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    • 1. 发明授权
    • Transmission apparatus
    • 传输装置
    • US07577873B2
    • 2009-08-18
    • US11705069
    • 2007-02-12
    • Wataru KawasakiKoshi Kitajima
    • Wataru KawasakiKoshi Kitajima
    • G06F11/00
    • G06F12/0292H04J3/14H04J3/1611
    • A transmission apparatus has a main signal processing device, a monitor control part and an intermediating part to intermediate addresses and data between the monitor control part and the main signal processing device. The transmission apparatus further has a first switching part to selectively supply the address or the address and the data output from the intermediating part to the main signal processing device in the normal operation mode, and to selectively supply the address or the address and the data output from the monitor control part to the main signal processing device in the debug mode, and a second selecting part to selectively supply the data output from the intermediating part to the monitor control part in the normal operation mode, and to selectively supply the data output from the main signal processing device to the monitor control part in the debug mode.
    • 发送装置具有主监视控制部和主信号处理装置之间的中间地址和数据的主信号处理装置,监视控制部和中间部。 传输装置还具有第一开关部件,用于在正常操作模式中选择性地将地址或地址以及从中间部分输出的数据提供给主信号处理装置,并且选择性地提供地址或地址和数据输出 在调试模式下从监视器控制部分到主信号处理装置,以及第二选择部分,用于在正常操作模式中选择性地将从中间部分输出的数据提供给监视器控制部分,并且选择性地提供从 主要信号处理设备到监控器控制部分处于调试模式。
    • 2. 发明授权
    • Optical packet switching system
    • 光分组交换系统
    • US08897638B2
    • 2014-11-25
    • US13454882
    • 2012-04-24
    • Koshi KitajimaSatoshi FukutomiWataru Kawasaki
    • Koshi KitajimaSatoshi FukutomiWataru Kawasaki
    • H04B10/08H04B17/00H04J14/00H04J14/02
    • H04J14/0212H04J14/0267
    • An optical packet switching apparatus includes an optical packet switching apparatus, an optical transmitting apparatus, and an optical packet receiving apparatus. The optical packet transmitting apparatus includes a packet generator for generating a packet signal by adding the routing information to a received client signal, a BIP adding unit for adding BIP to the generated packet signal, and an electrical-to-optical converter for converting the packet signal, to which the BIP has been added, into an optical packet signal so as to be sent out. The optical packet receiving apparatus includes an electrical-to-optical converter for converting the received optical packet signal into an electrical packet signal, and a BIP comparison unit for detecting the error occurrence in the packet signal, based on the BIP added to the packet signal.
    • 光分组交换装置包括光分组交换装置,光发送装置和光分组接收装置。 光分组发送装置包括分组生成器,用于通过将接收到的客户端信号中的路由信息​​相加,生成分组信号,将生成的分组信号中添加BIP的BIP添加单元和用于转换分组的电 - 光转换器 信号,BIP已经被添加到光分组信号中,以便被发送出去。 光分组接收装置包括:电 - 光转换器,用于将接收的光分组信号转换成电分组信号;以及BIP比较单元,用于基于添加到分组信号的BIP来检测分组信号中的错误发生 。
    • 3. 发明申请
    • Transmission apparatus
    • 传输装置
    • US20080016403A1
    • 2008-01-17
    • US11705069
    • 2007-02-12
    • Wataru KawasakiKoshi Kitajima
    • Wataru KawasakiKoshi Kitajima
    • G06F11/34
    • G06F12/0292H04J3/14H04J3/1611
    • A transmission apparatus has a main signal processing device, a monitor control part and an intermediating part to intermediate addresses and data between the monitor control part and the main signal processing device. The transmission apparatus further has a first switching part to selectively supply the address or the address and the data output from the intermediating part to the main signal processing device in the normal operation mode, and to selectively supply the address or the address and the data output from the monitor control part to the main signal processing device in the debug mode, and a second selecting part to selectively supply the data output from the intermediating part to the monitor control part in the normal operation mode, and to selectively supply the data output from the main signal processing device to the monitor control part in the debug mode.
    • 发送装置具有主监视控制部和主信号处理装置之间的中间地址和数据的主信号处理装置,监视控制部和中间部。 传输装置还具有第一开关部件,用于在正常操作模式中选择性地将地址或地址以及从中间部分输出的数据提供给主信号处理装置,并且选择性地提供地址或地址和数据输出 在调试模式下从监视器控制部分到主信号处理装置,以及第二选择部分,用于在正常操作模式中选择性地将从中间部分输出的数据提供给监视器控制部分,并且选择性地提供从 主要信号处理设备到监控器控制部分处于调试模式。
    • 4. 发明授权
    • Optical signal receiving apparatus and optical signal attenuation controlling method
    • 光信号接收装置和光信号衰减控制方法
    • US08190036B2
    • 2012-05-29
    • US12385004
    • 2009-03-27
    • Koshi KitajimaSunao ItouHideyuki Kikuchi
    • Koshi KitajimaSunao ItouHideyuki Kikuchi
    • H04B10/06
    • H04B10/674
    • A VOA maximum attenuation control circuit has, in addition to a conventional VOA maximum attenuation control circuit, a first resistor and a second resistor, a transistor which is an emitter follower type PNP transistor, and a capacitor. Since charge of the capacitor is 0 volt at the instant when power of the optical interface unit or each optical interface is shifted from OFF state to ON state, current is supplied to a VOA by the transistor in association with shift to the ON state of the power. As a result, attenuation of the VOA reaches maximum. When the capacitor is gradually charged, base potential of the transistor is finally +5 volts, and current is 0 ampere. Then shifting to maximum attenuation control of the VOA by an operational amplifier is realized.
    • 除了常规的VOA最大衰减控制电路之外,VOA最大衰减控制电路还具有第一电阻器和第二电阻器,作为射极跟随器型PNP晶体管的晶体管和电容器。 由于在光接口单元或每个光接口的功率从OFF状态转换到ON状态的瞬间,电容器的充电为0伏,所以通过晶体管将电流提供给VOA,同时转换到ON状态 功率。 结果,VOA的衰减达到最大。 当电容器逐渐充电时,晶体管的基极电位最终为+5伏特,电流为0安培。 然后通过运算放大器转移到VOA的最大衰减控制。
    • 5. 发明申请
    • Optical signal receiving apparatus and optical signal attenuation controlling method
    • 光信号接收装置和光信号衰减控制方法
    • US20090297169A1
    • 2009-12-03
    • US12385004
    • 2009-03-27
    • Koshi KitajimaSunao ItouHideyuki Kikuchi
    • Koshi KitajimaSunao ItouHideyuki Kikuchi
    • H04B10/06
    • H04B10/674
    • A VOA maximum attenuation control circuit has, in addition to a conventional VOA maximum attenuation control circuit, a first resistor and a second resistor, a transistor which is an emitter follower type PNP transistor, and a capacitor. Since charge of the capacitor is 0 volt at the instant when power of the optical interface unit or each optical interface is shifted from OFF state to ON state, current is supplied to a VOA by the transistor in association with shift to the ON state of the power. As a result, attenuation of the VOA reaches maximum. When the capacitor is gradually charged, base potential of the transistor is finally +5 volts, and current is 0 ampere. Then shifting to maximum attenuation control of the VOA by an operational amplifier is realized.
    • 除了常规的VOA最大衰减控制电路之外,VOA最大衰减控制电路还具有第一电阻器和第二电阻器,作为射极跟随器型PNP晶体管的晶体管和电容器。 由于在光接口单元或每个光接口的功率从OFF状态转换到ON状态的瞬间,电容器的充电为0伏,所以通过晶体管将电流提供给VOA,同时转换到ON状态 功率。 结果,VOA的衰减达到最大。 当电容器逐渐充电时,晶体管的基极电位最终为+5伏特,电流为0安培。 然后通过运算放大器转移到VOA的最大衰减控制。