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    • 1. 发明授权
    • Wireless communication apparatus
    • 无线通信装置
    • US06792255B2
    • 2004-09-14
    • US09768679
    • 2001-01-24
    • Yasuhiro ShibuyaKoji HiraiHiroyuki Kiyanagi
    • Yasuhiro ShibuyaKoji HiraiHiroyuki Kiyanagi
    • H04B106
    • H03G3/3036H04W52/34
    • A wireless communication apparatus according to the present invention is composed of a first section for carrying out wireless communication with a multichannel signal and a second section having a plurality of channel units each process a predetermined frequency signal as a channel signal. The wireless communication apparatus is arranged to have a plurality of variable attenuators each provided for corresponding one of the channel signals received from each channel unit of the second section, a combiner for combining outputs from the respective variable attenuators together and outputting the resultant combined signal to the first section, and a control unit for controlling the degree of attenuation of the individual variable attenuators according to the variation of the number of the channel signals. According to the arrangement, the wireless communication apparatus can not only communicate with an opponent station by transmitting a multichannel signal but also effectively suppress negative influence on existing channel even if a new channel unit is additionally provided.
    • 根据本发明的无线通信装置由用于执行与多信道信号的无线通信的第一部分和具有多个信道单元的第二部分组成,每个信道单元各自处理预定的频率信号作为信道信号。 无线通信装置被配置为具有多个可变衰减器,每个可变衰减器被设置用于从第二部分的每个信道单元接收的相应一个信道信号,组合器,用于将来自各个可变衰减器的输出组合在一起,并将所得到的组合信号输出到 第一部分和控制单元,用于根据信道信号的数量的变化来控制各个可变衰减器的衰减程度。 根据该结构,无线通信装置不仅能够通过发送多信道信号与对手站进行通信,而且即使附加地提供新的信道单元,也可以有效地抑制对现有信道的负面影响。
    • 2. 发明授权
    • Wireless communication apparatus
    • 无线通信装置
    • US06871053B2
    • 2005-03-22
    • US09768679
    • 2001-01-24
    • Yasuhiro ShibuyaKoji HiraiHiroyuki Kiyanagi
    • Yasuhiro ShibuyaKoji HiraiHiroyuki Kiyanagi
    • H03G3/30H04B1/40H04B7/005H04B7/208H04B7/26H04W52/04H04W52/34H04W72/04H04W84/08H04B1/06
    • H03G3/3036H04W52/34
    • A wireless communication apparatus according to the present invention is composed of a first section for carrying out wireless communication with a multichannel signal and a second section having a plurality of channel units each process a predetermined frequency signal as a channel signal. The wireless communication apparatus is arranged to have a plurality of variable attenuators each provided for corresponding one of the channel signals received from each channel unit of the second section, a combiner for combining outputs from the respective variable attenuators together and outputting the resultant combined signal to the first section, and a control unit for controlling the degree of attenuation of the individual variable attenuators according to the variation of the number of the channel signals. According to the arrangement, the wireless communication apparatus can not only communicate with an opponent station by transmitting a multichannel signal but also effectively suppress negative influence on existing channel even if a new channel unit is additionally provided.
    • 根据本发明的无线通信装置由用于执行与多信道信号的无线通信的第一部分和具有多个信道单元的第二部分组成,每个信道单元各自处理预定的频率信号作为信道信号。 无线通信装置被配置为具有多个可变衰减器,每个可变衰减器被设置用于从第二部分的每个信道单元接收的相应一个信道信号,组合器,用于将来自各个可变衰减器的输出组合在一起,并将所得到的组合信号输出到 第一部分和控制单元,用于根据信道信号的数量的变化来控制各个可变衰减器的衰减程度。 根据该结构,无线通信装置不仅能够通过发送多信道信号与对手站进行通信,而且即使附加地提供新的信道单元,也可以有效地抑制对现有信道的负面影响。
    • 4. 发明授权
    • Communication device
    • 通讯设备
    • US06320734B1
    • 2001-11-20
    • US09287358
    • 1999-04-07
    • Hideki SonobeYasuo IwahashiMasayuki WatabeToshiaki SuzukiHiroyuki KiyanagiYasuhiro Shibuya
    • Hideki SonobeYasuo IwahashiMasayuki WatabeToshiaki SuzukiHiroyuki KiyanagiYasuhiro Shibuya
    • H02H500
    • H04Q1/10H04Q1/03H04Q1/035H04Q2201/06H04Q2201/10H04Q2201/808
    • A communication device includes a number of transmitter/receiver/modem blocks installed in vertical positions. Each of the transmitter/receiver/modem blocks includes a supporting board having a front surface and a back surface, the supporting board including a plurality of fins on the front surface and a plurality of forced air-cooling fans on the supporting board. A front cover encloses the front surface of the supporting board, the front cover and the fins forming a plurality of ducts, the front cover and the front surface forming an internal opening under the fins. A back cover encloses the back surface of the supporting board. First heat-radiating circuit modules are provided at positions adjacent to the fins on the front surface. A second heat-radiating circuit module is provided within the opening. When the forced air-cooling fans operate, the fans produce a flow of air along the plurality of ducts to cool the first heat-radiating circuit modules, and the fans producing a flow of air within the opening to cool the second heat-radiating circuit board.
    • 通信设备包括安装在垂直位置的多个发射机/接收机/调制解调器块。 发送器/接收器/调制解调器块中的每一个包括具有前表面和后表面的支撑板,支撑板包括前表面上的多个翅片和支撑板上的多个强制空气冷却风扇。 前盖包围支撑板的前表面,前盖和翅片形成多个导管,前盖和前表面在翅片下方形成内部开口。 后盖包围支撑板的背面。 第一散热电路模块设置在与前表面上的翅片相邻的位置处。 第二散热电路模块设置在开口内。 当强制风冷风扇工作时,风扇沿着多个管道产生空气流,以冷却第一散热电路模块,并且风扇产生开口内的空气流,以冷却第二散热回路 板。
    • 5. 发明授权
    • Multiplex radio transmitter and multiplex radio transmission method, multiplex radio receiver and multiplex radio receiving method, and multiplex radio transceiver and multiplex transmission/receiving system
    • 多路复用无线电发射机和复用无线电传输方式,复用无线电接收机和复用无线电接收方式,以及复用无线电收发机和多路复用传输/接收系统
    • US06185201B2
    • 2001-02-06
    • US09187386
    • 1998-11-06
    • Hiroyuki KiyanagiToshiaki SuzukiYasuhiro ShibuyaHiroshi Suzuki
    • Hiroyuki KiyanagiToshiaki SuzukiYasuhiro ShibuyaHiroshi Suzuki
    • H04J100
    • H04B1/40H04J1/00
    • The present invention is directed to a multiplex radio transmission/receiving system. The system includes a plurality of transmission sections provided so as to correspond to a plurality of channels, and a plurality of receiving sections provided so as to correspond to the plurality of channels. Each transmission section includes a modulation section, a first frequency conversion section, a first band-pass filter, a second frequency conversion section, and a second band-pass filter. Each receiving section includes a third band-pass filter, a third frequency conversion section, a fourth band-pass filter, a fourth frequency conversion section, and a demodulation section. By selection of an optimum value for a second intermediate frequency of a transmitter and for a third intermediate frequency of a receiver, a group of transmission radio frequencies (RF) signals and a group of local frequency signals are allocated without overlap. As a result, there can be prepared one type of band-pass filter which has broad band-pass characteristics and which is common among the transmission and receiving sections disposed within the multiplex radio transceiver or among repeaters, thus allowing use of common members.
    • 本发明涉及一种多路无线电发射/接收系统。 该系统包括多个发送部分,其被设置为对应于多个信道,并且多个接收部分设置成对应于多个信道。 每个发送部分包括调制部分,第一频率转换部分,第一带通滤波器,第二频率转换部分和第二带通滤波器。 每个接收部分包括第三带通滤波器,第三频率转换部分,第四带通滤波器,第四频率转换部分和解调部分。 通过选择发射机的第二中频和接收机的第三中频的最佳值,分配一组传输射频(RF)信号和一组本地频率信号,而不重叠。 结果,可以制备具有宽带通特性的一种类型的带通滤波器,并且在布置在多路复用无线电收发器内或在转发器之间的发送和接收部分中是共同的,从而允许使用公共的部件。
    • 9. 再颁专利
    • Clock phase detecting circuit and clock regenerating circuit each arranged in receiving unit of multiplex radio equipment
    • 时钟相位检测电路和时钟再生电路,各自布置在多路复用无线电设备的接收单元中
    • USRE40695E1
    • 2009-04-07
    • US09771229
    • 2001-01-26
    • Takanori IwamatsuHiroyuki Kiyanagi
    • Takanori IwamatsuHiroyuki Kiyanagi
    • H04L7/02H04L27/22
    • H04L27/38H04L7/0029H04L7/0037H04L7/0054H04L7/027H04L7/0334
    • The present invention relates to a clock phase detecting circuit and a clock regenerating circuit each arranged in a receiving unit of multiplex radio equipment. The receiving unit of the multiplex radio equipment includes an identifying circuit for identifying a signal obtained by demodulating a multilevel orthogonal modulation signal; a clock regenerating circuit for regenerating a signal identification clock for the identifying circuit to supply the clock to the identifying circuit; an equalizing circuit for subjecting the signal obtained by demodulating a multilevel orthogonal modulation signal to an equalizing process. A clock phase detecting unit detects the phase component of the signal identification clock based on signals input to or output from the equalizing circuit and then supplies the phase component to the clock regenerating circuit. The phase component of a signal identification clock can be certainly detected and accurately adjusted so that the signal identification clock can be regenerated with high accuracy.
    • 时钟相位检测电路和时钟再生电路技术领域本发明涉及一种时钟相位检测电路和时钟再生电路,每个时钟相位检测电路和时钟再生 复用无线电设备的接收单元包括识别电路,用于识别通过解调多电平正交调制信号而获得的信号; 时钟再生电路,用于再生用于识别电路的信号识别时钟,以将时钟提供给识别电路; 均衡电路,用于对通过解调多级正交调制信号获得的信号进行均衡处理。 时钟相位检测单元基于输入到均衡电路或从均衡电路输出的信号来检测信号识别时钟的相位分量,然后将相位分量提供给时钟再生电路。 信号识别时钟的相位分量可以被可靠地检测和精确地调整,从而可以高精度地再现信号识别时钟。
    • 10. 发明授权
    • Apparatus and bit-shift method for eliminating interference of cross polarization
    • 用于消除交叉极化干扰的装置和位移方法
    • US06731704B1
    • 2004-05-04
    • US09584946
    • 2000-06-01
    • Hiroyuki Kiyanagi
    • Hiroyuki Kiyanagi
    • H04B110
    • H04B7/10
    • In a cross polarization interference eliminating apparatus, a signal demodulating section receives a first signal resulting from one of radio signals, which are transmitted in a modulated, decoded and equalized form from respectively using two kinds of polarized plain waves intercrossing at right angles in a common frequency band, and analog-to-digital converts, demodulates and equalizes the received first signal to output a first baseband signal, and an interference eliminating section receives a second signal resulting from the other radio signal, analog-to-digital converts the received digital signal to obtain a digital signal, delays the obtained digital signal. And an adding section adds the second baseband signal from the interference eliminator to the first baseband signal from the signal demodulator to output a composite signal. With this arrangement, it is possible to vary the amount of delay without a cell breathing and in accordance with the change of environment, such as temperature, without requiring the manipulation by an operator even during operation of the system. The apparatus can be compact in size and can be stabilized in operation without making an adjustment.
    • 在交叉极化干扰去除装置中,信号解调部分分别接收由调制解码和均衡形式的无线电信号之一产生的第一信号,该两个信号分别使用两个在直角上交叉的偏振平原波 频段和模数转换,解调和均衡接收到的第一信号以输出第一基带信号,并且干扰消除部分接收由另一无线电信号产生的第二信号,模数转换接收的数字 信号以获得数字信号,延迟获得的数字信号。 并且添加部分将来自干扰消除器的第二基带信号添加到来自信号解调器的第一基带信号以输出复合信号。 利用这种布置,可以在没有细胞呼吸的情况下根据环境的变化(例如温度)来改变延迟量,而不需要操作者甚至在系统的操作期间进行操纵。 该装置的尺寸可以紧凑,并且可以在不进行调整的情况下稳定运行。