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    • 65. 发明申请
    • HYDROGEN GENERATOR AND METHOD OF OPERATING THE SAME
    • 氢发生器及其运行方法
    • US20080090112A1
    • 2008-04-17
    • US11692533
    • 2007-03-28
    • Dong-Woo LeeTae-Sang Park
    • Dong-Woo LeeTae-Sang Park
    • H01M8/18H01M8/04
    • B01J8/0496B01J8/0411B01J2208/00504C01B3/384C01B3/48C01B2203/0233C01B2203/0283C01B2203/066C01B2203/0816C01B2203/1005C01B2203/1241H01M8/0618H01M8/0631
    • A hydrogen generator and a method of operating the hydrogen generator. The hydrogen generator includes: a cylindrical reformer catalyst; and a cylindrical shift catalyst disposed inside of the reformer catalyst; a separation wall provided between the reformer catalyst and the shift catalyst; a cylinder that is disposed inside of the reformer catalyst, and comprises, on an outer surface thereof, a plurality of first nozzles to direct a plurality of flames to the reformer catalyst and a plurality of second nozzles to direct a plurality of flames to the shift catalyst; and a combustion fuel supply valve that selectively guides a combustion fuel to the first nozzles and or the second nozzles. The method includes heating the shift catalyst by supplying a combustion fuel to the second nozzles, making flames by igniting the combustion fuel that passes through the second nozzles, and directing the flames towards the shift catalyst, and stopping the heating of the shift catalyst by blocking the supply of the combustion fuel to the second nozzles when the temperature of the shift catalyst reaches the shift reaction temperature.
    • 氢发生器和操作氢发生器的方法。 氢气发生器包括:圆筒形重整器催化剂; 以及设置在所述重整器催化剂内部的圆筒形变速催化剂; 设置在重整器催化剂和变换催化剂之间的分隔壁; 设置在重整器催化剂内部的圆筒,在其外表面上包括多个第一喷嘴以将多个火焰引导至重整器催化剂,以及多个第二喷嘴将多个火焰引导到换挡 催化剂; 以及燃烧燃料供给阀,其选择性地将燃料燃料引导到第一喷嘴和/或第二喷嘴。 该方法包括通过向第二喷嘴提供燃烧燃料来加热变换催化剂,通过点燃通过第二喷嘴的燃烧燃料产生火焰,并将火焰引向变换催化剂,并通过阻塞来停止加热变换催化剂 当变换催化剂的温度达到转变反应温度时,向第二喷嘴供应燃烧燃料。
    • 66. 发明申请
    • Storage node, phase change memory device and methods of operating and fabricating the same
    • 存储节点,相变存储器件及其操作和制造方法
    • US20070108488A1
    • 2007-05-17
    • US11589056
    • 2006-10-30
    • Dong-Seok SuhTae-Sang Park
    • Dong-Seok SuhTae-Sang Park
    • H01L29/94
    • H01L45/144H01L27/2436H01L45/06H01L45/1233H01L45/1286H01L45/1675H01L45/1683
    • A storage node, a phase change memory device, and methods of operating and fabricating the same are provided. The storage node may include a lower electrode, a phase change layer on the lower electrode and an upper electrode on the phase change layer, and the lower electrode and the upper electrode may be composed of thermoelectric materials having a melting point higher than that of the phase change layer, and having different conductivity types. An upper surface of the lower electrode may have a recessed shape, and a lower electrode contact layer may be provided between the lower electrode and the phase change layer. A thickness of the phase change layer may be about 100 nm or less, and the lower electrode may be composed of an n-type thermoelectric material, and the upper electrode may be composed of a p-type thermoelectric material, or they may be composed on the contrary to the above. Seeback coefficients of the lower electrode, the phase change layer, and the upper electrode may be different from each other.
    • 提供存储节点,相变存储器件及其操作和制造方法。 存储节点可以包括下电极,下电极上的相变层和相变层上的上电极,下电极和上电极可以由熔点高于 相变层,并具有不同的导电类型。 下电极的上表面可以具有凹陷形状,并且下电极接触层可以设置在下电极和相变层之间。 相变层的厚度可以为约100nm以下,下部电极可以由n型热电材料构成,上部电极可以由p型热电材料构成,也可以组成 与上述相反。 下电极,相变层和上电极的回吸系数可以彼此不同。
    • 68. 发明申请
    • Optical communication system and method thereof
    • 光通信系统及其方法
    • US20050169574A1
    • 2005-08-04
    • US11048972
    • 2005-02-02
    • Soo Jin ParkTae Sang Park
    • Soo Jin ParkTae Sang Park
    • G02F1/017H04B10/2507H04B10/27H04B10/516H04B10/54H04B10/61H04J14/00H04J14/02G02B6/26
    • H04B10/2572
    • The present invention discloses an art for eliminating the dependency of the optical modulator on the polarization degree by using an orthogonal mode light which is a mixture of two lights that are perpendicular to each other in polarization direction as a light source. An optical communication system of the present invention comprises: a first optical generator and a second optical generator for generating a first single mode light and a second single mode light, respectively, wherein the first single mode light and the second single mode light are orthogonal and non-interfering with each other, and have the same wavelength; a mixing means for mixing the first single mode light and the second single mode light to output an orthogonal mode light; and an optical modulator for amplifying and modulating the orthogonal mode light after receiving the orthogonal mode light through an optical fiber so as to produce a constantly amplified optical signal regardless of a deflection degree of the orthogonal mode light.
    • 本发明公开了一种通过使用作为在偏振方向彼此垂直的两个光的混合的正交模式光作为光源来消除光调制器对偏振度的依赖性的技术。 本发明的光通信系统包括:分别产生第一单模光和第二单模光的第一光发生器和第二光发生器,其中第一单模光和第二单模光正交, 互不干扰,波长相同; 混合装置,用于混合第一单模光和第二单模光以输出正交模式光; 以及光调制器,用于在通过光纤接收正交模式光之后放大和调制正交模式光,以便产生恒定放大的光信号,而不管正交模式光的偏转程度如何。