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    • 11. 发明授权
    • Recovery system of heat energy in a fuel cell system
    • 燃料电池系统中的热能回收系统
    • US06692853B2
    • 2004-02-17
    • US10028563
    • 2001-12-21
    • Satoshi HanaiKiyoshi KasaharaNaoyuki Abe
    • Satoshi HanaiKiyoshi KasaharaNaoyuki Abe
    • H01M818
    • H01M8/04014H01M8/0625H01M8/0662H01M8/1007
    • A fuel cell system 1 comprises a fuel cell stack 10, an evaporator 21, a reforming device 22, a supercharger 23, an offgas heating device 24, and a catalytic combustion chamber 25. Offgas exhausted from the fuel cell stack 10 is burnt in the catalytic combustion chamber 25, and the burnt offgas is introduced to the evaporator 21 to be heat exchanged with a reforming raw fuel and reforming air. The burnt offgas cooled by means of the heat exchange is introduced to the offgas heating device 24, to be used as a heat source for heating the offgas exhausted from the fuel cell stack 10. The offgas can be heated by the burnt offgas, and the moisture in the offgas can be vaporized and introduced to the catalytic combustion chamber 25.
    • 燃料电池系统1包括燃料电池堆10,蒸发器21,重整装置22,增压器23,废气加热装置24和催化燃烧室25.从燃料电池堆10排出的废气在 催化燃烧室25,并且将燃烧的废气引入蒸发器21以与重整原料燃料和重整空气进行热交换。 通过热交换冷却的燃烧废气被引入废气加热装置24,用作用于加热从燃料电池堆10排出的废气的热源。废气可以被燃烧的废气加热,并且 废气中的水分可以蒸发并引入催化燃烧室25。
    • 13. 发明授权
    • Capacitor device
    • 电容器
    • US07369397B2
    • 2008-05-06
    • US11433774
    • 2006-05-15
    • Koichi YamamotoMakoto KawaharaNaoyuki AbeMasaru ImaiKiyotaka Hanaoka
    • Koichi YamamotoMakoto KawaharaNaoyuki AbeMasaru ImaiKiyotaka Hanaoka
    • H01G5/38H01G9/00
    • H01G9/14H01G9/008H01G9/06
    • The present invention provides a capacitor device including a plurality of capacitor elements adjacent to each other along an axial direction are electrically connected to each other by fitting between a first terminal of one capacitor element and a second terminal of the other capacitor element, a intermediate plate allows the terminals fitted to each other between the capacitor elements adjacent to each other along the axial direction to penetrate through and positions these capacitor elements, an upper plate is electrically connected to the terminals of capacitor elements arranged on one end portion in the axial direction, a lower plate is electrically connected to the terminals of capacitor elements arranged on the other end portion in the axial direction, and all the capacitor elements are held in place by being sandwiched between the upper plate and the lower plate.
    • 本发明提供一种电容器装置,其包括沿着轴向彼此相邻的多个电容器元件,通过装配在一个电容器元件的第一端子和另一个电容器元件的第二端子之间彼此电连接,中间板 允许沿着轴向彼此相邻的电容器元件之间彼此配合的端子穿透并定位这些电容器元件,上板电连接到沿轴向布置在一个端部的电容器元件的端子, 下板电连接到沿轴向设置在另一端部的电容器元件的端子,并且所有电容器元件通过夹在上板和下板之间而保持就位。
    • 16. 发明申请
    • A/D CONVERTER
    • A / D转换器
    • US20090102519A1
    • 2009-04-23
    • US12253071
    • 2008-10-16
    • Naoyuki Abe
    • Naoyuki Abe
    • H03K3/00
    • G11C27/026H03M1/002H03M1/1245
    • An apparatus is provided. The apparatus comprises a sample and hold circuit, a converter, and an adjustable current circuit. The sample and hold circuit is adapted to receive an analog input signal and to output an amplified signal. The converter is coupled to the sample and hold circuit and that converts the amplified signal to a digital signal. The controller is coupled to the converter and that receives the digital signal. The controller includes a plurality of voltage ranges, wherein each voltage range is associated with a current value, and the controller compares the digital signal to at least one of the voltage ranges to output at least one of the current values. The adjustable current circuit is coupled to the sample and hold amplifier and to the controller so that the adjustable current circuit provides a generally constant operating current that corresponds to the current value output from the controller.
    • 提供了一种装置。 该装置包括采样和保持电路,转换器和可调电流电路。 采样和保持电路适于接收模拟输入信号并输出​​放大的信号。 转换器耦合到采样和保持电路,并将放大的信号转换成数字信号。 控制器耦合到转换器并且接收数字信号。 控制器包括多个电压范围,其中每个电压范围与电流值相关联,并且控制器将数字信号与至少一个电压范围进行比较以输出至少一个电流值。 可调电流电路耦合到采样和保持放大器和控制器,使得可调电流电路提供对应于从控制器输出的电流值的大致恒定的工作电流。
    • 18. 发明申请
    • Capacitor device
    • 电容器
    • US20060262482A1
    • 2006-11-23
    • US11433774
    • 2006-05-15
    • Koichi YamamotoMakoto KawaharaNaoyuki AbeMasaru ImaiKiyotaka Hanaoka
    • Koichi YamamotoMakoto KawaharaNaoyuki AbeMasaru ImaiKiyotaka Hanaoka
    • H01G4/38
    • H01G9/14H01G9/008H01G9/06
    • The present invention provides a capacitor device including a plurality of capacitor elements adjacent to each other along an axial direction are electrically connected to each other by fitting between a first terminal of one capacitor element and a second terminal of the other capacitor element, a intermediate plate allows the terminals fitted to each other between the capacitor elements adjacent to each other along the axial direction to penetrate through and positions these capacitor elements, an upper plate is electrically connected to the terminals of capacitor elements arranged on one end portion in the axial direction, a lower plate is electrically connected to the terminals of capacitor elements arranged on the other end portion in the axial direction, and all the capacitor elements are held in place by being sandwiched between the upper plate and the lower plate.
    • 本发明提供一种电容器装置,其包括沿着轴向彼此相邻的多个电容器元件,通过装配在一个电容器元件的第一端子和另一个电容器元件的第二端子之间彼此电连接,中间板 允许沿着轴向彼此相邻的电容器元件之间彼此配合的端子穿透并定位这些电容器元件,上板电连接到沿轴向布置在一个端部的电容器元件的端子, 下板电连接到沿轴向设置在另一端部的电容器元件的端子,并且所有电容器元件通过夹在上板和下板之间而保持就位。