会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Transmission method
    • 传输方式
    • US20080225927A1
    • 2008-09-18
    • US12148084
    • 2008-04-15
    • Noriaki MiyazakiToshinori SuzukiFumio Watanabe
    • Noriaki MiyazakiToshinori SuzukiFumio Watanabe
    • H04B1/707H04L27/10
    • H04J13/12H04J11/00H04J13/004H04L5/0021H04L27/206H04L27/2626
    • In a transmission method of the present invention, when transmitting an information bit from a transmitter to a receiver, an encoder of the transmitter firstly inputs and encodes the information bit, and a modulator then modulates the encoded information bit to create a modulation symbol. A spreader spreads the obtained modulation symbol using a rotation orthogonal code having a rotation angle that is appropriate to a combination of the modulation method and the coding rate, and transmits it to a transmission path. The receiver performs a reverse operation of the transmitter, and decodes the information bit. In QPSK modulation where the coding rate of an error-correction code is ½, when a rotation angle that obtains a same signal point as OFDM is 0°, spreading is performed using a rotation orthogonal code having a rotation angle of between 17° and 45°, or between −17° and −45°, thereby reducing bit error and enabling highly-reliable communication to be achieved.
    • 在本发明的传输方法中,当从发射机向接收机发送信息比特时,发射机的编码器首先对信息比特进行编码,然后调制编码的信息比特以产生调制符号。 扩展器使用具有适于调制方法和编码率的组合的旋转角度的旋转正交码扩展获得的调制符号,并将其发送到传输路径。 接收机执行发射机的反向操作,并对信息位进行解码。 在纠错码的编码率为1/2的QPSK调制中,当获得与OFDM相同的信号点的旋转角为0°时,使用旋转角度为17°〜45°的旋转正交码进行扩频 °或-17°至-45°之间,从而减少位误差并实现高度可靠的通信。
    • 2. 发明授权
    • Mobile communication system
    • 移动通信系统
    • US06351649B1
    • 2002-02-26
    • US09276660
    • 1999-03-26
    • Fumio WatanabeYoshio TakeuchiToshinori SuzukiHisato IwaiAkira Yamaguchi
    • Fumio WatanabeYoshio TakeuchiToshinori SuzukiHisato IwaiAkira Yamaguchi
    • H04B701
    • H04W52/242H04B17/318H04B17/345H04W16/14H04W52/146H04W88/06
    • A mobile communication system includes a first and second systems. Each of the first and second systems has a land station and at least one mobile terminal capable of communicating with the land station. The land station of the first system has a broadcasting channel transmission unit for transmitting status information via a broadcasting channel, and the mobile terminal of the second system has a broadcasting channel receiving unit for receiving information in the broadcasting channel to obtain a broadcasting channel receiving condition and the status information, a giving interference estimation unit for estimating giving interference level onto communication of the first system by the second system based upon the obtained broadcasting channel receiving condition and the obtained status information, and an output signal level control unit for controlling output signal level of the mobile terminal of the second system based upon the estimated giving interference level.
    • 移动通信系统包括第一和第二系统。 第一和第二系统中的每一个具有陆地站和能够与地面站通信的至少一个移动终端。 第一系统的地面站具有用于经由广播信道发送状态信息的广播频道传输单元,并且第二系统的移动终端具有广播频道接收单元,用于在广播频道中接收信息以获得广播频道接收条件 状态信息,基于所获得的广播信道接收条件和所获得的状态信息,估计由第二系统对第一系统的通信给出干扰电平的给出干扰估计单元,以及用于控制输出信号的输出信号电平控制单元 基于所估计的给定干扰电平,第二系统的移动终端的电平。
    • 4. 发明申请
    • ROTATION DRIVE DEVICE
    • 旋转驱动装置
    • US20120285168A1
    • 2012-11-15
    • US13555077
    • 2012-07-20
    • Fumio Watanabe
    • Fumio Watanabe
    • F03G3/00
    • F03G3/00
    • In a rotation drive device (10), each of rotating units (20) has a swing arm (23) which is supported so as to be swingable around a swing center axis (23A) provided in a support table (22), a weight (24) is provided at a position at which a length of an arm from the swing center axis (23A) of the swing arm (23) is longer, and a connection point in a fluid cylinder (25) side is provided at a position at which the length of the arm from the swing center axis (23A) is shorter.
    • 在旋转驱动装置(10)中,每个旋转单元(20)具有摆动臂(23),所述摆动臂(23)被支撑成围绕设置在支撑台(22)中的摆动中心轴线(23A)摆动, (24)设置在从摆臂(23)的摆动中心轴(23A)的臂的长度较长的位置,并且在液压缸(25)侧的连接点设置在位置 其中臂从摆动中心轴线(23A)的长度较短。
    • 5. 发明授权
    • Quadrupole mass spectrometer and vacuum device using the same
    • 四极杆质谱仪和使用相同的真空装置
    • US07332714B2
    • 2008-02-19
    • US11375063
    • 2006-03-15
    • Fumio WatanabeReiki Watanabe
    • Fumio WatanabeReiki Watanabe
    • H01J49/42H01J49/28
    • H01J49/147H01J41/10H01J49/4215
    • In a quadrupole mass spectrometer which measures partial pressure strength according to a gas type in a vacuum system from ion current intensity, a quadrupole mass spectrometer with a total pressure measurement electrode has a total pressure measurement electrode for examining an ion density disposed in a demarcation space which is comprised of a grid electrode and an ion focusing electrode. And, a vacuum system is provided with only the quadrupole mass spectrometer which measures partial pressure strength according to a gas type in the vacuum system from an ion current intensity and does not have an ionization vacuum gauge other than the quadrupole mass spectrometer.
    • 在根据离子电流强度根据真空系统中的气体类型测量分压强度的四极杆质谱仪中,具有总压力测量电极的四极质谱仪具有用于检查设置在分界空间中的离子密度的总压力测量电极 其由栅电极和离子聚焦电极组成。 并且,仅具有四极质谱仪的真空系统,其根据离子电流强度根据真空系统中的气体类型测量分压强度,并且除四极质谱仪之外不具有电离真空计。
    • 6. 发明授权
    • Material for vacuum device, vacuum device, vacuum apparatus, manufacturing method of material for vacuum device, processing method of vacuum device, and processing method of vacuum apparatus
    • 真空装置的材料,真空装置,真空装置,真空装置的材料的制造方法,真空装置的加工方法以及真空装置的加工方法
    • US07297419B2
    • 2007-11-20
    • US10862358
    • 2004-06-08
    • Fumio Watanabe
    • Fumio Watanabe
    • D02G3/00
    • C23C8/36C22F1/02C22F1/08C23C8/02C23C28/048C23C30/00Y10T428/30
    • The present invention relates to a manufacturing method of a material for vacuum device used in a vacuum apparatus that generates ultra-high vacuum and performs processing. Its constitution has the steps of: reducing pressure around the alloy of Cu and a doping element; increasing the temperature of the alloy to outgas hydrogen from the alloy, and gathering the doping element near the surface of the alloy and precipitating the doping element; and exposing the alloy to single oxygen, single nitrogen, mixed gas of oxygen and nitrogen, ozone (O3), oxygen content compound, nitrogen content compound or oxygen-nitrogen content compound, or a combination of them, or a plasma thereof while the temperature of the alloy is maintained at a range of room temperature or higher and the temperature of the alloy increased for outgassing hydrogen or lower, whereby it is reacted with the precipitated doping element so that one of an oxide film, a nitride film and an oxide-nitride film of the doping element is formed on a surface layer of the alloy.
    • 本发明涉及一种用于真空装置的真空装置的制造方法,该真空装置产生超高真空并进行处理。 其结构具有以下步骤:减少Cu和掺杂元素周围的合金压力; 提高合金的温度以从合金中排出氢气,并将掺杂元素聚集在合金表面附近并沉淀掺杂元素; 并将合金暴露于单氧,单氮,氧和氮的混合气体,臭氧(O 3 3 N),氧含量化合物,氮含量化合物或氧 - 氮含量化合物或它们的组合 或其等离子体,同时合金的温度保持在室温以上的范围内,并且合金的温度升高以使除气氢或更低,由此其与沉淀的掺杂元素反应,使得氧化物膜 在合金的表面层上形成掺杂元素的氮化物膜和氧化物氮化物膜。
    • 9. 发明授权
    • Fluid cylinder assembly
    • 流体缸组件
    • US06216581B1
    • 2001-04-17
    • US09375365
    • 1999-08-17
    • Yoshio MuraoFumio WatanabeTakanobu Tokushige
    • Yoshio MuraoFumio WatanabeTakanobu Tokushige
    • F15B1526
    • G01L5/0076F15B15/1433
    • A fluid cylinder assembly of the kind provided with a cylinder tube in which a piston coupled by a piston rod operates. The cylinder tube has one end connected with a rod cover. The piston rod passes through an aperture in the rod cover and projects outwardly. The rod cover is associated with means for mounting the fluid cylinder assembly on a frame and a load transducer which converts a change in load axially acting thereon to a change in voltage or current and develops an electric signal. The movement of a lead wire extending outwardly of the load transducer is precluded, and the results of measurement are obtained with a high degree of accuracy.
    • 一种具有气缸套的液压缸组件,其中由活塞杆联接的活塞运行。 气缸筒的一端与杆盖连接。 活塞杆通过杆盖中的孔并向外突出。 杆盖与用于将液压缸组件安装在框架上的装置和负载传感器相结合,负载传感器将轴向作用在其上的负载变化转换为电压或电流的变化并产生电信号。 排除了从负载传感器向外延伸的引线的移动,并且以高精度获得测量结果。
    • 10. 发明授权
    • Infrared zoom lens system
    • 红外变焦镜头系统
    • US06091551A
    • 2000-07-18
    • US013600
    • 1998-01-26
    • Fumio Watanabe
    • Fumio Watanabe
    • G02B13/14G02B15/167G02B15/17G02B15/14
    • G02B15/173G02B13/14
    • An infrared zoom lens comprises, in order from the subject end to the image end, a positive power first lens group having lens elements less than three, a negative power second lens group having lens elements less than three, a third lens group having a single meniscus lens element with a concave subject side surface, a fourth lens group having a single convex lens element, and a positive power fifth lens group having at least four lens elements which include a convex meniscus lens with a concave image side surface facing directly to an image plane, the second and third lens groups being axially movable in predetermined relation relative to each other and relative to the first, fourth and fifth lens groups which are stationary to vary the zoom ratio of the infrared zoom lens and form a sharp image on the image plane, and satisfies the following conditions:______________________________________ 1.00 f2/ft 0.35
    • 红外变焦透镜从主体到图像端依次包括具有小于3的透镜元件的正电源第一透镜组,具有小于三个透镜元件的负电力第二透镜组,具有单个透镜元件的第三透镜组 具有凹入的对象侧面的弯月透镜元件,具有单个凸透镜元件的第四透镜组,以及具有至少四个透镜元件的正功率第五透镜组,所述透镜元件包括凸形弯月形透镜,凹面像侧面直接面向 图像平面,第二和第三透镜组可相对于彼此以预定关系轴向移动,并且相对于静止的第一,第四和第五透镜组可以改变红外变焦透镜的变焦比并在其上形成清晰图像 图像平面,满足以下条件: - 1.00 f2 / ft - 0.35