一种新的时钟恢复方案，提高了PAM4信令的抗抖动能力

Fifth International Workshop on System-on-Chip for Real-Time Applications (IWSOC'05) Pub Date : 2005-07-20 DOI:10.1109/IWSOC.2005.19

Hyoungsoo Kim, Y. Hur, M. Maeng, F. Bien, S. Chandramouli, E. Gebara, J. Laskar

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引用次数: 1

摘要

介绍了一种用于多电平高速串行数据传输的时钟恢复方案。该系统从10gb /s的脉冲调幅(PAM)-4输入信号中提取时钟。输出与时钟同步的非归零(NRZ)数据。传统的方法是通过对接收信号进行过采样来恢复时钟，这需要复杂的电路来实现。相比之下，该方法使用PAM4信号的三种不同的过渡电平将数据与时钟对齐。它仅通过几个额外的块来实现。我们提出了一种基于锁相环的CDR块与抖动减少块的方案，其中PAM4信号通过每次跃迁检测并转换为二进制信号。所提出的抖动减少块由一个微分器、三个比较器、单稳态多振器和一个判决块组成，而CDR部分则包括一个相位和频率检测器、一个环路滤波器和一个压控振荡器(VCO)。由于每个转换数据的采集，减少了抖动，也减少了CDR的锁定时间。我们用PAM4 10gb /s信号和行为仿真对系统级架构进行了评估。

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A novel clock recovery scheme with improved jitter tolerance for PAM4 signaling

This paper introduces a novel clock recovery scheme for multilevel high speed serial data transmission. The system extracts the clock from a 10 Gb/s pulse amplitude modulated (PAM)-4 input signal. The output is non-return-to-zero (NRZ) data synchronized with the clock. Conventional methods recover the clock by over-sampling the received signal, which requires complicated circuit to implement. In contrast, the proposed method aligns the data with clock using three different transition levels of PAM4 signal. It is implemented with only a few additional blocks. We propose the scheme phase-loop-lock based CDR block with jitter reduction block in which the PAM4 signal is detected by each transition and converted to a binary signal. The proposed jitter reduction block consists of a differentiator, three comparators, monostable multivibrators and a decision block, while CDR part incorporates a phase and frequency detector, a loop filter and a voltage controlled oscillator (VCO). Due to the acquisition of each transition data, jitter is reduced and locking time for CDR is also reduced. We evaluate the system level architecture with PAM4 10 Gb/s signal and behavioral simulation.

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Fifth International Workshop on System-on-Chip for Real-Time Applications (IWSOC'05)

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