Hybrid Timing Error Detector for Baud Rate Multilevel Clock and Data Recovery

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of circuits and systems Pub Date : 2023-11-27 DOI:10.1109/OJCAS.2023.3335400
Ahmed Abdelaziz;Mohamed Ahmed;Tawfiq Musah
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Abstract

This paper proposes a hybrid phase detector for use in multilevel timing recovery systems. The proposed approach suppresses errant zero-crossings associated with multilevel baud rate phase detectors and ensures maximum signal swing in lock, with minimal hardware and power overhead. Analysis and simulation results in a 28nm CMOS process are used to explore the functionality of proposed phase detector and demonstrate its effectiveness in achieving superior performance to the conventional approach.Clock and data recovery (CDR) loop simulations show that the proposed phase detector enables $1.36\times $ increase in vertical eye margin while maintaining similar steady-state RMS jitter and compared to the conventional approach. The simulations also show effective suppression of unwanted phase detector zero-crossing, while achieving comparable acquisition bandwidth to the conventional approach.
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波特率多级时钟和数据恢复混合定时误差检测器
本文提出了一种用于多级定时恢复系统的混合相位检测器。所提出的方法可抑制与多级波特率相位检测器相关的错误零交叉,并确保锁定信号摆幅最大,同时将硬件和功耗开销降至最低。时钟和数据恢复(CDR)环路仿真显示,与传统方法相比,所提出的相位检测器在保持类似稳态 RMS 抖动的同时,使垂直眼裕度增加了 1.36 倍。模拟还显示,在实现与传统方法相当的采集带宽的同时,有效抑制了不需要的相位检测器零交叉。
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