Energy Harvesting Fractal Antenna for Charging Low Power Devices

Authors

  • Amr Hesham Department of Electronics and Communication, College of Engineering, AAST, Egypt
  • Ahmed Fawzy Electronics Research Institute, Cairo, Egypt
  • Mohamed Fathy Abo Sree Department of Electronics and Communication, College of Engineering, AAST, Egypt
  • Mohamed H. Abd El-Azeem Department of Electronics and Communication, College of Engineering, AAST, Egypt

DOI:

https://doi.org/10.37934/araset.43.1.211226

Keywords:

RFEH, Fractal antenna, Multi-band, ITS

Abstract

Radio frequency energy harvesting (RFEH) is a prospective technique that uses electromagnetic waves which waste in the air to create energy. This cutting-edge technology offers the ability to wirelessly charge battery-free gadgets, making it a potential alternative energy source for use in the future. Fractal antenna systems are a type of antenna that is characterized by their self-similarity and ability to operate over a wide range of frequencies. The proposed design combined two popular fractal shapes in one design. This one design combines the advantages of the other two designs. This research presents a novel multi-band fractal slot antenna design and optimization method for RFEH systems. The fractal antenna designs that were simulated using the CAD design suite, as well as the final design and performance that captured multiple bands are described. The rectifying and matching networks are next evaluated, and the ADS (Advanced Construct System) software is used to construct and simulate each circuit. Additionally, the voltage regulator, energy storage, and application are addressed along with the required voltage to completely function a wireless sensor node, which may be utilized in many applications including wearable technology and intelligent traffic systems (ITS) that control roads to improve environmental quality. Finally, experimental results demonstrated good agreement with simulations that had a high radiation efficiency and gain.

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Author Biographies

Amr Hesham, Department of Electronics and Communication, College of Engineering, AAST, Egypt

Amrhesham.titd@gmail.com

Ahmed Fawzy, Electronics Research Institute, Cairo, Egypt

afawzy@eri.sci.eg

Mohamed Fathy Abo Sree, Department of Electronics and Communication, College of Engineering, AAST, Egypt

Mohamed.fathy@aast.edu

Mohamed H. Abd El-Azeem, Department of Electronics and Communication, College of Engineering, AAST, Egypt

mhabdazeem@gmail.com

Published

2024-04-09

Issue

Section

Articles