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    • 1. 发明授权
    • Wireless communication terminal
    • 无线通信终端
    • US09037117B2
    • 2015-05-19
    • US13391077
    • 2010-08-28
    • Stefan AustTetsuya ItoAkira MatsumotoPeter Christopher Davis
    • Stefan AustTetsuya ItoAkira MatsumotoPeter Christopher Davis
    • H04Q7/10H04W64/00G01S5/02
    • H04W64/00G01S5/0252
    • A wireless communication terminal includes a communication status measurement element for measuring communication status data representing a communication status of the self terminal at the time of wireless communications; a reference data storage element for storing respective pieces of preset reference data representing communication statuses of a terminal which can be measured at respective locations at the time of wireless communications, in association with respective pieces of location data identifying the respective locations, and a location specifying element for comparing the communication status data measured by the communication status measurement element with the respective pieces of reference data stored in the reference data storage element, and based on the comparison result, specifying a location corresponding to the location data associated with a particular piece of reference data as a location of the self terminal.
    • 无线通信终端包括通信状态测量元件,用于测量表示无线通信时自身终端的通信状态的通信状态数据; 参考数据存储元件,用于存储表示在无线通信时在各个位置可测量的终端的通信状态的各条预置参考数据,与标识各个位置的各个位置数据相关联,以及指定 元件,用于将由通信状态测量元件测量的通信状态数据与存储在参考数据存储元件中的各个参考数据进行比较,并且基于比较结果,指定与特定片段相关联的位置数据相对应的位置 参考数据作为自身终端的位置。
    • 4. 发明授权
    • Refrigeration apparatus
    • 制冷装置
    • US08413456B2
    • 2013-04-09
    • US12591853
    • 2009-12-03
    • Satoshi TomiokaHideya TamuraTetsuya ItoTakahiro MatsunagaTakamitsu KurokawaShintaro Sanada
    • Satoshi TomiokaHideya TamuraTetsuya ItoTakahiro MatsunagaTakamitsu KurokawaShintaro Sanada
    • F25B41/00F25D23/12
    • F25B13/00F25B2313/0233F25B2313/0253F25B2313/02742F25B2400/075F25B2400/19F25B2600/2501
    • There is provided a refrigeration apparatus in which a refrigerant accumulating in non-operating outdoor units is supplied to an outdoor unit being operated in which a shortage of refrigerant occurs without starting the compressors of the non-operating outdoor units. In the control method for the refrigeration apparatus in which to refrigerant piping 10 installed between the indoor side and the outdoor side, a plurality of outdoor units 30A, 30B each including a compressor 31, a directional control valve 34, an outdoor heat exchanger 35, an outdoor expansion valve 36, and an accumulator 37 are connected in parallel on the outdoor side, and each of the outdoor units is provided with a hot gas bypass circuit 38 that includes a solenoid valve 38a and an expansion mechanism 38b arranged in series, and is connected between high-pressure side piping 33a on the discharge side of the compressor and low-pressure side piping 33b on the accumulator side, if a shortage of refrigerant occurs when air cooling operation is performed in a state in which only the outdoor unit 30A is operated and other outdoor units 30B are not operated, the solenoid valves 38a of the non-operating outdoor units 30B are opened so that the refrigerant accumulating in the non-operating outdoor units 30B is supplied to the outdoor unit 30A via the hot gas bypass circuit 38 and the low-pressure piping 33b.
    • 提供了一种制冷装置,其中积存在非操作室外单元中的制冷剂被供给到在没有启动非操作室外单元的压缩机的情况下发生制冷剂不足的操作的室外单元。 在室内侧和室外侧的制冷剂配管10的制冷装置的控制方法中,分别具备压缩机31,方向控制阀34,室外热交换器35等的多个室外机组30A,30B, 室外侧并联连接有室外膨胀阀36和蓄压器37,并且每个室外机设置有包括串联排列的电磁阀38a和膨胀机构38b的热气旁路回路38, 连接在压缩机的排出侧的高压侧配管33a与蓄压器侧的低压侧配管33b之间,如果仅在室外单元30A的状态下进行制冷运转,则发生制冷剂不足 并且其他室外单元30B不工作时,非操作室外单元30B的电磁阀38a被打开,使得积存在非操作中的制冷剂 g室外单元30B经由热气旁路回路38和低压配管33b供给室外单元30A。
    • 6. 发明申请
    • GAS SENSOR
    • 气体传感器
    • US20130032480A1
    • 2013-02-07
    • US13565040
    • 2012-08-02
    • Tetsuya ITOSatoshi TERAMOTOKentaro MORI
    • Tetsuya ITOSatoshi TERAMOTOKentaro MORI
    • G01N27/409
    • G01N27/406G01N27/4062G01N27/407G01N27/409G01N27/41G01N27/419
    • A gas sensor (100) includes an oxygen pump cell (135) and an oxygen-concentration detection cell (150) laminated together with a spacer (145) interposed therebetween. The spacer (145) has a gas detection chamber (145c) which faces electrodes (137, 152) of the cells (135, 150). The oxygen-concentration detection cell (150) produces an output voltage corresponding to the concentration of oxygen in the gas detection chamber (145c). The oxygen pump cell (135) pumps oxygen into and out of the measurement chamber (145c) such that the output voltage of the oxygen-concentration detection cell (150) becomes equal to a predetermined target voltage. A leakage portion mainly formed of zirconia is disposed between which electrically connects the oxygen-concentration detection cell (150) and the oxygen pump cell (135).
    • 气体传感器(100)包括氧隔膜(135)和与间隔件(145)一起夹在其间的氧浓度检测单元(150)。 间隔物(145)具有与电池(135,150)的电极(137,152)相对的气体检测室(145c)。 氧浓度检测单元(150)产生与气体检测室(145c)中的氧浓度对应的输出电压。 氧气泵电池(135)将氧气输入和输出测量室(145c),使得氧浓度检测单元(150)的输出电压等于预定的目标电压。 主要由氧化锆形成的泄漏部分设置在它们之间,电气连接氧浓度检测单元(150)和氧气泵单元(135)。
    • 7. 发明授权
    • Semiconductor device and method for manufacturing the same
    • 半导体装置及其制造方法
    • US08258040B2
    • 2012-09-04
    • US12951774
    • 2010-11-22
    • Tetsuya Ito
    • Tetsuya Ito
    • H01L21/20
    • H01L27/10894H01L27/0207H01L27/1085
    • It is disclosed a semiconductor device including a silicon substrate, provided with a plurality of cell active regions in a call region, an element isolation groove, formed in a portion, between any two of the plurality of cell active region, of the silicon substrate, a capacitor dielectric film, formed in the element isolation groove, a capacitor upper electrode, formed on the capacitor dielectric film, and configuring a capacitor together with the silicon substrate and the capacitor dielectric film. The semiconductor device is characterized in that a dummy active region is provided next to the cell region in the silicon substrate.
    • 公开了一种半导体器件,包括在通孔区域中设置有多个电池活性区域的硅衬底,形成在硅衬底的多个电池有源区域的任意两个之间的部分中的元件隔离槽, 形成在元件隔离槽中的电容器电介质膜,形成在电容器电介质膜上的电容器上电极,以及与硅衬底和电容器电介质膜一起构成电容器。 半导体器件的特征在于,在硅衬底中的单元区域旁边设置虚设有源区。