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    • 81. 发明授权
    • Transmission method, transmitter, reception method, and receiver
    • 传输方式,发射机,接收方式和接收机
    • US07580689B2
    • 2009-08-25
    • US11488021
    • 2006-07-18
    • Katsumi WatanabeSachio IidaMitsuhiro Suzuki
    • Katsumi WatanabeSachio IidaMitsuhiro Suzuki
    • H04B1/18
    • H04B1/7176H04B1/40H04B1/71635H04B1/71637
    • For the purpose of efficient transmission based on the UWB system, first and second baseband waveforms are generated at a cycle equivalent to an integral multiple of a carrier to have a specified phase difference from each other. The first baseband waveform is multiplied by the carrier and a first transmission data sequence to acquire a first transmission waveform. The second baseband waveform is multiplied by a phase shifted carrier and a second transmission data sequence to acquire a second transmission waveform. The first transmission waveform is mixed with the second transmission waveform to acquire a transmission signal. The transmission signal is transmitted as a π/2 shift BPSK signal to transmit a UWB signal. Selecting the baseband waveforms and the carrier makes it possible to configure the transmission band and easily provide division multiplexing transmission.
    • 为了基于UWB系统的有效传输的目的,第一和第二基带波形以等于载波的整数倍的周期产生,以具有指定的相位差。 将第一基带波形乘以载波和第一传输数据序列以获取第一传输波形。 将第二基带波形与相移载波和第二发送数据序列相乘以获取第二发送波形。 第一传输波形与第二传输波形混合以获取传输信号。 发送信号作为pi / 2移位BPSK信号发送以发送UWB信号。 选择基带波形和载波使得可以配置传输频带并轻松提供分路复用传输。
    • 83. 发明申请
    • HIGH PRESSURE PROCESSING METHOD
    • 高压加工方法
    • US20060032520A1
    • 2006-02-16
    • US11249444
    • 2005-10-14
    • Yoshihiko SakashitaKatsumi WatanabeHisanori OshibaShogo SarumaruYusuke MuraokaKimitsugu SaitoIkuo MizobataRyuji Kitakado
    • Yoshihiko SakashitaKatsumi WatanabeHisanori OshibaShogo SarumaruYusuke MuraokaKimitsugu SaitoIkuo MizobataRyuji Kitakado
    • B08B3/00
    • H01L21/67017B08B7/0021H01L21/67126Y10S134/902
    • A high-pressure processing apparatus includes a processing vessel including a processing chamber formed therein to perform a certain process onto an object in the processing chamber; fluid feeding means which feeds a high-pressure fluid into the processing chamber; fluid discharging means which discharges the high-pressure fluid from the processing chamber; an agitating unit which is arranged in the processing chamber and is operative to flow the high-pressure fluid over the object by relative rotation to the processing vessel; a communicating channel which is formed in the processing vessel to communicate inside and outside of the processing chamber; a rotary driving member which is coupled to the agitating unit via a shaft portion provided in the communicating channel; and a sealing portion which is provided between the shaft portion and the processing vessel to disconnect the processing chamber from the rotary driving member. The fluid discharging means includes a fluid discharging port formed in a certain position of the communicating channel closer to the processing chamber than the sealing portion to discharge the high-pressure fluid.
    • 高压处理装置包括:处理容器,其包括形成在其中的处理室,以对处理室中的物体执行一定的处理; 流体供给装置,其将高压流体供给到处理室中; 从处理室排出高压流体的流体排出装置; 搅拌单元,其布置在处理室中并且可操作以通过相对于处理容器的旋转将高压流体流过物体; 形成在所述处理容器中以在所述处理室内部和外部连通的连通通道; 旋转驱动构件,其经由设置在所述连通通道中的轴部联接到所述搅拌单元; 以及密封部,其设置在所述轴部和所述处理容器之间,以将所述处理室与所述旋转驱动构件断开。 流体排出装置包括形成在与密封部分相比更靠近处理室的连通通道的特定位置中以排出高压流体的流体排放口。
    • 85. 发明授权
    • Radio-frequency identification system, method of carrying out radio-frequency identification, and program for radio-frequency identification
    • 射频识别系统,射频识别方法和射频识别程序
    • US06917292B2
    • 2005-07-12
    • US10789608
    • 2004-02-27
    • Katsumi WatanabeYuji Sato
    • Katsumi WatanabeYuji Sato
    • G06K17/00G06K7/00H04B1/59G08B13/14
    • G06K7/10049G06K7/0008
    • A radio-frequency identification system includes (a) responders each having a unique identification number, (b) an interrogator making an inquiry to and receiving a response from each of the responders, and (c) a host computer controlling communication made between the responders and the interrogator, and binary-searching a number space of the identification number of each of the responders for identifying a responder(s) existing in a communication area in which the responders and the interrogator can make communication with each other. The host computer has a function of acting as a discriminator for generating a control signal in accordance with first to N-th (N≧2) communication areas in each of which the responders and the interrogator can make communication with each other, binary-searching the number space in each of the first to N-th communication areas one by one to identify a responder(s) existing therein, and inactivating the thus identified responder(s).
    • 射频识别系统包括:(a)各自具有唯一识别号码的响应者,(b)对每个应答者进行询问和接收响应的询问器,以及(c)控制响应者之间进行通信的主计算机 和询问器,并且二进制搜索每个响应者的识别号码的数字空间,用于识别存在于应答者和询问器可以彼此进行通信的通信区域中的响应者。 主计算机具有根据第一至第N(N> = 2)个通信区域产生控制信号的标识符的功能,其中应答器和询问器可以彼此进行通信, 逐个搜索第一至第N通信区域中的每一个中的号码空间,以识别存在于其中的响应者,并使由此识别的响应者失效。
    • 86. 发明授权
    • High-pressure processing apparatus
    • 高压加工设备
    • US06895032B2
    • 2005-05-17
    • US10625529
    • 2003-07-24
    • Katsumi WatanabeTakahiko IshiiShogo SarumaruHideshi Yamane
    • Katsumi WatanabeTakahiko IshiiShogo SarumaruHideshi Yamane
    • H01L21/31B01J3/00B01J3/03B30B11/00H01L21/00H01L21/677F27D7/06
    • H01L21/67751B30B11/001B30B11/002H01L21/67126Y10T83/9387Y10T83/9423
    • A high-pressure processing apparatus for supplying a pressure medium into a high-pressure processing chamber 4, which is formed in a pressure vessel 1 to treat a workpiece at a high pressure, is provided. The pressure vessel 1 includes a first vessel section 2 and a second vessel section 3, which can be separated from each other in the axial direction, wherein the high-pressure processing chamber 4 is formed between the first and second vessel sections 2 and 3. Furthermore, a face seal section 5 for tightly sealing the high-pressure processing chamber 4 is formed in the abutment of the first and second vessel sections 2 and 3. A press apparatus 7 for providing an axial force to the face seal section 5 is disposed and the press apparatus 7 has a space 15 for storing a supplementary apparatus, such as a stirrer or the like at a position corresponding to the axial center of the pressure vessel 1. Such a structural arrangement allows a face seal type high-pressure processing apparatus to be realized, onto which the supplementary apparatus, such as a stirrer or the like, can be mounted.
    • 提供了一种用于将压力介质供应到形成在压力容器1中以高压处理工件的高压处理室4中的高压处理装置。 压力容器1包括第一容器部分2和第二容器部分3,其可以在轴向上彼此分离,其中高压处理室4形成在第一和第二容器部分2和3之间。 此外,在第一和第二容器部分2和3的邻接处形成用于紧密密封高压处理室4的面密封部分5。 设置用于向面部密封部5提供轴向力的按压装置7,压力装置7具有用于在与压力的轴心对应的位置例如搅拌器等存放辅助装置的空间15 船1。 这种结构布置允许实现面密封型高压处理装置,其上可以安装诸如搅拌器等的辅助装置。
    • 89. 发明授权
    • Optical repeating device with monitoring function
    • 具有监控功能的光中继装置
    • US06612751B1
    • 2003-09-02
    • US09537171
    • 2000-03-29
    • Katsumi WatanabeFumika KawaharaTakayuki Okawa
    • Katsumi WatanabeFumika KawaharaTakayuki Okawa
    • G02B626
    • G02B6/4214G02B6/241G02B6/3822G02B6/3845G02B6/421G02B6/424G02B6/4284
    • An optical repeating device with a monitoring function comprises first optical propagation means for propagating a lightwave signal through an optical transmission line, second optical propagation means butted against the first optical propagation means, for propagating the lightwave signal, optical branching means provided on a butting face between the first optical propagation means, and the second optical propagation means, and photodetection means. All the means described are assembled into a housing, and integrated therewith. Consequently, it is possible to downsize the optical repeating device with the monitoring function. A large portion of the lightwave signal propagated between the first optical propagation means and the second optical propagation means is allowed to pass through the optical branching means, however, a portion of the lightwave signal is reflected in a given direction by the optical branching means. A lightwave signal reflected is detected by the photodetection means, and is converted into an electric signal. When the electric signal as converted is displayed by, for example, display means, it is possible to check visually whether or not the lightwave signal is transmitted through the optical transmission line.
    • 具有监视功能的光学中继装置包括用于通过光传输线传播光波信号的第一光传播装置,与第一光传播装置对接的第二光传播装置,用于传播光波信号,设置在对接面上的光分支装置 在第一光传播装置和第二光传播装置之间,以及光检测装置。 所有描述的装置被组装到壳体中并与其集成。 因此,可以利用监视功能来缩小光中继装置的尺寸。 允许在第一光传播装置和第二光传播装置之间传播的大部分光波信号通过光分支装置,然而,光波信号的一部分由光分支装置在给定方向上反射。 反射的光波信号由光检测装置检测,并被转换为电信号。 当通过例如显示装置显示转换的电信号时,可以在视觉上检查光波信号是否通过光传输线传输。
    • 90. 发明授权
    • Driver actuated accelerator mechanism with accelerator opening sensor
    • 驱动器启动加速器机构与加速器开度传感器
    • US06505496B2
    • 2003-01-14
    • US09736362
    • 2000-12-15
    • Yasunari KatoTakahiro TamuraKatsumi WatanabeMasahiro Makino
    • Yasunari KatoTakahiro TamuraKatsumi WatanabeMasahiro Makino
    • G01P1300
    • G05G1/30B60K26/02G05G5/03
    • A support shaft is non-rotationally inserted into bearing plates of support member. Accelerator rotor is attached to support shaft and can rotate, and a driver rotates it by means of the actuation of the accelerator pedal. Sensor rotor of accelerator opening sensor is attached to support shaft and can rotate. Protruding portion of sensor rotor is engaged with recess portion formed in accelerator rotor. Because plate spring inserted into recess portion sandwiches protruding portion in a direction opposite of the direction of rotation, with respect to sensor rotor, shift or deviation in the direction of rotation of accelerator rotor is prevented. Further, with respect to sensor rotor, accelerator rotor can slide in contact with plate spring while sliding in the direction of support shaft and the radial direction of accelerator rotor.
    • 支撑轴非旋转地插入到支撑构件的支承板中。 加速器转子附接到支撑轴上并且可以旋转,并且驾驶员通过加速踏板的致动来旋转它。 加速器开度传感器的传感器转子连接到支撑轴上并可旋转。 传感器转子的突出部分与形成在加速器转子中的凹部接合。 由于插入到凹部中的板簧相对于传感器转子在与旋转方向相反的方向上夹着突出部,因此防止了加速器转子的旋转方向的偏移或偏移。 此外,关于传感器转子,加速器转子可以在支撑轴方向和加速器转子的径向滑动的同时与板簧接触滑动。