Optical transmission system, optical transmitter for optical transmission system, and optical receiver for optical transmission system
    1.
    发明授权
    Optical transmission system, optical transmitter for optical transmission system, and optical receiver for optical transmission system 有权
    光传输系统,光传输系统光发射机,光传输系统光接收机

    公开(公告)号:US08005374B2

    公开(公告)日:2011-08-23

    申请号:US12723210

    申请日:2010-03-12

    IPC分类号: H04B10/06

    摘要: An optical transmission system is provided in which the optimum operating point of a Mach-Zehnder interferometer, matched to the optical frequency of the light source on the transmitting side, can be set. The optical receiver (2) has an infinitesimal-modulated signal component detection circuit (222), which uses the signal train output from a balanced detection circuit (221) to detect the infinitesimal-modulated signal component applied to the phase adjustment terminal (201) of an MZI (200) by an infinitesimal-modulated signal oscillation circuit (224); a synchronous detection circuit (223), which synchronously detects the infinitesimal-modulated signals output from the infinitesimal-modulated signal component detection circuit (222) and infinitesimal-modulated signal oscillation circuit (224) and detects the error signal component arising from the shift between the optical signal carrier frequency and the optical frequency characteristic of the MZI (200); and a controller (207), which outputs a control signal to adjust the phase difference between two split optical signals output from the MZI (200) so as to correct the shift amount.

    摘要翻译: 提供了一种光传输系统,其中可以设置与发射侧的光源的光频率相匹配的马赫 - 曾德干涉仪的最佳工作点。 光接收器(2)具有无穷小调制信号分量检测电路(222),其使用从平衡检测电路(221)输出的信号串来检测施加到相位调整端子(201)的无穷小调制信号分量, 通过无穷小调制信号振荡电路(224)的MZI(200); 同步检测电路(223),其同步地检测从无穷小调制信号分量检测电路(222)和无穷小调制信号振荡电路(224)输出的无穷小调制信号,并检测由第二调制信号分量检测电路 MZI(200)的光信号载波频率和光频特性; 以及控制器(207),其输出控制信号以调整从MZI(200)输出的两个分离光信号之间的相位差,以校正偏移量。

    Optical transmission system, optical transmitter for optical transmission system, and optical receiver for optical transmission system
    2.
    发明授权
    Optical transmission system, optical transmitter for optical transmission system, and optical receiver for optical transmission system 有权
    光传输系统,光传输系统光发射机,光传输系统光接收机

    公开(公告)号:US07734194B2

    公开(公告)日:2010-06-08

    申请号:US10555710

    申请日:2005-03-17

    IPC分类号: H04B10/06

    摘要: An optical transmission system is provided in which the optimum operating point of a Mach-Zehnder interferometer, matched to the optical frequency of the light source on the transmitting side, can be set. The optical receiver (2) has an infinitesimal-modulated signal component detection circuit (222), which uses the signal train output from a balanced detection circuit (221) to detect the infinitesimal-modulated signal component applied to the phase adjustment terminal (201) of an MZI (200) by an infinitesimal-modulated signal oscillation circuit (224); a synchronous detection circuit (223), which synchronously detects the infinitesimal-modulated signals output from the infinitesimal-modulated signal component detection circuit (222) and infinitesimal-modulated signal oscillation circuit (224) and detects the error signal component arising from the shift between the optical signal carrier frequency and the optical frequency characteristic of the MZI (200); and a controller (207), which outputs a control signal to adjust the phase difference between two split optical signals output from the MZI (200) so as to correct the shift amount.

    摘要翻译: 提供了一种光传输系统,其中可以设置与发射侧的光源的光频率相匹配的马赫 - 曾德干涉仪的最佳工作点。 光接收器(2)具有无穷小调制信号分量检测电路(222),其使用从平衡检测电路(221)输出的信号串来检测施加到相位调整端子(201)的无穷小调制信号分量, 通过无穷小调制信号振荡电路(224)的MZI(200); 同步检测电路(223),其同步地检测从无穷小调制信号分量检测电路(222)和无穷小调制信号振荡电路(224)输出的无穷小调制信号,并检测由 MZI(200)的光信号载波频率和光频特性; 以及控制器(207),其输出控制信号以调整从MZI(200)输出的两个分离光信号之间的相位差,以校正偏移量。

    Optical transmitter and optical transmitter control method using variable duty ratio setting and alternate phase inversion for optical clock pulses
    3.
    发明授权
    Optical transmitter and optical transmitter control method using variable duty ratio setting and alternate phase inversion for optical clock pulses 失效
    光发射机和光发射机控制方法,使用可变占空比设置和光时钟脉冲的交替相位反转

    公开(公告)号:US06763197B1

    公开(公告)日:2004-07-13

    申请号:US09588412

    申请日:2000-06-06

    IPC分类号: H04B1004

    摘要: An optical transmitter for realizing a high tolerance with respect to the group velocity dispersion of the optical fibers, a small receiver sensitivity degradation, and an improved stability that is hardly affected by the group velocity dispersion even in the case of network scale expansion, is constructed by a light source section for generating optical clock pulses synchronized with a signal bit rate while maintaining a duty ratio of the optical clock pulses constant, which is capable of variably setting the duty ratio, and an encoding section for encoding the optical clock pulses by using electric signals synchronized with the optical clock pulses while setting a relative optical phase difference between the optical clock pulses in adjacent time-slots to be an odd integer multiple of &pgr;.

    摘要翻译: 构造光传输器,即使在网络规模扩展的情况下,也能够实现相对于光纤的群速度色散的高容差,小的接收机灵敏度劣化,几乎不受群速分散影响的改善的稳定性 通过光源部分,用于产生与信号比特率同步的光时钟脉冲,同时保持能够可变地设置占空比的光时钟脉冲的占空比恒定;以及编码部分,用于通过使用 电信号与光时钟脉冲同步,同时将相邻时隙中的光时钟脉冲之间的相对光相位差设置为pi的奇整数倍。

    Optical transmission system
    4.
    发明授权
    Optical transmission system 失效
    光传输系统

    公开(公告)号:US5543952A

    公开(公告)日:1996-08-06

    申请号:US526277

    申请日:1995-09-11

    摘要: In a transmitter side in an optical transmission system, an input binary signal is converted into a duobinary signal, and the duobinary signal is applied to an optical modulation device which provides an optical intensity modulation signal, wherein the optical intensity for a center value of the duobinary signal is a minimum, the optical intensity for the other two values of the duobinary signal is a maximum, and an optical phase for those two values is opposite to each other. In a receiver side, simple direct detection is carried out for receiving optical signal through an optical transmission line to provide a demodulated binary signal. Thus, an original binary signal is recovered without a duobinary decoder and receiver sensitivity degradation. In the optical transmission system, an optical carrier frequency component in a signal spectrum is suppressed, a signal bandwidth of the modulated light is reduced in half to that of a prior art, so an optical transmission system for long distance, high bit rate and large traffic capacity is obtained.

    摘要翻译: 在光传输系统的发射机侧,输入二进制信号被转换为双二进制信号,并且双二进制信号被施加到提供光强度调制信号的光调制装置,其中,用于中心值的光强度 双二进制信号是最小的,双二进制信号的其他两个值的光强度是最大的,并且这两个值的光学相位彼此相反。 在接收机侧,进行简单的直接检测,以通过光传输线接收光信号以提供解调的二进制信号。 因此,原始二进制信号被恢复而没有双二进制解码器和接收机灵敏度降级。 在光传输系统中,信号频谱中的光载波频率分量被抑制,调制光的信号带宽减小到现有技术的一半,因此用于长距离,高比特率和大的光传输系统 获得交通容量。

    OPTICAL COMMUNICATION APPARATUS, OPTICAL ROUTE SWITCHING APPARATUS AND NETWORK
    5.
    发明申请
    OPTICAL COMMUNICATION APPARATUS, OPTICAL ROUTE SWITCHING APPARATUS AND NETWORK 有权
    光通信设备,光路由切换设备和网络

    公开(公告)号:US20140270776A1

    公开(公告)日:2014-09-18

    申请号:US14009264

    申请日:2012-04-26

    IPC分类号: H04J14/02 H04Q11/00

    摘要: An optical communication apparatus, in the sending side, distributes client signals according to destinations and a communication capacity of each destination, electrical-to-optical converts the distributed signals to optical signals having different center frequencies, and multiplexes the optical signals to output, and in the receiving side, the optical communication apparatus divides the wavelength division multiplexed signal to each wavelength (for each sending source), optical-to-electrical converts the divided optical signals to electrical signals, and multiplexes the electrical signals to output. An add/drop port of an optical route switching apparatus includes an input/output port to the optical communication apparatus, and an optical frequency bandwidth is variable according to an optical spectrum width of the optical signal. A network is constructed by using the optical communication apparatus and the optical route switching apparatus.

    摘要翻译: 发送侧的光通信装置根据目的地和每个目的地的通信容量分配客户端信号,将分布式信号进行电光转换为具有不同中心频率的光信号,并将光信号复用输出,以及 在接收侧,光通信装置将波分多路复用信号划分为每个波长(对于每个发送源),光对电转换成电信号,并将电信号多路复用为输出。 光路由交换装置的分插口包括到光通信装置的输入/输出端口,并且光频带宽根据光信号的光谱宽度是可变的。 通过使用光通信装置和光路转换装置构成网络。

    BANDWIDTH VARIABLE COMMUNICATION APPARATUS AND BANDWIDTH VARIABLE COMMUNICATION METHOD
    6.
    发明申请
    BANDWIDTH VARIABLE COMMUNICATION APPARATUS AND BANDWIDTH VARIABLE COMMUNICATION METHOD 有权
    带宽可变通信设备和带宽可变通信方法

    公开(公告)号:US20110164620A1

    公开(公告)日:2011-07-07

    申请号:US13063640

    申请日:2009-09-18

    IPC分类号: H04L12/56

    摘要: A bandwidth variable communication apparatus includes: a route exchange unit including a route exchange function for switching an output port of a stream signal of one or more wavelengths input from an input port based on both or a part of wavelength and time, and including a bandwidth change function for changing passable frequency bandwidth in a section from the input port to the output port through which the stream signal passes; and a control unit including a control information transmit-receive function for transmitting and receiving control information for both or a part of the route exchange function and the bandwidth change function of the route exchange unit, and including a control function for controlling the route exchange unit based on the control information. All or a part of the input ports and the output ports are connected to other communication apparatuses via transmission routes.

    摘要翻译: 带宽可变通信装置包括:路由交换单元,包括路由交换功能,用于基于波长和时间的两个或一部分来切换从输入端口输入的一个或多个波长的流信号的输出端口,并且包括带宽 用于在从输入端口到流信号通过的输出端口的部分中改变通过频带宽度的改变功能; 以及控制单元,其包括控制信息发送接收功能,用于发送和接收用于路由交换功能的两个或一部分的控制信息和路由交换单元的带宽改变功能,并且包括用于控制路由交换单元的控制功能 基于控制信息。 所有或一部分输入端口和输出端口经由传输路由连接到其他通信设备。

    Optical Transmission System, Optical Transmitter for Optical Transmission System, and Optical Receiver for Optical Transmission System
    7.
    发明申请
    Optical Transmission System, Optical Transmitter for Optical Transmission System, and Optical Receiver for Optical Transmission System 有权
    光传输系统,光传输系统光发射机和光传输系统光接收机

    公开(公告)号:US20100172653A1

    公开(公告)日:2010-07-08

    申请号:US12723210

    申请日:2010-03-12

    IPC分类号: H04B10/00

    摘要: An optical transmission system is provided in which the optimum operating point of a Mach-Zehnder interferometer, matched to the optical frequency of the light source on the transmitting side, can be set. The optical receiver (2) has an infinitesimal-modulated signal component detection circuit (222), which uses the signal train output from a balanced detection circuit (221) to detect the infinitesimal-modulated signal component applied to the phase adjustment terminal (201) of an MZI (200) by an infinitesimal-modulated signal oscillation circuit (224); a synchronous detection circuit (223), which synchronously detects the infinitesimal-modulated signals output from the infinitesimal-modulated signal component detection circuit (222) and infinitesimal-modulated signal oscillation circuit (224) and detects the error signal component arising from the shift between the optical signal carrier frequency and the optical frequency characteristic of the MZI (200); and a controller (207), which outputs a control signal to adjust the phase difference between two split optical signals output from the MZI (200) so as to correct the shift amount.

    摘要翻译: 提供了一种光传输系统,其中可以设置与发射侧的光源的光频率相匹配的马赫 - 曾德干涉仪的最佳工作点。 光接收器(2)具有无穷小调制信号分量检测电路(222),其使用从平衡检测电路(221)输出的信号串来检测施加到相位调整端子(201)的无穷小调制信号分量, 通过无穷小调制信号振荡电路(224)的MZI(200); 同步检测电路(223),其同步地检测从无穷小调制信号分量检测电路(222)和无穷小调制信号振荡电路(224)输出的无穷小调制信号,并检测由第二调制信号分量检测电路 MZI(200)的光信号载波频率和光频特性; 以及控制器(207),其输出控制信号以调整从MZI(200)输出的两个分离光信号之间的相位差,以校正偏移量。

    Precoding circuit and precoding-mulitplexing circuit for realizing very high transmission rate in optical fiber communication
    8.
    发明授权
    Precoding circuit and precoding-mulitplexing circuit for realizing very high transmission rate in optical fiber communication 有权
    用于在光纤通信中实现非常高的传输速率的预编码电路和预编码多路复用电路

    公开(公告)号:US06934308B1

    公开(公告)日:2005-08-23

    申请号:US09496974

    申请日:2000-02-02

    CPC分类号: H04L25/497

    摘要: A precoding-multiplexing circuit is formed by a precoding circuit for carrying out a precoding with respect to n sets of parallel input binary data signals having a bit rate equal to R/n, to obtain n sets of parallel precoded signals, and a time division multiplexer for time division multiplexing the parallel precoded signals obtained by the precoding circuit, in units of one bit, and outputting time division multiplexed output signal having a bit rate equal to R. In this configuration, the encoding is realized by processing electric signals before the time division multiplexing, so that it becomes possible for the preceding circuit to handle signals which are slower than the transmission rate, and therefore it becomes easier to realize the higher transmission rate.

    摘要翻译: 预编码复用电路由预编码电路形成,用于对具有等于R / n的比特率的n组并行输入二进制数据信号进行预编码,以获得n组并行预编码信号,以及时分 多路复用器,用于以一位为单位时分复用由预编码电路获得的并行预编码信号,并输出比特率等于R的时分复用输出信号。在该配置中,通过在 时分复用,使得前一电路可以处理比传输速率慢的信号,因此变得更容易实现更高的传输速率。

    Bandwidth variable communication apparatus and bandwidth variable communication method
    10.
    发明授权
    Bandwidth variable communication apparatus and bandwidth variable communication method 有权
    带宽可变通信装置和带宽可变通信方法

    公开(公告)号:US08526438B2

    公开(公告)日:2013-09-03

    申请号:US13063640

    申请日:2009-09-18

    IPC分类号: H04L12/28

    摘要: A bandwidth variable communication apparatus includes: a route exchange unit including a route exchange function for switching an output port of a stream signal of one or more wavelengths input from an input port based on both or a part of wavelength and time, and including a bandwidth change function for changing passable frequency bandwidth in a section from the input port to the output port through which the stream signal passes; and a control unit including a control information transmit-receive function for transmitting and receiving control information for both or a part of the route exchange function and the bandwidth change function of the route exchange unit, and including a control function for controlling the route exchange unit based on the control information. All or a part of the input ports and the output ports are connected to other communication apparatuses via transmission routes.

    摘要翻译: 带宽可变通信装置包括:路由交换单元,包括路由交换功能,用于基于波长和时间的两个或一部分来切换从输入端口输入的一个或多个波长的流信号的输出端口,并且包括带宽 用于在从输入端口到流信号通过的输出端口的部分中改变通过频带宽度的改变功能; 以及控制单元,其包括控制信息发送接收功能,用于发送和接收用于路由交换功能的两个或一部分的控制信息和路由交换单元的带宽改变功能,并且包括用于控制路由交换单元的控制功能 基于控制信息。 所有或一部分输入端口和输出端口经由传输路由连接到其他通信设备。