时分复用

The operational principle of electro-optic ADC(analog-to-digital converter) is presented in the paper.

简要介绍了电光ADC的原理，分析、比较了光相位编码的全光ADC及利用光时分复用技术、光波分复用技术、脉冲时域展宽技术的电光ADC的结构及性能。

Ethernet data stream with HTML format and DVB-C data stream with MPEG2 format is inputted in form of ASI and SPI, and send it into FIFO via 74F675A. 5416 packs and encrypts and transfers to DVB-C and Ethernet by time diplex mode. Thereby, data bus access is realized.

HTML格式以太网数据流和MPEG2格式DVB-C数据流以ASI和SPI形式输入，经74F675A串并转换进入FIFO.5416进行打包和加密并以时分复用方式传输DVB-C和以太网数据，实现数据总线访问。

By utilizing the cross gain modulation effect and the period 1 oscillation harmonic frequency locked in an optically injected semiconductor laser , we can extract the wavelength conversional individual channel optical clock from the optical time division multiplexing OTDM signal .

光注入半导体激光器会产生非线性单周期振荡特性，利用交叉增益调制效应及对单周期振荡的微波锁频效应，可从光时分复用信号中提取出波长转换的分路光时钟。

It introduces the process of getting ultra-short pulse using a gain switched quantum well DFB laster as signal pulse source,the method of obtaining OTDM signal and extracting short pulse through the technique of extracting light-pulse which apply to high-speed OTDM system.

介绍了采用掺铒光纤放大器获得超短脉冲；利用方程差微调法获得光时分复用信号和易于实现动态色散补偿的啁啾光纤光栅实现色散补偿，以及通过适于高速光时分复用系统的光时钟提取技术提取时钟脉冲等内容。

In this thesis , we use electronical TDM and optical WDM to realize a quadruplex system of digital video fiber transmission .

本文利用电时分复用和光波分复用的方式实现了四路数字视频信号的单光纤传输，并设让出了两路实验系统电路。

Optical time division multiplexing ; demultiplexer ; semiconductor optical amplifier ; all optical signal process ; fast gain saturation

光时分复用；解复用器；半导体光放大器；全光信号处理；快速增益饱和

Compared with the synchronous time division multiplexing techniques which rigidly link service to resource, the asynchronous technique has the advantage of occupying the transmission link only in proportion to the exact requirement.

与同步时分复用技术相比，同步复用技术僵硬的将业务与传输资源相连，而异步技术的优势是根据其确切的需要来占用传输链路。

Approaches suitable for the high capacity optical communication as the optical soliton, the time division multiplexing and the dense wavelength division multiplexing are described.

在光纤大容量传输技术方面主要综述了单信道的光孤子通信技术、多路传输的时分复用技术和密集波分复用技术，介绍了它们各自的特点和对光纤带宽挖掘的极限。

The system is designed for data multiplexed and de-multiplexed.

本设计实现多路数据时分复用和解复用系统。

SOA can be used in the dispersion compensation in fiber transmission system, all-optical regeneration, optical time division multiplexing, and used as preamplifier, in-line amplifier, boost amplifier in signal transmission. SOA can be also used as wavelength converter, optical switch. In signal procession, nonlinear optical loop mirror based on SOA can be used in optical pulse reshaping, and used as high rate (100Gbit/s) demultiplexer, and optical correlator for optical data retiming.

在信息传输方面，SOA用于色散补偿、全光再生和光时分复用和前置放大、线路放大、功率放大等；在信息交换方面，SOA用于波长转换、光开关等；在信号处理方面，SOA构成的非线性光环形镜用于光脉冲整形、光数据信号再定时的光相关器和高速（100Gbit/s）解复用等。

multiplex：多路复用

为了充分利用通信干线的通信能力,人们广泛使用多路复用(Multiplex)技术,即让多路通信信道同时共用一条线路. 多路复用可分为频分多路复用和时分多路复用. .频分多路复用 当我们采用宽带信号时,由于同一线路上不同频率的各路信道互不干扰地同时传输各自的信号,

multiplexing：多路复用技术

传输介质的带宽往往大于单一信号的带宽,为了有效利用,常采用多路复用技术(Multiplexing),将一个物理信道分为多个逻辑信道,实现多路传输. 多路复用技术主要有两种:频分多路复用(Frequency Division Multiplexing)和时分多路复用(Time Division Multiplexing).

Time Division Multiplexing：时分多路复用

透过与时分多路复用(Time Division Multiplexing)和其它CSR专利方案相结合. UniFi拥有业内领先的共存性,这些专利方案确保以蓝牙进行同步时,不会对WiFi的传送造成干扰.

Time Division Multiplexing：时分复用

FDM方式将频带划分为上行部分和下行部分, 下行通道在被时分复用(Time Division Multiplexing)为一个或多个高速信道和低速信道; 而上行通道也会被复用为相应的低速信道.

TDM Time Division Multiplexing：时分复用

TCM Trellis Coded Modulation 网格编码调制: | TDM Time Division Multiplexing 时分复用: | TM Terminal Multiplexing 终端复用器:

TDM Time Division Multiplexing：时分多路复用

TCO 瑞典专业职业联盟 | TDM Time Division Multiplexing 时分多路复用 | TFTP Trivial File Transfer Protocol 次要文件传输协议

TDM Time Division Multiplexing：时间分开多路复用,时分多工法

TDM Time Division Modulation 时分调制 | TDM Time Division Multiplexing 时间分开多路复用,时分多工法 | TDM Time Division Modulation 时间分开的调制,时分调制

Optical Time Division Multiplexing：光时分复用

Optimal Stereo Signal 最佳立体声信号 | Optical Time Division Multiplexing 光时分复用 | PA Optical Transmission Technology 光传输技术

Optical Time Division Multiplexing：光学时分复用

optical table 光学平台 | optical time division multiplexing 光学时分复用 | optical transport unit 光学传输单元

time division multiplexing scheme：时分多路复用方案,时分多路转换方案

time-division multiplexing 时分多路复用,时分多路转换 | time-division multiplexing scheme 时分多路复用方案,时分多路转换方案 | time-driven system 时间驱动系统