6.7-3.6-pJ/b 0.63-7.5-Gb/s 快速开启/关闭时钟和数据恢复，开启时间 <55-ns

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Solid-State Circuits Letters Pub Date : 2023-11-28 DOI:10.1109/LSSC.2023.3337045

Jaya Deepthi Bandarupalli;Saurabh Saxena

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引用次数: 0

摘要

在这封信中，我们介绍了一种具有低接通时间和恢复时钟抖动的 0.63-7.5-Gb/s 快速接通/关断数字时钟和数据恢复技术。时钟和数据恢复（CDR）采用了一个快速接通的 1.875-3.75-GHz 数字控制振荡器，随后是一个 2 美元/次的整数 N PLL。DCO 集成了一个 8 位数字控制相位细分器，嵌入到一个 6 美元-12 美元注入锁定时钟乘法器中，以实现快速接通和低输出抖动。在为半速率 CDR 生成采样时钟相位时，DCO 的输出通过快速接通 PLL 进行滤波。CDR 采用 TSMC 65-nm 工艺制造，以 1.3 ps RMS 抖动恢复时钟，7.5 Gb/s 时功耗为 26.6 mW，3.75 Gb/s 时功耗为 14.4 mW。CDR 工作的占空比将平均数据速率降至 0.63 Gb/s，开启时间小于 55-ns ，开/关周期为 1.6- $\rm \mu {\mathrm{ s}}$ 。

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A 6.7–3.6-pJ/b 0.63–7.5-Gb/s Rapid On/Off Clock and Data Recovery With <55-ns Turn-On Time

In this letter, we present a rapid on/off 0.63–7.5-Gb/s digital clock and data recovery with a low-turn-on time and recovered clock jitter. The clock and data recovery (CDR) employs a fast-on 1.875–3.75-GHz digitally controlled oscillator followed by a

$2\times $

integer-N PLL. The DCO incorporates an 8-bit digitally controlled phase interpolator embedded in a

$6\times $

–

$12\times $

injection-locked clock multiplier for fast turn-on and low-output jitter. DCO’s output is filtered using the fast-on PLL while generating the sampling clock phases for the half-rate CDR. Fabricated in the TSMC 65-nm process, the CDR recovers the clock with

$\rm < $

1.3-ps RMS jitter while dissipating 26.6 mW at 7.5 Gb/s and 14.4 mW at 3.75 Gb/s. Duty cycling the CDR operation lowers the average data rates to 0.63 Gb/s with less than 55-ns turn-on time and 1.6-

$\rm \mu {\mathrm{ s}}$

on/off period.

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来源期刊

IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering

CiteScore

4.30

自引率

3.70%

发文量