Rapid carrier and clock recovery is a key technique in burst mode transmission.
快速载波和位时钟恢复是突发模式传送系统的一个关键因素。
In this paper, a detailed analysis of a phase interpolator for clock recovery is presented.
分析了应用于时钟恢复电路中的相位插值器。
This paper presents a fully integrated carrier clock recovery circuit for a mobile payment application.
介绍了一个应用在移动支付系统里的全集成载波时钟恢复电路。
This dissertation focuses on the optical clock recovery techniques in optical packet switching (OPS) network.
本文主要研究应用于光分组交换网络的全光时钟恢复(提取)技术。
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。
The most difficult problem in burst mode receiver would be signal logic level recovery and data and clock recovery.
在突发式的接收模块中,逻辑电平的恢复和时钟数据的恢复是其关键的问题。
The paper introduces a kind of clock recovery system based on phase-locked loop with bi-directly incident phase-comparator.
介绍了一类基于双向输入型鉴相器锁相环技术的时钟恢复系统。
It is estimated that a data and clock recovery module with a higher operating rate is available only if some devices are changed.
可以预计,只要在器件上作某些更换,亦可制成工作速率更高的时钟数据恢复模块。
Clock recovery circuit (CRC) is the key component in the optical transmission systems as well as in the field of digital transmission.
更高速率系统的研制目前也在开展中。时钟恢复电路(CRC)是光纤通信和许多类似数字通信领域中不可缺少的关键电路。
To reduce the pattern effect in all-optical clock recovery, a novel device termed as code mixer was designed to preprocess the injected data signals.
为减少全光时钟提取中的码型效应,设计了混码器对注入数据脉冲进行预处理。
With the signal from the master clock, the slave clock is able to recover an accurate local clock signal using a Clock Recovery Phase Locked Loop (PLL).
从时钟利用主时钟发来的时钟信号,通过数字锁相环恢复出本地时钟信号。
Through its operations centres in New Delhi and Geneva, WHO has been working around the clock to facilitate information gathering and the coordination of relief and recovery efforts related to health.
世卫组织通过其设在新德里和日内瓦的行动中心,不分昼夜地加紧搜集信息,协调与卫生有关的救援和复苏努力。
A phase selection PLL is adopted to adjust the phase of the recovered clock, and the chip area of the recovery circuit is greatly reduced without sacrificing the noise performance of the system.
设计了一个数字时钟数据恢复电路,采用相位选择锁相环进行相位调整,在不影响系统噪声性能的前提下大大降低了芯片面积。
One of the most critical points in optical PPM radio communication lies on the recovery of slot clock and frame synchronization signal.
P PM无线光通信的关键问题之一在于时隙时钟与帧同步信号的恢复。
Serial communications based on SERDES adopt the clock_data recovery(CDR) instead of both data and clock transmitting, which solve the problem of clock skew.
基于SERDES的串行通信过程中采用时钟和数据恢复技术(CDR)代替同时传输数据和时钟,从而解决了限制数据传输速率的信号时钟偏移问题。
Serial communications based on SERDES adopt the clock_data recovery(CDR) instead of both data and clock transmitting, which solve the problem of clock skew.
基于SERDES的串行通信过程中采用时钟和数据恢复技术(CDR)代替同时传输数据和时钟,从而解决了限制数据传输速率的信号时钟偏移问题。
应用推荐