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    • 2. 发明授权
    • Duobinary optical transmitter
    • 双色光发射机
    • US07215892B2
    • 2007-05-08
    • US10638814
    • 2003-08-11
    • Han-Lim LeeSeong-Taek HwangHee-Won CheungYun-Je OhJi-Chai JeongByung-Chang Kang
    • Han-Lim LeeSeong-Taek HwangHee-Won CheungYun-Je OhJi-Chai JeongByung-Chang Kang
    • H04B10/04
    • H04B10/505H04B10/5055H04B10/5167
    • Disclosed is a duobinary optical transmitter, which includes a laser source for outputting light with a predetermined wavelength; a Mach-Zehnder interferometer-type optical intensity modulator for modulating the intensity of the light according to a three-level data signal inputted through a modulation terminal; a low-pass filter for converting an inputted two-level binary data signal into a three-level data signal through an interference among codes; and, a modulator driver/amplifier for amplifying the three-level data signal and then outputting it to the modulation terminal, wherein the overall bandwidth of the low-pass filter, the modulator driver/amplifier, and the optical intensity modulator corresponds to approximately ¼ of the clock frequency of the two-level binary data signal.
    • 公开了一种双向光学发射机,其包括用于输出具有预定波长的光的激光源; 用于根据通过调制端子输入的三电平数据信号来调制光强度的马赫 - 曾德干涉仪型光强度调制器; 低通滤波器,用于通过码之间的干扰将输入的二电平二进制数据信号转换为三电平数据信号; 以及用于放大三电平数据信号然后将其输出到调制终端的调制器驱动器/放大器,其中低通滤波器,调制器驱动器/放大器和光强度调制器的总带宽对应于大约1/4 的二级二进制数据信号的时钟频率。
    • 6. 发明授权
    • Duobinary optical transmission device using at least one semiconductor optical amplifier
    • 使用至少一个半导体光放大器的二元光传输装置
    • US07474858B2
    • 2009-01-06
    • US10849070
    • 2004-05-19
    • Han-Lim LeeGyu-Woong LeeYun-Je OhSeong-Taek Hwang
    • Han-Lim LeeGyu-Woong LeeYun-Je OhSeong-Taek Hwang
    • H04B10/00
    • H04B10/505H04B10/5055H04B10/508
    • A duobinary optical transmission device provides duobinary optical transmission with improved quality by a technique that does not require an electrical low pass filter LPF.A duobinary optical transmission device includes at least one semiconductor optical amplifier (SOA). A light source outputs a carrier wave as an optical signal. A precoder encodes an input of a non-return-to-zero (NRZ) electrical signal. An interferometer type semiconductor optical amplification unit modulates the carrier wave according to a change of an applied bias current coupled to the encoded signal. An optical band pass filter (OBPF) receives the phase-modulated optical signal from the semiconductor optical amplification unit, filters the received phase-modulated optical signal according to a designated band, and outputs an optical duobinary signal.
    • 双二进制光传输装置通过不需要电气低通滤波器LPF的技术提供具有改进质量的双向光传输。双二进制光传输装置包括至少一个半导体光放大器(SOA)。 光源输出载波作为光信号。 预编码器对不归零(NRZ)电信号的输入进行编码。 干涉仪型半导体光放大单元根据耦合到编码信号的施加的偏置电流的变化来调制载波。 光带通滤波器(OBPF)从半导体光放大单元接收相位调制光信号,根据指定频带对接收的相位调制光信号进行滤波,并输出光双二进制信号。
    • 8. 发明授权
    • ROF link apparatus capable of stable TDD wireless service
    • 能够稳定TDD无线服务的ROF链路装置
    • US07733825B2
    • 2010-06-08
    • US11514440
    • 2006-09-01
    • Sang-Ho KimYun-Je OhSeong-Taek HwangByung-Jik KimGyu-Woong LeeHoon KimSung-Kee KimHan-Lim LeeJae-Hoon LeeYong-Gyoo KimDae-Eun Choi
    • Sang-Ho KimYun-Je OhSeong-Taek HwangByung-Jik KimGyu-Woong LeeHoon KimSung-Kee KimHan-Lim LeeJae-Hoon LeeYong-Gyoo KimDae-Eun Choi
    • H04W4/00H04L12/56
    • H04W88/085
    • A radio over fiber (ROF) link apparatus capable of a stable TDD wireless service for a time division duplexing (TDD) baseband signal includes a central access platform (CAP) for receiving various kinds of data including the TDD baseband signal from upper layers, multiplexing the data, electro-optically converting the multiplexed data, and transmitting the converted data as downstream data through an optical fiber, and opto-electrically converting upstream data received through the optical fiber, demultiplexing the converted upstream data, and transmitting the demultiplexed upstream data to the respective upper layers, and a remote access unit (RAU) for receiving the downstream data through the optical fiber, opto-electrically converting the received downstream data to the multiplexed data, demultiplexing the multiplexed data, performing a wireless access process of the demultiplexed data, and transmitting the wireless access processed data to a wireless local area network (WLAN) service terminal through an antenna.
    • 能够对TDD时基双工(TDD)基带信号进行稳定的TDD无线业务的无线电光纤(ROF)链路装置包括用于从上层接收包括TDD基带信号的各种数据的中央接入平台(CAP) 数据,电光转换多路复用数据,并通过光纤将转换后的数据作为下行数据发送,并对通过光纤接收的上行数据进行光电转换,对转换的上行数据进行解复用,并将解复用的上行数据发送到 各自的上层以及用于通过光纤接收下游数据的远程访问单元(RAU),将接收到的下游数据光电转换为多路复用数据,解复用多路复用数据,执行解复用数据的无线接入处理 ,并将无线接入处理的数据发送到无线局域网(WLAN)服务 e端子通过天线。
    • 9. 发明授权
    • Bit-rate-independent optical cross-connect device in optical transmission system
    • 光传输系统中的比特率独立光交叉设备
    • US06944405B2
    • 2005-09-13
    • US09953637
    • 2001-09-17
    • Han-Lim LeeByung-Jik KimJun-Ho KohSeong-Taek HwangYun-Je Oh
    • Han-Lim LeeByung-Jik KimJun-Ho KohSeong-Taek HwangYun-Je Oh
    • H04B10/00H04B10/27H04Q3/52H04Q11/00H04Q11/04H04B10/08H04B17/00
    • H04Q11/0005H04Q2011/0016H04Q2011/0024H04Q2011/0039H04Q2011/0045
    • This invention provides an optical transmission with a demultiplexer for demultiplexing an input optical signal into optical signals of different channels and a multiplexer for multiplexing the optical signals outputted from the demultiplexer. The optical cross-connect device includes: N BICDR (Bit Rate Independent Clock and Data Recovery) receivers each for receiving the associated optical signals outputted from the demultiplexer, for converting the associated optical signal into an electrical signal and reproducing clocks and data based on the bit rate of the electrical signal; a switchboard with a cross-connect switch for receiving output signals from the respective N BICDR receiver; N bit rate discriminating units for receiving the output signals from the N BICDR receivers, respectively, thereby outputting bit rate discriminating signals associated with the N BICDR receivers, respectively; a temperature sensing unit for outputting a temperature sensing signal; and, a central processing unit for receiving the bit rate discriminating signals from the N bit rate discriminating unit, along with the temperature sensing signal from the temperature sensing unit, for compensating each of the received bit rate discriminating signals with a temperature-dependent bit rate value read out, based on the temperature sensing signal, from a memory, and for controlling the bit rate of the associated BICDR receiver based on the compensated bit rate.
    • 本发明提供了一种具有解复用器的光传输器,用于将输入光信号解复用为不同信道的光信号,以及复用器,用于复用从解复用器输出的光信号。 光交叉设备包括:N个BICDR(比特率独立时钟和数据恢复)接收机,每个接收器用于接收从解复用器输出的相关联的光信号,用于将相关联的光信号转换成电信号,并基于该信号再现时钟和数据 比特率的电信号; 具有交叉连接开关的交换机,用于接收来自相应N BICDR接收机的输出信号; N比特率鉴别单元,用于分别从N个BICDR接收机接收输出信号,从而分别输出与N个BICDR接收机相关联的比特率鉴别信号; 用于输出温度感测信号的温度检测单元; 以及用于从温度感测单元接收来自N比特率鉴别单元的比特率鉴别信号的中央处理单元,用于以温度依赖比特率对每个接收的比特率鉴别信号进行补偿 基于温度感测信号从存储器读出,并且用于基于补偿的比特率来控制相关联的BICDR接收器的比特率。