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    • 3. 发明授权
    • Optical wavelength division node
    • 光波分复用节点
    • US08682164B2
    • 2014-03-25
    • US13427591
    • 2012-03-22
    • Po-Lung TienMaria C. YuangHsing-Yu ChenJyehong Chen
    • Po-Lung TienMaria C. YuangHsing-Yu ChenJyehong Chen
    • H04J14/00
    • H04B10/294H04B10/2504H04J14/02H04J14/0246H04J14/025H04J14/0252H04J14/0265H04J14/0282H04J14/0286H04J2014/0253H04L27/2697
    • An optical wavelength division node includes an optical splitter, a plurality of optical circulators, and a colorless light source module. The optical splitter receives and splits a downstream signal light source into a first-path and a second-path signal light source. The optical circulator in a first-order position receives and transmits the first-path signal light source to an optical network unit in a first-order position, and receives a return signal and passes it to a next optical circulator, and finally the optical circulator in a last-order position receives the return signal and transmits it. The colorless light source module receives the second-path signal light source and the return signal transmitted by the optical circulator in a last-order position, and uses the second-path signal light source to modulate the return signal to generate an upstream signal light source to be transmitted to the optical line terminal by the optical splitter.
    • 光波长分割节点包括光分路器,多个光循环器和无色光源模块。 光分路器将下游信号光源接收并分离成第一路径和第二路径信号光源。 第一位置的光环行器以一级位置接收并发送第一路径信号光源到光网络单元,并接收返回信号并将其传递到下一个光循环器,最后将光循环器 在最后一个位置接收返回信号并发送它。 无色光源模块以最后一个位置接收第二路径信号光源和由光循环器传输的返回信号,并且使用第二路径信号光源来调制返回信号以产生上行信号光源 由光分路器发送到光线路终端。
    • 7. 发明授权
    • Passive optical network system supporting wireless communication
    • 无源光网络系统支持无线通信
    • US08270833B2
    • 2012-09-18
    • US12504322
    • 2009-07-16
    • Yu-Min LinPo-Lung TienMaria C. Yuang
    • Yu-Min LinPo-Lung TienMaria C. Yuang
    • H04B10/00
    • H04J14/0282H04J14/0201H04J14/0247H04J14/0252H04J14/0265H04J14/0275H04J2014/0253H04W88/08
    • A passive optical network (PON) system supporting wireless communication includes an optical line terminal (OLT) configured on a central office, an optical distribution network (ODN), and a plurality of optical network units (ONUs) respectively configured on user ends. The ODN is connected to the OLT and the ONUs in a one-to-many manner. The OLT sends a downstream optical signal to the ODN, and receives an upstream optical signal. The ODN circularly guides the optical signal to each ONU. Each ONU receives and reflects the downstream optical signal, processes the received downstream optical signal, receives and processes the upstream optical signal, carries an electrical signal to be uploaded into the upstream optical signal, and carries data received by a remote antenna into the upstream optical signal. Through the above architecture, the PON system supports wireless communication.
    • 支持无线通信的无源光网络(PON)系统包括配置在中心局的光线路终端(OLT),配光网络(ODN)和分别在用户端配置的多个光网络单元(ONU)。 ODN以一对多的方式连接到OLT和ONU。 OLT向ODN发送下行光信号,并接收上行光信号。 ODN将光信号循环引导到每个ONU。 每个ONU接收并反映下行光信号,处理接收到的下行光信号,接收并处理上游光信号,承载要上传到上游光信号的电信号,并将远程天线接收的数据传送到上游光信号 信号。 通过上述架构,PON系统支持无线通信。
    • 8. 发明申请
    • Passive Optical Network System Supporting Wireless Communication
    • 无源光网络系统支持无线通信
    • US20100239253A1
    • 2010-09-23
    • US12504322
    • 2009-07-16
    • Yu-Min LinPo-Lung TienMaria C. Yuang
    • Yu-Min LinPo-Lung TienMaria C. Yuang
    • H04J14/00
    • H04J14/0282H04J14/0201H04J14/0247H04J14/0252H04J14/0265H04J14/0275H04J2014/0253H04W88/08
    • A passive optical network (PON) system supporting wireless communication includes an optical line terminal (OLT) configured on a central office, an optical distribution network (ODN), and a plurality of optical network units (ONUs) respectively configured on user ends. The ODN is connected to the OLT and the ONUs in a one-to-many manner. The OLT sends a downstream optical signal to the ODN, and receives an upstream optical signal. The ODN circularly guides the optical signal to each ONU. Each ONU receives and reflects the downstream optical signal, processes the received downstream optical signal, receives and processes the upstream optical signal, carries an electrical signal to be uploaded into the upstream optical signal, and carries data received by a remote antenna into the upstream optical signal. Through the above architecture, the PON system supports wireless communication.
    • 支持无线通信的无源光网络(PON)系统包括配置在中心局的光线路终端(OLT),配光网络(ODN)和分别在用户端配置的多个光网络单元(ONU)。 ODN以一对多的方式连接到OLT和ONU。 OLT向ODN发送下行光信号,并接收上行光信号。 ODN将光信号循环引导到每个ONU。 每个ONU接收并反映下行光信号,处理接收到的下行光信号,接收并处理上游光信号,承载要上传到上游光信号的电信号,并将远程天线接收的数据传送到上游光信号 信号。 通过上述架构,PON系统支持无线通信。