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    • 3. 发明申请
    • REMOTE NODE AND NETWORK ARCHITECTURE AND DATA TRANSMISSION METHOD FOR A FIBER-OPTIC NETWORK, ESPECIALLY FOR LOW BIT-RATE DATA TRANSMISSION
    • 用于光纤网络的远程节点和网络架构和数据传输方法,特别是用于低比特率数据传输
    • US20130094857A1
    • 2013-04-18
    • US13315176
    • 2011-12-08
    • Henning HinderthürKlaus Grobe
    • Henning HinderthürKlaus Grobe
    • H04B10/20
    • H04B10/278H04Q11/0067
    • A remote node architecture for a fiber-optic network, especially for low bit-rate data transmission, the fiber-optic network architecture comprises a central node and a plurality of remote nodes serially connected to each other or to the central node, respectively. The central node and the remote nodes are capable of communicating by means of digital optical signals created by the central node or a respective remote node, each digital optical signal comprising a data frame. The remote node comprises an optical connection network, a single transceiver device comprising an optical receiver unit and an optical transmitter unit, and an electronic controller device for controlling the transceiver device. The optical connection network defines a western optical connection port, an eastern optical connection port, an internal optical receiving port being connected to the optical receiver unit and an internal optical transmitting port being connected to the optical transmitter unit.
    • 用于光纤网络的远程节点架构,特别是用于低比特率数据传输,光纤网络架构分别包括彼此串行连接或中央节点的中央节点和多个远程节点。 中央节点和远程节点能够通过由中央节点或相应的远程节点创建的数字光信号进行通信,每个数字光信号包括数据帧。 远程节点包括光学连接网络,包括光接收器单元和光发射器单元的单个收发器设备,以及用于控制收发器设备的电子控制器设备。 光连接网络定义了西式光连接端口,东光连接端口,连接到光接收单元的内部光接收端口和连接到光发射单元的内光传输端口。
    • 4. 发明授权
    • Optical WDM transmitting and receiving device and optical transceiver unit for this device
    • 用于该设备的光WDM发射和接收设备和光收发器单元
    • US08406630B2
    • 2013-03-26
    • US12769381
    • 2010-04-28
    • Henning HinderthürOliver Bleck
    • Henning HinderthürOliver Bleck
    • H04J14/02G02B6/28
    • H04J14/0227H04J14/02H04J14/0257H04J14/0258
    • An optical transceiver unit for an optical WDM transmitting and receiving device is taught, with a transmitting unit to which a data signal can be fed to a specified channel input port of a multiplexer unit, wherein a separate channel wavelength is allocated to each channel input port, and the transmitting unit can be tuned with respect to optical carrier wavelength across a specified range of wavelengths. The transmitting unit is constructed so that, within the specified range of wavelengths, discrete wavelengths can be set that correspond to the channel wavelengths. In tuning mode, the controller unit can drive the transmitting unit so that the possible channel wavelengths are scanned through. The controller unit evaluates the reception signal fed to it from the receiving unit for whether abort criteria for tuning mode have been fulfilled or not, wherein the scanning process is continued until the abort criteria are fulfilled.
    • 教授用于光学WDM发射和接收装置的光收发器单元,其中发射单元可将数据信号馈送到多路复用器单元的指定信道输入端口,其中单独的信道波长被分配给每个信道输入端口 并且可以相对于指定波长范围内的光载波波长来调谐发射单元。 发射单元被构造成使得在指定的波长范围内,可以设置与信道波长相对应的离散波长。 在调谐模式下,控制器单元可以驱动发送单元,以便扫描可能的通道波长。 控制器单元评估从接收单元馈送给它的接收信号,用于是否已经满足调谐模式的中止标准,其中扫描过程持续到中止标准被满足为止。
    • 5. 发明申请
    • OPTICAL WDM TRANSMITTING AND RECEIVING DEVICE AND OPTICAL TRANSCEIVER UNIT FOR THIS DEVICE
    • 用于该设备的光学发送和接收设备和光收发器单元
    • US20100290785A1
    • 2010-11-18
    • US12769381
    • 2010-04-28
    • Henning HinderthürOliver Bleck
    • Henning HinderthürOliver Bleck
    • H04J14/02
    • H04J14/0227H04J14/02H04J14/0257H04J14/0258
    • An optical transceiver unit for an optical WDM transmitting and receiving device is taught, with a transmitting unit to which a data signal can be fed to a specified channel input port of a multiplexer unit, wherein a separate channel wavelength is allocated to each channel input port, and the transmitting unit can be tuned with respect to optical carrier wavelength across a specified range of wavelengths. The transmitting unit is constructed so that, within the specified range of wavelengths, discrete wavelengths can be set that correspond to the channel wavelengths. In tuning mode, the controller unit can drive the transmitting unit so that the possible channel wavelengths are scanned through. The controller unit evaluates the reception signal fed to it from the receiving unit for whether abort criteria for tuning mode have been fulfilled or not, wherein the scanning process is continued until the abort criteria are fulfilled.
    • 教授用于光学WDM发射和接收装置的光收发器单元,其中发射单元可将数据信号馈送到多路复用器单元的指定信道输入端口,其中单独的信道波长被分配给每个信道输入端口 并且可以相对于指定波长范围内的光载波波长来调谐发射单元。 发射单元被构造成使得在指定的波长范围内,可以设置与信道波长相对应的离散波长。 在调谐模式下,控制器单元可以驱动发送单元,以便扫描可能的通道波长。 控制器单元评估从接收单元馈送给它的接收信号,用于是否已经满足调谐模式的中止标准,其中扫描过程持续到中止标准被满足为止。
    • 6. 发明授权
    • Method and device for the 1+1 protection of an optical transmission path
    • 用于光传输路径1 + 1保护的方法和设备
    • US08213790B2
    • 2012-07-03
    • US12783910
    • 2010-05-20
    • Henning Hinderthür
    • Henning Hinderthür
    • H04J14/00
    • H04J14/0294H04B10/032H04J14/0287H04J2203/006
    • The present invention encompasses a method for 1+1 protection of an optical transmission path comprising a working path and a protection path that connect a first and second terminal node. In a working mode, an optical transmission signal is transmitted via the working path from the first to the second terminal node. At the second terminal node, the optical transmission signal is split into two optical sub-signals, and one of the optical sub-signals is sent via the protection path to a protection-path connection node as a working-path control signal. In the case of an interruption of the signal transmission via the working path, the protection-path connection node detects the absence of the working-path control signal and switches the system from the working mode to a protection mode in which signal transmission is conducted via a separate protection path.
    • 本发明包括一种用于光传输路径的1 + 1保护的方法,包括连接第一和第二终端节点的工作路径和保护路径。 在工作模式中,光传输信号经由工作路径从第一终端节点传送到第二终端节点。 在第二终端节点,光传输信号被分成两个光子信号,其中一个光子信号经由保护路径被发送到作为工作路径控制信号的保护路径连接节点。 在经由工作路径的信号传输中断的情况下,保护路径连接节点检测到不存在工作路径控制信号,并将系统从工作模式切换到保护模式,其中信号传输通过 单独的保护路径。
    • 7. 发明授权
    • Method and device for monitoring an optical transmission line, especially an optical transmission line to an end subscriber of a transmission network
    • 用于监测光传输线路的方法和设备,特别是到传输网络的终端用户的光传输线路
    • US07778544B2
    • 2010-08-17
    • US11412201
    • 2006-04-26
    • Henning Hinderthür
    • Henning Hinderthür
    • H04B10/08
    • H04B10/0771
    • A method for monitoring an optical transmission line in which digital optical signals are transmitted bidirectionally between a first and a second end point of the transmission line. At the first end point of the transmission line the digital optical signal to be transmitted to the second end point is amplitude-modulated with a preset frequency, with the modulation amplitude being small relative to the amplitude of the digital signal. At the second end point of the transmission line a small fraction of the power of the received digital signal is overcoupled passively on the optical transmission line in the direction towards the first end point and is transmitted to the first end point together with the digital signal to be transmitted from the second end point to the first end point of the optical transmission line. At the first end point the amplitude-modulated component of the received digital signal is detected. An interruption in the optical transmission line is determined when the power of the amplitude-modulated component or an associated optical or electrical characteristic parameter is smaller than a preset limit value.
    • 一种用于监测光传输线路的方法,其中数字光信号在传输线的第一和第二端点之间双向传输。 在传输线的第一端点处,要传输到第二端点的数字光信号以预设频率进行幅度调制,其调制幅度相对于数字信号的幅度较小。 在传输线的第二端点处,接收到的数字信号的一小部分功率在光传输线上朝着第一端点的方向被无源地过耦合,并且与数字信号一起传送到第一端点 从第二端点传输到光传输线的第一端点。 在第一端点,检测接收的数字信号的幅度调制分量。 当幅度调制分量的功率或相关联的光或电特性参数小于预设极限值时,确定光传输线路中的中断。
    • 9. 发明授权
    • Remote node and network architecture and data transmission method for a fiber-optic network, especially for low bit-rate data transmission
    • 用于光纤网络的远程节点和网络架构和数据传输方法,特别是对于低比特率数据传输
    • US08774628B2
    • 2014-07-08
    • US13315176
    • 2011-12-08
    • Henning HinderthürKlaus Grobe
    • Henning HinderthürKlaus Grobe
    • H04B10/00
    • H04B10/278H04Q11/0067
    • A remote node architecture for a fiber-optic network, especially for low bit-rate data transmission, the fiber-optic network architecture comprises a central node and a plurality of remote nodes serially connected to each other or to the central node, respectively. The central node and the remote nodes are capable of communicating by means of digital optical signals created by the central node or a respective remote node, each digital optical signal comprising a data frame. The remote node comprises an optical connection network, a single transceiver device comprising an optical receiver unit and an optical transmitter unit, and an electronic controller device for controlling the transceiver device. The optical connection network defines a western optical connection port, an eastern optical connection port, an internal optical receiving port being connected to the optical receiver unit and an internal optical transmitting port being connected to the optical transmitter unit.
    • 用于光纤网络的远程节点架构,特别是用于低比特率数据传输,光纤网络架构分别包括彼此串行连接或中央节点的中央节点和多个远程节点。 中央节点和远程节点能够通过由中央节点或相应的远程节点创建的数字光信号进行通信,每个数字光信号包括数据帧。 远程节点包括光学连接网络,包括光接收器单元和光发射器单元的单个收发器设备,以及用于控制收发器设备的电子控制器设备。 光连接网络定义了西式光连接端口,东光连接端口,连接到光接收单元的内部光接收端口和连接到光发射单元的内光传输端口。
    • 10. 发明授权
    • Method and system of monitoring a data transmission link, particularly an optical, bidirectional data transmission link
    • 监视数据传输链路,特别是光学双向数据传输链路的方法和系统
    • US07945160B2
    • 2011-05-17
    • US12047006
    • 2008-03-12
    • Henning Hinderthür
    • Henning Hinderthür
    • H04B10/08
    • H04B10/0795
    • Systems and methods for monitoring a data transmission link, especially an optical, bidirectional data transmission link, in which a digital transmit signal is transmitted on a first transmission path from a local end of the data transmission link toward a remote end of the data transmission link. A portion of the power of the transmit signal sent at the local end is transmitted, delayed by a non-zero delay time on a second transmission path as a control signal toward the remote end of the data transmission link. Both signals are received at the remote end and are tested for the presence of events of a predetermined type. A conclusion can be reached on the quality of the transmission link as a function of a time correlation and frequency of the appearance of events in the received transmit signal and in the received control signal.
    • 用于监视数据传输链路,特别是光学双向数据传输链路的系统和方法,其中数字传输信号在从数据传输链路的本端朝向数据传输链路的远端的第一传输路径上传输 。 在本端发送的发送信号的功率的一部分被发送,作为向数据传输链路的远端的控制信号在第二传输路径上延迟非零延迟时间。 两个信号都在远程端被接收并且被测试是否存在预定类型的事件。 可以根据接收到的发送信号和接收到的控制信号中的事件的时间相关性和频率的函数,对传输链路的质量达成一个结论。