Design of a 2.5-GHz, 3-ps jitter, 8-locking-cycle, all-digital delay-locked loop with cycle-by-cycle phase adjustment

Chun-Yuan Cheng, Jinn-Shyan Wang, Cheng-Tai Yeh, J. Sheu
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引用次数: 5

Abstract

This paper describes the design of a multi-GHz ADDLL. HDSC-based coarse-fine architecture is adopted to achieve low power and to avoid harmonic locking at large operating frequency ranges. A new resettable coarse delay line and an asynchronous binary-search design are proposed to achieve fast coarse locking and fine locking, respectively. A novel maintenance operation is also proposed to allow phase adjustments to be performed during each cycle to effectively suppress the jitter. The measurement results show that the designed 1.0-V, 55-nm ADDLL has a peak-to-peak jitter of 3 ps and a locking time of 8 cycles when operated at 2.5 GHz with a power dissipation of only 1.96 mW.
设计一个2.5 ghz、3ps抖动、8个锁相周期、全数字锁相周期相位调节的延迟锁相环
本文介绍了一种多ghz ADDLL的设计。采用基于hdsc的粗精结构,实现了低功耗和大工作频率范围内的谐波锁定。提出了一种新的可复位粗延迟线和异步二叉搜索设计,分别实现了快速粗锁和精细锁。还提出了一种新的维护操作,允许在每个周期内进行相位调整,以有效地抑制抖动。测量结果表明,所设计的1.0 v, 55 nm ADDLL在2.5 GHz工作时,峰间抖动为3ps,锁定时间为8个周期,功耗仅为1.96 mW。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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