NRZ

Simulation of Transmission System of RZ and NRZ

归零码和非归零码传输系统模

A Novel Method of Improving the Sensitivity of DOP Ellipsoid on the Polarization Mode Dispersion in 40 Gb / s NRZ Systems

一种提高40Gb/s非归零码系统中偏振度椭球对偏振模色散灵敏度的新方法

Investigation on All - optical Clock Recovery from High-Speed NRZ Data

高速非归零码数据的全光时钟恢复研究

Transmission performance of NRZ at dispersion managed optical fiber links

非归零码在色散控制光纤链中的传输特性

Experimental Demonstration of Clock Component Extraction of NRZ Signal Using SOA Loop Mirror

基于SOA光纤环镜的NRZ信号时钟分量的提取

Influence of polarization mode dispersion on NRZ and RZ System

偏振模色散对NRZ码和RZ码系统影响的研究

NRZ code doesn 't contain synchronous clock frequency .

它本身不含有位同步时钟分量。

Design and implementation of a 54Mb / s NRZ clock data recovery circuit

54Mb/sNRZ时钟数据恢复电路的设计与实现

Timing Clock Obtaining of NRZ Code and RZ Code In Optical Digital Communications

光纤数字通信中NRZ与RZ码序列的定时时钟提取

The Evolution of NRZ in Small Nonlinear Dispersion Fiber and the Investigation of Nonlinearity After Dispersion Compensation

NRZ码在弱非线性色散光纤中的演化及色散补偿后的非线性研究

Obtaining the NRZ False Random Code Synchronous Clock

NRZ伪随机码序列同步时钟提取

In baseband transmission system , the transform between NRZ and HDB3 is usually needed .

在基带传输系统中常需要进行NRZ码和HDB3码间的相互转换。

In the end , we discuss the switching characteristics on non return zero ( NRZ ) codes .

最后讨论NRZ码情况下的开关特性。

Clock Extraction from 10Gbit / s NRZ Data and Data Format Conversion Using an Opto-Electronic Oscillator

利用光电振荡器实现10Gbit/sNRZ码时钟的直接提取和码型转换

Performance Comparison between RZ & NRZ Modulation Formats in 40 Gb / s WDM System

40Gb/sWDM系统中RZ&NRZ调制格式的性能比较

An Ethernet receiver for 1.25Gbit/s NRZ data is described .

介绍了一种用于接收1.25Gbit/s不归零随机数据的吉比特以太网接收器的设计。

Pattern conversion is the key technology for all-optical clock recovery from non-return-to-zero ( NRZ ) signal .

码型转换是实现非归零（NRZ）信号全光时钟恢复的关键技术。

Comparison of adaptive PMD compensation for RZ and NRZ

RZ码和NRZ码的偏振模色散自适应补偿特性比较

Clock extraction from degraded NRZ signal was experimental realized . The tolerance of the input signal deterioration degree was analyzed .

实验实现了恶化NRZ信号的时钟提取，分析了该时钟提取结构对输入信号恶化程度的容忍度。

All Optical Wavelength Conversion at 2.5 Gbit / s , NRZ optical pulse based on Cross-gain Modulation in SOA

利用SOA交叉增益调制实现2.5Gbit/s非归零码的全光波长变换

A 622MB / s Clock data Recovery Circuit for NRZ code , which is based on phase locked loop , is proposed in this paper .

文中提出了一种以锁相环为基础的622MB/sNRZ码的时钟数据恢复电路。

The Generation of 5 Gbit / s NRZ Optical Pulses Employing a Ti ∶ LiNbO 3 Amplitude Modulator

采用外调制方式产生5Gbit/s的非归零码光脉冲

GHz non return zero ( NRZ ) optical pulses were generated by employing a Ti ∶ LiNbO 3 amplitude modulator .

采用外调制方式得到了重复频率为5GHz的非归零码光脉冲。

It states designing idea and realizing method of the system , analyses in detail the working principle of the system and mutual transforming method of NRZ code and AMI code .

阐述了该系统的设计思想和实现方法，详细分析了该系统的工作原理和单极性不归零码与双极性归零码的相互转换方法。

The preprocessor can extract clock information from NRZ data stream , which consists of a delay cell , a multiplier and a narrow-band filter .

预处理器主要有延迟单元、乘法器和窄带滤波电路构成，可以从NRZ数据中得到时钟信号。

Wavelength converter based on a nonlinear polarization switch ( NPS ) and a DI is proposed and demonstrated for the wavelength conversion of NRZ signals .

针对NRZ信号，提出了一种基于非线性偏振开关（NPS）结合DI的NRZ信号波长转换方案。

Clock component extraction of non-return-to-zero ( NRZ ) signal based on semiconductor optical amplifier ( SOA ) loop mirror was numerically simulated and experimentally studied .

对基于半导体光放大器非线性环镜的非归零信号时钟分量提取进行了数值模拟和实验研究。

Non-return-to-zero ( NRZ ) and return-to-zero ( RZ ) are the most popular optical modulation formats in the optical communication system .

非归零码（NRZ）和归零码（RZ）是光通信系统中最常见的两种光调制格式。

The result of numerical simulation on a 10 Gbit / s NRZ transmission system demonstrates a significant improvement in the eye pattern by employing the PMD compensator .

针对10Gbit/s非归零（NRZ）传输系统，采用这种技术对进行PMD补偿的模拟计算结果表明，接收信号的眼图在补偿后得到了显著改善。

With the periodical pump pulses , the input NRZ signal pulses of 40Gb / s are conversed into RZ pulses perfectly .

另外，在抽运时钟脉冲的驱动下，输入的40Gh／s的NRZ信号光可以转换为RZ转换光，且波形较好。