IEEE Access (Jan 2022)

Wide-Range Light Harvesting Module for Autonomous Sensor Nodes

  • Konstantinos Kozalakis,
  • Ioannis Sofianidis,
  • Vasiliki Gogolou,
  • Vasileios Konstantakos,
  • Kostas Siozios,
  • Stylianos Siskos,
  • Theodore Laopoulos

DOI
https://doi.org/10.1109/ACCESS.2022.3161486
Journal volume & issue
Vol. 10
pp. 32180 – 32189

Abstract

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A large number of autonomous devices is nowadays supported by renewable and green energy sources. A vital sub-circuit in such systems is the power converter circuit, which should efficiently transform and store the available energy. In order to obtain the maximum efficiency under varying energy conditions, various maximum power point tracking (MPPT) methods are used. In this work a complete harvesting module with battery management and MPPT is presented, suitable for a plethora of autonomous applications. A novel, low-complexity and ultra-low power consumption design is proposed, which offers very wide operating voltage and power range with high MPPT efficiency and very low power consumption. It can be combined with different harvesters, such as thermoelectric generators or photovoltaic panels and is able to work under widely varying energy conditions. As supported by experimental results, the proposed module covers a very wide working input power range, from 40 $\mu \text{W}$ up to 4 W, as well as a very wide input voltage range, from 650 mV up to 2.8 V with 96.5% average MPPT efficiency and a total power consumption of 3.9 $\mu \text{W}$ at 3.6 V. The module relies on an embedded ultra-low power microcontroller unit (MCU) to perform the power management and MPPT operations, which can also be used for extra tasks (e.g., sensor reading). Using the proposed module, an autonomous sensor node was built, able to acquire acceleration measurements, and wirelessly communicate with a remote user in order to send an alert or stream the acquired sensor data in real time.

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