DDJ-Adaptive SAR TDC-Based Timing Recovery for Multilevel Signaling

Hossain Masum; Aurangozeb; Nhat Nguyen

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DDJ-Adaptive SAR TDC-Based Timing Recovery for Multilevel Signaling

机译：基于DDJ自适应SAR TDC的多级信令定时恢复

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摘要

This paper describes a low-latency and low-power bimodal non-return-to-zero (NRZ) and pulse-amplitude modulation (PAM)-4 timing recovery circuit. This architecture reduces latency and power consumption by eliminating the need for data equalization in the timing recovery path in intersymbol interference (ISI)-limited channels. It directly equalizes data-dependent jitter (DDJ) by adaptively shifting the ISI-affected zero crossings. The implemented prototype in 65-nm CMOS supports both 10-Gb/s NRZ and 20-Gb/s PAM-4 while consuming only 23 mW. The clock and data recovery (CDR) achieves more than 20 MHz of peaking-free tracking bandwidth (BW) and adapts to optimized jitter tolerance for both PAM-4 and NRZ data eyes.

机译：本文介绍了一种低延迟，低功耗的双峰不归零（NRZ）和脉冲幅度调制（PAM）-4时序恢复电路。通过消除符号间干扰（ISI）受限信道中时序恢复路径中的数据均衡需求，该体系结构减少了延迟和功耗。它通过自适应地移动受ISI影响的零交叉来直接均衡与数据相关的抖动（DDJ）。在65纳米CMOS中实现的原型支持10 Gb / s NRZ和20 Gb / s PAM-4，而功耗仅为23 mW。时钟和数据恢复（CDR）可以实现超过20 MHz的无峰跟踪带宽（BW），并适应针对PAM-4和NRZ数据眼的优化抖动容限。

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来源
《IEEE Journal of Solid-State Circuits》 |2019年第10期|2833-2844|共12页
作者
Hossain Masum; Aurangozeb; Nhat Nguyen;
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作者单位

Univ Alberta Dept Elect & Comp Engn Edmonton AB T6G 1H9 Canada;

Rambus Inc Sunnyvale CA 94089 USA|San Jose State Univ Dept Elect Engn San Jose CA 95192 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Clock and data recovery (CDR); data-dependent jitter (DDJ) equalization; digital receiver timing recovery; timing adaptation;

机译：时钟和数据恢复（CDR）;数据相关抖动（DDJ）均衡;数字接收机定时恢复;时序适应;

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1. Timing Recovery Method for Multilevel Run-Length-Limited Read-Only Disc [J] . Haibo Yuan, Duanyi XU, Haizheng XU, Japanese journal of applied physics . 2007,第9A期

机译：多级运行时限只读光盘的定时恢复方法
2. A Reference-Less Injection-Locked Clock-Recovery Scheme for Multilevel-Signaling-Based Wideband BCC Receivers [J] . Kulkarni V.V., Lee J., Zhou J., Microwave Theory and Techniques, IEEE Transactions on . 2014,第9期

机译：基于多电平信令的宽带BCC接收器的无参考注入锁定时钟恢复方案
3. Joint blind equalization, carrier recovery and timing recovery for high-order QAM signal constellations [J] . Jablon N.K. IEEE Transactions on Signal Processing . 1992,第6期

机译：高阶QAM信号星座图的联合盲均衡，载波恢复和定时恢复
4. Jitter-reduced digital timing recovery for multilevel PAM and QAM systems [C] . Lankl, B., Sebald, . 1993

机译：用于多级PAM和QAM系统的抖动减少的数字定时恢复
5. Modified Viterbi decoders for joint data detection and timing recovery of convolutionally encoded PPM and OPPM optical signals. [D] . Lai, Che-Hsi. 1994

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7. CRB derivation and new Code-Aided timing recovery technique for QAM modulated signals [O] . Nasr, Imen, Najjar Atallah, Leila, Geller, Benoît, 2015

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8. Dual Stage Linear Prediction Approach Towards Wideband FM Demodulation With Multilevel and Partial Response Signaling. [R] . Santhanam, B., Liu, W. 2018

机译：具有多电平和部分响应信号的宽带Fm解调的双级线性预测方法。

DDJ-Adaptive SAR TDC-Based Timing Recovery for Multilevel Signaling

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