A 20μW 10MHz relaxation oscillator with adaptive bias and fast self-calibration in 40nm CMOS for micro-aerial robotics application

Xuan Zhang, D. Brooks, Gu-Yeon Wei
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引用次数: 7

Abstract

Efficient actuation control of flapping-wing microrobots requires a low-power frequency reference with good absolute accuracy. To meet this requirement, we designed a fully-integrated 10MHz relaxation oscillator in a 40nm CMOS process. By adaptively biasing the continuous-time comparator, we are able to achieve a power consumption of 20μW, a 68% reduction to the conventional fixed bias design. A built-in self-calibration controller enables fast post-fabrication calibration of the clock frequency. Measurements show a frequency drift of 1.2% as the battery voltage changes from 3V to 4.1V.
用于微型航空机器人的20μW 10MHz自适应偏置和40nm CMOS快速自校准弛豫振荡器
扑翼微型机器人的高效驱动控制需要一个具有良好绝对精度的低功率频率参考。为了满足这一要求,我们在40nm CMOS工艺中设计了一个完全集成的10MHz弛豫振荡器。通过自适应偏置连续时间比较器,我们能够实现20μW的功耗,比传统的固定偏置设计降低68%。内置自校准控制器可实现时钟频率的快速制造后校准。测量显示,当电池电压从3V变化到4.1V时,频率漂移为1.2%。
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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