Friday, November 22, 2024

Advanced Energy Harvesting For loT Devices

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The innovation in IoT technology is an energy management unit that increases the power efficiency of electrostatic generators for sustainable solutions.

Design and performance of the EMU for EGs to power an IoT node. a Illustration of EGs with a remarkably good performance in harvesting ambient energy to power electronic devices. b Structural diagram of REG for wind energy harvesting. c Circuit schematic of the EMU for REG. d Ratio of the maximum power with an EMU to that without an EMU in this work compared with that reported previously. Credit: Microsystems & Nanoengineering
Design and performance of the EMU for EGs to power an IoT node. a Illustration of EGs with a remarkably good performance in harvesting ambient energy to power electronic devices. b Structural diagram of REG for wind energy harvesting. c Circuit schematic of the EMU for REG. d Ratio of the maximum power with an EMU to that without an EMU in this work compared with that reported previously. Credit: Microsystems & Nanoengineering

Electrostatic generators show promise in powering low-power devices in Internet of Things (IoT) networks by harnessing energy from environmental sources like wind and human motion. However, their effectiveness could be improved by an impedance mismatch when connected to electronic devices, resulting in low energy utilisation efficiency.

Researchers from the Chinese Academy of Sciences have developed an advanced energy management unit (EMU) with exceptional performance, markedly enhancing the effectiveness of electrostatic generators tailored for Internet of Things (IoT) purposes. This innovation tackles the obstacle of high impedance mismatch encountered between electrostatic generators and electronic devices, thus paving the way for novel opportunities in ambient energy harvesting.

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A recent study in Microsystems & Nanoengineering introduces a highly effective EMU tailored to substantially enhance the power efficiency of electrostatic generators utilised in IoT devices. This advancement addresses the enduring challenge of impedance mismatch, advancing the feasibility of environmental energy harvesting within the IoT realm.

The research team has notably amplified the power efficiency of electrostatic generators by implementing an innovative EMU integrated with a spark-switch tube and buck converter. This breakthrough has yielded an unprecedented direct current output of 79.2 mW m-2 rps-1 in rotary electret generators, representing a significant efficiency leap. Additionally, the EMU has bolstered the performance of contact-separated triboelectric nanogenerators by 50%, underscoring its adaptability across various energy-harvesting technologies.

This progress originates from precisely optimising key components like the spark-switch tube and a buck converter, elevating direct current power generation to unprecedented levels. This advancement surpasses current energy efficiency standards and highlights the EMU’s compatibility with diverse generator designs.

This innovation significantly improves the efficiency and reliability of self-powered IoT devices and encourages their widespread use in sustainable and remote environments. It signals the dawn of a new era of energy independence in the IoT field, representing a significant leap forward in using environmental energy harvesting for IoT applications.

Reference: Zibo Wu et al, Electrostatic generator enhancements for powering IoT nodes via efficient energy management, Microsystems & Nanoengineering (2024). DOI: 10.1038/s41378-024-00660-1

Nidhi Agarwal
Nidhi Agarwal
Nidhi Agarwal is a journalist at EFY. She is an Electronics and Communication Engineer with over five years of academic experience. Her expertise lies in working with development boards and IoT cloud. She enjoys writing as it enables her to share her knowledge and insights related to electronics, with like-minded techies.

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