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面向压电振动能量俘获的电能管理电路综述
引用本文:陈楠,刘京睿,魏廷存. 面向压电振动能量俘获的电能管理电路综述[J]. 力学学报, 2021, 53(11): 2928-2940. DOI: 10.6052/0459-1879-21-440
作者姓名:陈楠  刘京睿  魏廷存
作者单位:西北工业大学电子信息学院,西安 710072;西北工业大学微电子学院,西安 710072
基金项目:陕西省自然科学基础研究计划(2021JM-064)资助项目
摘    要:随着物联网(internet of things, IoT)技术的高速发展, 传统的电池供电方式已经不能满足其供电需求. 利用压电能量俘获技术将机械能转换为电能, 可为IoT提供持久的电能, 具有广阔的应用前景. 本文在讨论压电振动俘能器的电学特性基础上, 全面总结了面向压电振动俘能器的电能管理电路的最新研究成果. 电能管理电路通常由AC-DC变换和DC-DC开关变换器(包括控制算法)两部分组成, 前者用于将压电振动俘能器输出的交流电转变为直流电, 后者用于提高能量俘获效率. 首先, 针对AC-DC变换, 分析了全桥整流器、电压倍增器、同步开关电感电路和同步开关电容电路的工作原理和优缺点. 接着, 重点讨论了用于压电振动俘能器的典型开关变换器电路, 包括电感式、全电容式和变压器式DC-DC开关变换器以及AC-DC开关变换器, 分析了它们的特点和适用场合. 最后, 针对压电振动俘能器的特点, 分析了实现最大能量俘获的几种典型控制算法, 包括最大功率点跟踪、阻抗匹配和同步电荷提取控制算法. 本文通过对面向压电振动俘能器的电能管理电路的全面分析和综述, 揭示了该领域目前存在的瓶颈问题, 并展望了其未来发展方向, 对压电能量俘获自供电系统的研究和开发具有重要的参考价值. 

关 键 词:振动能量  压电能量俘获  电能管理  最大能量俘获
收稿时间:2021-09-01

REVIEW OF ENERGY MANAGEMENT CIRCUITS FOR PIEZOELECTRIC VIBRATION ENERGY HARVESTERS
Affiliation:*.School of Electronics and Information, Northwestern Polytechnical University, Xi’an 710072, China?.School of Microelectronics, Northwestern Polytechnical University, Xi’an 710072, China
Abstract:With the rapid developments of internet of things (IoT) technology, the traditional battery-based power supplies cannot meet its requirements of power supply. Using a piezoelectric energy harvesting technology which converts the mechanical energy into electrical energy, can provide a stable and long-lasting power supply for IoTs, and has wide application prospects. Based on the discussion of the electrical characteristics of piezoelectric vibration energy harvester, this paper comprehensively summarizes state-of-the-art energy management circuits for piezoelectric vibration energy harvesters. The energy management circuits are usually composed of an AC-DC converter and a DC-DC switching converter (including the control algorithm of converters). The former is used to convert the AC voltage from the piezoelectric vibration energy harvester into DC voltage, and the latter is used to improve the efficiency of energy harvesting. Firstly, for AC-DC converters, the working principles and characteristics of full bridge rectifiers, voltage doublers, synchronized switch harvesting on inductors (SSHI) and synchronized switch harvesting on capacitors (SSHC) are analyzed. Then, the typical switching converters for piezoelectric energy harvesting are discussed, including inductor-based/ capacitor-based/ and transformer-based DC-DC switching converters and inductor-based AC-DC switching converters, besides, their characteristics and applications are analyzed. Finally, according to the characteristics of piezoelectric energy harvester, several typical control algorithms for maximum energy harvesting are analyzed, including maximum power point tracking, impedance matching and synchronous electric charge extraction (SECE). Through the comprehensive analysis and summary of the energy management circuits for the piezoelectric vibration energy harvesters, this paper reveals its bottleneck problems and future development trends, it has important reference values for the research and development of the self-powered piezoelectric energy harvesting systems. 
Keywords:
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