Digitally Controlled Leakage-Based Oscillator and Fast Relocking MDLL for Ultra Low Power Sensor Platform

Jee Dong-Woo; Sylvester Dennis; Blaauw David; Sim Jae-Yoon

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Digitally Controlled Leakage-Based Oscillator and Fast Relocking MDLL for Ultra Low Power Sensor Platform

机译：用于超低功耗传感器平台的基于数字控制的基于泄漏的振荡器和快速重新锁定MDLL

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This paper presents an all-digital multiplying delay-locked loop (MDLL) with a leakage-based oscillator for ultra-low-power sensor platforms. The proposed digital control of channel leakage current achieved ultra-low-power consumption in frequency generation with a fine resolution. The leakage based oscillator was modeled as an RC-based oscillator, analyzed, and the analyses were verified by simulation. The proposed oscillator was applied to the MDLL with a fast frequency relocking scheme which adaptively performs an optimal lock process according to the amount of frequency drift during the sleep state. The MDLL was implemented in 65 nm CMOS and consumed 423 nW for 3.2 MHz generation, and had an energy efficiency FoM of 0.132 W/MHz.

机译：本文提出了一种具有基于泄漏的振荡器的全数字乘法延迟锁定环（MDLL），用于超低功耗传感器平台。拟议的通道泄漏电流数字控制实现了频率生成中超低功耗的高分辨率。将基于泄漏的振荡器建模为基于RC的振荡器，进行分析，并通过仿真验证分析结果。所提出的振荡器通过快速频率重新锁定方案应用于MDLL，该方案根据睡眠状态期间的频率漂移量自适应地执行最佳锁定过程。 MDLL在65 nm CMOS中实现，在3.2 MHz产生时消耗423 nW，并且能效FoM为0.132 W / MHz。

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来源
《Solid-State Circuits, IEEE Journal of》 |2015年第5期|1263-1274|共12页
作者
Jee Dong-Woo; Sylvester Dennis; Blaauw David; Sim Jae-Yoon;
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作者单位

Department of Electrical and Computer Engineering, Ajou University, Yeongtong-gu, Suwon, Gyeonggi-do, Korea;

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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
Capacitance; Clocks; Inverters; Leakage currents; Noise; Oscillators; Resistance; Clock multiplier; fast lock-time; leakage current; multiplying delay-locked loop; oscillator; phase noise; sensor platform; ultra-low-power;

机译：电容;时钟;逆变器;漏电流;噪声;振荡器;电阻;时钟倍频器;快速锁定时间;泄漏电流;倍数延迟锁定环;振荡器;相位噪声;传感器平台;超低功耗;

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Digitally Controlled Leakage-Based Oscillator and Fast Relocking MDLL for Ultra Low Power Sensor Platform

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