用于节能传感器节点的宽带零功耗唤醒微机电系统器件

Broadband Zero-Power Wakeup MEMS Device for Energy-Efficient Sensor Nodes.

作者信息

Ahmed Minhaz, Dankwort Torben, Grünzig Sven, Lange Volker, Gojdka Björn

机构信息

Fraunhofer Institute for Silicon Technology ISIT, Fraunhoferstr. 1, 25524 Itzehoe, Germany.

Mechanical and Medical Engineering, Hochschule Furtwangen University, Robert-Gerwig-Platz 1, 78120 Furtwangen im Schwarzwald, Germany.

出版信息

Micromachines (Basel). 2022 Mar 2;13(3):407. doi: 10.3390/mi13030407.

DOI:10.3390/mi13030407

PMID:35334699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8949483/

Abstract

A zero-power wakeup scheme for energy-efficient sensor applications is presented in this study based on a piezoelectric MEMS energy harvester featuring wafer-level-integrated micromagnets. The proposed setup overcomes a hybrid assembly of magnets on a chip-level, a major drawback of similar existing solutions. The wakeup device can be excited at low frequencies by frequency up-conversion, both in mechanical contact and contactless methods due to magnetic force coupling, allowing various application scenarios. In a discrete circuit, a wakeup within 30−50 ms is realized in frequency up-conversion at excitation frequencies < 50 Hz. A power loss in the off state of 0.1 nW renders the scheme virtually lossless. The potential extension of battery lifetime compared to cyclical wakeup schemes is discussed for a typical wireless sensor node configuration.

摘要

本研究基于一种具有晶圆级集成微磁体的压电微机电系统（MEMS）能量收集器，提出了一种用于节能传感器应用的零功耗唤醒方案。所提出的装置克服了芯片级磁体的混合组装问题，这是现有类似解决方案的一个主要缺点。由于磁力耦合，唤醒装置可以通过频率上转换在低频下以机械接触和非接触方式被激发，从而允许各种应用场景。在离散电路中，在激励频率<50 Hz的频率上转换中，可在30 - 50毫秒内实现唤醒。关断状态下0.1 nW的功率损耗使该方案几乎无损耗。针对典型的无线传感器节点配置，讨论了与周期性唤醒方案相比电池寿命的潜在延长情况。