymer, thus keeping up with the trend of manufacturing large touch panels.
    • 这里公开了一种互电容式触摸面板,包括:第一透明基板; 形成在所述第一透明基板上并沿长度方向分割的第一棒状透明电极; 第一布线,其一组端部连接到第一条形透明电极,并且另一组端部布置在第一透明基板的一侧上; 第二透明基板; 形成在所述第二透明基板上并沿长度方向分割的第二条形透明电极; 第二布线,其一组端部连接到第二条形透明电极,另一组端部布置在第二透明基板的一侧; 以及设置在第一条形透明电极和第二条形透明电极之间的粘合层,使得第一条形透明电极和第二条形透明电极彼此面对。 相互电容性触摸面板的优点在于,由于透明电极被分割,即使透明电极由导电性聚合物制成,也能够实现低电阻,因此能够跟上制造大型触摸面板的趋势。
    • 6. 发明申请
    • RESISTIVE TOUCH SCREEN
    • 电阻触屏
    • US20110227860A1
    • 2011-09-22
    • US12787926
    • 2010-05-26
    • Ho Joon ParkYong Soo OhSang Hwa KimKyoung Soo ChaeHee Bum LeeJong Young Lee
    • Ho Joon ParkYong Soo OhSang Hwa KimKyoung Soo ChaeHee Bum LeeJong Young Lee
    • G06F3/045
    • G06F3/045
    • Disclosed herein is a resistive touch screen, including: a large-area touch screen formed by connecting two or more single touch screens, each including a first substrate and a second substrate which are respectively coated with transparent electrodes on one side thereof and face each other, on the same level; a plurality of first dot spacers formed on first connection parts at which the first substrates are connected with each other and supporting second connection parts at which the second substrates are connected with each other; and a plurality of second dot spacers formed on respective one sides of the first substrates excluding the first connection parts and having a lower height than the plurality of first dot spacers. The resistive touch screen is advantageous in that a large-area touch panel can be realized by connecting single touch panels on the same level.
    • 本文公开了一种电阻式触摸屏,包括:通过连接两个或更多个单个触摸屏而形成的大面积触摸屏,每个单个触摸屏包括第一基板和第二基板,所述第一基板和第二基板在其一侧分别涂覆有透明电极并彼此面对 ,在同一水平上; 多个第一点间隔件,形成在第一连接部分上,第一基板彼此连接并支撑第二连接部分,第二基板彼此连接; 以及形成在除了第一连接部分之外的第一基板的相应一侧上并且具有比多个第一点间隔物低的高度的多个第二点间隔物。 电阻式触摸屏的优点在于,可以通过将单个触摸面板连接在同一层面上来实现大面积的触摸面板。
    • 10. 发明申请
    • METHOD FOR SETTING INITIAL COMPENSATION VALUE IN SENSOR COMPLEX MODULE
    • 传感器复合模块设定初始补偿值的方法
    • US20070193560A1
    • 2007-08-23
    • US11617883
    • 2006-12-29
    • Kyoung Soo CHAEGhun HAHMHyun Joon KIMSung Whan CHO
    • Kyoung Soo CHAEGhun HAHMHyun Joon KIMSung Whan CHO
    • F02M51/00G06F19/00
    • G01P21/00G01P15/18
    • A method for setting an initial compensation value of a sensor complex module is provided. The method for setting the initial compensation value of the sensor complex module including an acceleration sensor, a memory, and a controller that performs the setting of the initial compensation value, includes the following steps. A preset sensitivity value and an offset value are read from the memory, and an acceleration value is detected using the acceleration sensor. Then, an accelerating-force sensitivity value is calculated using the acceleration value and the offset value, and an accelerating-force error value is calculated using the accelerating-force sensitivity value and the sensitivity value. A gradient error value is calculated using the accelerating-force error value and the acceleration of gravity, and a polarity value is set according to the accelerating-force sensitivity value. The accelerating-force error value, the gradient error value and the polarity value are stored in the memory, and the stored values are set as the initial compensation value.
    • 提供了一种用于设置传感器复合模块的初始补偿值的方法。 包括执行设定初始补偿值的加速度传感器,存储器和控制器的传感器复合模块的初始补偿值的设定方法包括以下步骤。 从存储器读取预设灵敏度值和偏移值,并使用加速度传感器检测加速度值。 然后,使用加速度值和偏移值来计算加速力灵敏度值,并且使用加速力灵敏度值和灵敏度值来计算加速度力误差值。 使用加速度误差值和重力加速度来计算梯度误差值,根据加速力灵敏度值设定极性值。 加速力误差值,梯度误差值和极性值存储在存储器中,并将存储的值设置为初始补偿值。