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    • 11. 发明授权
    • Cathode catalyst for fuel cell
    • 燃料电池用阴极催化剂
    • US07241717B2
    • 2007-07-10
    • US10967200
    • 2004-10-19
    • Tetsuo ItoTomoaki TeradaHisao KatoTetsuo Nagami
    • Tetsuo ItoTomoaki TeradaHisao KatoTetsuo Nagami
    • B01J23/00B01J23/40B01J23/74B01J21/18
    • H01M4/921B01J21/18B01J23/8906B01J23/8993C22C5/04H01M4/926
    • It is an object of the present invention to provide a cathode catalyst for fuel cells containing platinum and iron which can maintain the durability of a battery and can make a battery high output. The cathode catalyst for fuel cells comprises a supporting layer which consists of an alloy containing platinum and iron and further containing the third component which has an affinity for iron including one or more sorts of elements selected from the group consisting of tungsten, titanium, molybdenum, rhenium, zinc, manganese, tin, tantalum and rhodium, and a support on which the supporting layer is loaded. A catalyst using an alloy containing platinum and iron enables the batteries to become high output. By alloying one or more sorts of elements of the third component which has an affinity for iron with an alloy containing platinum and iron, it is possible to prevent eluting of the iron into the electrolyte.
    • 本发明的目的是提供一种能够保持电池的耐久性并且能够使电池高输出的含有铂和铁的燃料电池用阴极催化剂。 用于燃料电池的阴极催化剂包括由含有铂和铁的合金组成的支撑层,并且还含有对铁的亲合性的第三组分,所述第三组分包括选自钨,钛,钼, 铼,锌,锰,锡,钽和铑以及负载载体的载体。 使用含有铂和铁的合金的催化剂使得电池变得高输出。 通过将具有与铁的亲和性的第三成分的一种或多种元素与含有铂和铁的合金合金化,可以防止铁向电解液中洗脱。
    • 12. 发明申请
    • Cathode catalyst for fuel cell
    • 燃料电池用阴极催化剂
    • US20050164074A1
    • 2005-07-28
    • US10967200
    • 2004-10-19
    • Tetsuo ItoTomoaki TeradaHisao KatoTetsuo Nagami
    • Tetsuo ItoTomoaki TeradaHisao KatoTetsuo Nagami
    • B01J21/18B01J23/89H01M4/90H01M4/92H01M8/10H01M4/96B01J23/42
    • H01M4/921B01J21/18B01J23/8906B01J23/8993C22C5/04H01M4/926
    • It is an object of the present invention to provide a cathode catalyst for fuel cells containing platinum and iron which can maintain the durability of a battery and can make a battery high output. The cathode catalyst for fuel cells comprises a supporting layer which consists of an alloy containing platinum and iron and further containing the third component which has an affinity for iron including one or more sorts of elements selected from the group consisting of tungsten, titanium, molybdenum, rhenium, zinc, manganese, tin, tantalum and rhodium, and a support on which the supporting layer is loaded. A catalyst using an alloy containing platinum and iron enables the batteries to become high output. By alloying one or more sorts of elements of the third component which has an affinity for iron with an alloy containing platinum and iron, it is possible to prevent eluting of the iron into the electrolyte.
    • 本发明的目的是提供一种能够保持电池的耐久性并且能够使电池高输出的含有铂和铁的燃料电池用阴极催化剂。 用于燃料电池的阴极催化剂包括由含有铂和铁的合金组成的支撑层,并且还含有对铁的亲和性的第三组分,所述第三组分包括选自钨,钛,钼, 铼,锌,锰,锡,钽和铑以及负载载体的载体。 使用含有铂和铁的合金的催化剂使得电池变得高输出。 通过将具有与铁的亲和性的第三成分的一种或多种元素与含有铂和铁的合金合金化,可以防止铁向电解液中洗脱。
    • 18. 发明授权
    • Image transmission system
    • 图像传输系统
    • US4673974A
    • 1987-06-16
    • US816841
    • 1986-01-07
    • Tetsuo ItoSetsuo AritaWataru Kitaura
    • Tetsuo ItoSetsuo AritaWataru Kitaura
    • H04N7/18G08B13/196H04J3/00H04N7/24G08B1/08
    • G08B13/19693G08B13/19634G08B13/19645G08B13/19667H04N7/24
    • Plural television cameras situated at monitored sites, each assigned with a particular code, generate image signals of the sites. An image signal transmitting unit receives those signals and transmits an image transmission signal over a transmission a monitoring site. The transmission signal is so formed that one channel of the transmission line which is divided into plural channels is assigned to the transmission of an image signal of high priority sites so as, to reproduce a full motion image of the remote site at the monitoring site and all the signals from the other sites are transmitted on a time-sharing basis through the remaining channels to reproduce frame repetition images. The assignment of the channels is determined by the order (priority) of codes included in an instruction signal from an instruction signal transmitting unit at the monitoring site. An operator can select the order (priority) of the codes.
    • 位于受监控场所的多台电视摄像机,每个都分配一个特定的代码,生成场景的图像信号。 图像信号发送单元接收这些信号,并通过监视点的发送发送图像发送信号。 传输信号被形成为将被分成多个信道的传输线的一个信道分配给高优先级位置的图像信号的传输,以便在监视点再现远程站点的全运动图像,以及 来自其他站点的所有信号通过剩余信道以分时的方式发送以再现帧重复图像。 信道的分配由包括在来自监视点的指示信号发送单元的指令信号中的代码的顺序(优先级)决定。 操作员可以选择代码的顺序(优先级)。
    • 19. 发明授权
    • Signal diagnostic method and apparatus for multiple transmission system
    • 多传输系统信号诊断方法及装置
    • US4520483A
    • 1985-05-28
    • US421375
    • 1982-09-22
    • Setsuo AritaTetsuo Ito
    • Setsuo AritaTetsuo Ito
    • H04L1/22H04B1/74H04L1/00H04L1/02H04L7/033H04L7/04H04M3/22
    • H04L1/02H04L7/04
    • The present invention relates to a signal diagnostic method for a triple information transmission system. According to this method, using a transmission signal transmitted latest among three transmission signals of three channels, the synchronizing signal parts of the respective transmission signals are synchronized so as to align the heads of information signal parts of the transmission signals, whereupon any error in the information signal parts of the transmission signals is detected. The three transmission signals of the three channels are temporarily stored in three registers. The storage time intervals of the transmission signals in the registers are determined by the transmission time differences between the respective transmission signals and the latest transmission signal. Upon lapse of the predetermined storage time intervals, the transmission signals are fetched from the respective registers.
    • 本发明涉及三重信息传输系统的信号诊断方法。 根据该方法,使用三个信道的三个发送信号中最近发送的发送信号,各个发送信号的同步信号部分被同步,以便对准发送信号的信息信号部分的头部,因此在 检测发送信号的信息信号部分。 三个通道的三个传输信号暂时存储在三个寄存器中。 寄存器中的发送信号的存储时间间隔由各个发送信号与最新发送信号之间的发送时间差确定。 在经过预定的存储时间间隔之后,从各个寄存器中取出发送信号。
    • 20. 发明授权
    • Data transmission system using frequency permutation codes
    • 数据传输系统采用频率排列代码
    • US3990071A
    • 1976-11-02
    • US502195
    • 1974-08-30
    • Tetsuo ItoMotohisa Nishihara
    • Tetsuo ItoMotohisa Nishihara
    • H04B11/00H04L27/26H03K13/00
    • H04L27/26H04B11/00
    • A data transmission system is disclosed in which the information to be transmitted comprises a plurality of unit information pieces each of which in turn is indicated by a numerical code of a binary number or a binary-coded decimal number having a predetermined number of bits. One of said numerical codes makes up a fundamental matrix of a frequency permutation code comprising a plurality of different frequency signals; the number of times by which the information in the form of numerical codes shifts the elements of the fundamental matrix on the basis of weight constants determined by said number of bits is detected; each numerical code is converted into a permutation code in response to the above-mentioned detection and transmitted at the transmitting end in the form of a plurality of different frequency signals according to the elements of the shifted permutation code; the frequency signals thus transmitted are received and stored in sequence and detection is made as to how many shifts are required in order that the matrix elements of said stored permutation code may be made identical to with the fundamental matrix; and the permutation code is converted into a numerical code by calculation of the detected number of shifts and the weight constants.
    • 公开了一种数据传输系统,其中要发送的信息包括多个单元信息,每个单元信息又由二进制数的数字代码或具有预定位数的二进制编码的十进制数表示。 所述数字代码之一构成包括多个不同频率信号的频率置换码的基本矩阵; 检测以数字形式的信息基于由所述位数确定的权重常数来移位基本矩阵的元素的次数; 每个数字代码根据上述检测被转换为置换代码,并根据移位置换代码的元素以多个不同频率信号的形式在发送端发送; 这样发送的频率信号被依次接收和存储,并且检测是否需要多少个移位,以使得所存储的置换码的矩阵元素可以与基本矩阵相同; 并且通过计算检测到的移位数和权重常数将置换码转换成数字代码。