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    Method for Manufacturing Particulate Chemical Substances and Particulate Products of Such Substances
    1.
    发明申请
    Method for Manufacturing Particulate Chemical Substances and Particulate Products of Such Substances 有权
    颗粒物化学物质和颗粒物质的制造方法

    公开(公告)号:US20080268245A1

    公开(公告)日:2008-10-30

    申请号:US11922566

    申请日:2006-03-31

    申请人: Hiroshi Harada Shinichi Miyamoto

    发明人: Hiroshi Harada Shinichi Miyamoto

    IPC分类号: B28B1/32

    CPC分类号: B01J2/02 Y10T428/2982

    摘要: Particulate chemical substances and method of manufacturing thereof wherein the resultant particles have a narrow particle size distribution and sufficient hardness to ensure that particles can withstand intact being driven through pneumatic transportation equipment. The method comprises granulating raw material using a spray granulation apparatus having a nozzle plate equipped with nozzle pipes having a length in the range of 2-100 mm.

    摘要翻译: 颗粒化学物质及其制造方法,其中所得颗粒具有窄的粒度分布和足够的硬度,以确保颗粒能够经受气动输送设备驱动的完整性。 该方法包括使用具有喷嘴板的喷射造粒装置造粒原料,喷嘴板配备有长度在2-100mm范围内的喷嘴管。

    Method for manufacturing particulate chemical substances and particulate products of such substances
    2.
    发明授权
    Method for manufacturing particulate chemical substances and particulate products of such substances 有权
    制造这些物质的微粒化学物质和颗粒物的方法

    公开(公告)号:US08075811B2

    公开(公告)日:2011-12-13

    申请号:US11922566

    申请日:2006-03-31

    申请人: Hiroshi Harada Shinichi Miyamoto

    发明人: Hiroshi Harada Shinichi Miyamoto

    IPC分类号: B29B9/00

    CPC分类号: B01J2/02 Y10T428/2982

    摘要: Particulate chemical substances and method of manufacturing thereof wherein the resultant particles have a narrow particle size distribution and sufficient hardness to ensure that particles can withstand intact being driven through pneumatic transportation equipment. The method comprises granulating raw material using a spray granulation apparatus having a nozzle plate equipped with nozzle pipes having a length in the range of 2-100 mm.

    摘要翻译: 颗粒化学物质及其制造方法,其中所得颗粒具有窄的粒度分布和足够的硬度,以确保颗粒能够经受气动输送设备驱动的完整性。 该方法包括使用具有喷嘴板的喷射造粒装置造粒原料,喷嘴板配备有长度在2-100mm范围内的喷嘴管。

    Radio communication system, transmission device, reception device, and communication method
    5.
    发明授权
    Radio communication system, transmission device, reception device, and communication method 有权
    无线电通信系统,传输设备,接收设备和通信方法

    公开(公告)号:US08503502B2

    公开(公告)日:2013-08-06

    申请号:US12935243

    申请日:2009-04-22

    申请人: Shinsuke Ibi Seiichi Sampei Shinichi Miyamoto Kazunari Yokomakura Minoru Kubota Yasuhiro Hamaguchi Shimpei To Osamu Nakamura

    发明人: Shinsuke Ibi Seiichi Sampei Shinichi Miyamoto Kazunari Yokomakura Minoru Kubota Yasuhiro Hamaguchi Shimpei To Osamu Nakamura

    IPC分类号: H04B1/00

    CPC分类号: H04J11/00 H04L25/03159 H04L25/03834 H04L27/2614 H04L27/2626 H04W52/24 H04W52/346

    摘要: A clipping rate is controlled in spectrum shaping according to a propagation path to thereby improve transmission characteristics and perform communication at a stable transmission rate.Propagation path characteristics are detected by a propagation path information detection unit 5 for detecting propagation path information fed back from a base station device and a water filling principle for distributing energy by a primary spectrum shaping unit 6 according to the propagation path characteristics is applied to transmission spectrum obtained by a DFT unit 4. Clipping information in secondary spectrum shaping fed back from the base station device is detected by a clipping information detection unit 7 to perform the secondary spectrum shaping by a secondary spectrum shaping unit 8. At this time, with the clipping rate by the secondary spectrum shaping unit 8, clipping rates of all transmission devices multiplexed in a scheduling unit 26 of the base station device are controlled adaptively.

    摘要翻译: 根据传播路径在频谱整形中控制限幅率,从而提高传输特性,并以稳定的传输速率进行通信。 传播路径特性由用于检测从基站装置反馈的传播路径信息的传播路径信息检测单元5检测,并且根据传播路径特性将主频谱整形单元6分配能量的灌水原理应用于传输 由DFT单元4获得的频谱。由限幅信息检测单元7检测从基站装置反馈的二次频谱整形中的剪辑信息,以由次频谱整形单元8执行二次频谱整形。此时, 通过二次频谱整形单元8的削波率,自适应地控制在基站装置的调度单元26中复用的所有发送装置的削波率。

    WIRELESS COMMUNICATION SYSTEM, RECEPTION APPARATUS, TRANSMISSION APPARATUS, COMMUNICATION METHOD OF WIRELESS COMMUNICATION SYSTEM, CONTROL PROGRAM, AND AUTONOMOUS DISTRIBUTED NETWORK
    6.
    发明申请
    WIRELESS COMMUNICATION SYSTEM, RECEPTION APPARATUS, TRANSMISSION APPARATUS, COMMUNICATION METHOD OF WIRELESS COMMUNICATION SYSTEM, CONTROL PROGRAM, AND AUTONOMOUS DISTRIBUTED NETWORK 审中-公开
    无线通信系统,接收设备,传输设备,无线通信系统的通信方法,控制程序和自动分布式网络

    公开(公告)号:US20120057543A1

    公开(公告)日:2012-03-08

    申请号:US13254648

    申请日:2010-03-03

    申请人: Kazunari Yokomura Yasuhiro Hamaguchi Osamu Nakamura Jungo Goto Hiroki Takahashi Shinsuke Ibi Seiichi Sampei Shinichi Miyamoto

    发明人: Kazunari Yokomura Yasuhiro Hamaguchi Osamu Nakamura Jungo Goto Hiroki Takahashi Shinsuke Ibi Seiichi Sampei Shinichi Miyamoto

    IPC分类号: H04W72/04

    CPC分类号: H04L25/022 H04L5/0044 H04L5/0048 H04L5/0058 H04L5/0094 H04L25/0228

    摘要: Based on a data signal and a known reference signal, a frequency response of a channel is predicted, and the state of the channel over the entire transmission band is predicted such that frequency allocation is performed in a short period of time. A reception apparatus that receives a signal from a transmission apparatus which distributedly arranges signals in a frequency domain into a plurality of frequencies and which performs wireless transmission, the reception apparatus including: a channel property prediction unit (57) that predicts a channel property over an entire transmission band based on the distributedly arranged channel estimation reference signal; an allocation frequency determination unit (58) that determines the plurality of frequencies in which the signals in the frequency domain are distributedly arranged; and a frequency allocation information generation unit (59) that generates frequency allocation information indicating the determined plurality of frequencies. The reception apparatus transmits the frequency allocation information to the transmission apparatus.

    摘要翻译: 基于数据信号和已知参考信号,预测信道的频率响应,并且预测整个传输频带上的信道的状态,使得在短时间内执行频率分配。 一种接收装置,其从发送装置接收信号,所述发送装置将频域中的信号分散布置成多个频率并进行无线发送,所述接收装置包括:信道特性预测部, 基于分布式布置的信道估计参考信号的整个传输频带; 分配频率确定单元,其确定频域中的信号分布布置的多个频率; 以及频率分配信息生成单元(59),生成表示所确定的多个频率的频率分配信息。 接收装置向发送装置发送频率分配信息。

    Endoscope system
    7.
    发明授权
    Endoscope system 有权
    内窥镜系统

    公开(公告)号:US08022979B2

    公开(公告)日:2011-09-20

    申请号:US11503708

    申请日:2006-08-14

    申请人: Shinichi Miyamoto Takayuki Kameya Katsushi Watanabe Kazutaka Matsumoto Takeaki Nakamura

    发明人: Shinichi Miyamoto Takayuki Kameya Katsushi Watanabe Kazutaka Matsumoto Takeaki Nakamura

    IPC分类号: A62B1/04 A61B1/04

    CPC分类号: A61B1/0052 A61B1/00048 A61B1/00052 A61B1/04

    摘要: The endoscope system of the present invention includes: an endoscope that has an image pickup device that picks up an observation image of a test object; an image display unit that converts image pickup signals that have been sent from the image pickup device into images and then displays these images; a first mounting portion that is provided in an operating section of the endoscope and on which the image display unit is mounted; and a second mounting portion that is provided in the operating section of the endoscope and on which the image display unit is mounted in a different position from that of the first mounting portion.

    摘要翻译: 本发明的内窥镜系统包括:内窥镜,其具有拾取测试对象的观察图像的图像拾取装置; 图像显示单元,其将已经从图像拾取装置发送的图像拾取信号转换成图像,然后显示这些图像; 第一安装部,其设置在所述内窥镜的操作部中,并且安装所述图像显示单元; 以及第二安装部,其设置在所述内窥镜的操作部中,并且所述图像显示单元安装在与所述第一安装部的位置不同的位置。

    RADIO COMMUNICATION SYSTEM, TRANSMISSION DEVICE, RECEPTION DEVICE, AND COMMUNICATION METHOD
    8.
    发明申请
    RADIO COMMUNICATION SYSTEM, TRANSMISSION DEVICE, RECEPTION DEVICE, AND COMMUNICATION METHOD 有权
    无线电通信系统,传输设备,接收设备和通信方法

    公开(公告)号:US20110044377A1

    公开(公告)日:2011-02-24

    申请号:US12935243

    申请日:2009-04-22

    申请人: Shinsuke Ibi Seiichi Sampei Shinichi Miyamoto Kazunari Yokomakura Minoru Kubota Yasuhiro Hamaguchi Shimpei To Osamu Nakamura

    发明人: Shinsuke Ibi Seiichi Sampei Shinichi Miyamoto Kazunari Yokomakura Minoru Kubota Yasuhiro Hamaguchi Shimpei To Osamu Nakamura

    IPC分类号: H04B1/00

    CPC分类号: H04J11/00 H04L25/03159 H04L25/03834 H04L27/2614 H04L27/2626 H04W52/24 H04W52/346

    摘要: A clipping rate is controlled in spectrum shaping according to a propagation path to thereby improve transmission characteristics and perform communication at a stable transmission rate.Propagation path characteristics are detected by a propagation path information detection unit 5 for detecting propagation path information fed back from a base station device and a water filling principle for distributing energy by a primary spectrum shaping unit 6 according to the propagation path characteristics is applied to transmission spectrum obtained by a DFT unit 4. Clipping information in secondary spectrum shaping fed back from the base station device is detected by a clipping information detection unit 7 to perform the secondary spectrum shaping by a secondary spectrum shaping unit 8. At this time, with the clipping rate by the secondary spectrum shaping unit 8, clipping rates of all transmission devices multiplexed in a scheduling unit 26 of the base station device are controlled adaptively.

    摘要翻译: 根据传播路径在频谱整形中控制限幅率,从而提高传输特性,并以稳定的传输速率进行通信。 传播路径特性由用于检测从基站装置反馈的传播路径信息的传播路径信息检测单元5检测,并且根据传播路径特性将主频谱整形单元6分配能量的灌水原理应用于传输 由DFT单元4获得的频谱。由限幅信息检测单元7检测从基站装置反馈的二次频谱整形中的剪辑信息,以由次频谱整形单元8执行二次频谱整形。此时, 通过二次频谱整形单元8的削波率,自适应地控制在基站装置的调度单元26中复用的所有发送装置的削波率。

    Differential amplifier circuit, operational amplifier circuit, light-receiving amplifier circuit using the same, function selection circuit, and light-receiving circuit using the same
    10.
    发明申请
    Differential amplifier circuit, operational amplifier circuit, light-receiving amplifier circuit using the same, function selection circuit, and light-receiving circuit using the same 有权
    差分放大器电路,运算放大器电路,使用其的光接收放大器电路,功能选择电路和使用其的光接收电路

    公开(公告)号:US20090008535A1

    公开(公告)日:2009-01-08

    申请号:US12230510

    申请日:2008-08-29

    申请人: Hideo Fukuda Shinichi Miyamoto

    发明人: Hideo Fukuda Shinichi Miyamoto

    IPC分类号: H03F3/08 H03F3/45

    CPC分类号: H03F3/08 H03F3/45085 H03G1/0088 H03G3/3084

    摘要: A differential amplifier circuit, an operational amplifier circuit, and a light-receiving amplifier circuit using the same are provided, by which the influence of an on resistance of an analog switch is reduced during the switching of gain resistances. An NPN transistor Q2 having an emitted connected in common is connected to an NPN transistor Q1 of a differential amplifier circuit including the NPN transistors Q1 and Q3, PNP transistors Q4 and Q5, and a constant-current source I1, and analog switches ASW-1c and ASW-2c are inserted and connected to the collectors of the NPN transistors Q1 and Q2 and connected to the base and collector of the PNP transistor Q4 and the base of the PNP transistor Q5. Further, analog switches ASW-1b and ASW-2b are connected to the bases of the NPN transistors Q1 and Q2, respectively.

    摘要翻译: 提供了一种差分放大器电路,运算放大器电路和使用该差分放大器电路的光接收放大器电路,由此在增益电阻切换期间,模拟开关的导通电阻的影响降低。 具有发射连接的NPN晶体管Q2连接到包括NPN晶体管Q1和Q3,PNP晶体管Q4和Q5以及恒流源I1的差分放大器电路的NPN晶体管Q1和模拟开关ASW-1c 和ASW-2c插入并连接到NPN晶体管Q1和Q2的集电极并连接到PNP晶体管Q4的基极和集电极以及PNP晶体管Q5的基极。 此外,模拟开关ASW-1b和ASW-2b分别连接到NPN晶体管Q1和Q2的基极。