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    • 4. 发明授权
    • Gas sensor and method for manufacturing the same
    • 气体传感器及其制造方法
    • US08377274B2
    • 2013-02-19
    • US12463625
    • 2009-05-11
    • Seiji OhyaTomohiro WakazonoKenji KatoKoji Shiotani
    • Seiji OhyaTomohiro WakazonoKenji KatoKoji Shiotani
    • G01N27/407
    • G01N27/4075
    • A gas sensor including a gas sensor element having a first measurement chamber (16); a first pumping cell (11); a second measurement chamber (18) into which a gas to be measured having a controlled oxygen partial pressure is introduced; and a second pumping cell (13) having a second inner pump electrode (13b) and a second counterpart electrode (13c) pump electrode configured to detect a specific gas component. The second inner pump electrode is made of a material that contains, as a principal ingredient, two kinds of Pt particles having different particle sizes and whose particle size ratio measured by a sedimentation particle-size distribution ranges from 1.75 to 14.2. A mixing ratio between large Pt particles and small Pt particles has a mass ratio of 10/90 to 50/50. A 10 kHz-1 Hz resistance value across the second pumping cell at 600° C. is 150Ω or less.
    • 一种气体传感器,包括具有第一测量室(16)的气体传感器元件; 第一泵送单元(11); 引入具有受控氧分压的待测气体的第二测量室(18); 以及具有第二内泵电极(13b)和配置成检测特定气体成分的第二配对电极(13c)泵浦电极的第二泵浦电池(13)。 第二内泵电极由含有不同粒径的两种Pt颗粒作为主要成分的材料制成,其沉降粒度分布测定的粒径比为1.75〜14.2。 大Pt颗粒和小Pt颗粒之​​间的混合比的质量比为10/90至50/50。 在600℃下跨越第二抽滤单元的10kHz-1Hz电阻值为150&OHgr; 或更少。
    • 8. 发明授权
    • Separator unit and fuel cell stack
    • 分离器单元和燃料电池堆
    • US07776491B2
    • 2010-08-17
    • US11370064
    • 2006-03-08
    • Noriyuki TakadaKenji KatoYoshihiro TamuraToshihiko Nonobe
    • Noriyuki TakadaKenji KatoYoshihiro TamuraToshihiko Nonobe
    • H01M4/64
    • H01M8/0267H01M8/026H01M8/04014H01M8/04223H01M8/241H01M8/2457H01M2008/1095
    • A separator unit inserted into a fuel cell having an electrolyte layer interposed between a fuel electrode and an oxygen electrode is provided with a plate like separator that separates fuel gas supplied to the fuel electrode from oxidizing gas supplied to the oxygen electrode, and a mesh like collector having an opening that forms one of a passage through which the fuel gas flows and a passage through which the oxidizing gas flows. The collector is provided to at least one side of the separator base in abutment against one of the fuel electrode and the oxygen electrode. The separator base has a coolant passage formed therein, through which a coolant is allowed to flow, and an electrode abutment portion of the collector, which abuts against one of the fuel electrode and the oxygen electrode, has an aperture ratio higher than those of other portions of the collector.
    • 插入到具有置于燃料电极和氧电极之间的电解质层的燃料电池中的分离器单元设置有板状隔板,该板状隔板将供给燃料电极的燃料气体与供给到氧电极的氧化气体分离, 收集器具有形成燃料气体通过的通道中的一个的开口和氧化气体流过的通道。 收集器被提供到隔板基座的至少一侧,以抵靠燃料电极和氧电极中的一个。 分离器底座具有形成在其中的冷却剂通道,允许冷却剂流动,并且与集电器的电极邻接部分抵靠燃料电极和氧电极中的一个具有比其他开口率高的开口率 收集器的一部分。
    • 9. 发明申请
    • PLASMA GENERATING METHOD, PLASMA GENERATING APPARATUS, AND PLASMA PROCESSING APPARATUS
    • 等离子体发生方法,等离子体发生装置和等离子体处理装置
    • US20100189921A1
    • 2010-07-29
    • US12753379
    • 2010-04-02
    • Hiroshige DEGUCHIHitoshi YonedaKenji KatoAkinori EbeYuichi Setsuhara
    • Hiroshige DEGUCHIHitoshi YonedaKenji KatoAkinori EbeYuichi Setsuhara
    • B01J19/08
    • C23C16/509H01J37/32192H01J37/3222
    • A plasma generating method and apparatus which use plural high-frequency antennas 2 to generate inductively coupled plasma, and a plasma processing apparatus using the apparatus. The antennas 2 are identical to one another. Application of a high-frequency electric power to the antennas 2 is performed from a high-frequency power source 4 which is disposed commonly to the antennas 2, through one matching circuit 5 and one busbar 3. The busbar 3 is partitioned into sections the number of which is equal to that of the antennas, while setting a portion which is connected to the matching circuit 5, as a reference. One-end portions of the antennas are connected to corresponding sections 31, 32, 33 through power supplying lines 311, 321, 331. The other end portions of the antennas are grounded. The impedances of the sections of the busbar, and those of the power supplying lines are adjusted so that same currents flow through the antennas, and a same voltage is applied to the antennas. Therefore, the inductively coupled plasma is generated while uniformalizing high-frequency electric powers supplied to the antennas 2.
    • 使用多个高频天线2生成电感耦合等离子体的等离子体产生方法和装置以及使用该装置的等离子体处理装置。 天线2彼此相同。 通过一个匹配电路5和一个母线3,从天线2共同配置的高频电源4向天线2施加高频电力。母线3被分割为数字 在设置连接到匹配电路5的部分作为参考时,其等于天线的天线。 天线的一端部分通过供电线311,321,331连接到对应部分31,32,33。天线的另一端接地。 调节母线段和供电线的部分的阻抗,使得相同的电流流过天线,并且向天线施加相同的电压。 因此,在对提供给天线2的高频电力进行均匀化的同时产生电感耦合等离子体。
    • 10. 发明申请
    • GAS SENSOR CONTROL APPARATUS AND METHOD
    • 气体传感器控制装置和方法
    • US20100140113A1
    • 2010-06-10
    • US12630423
    • 2009-12-03
    • Satoshi TERAMOTOHirotaka OnogiKoji ShiotaniKenji KatoTakashi Kawai
    • Satoshi TERAMOTOHirotaka OnogiKoji ShiotaniKenji KatoTakashi Kawai
    • G01N27/26
    • G01N27/419
    • There is provided a control apparatus for a gas sensor, which has a sensor element equipped with first and second oxygen pumping cells. The sensor control apparatus is configured to drive the first oxygen pumping cell to adjust the oxygen concentration of gas under measurement, drive the second oxygen pumping cell to produce a flow of electric current according to the amount of oxygen pumped out of the oxygen concentration adjusted gas by the second oxygen pumping cell, perform specific drive control to control the amount of oxygen pumped by the second oxygen pumping cell to a predetermined level after startup of the sensor element and before the application of the drive voltage between the electrodes of the second oxygen pumping cell.
    • 提供了一种用于气体传感器的控制装置,其具有配备有第一和第二氧气泵浦单元的传感器元件。 传感器控制装置被配置为驱动第一氧气泵送单元以调节测量气体的氧气浓度,驱动第二氧气泵送单元,根据从氧浓度调节气体中抽出的氧气的量产生电流 通过第二氧气泵送单元,执行特定的驱动控制,以在启动传感器元件之后并且在第二氧气泵送电极之间施加驱动电压之前,将第二氧气泵浦单元泵浦的氧气量控制到预定水平 细胞。