Design of a 5 GHz Circular Rectenna for Efficient RF Energy Harvesting in IoT Applications
Magdy, A., Hassan, D., El-Hady, B., Nafea, S. (2025). Design of a 5 GHz Circular Rectenna for Efficient RF Energy Harvesting in IoT Applications. EKB Journal Management System, 29(2), 37-48. doi: 10.21608/pserj.2025.325070.1372
Ahmed Magdy; Dalia Salem Hassan; Basem El-Hady; Sherif Nafea. "Design of a 5 GHz Circular Rectenna for Efficient RF Energy Harvesting in IoT Applications". EKB Journal Management System, 29, 2, 2025, 37-48. doi: 10.21608/pserj.2025.325070.1372
Magdy, A., Hassan, D., El-Hady, B., Nafea, S. (2025). 'Design of a 5 GHz Circular Rectenna for Efficient RF Energy Harvesting in IoT Applications', EKB Journal Management System, 29(2), pp. 37-48. doi: 10.21608/pserj.2025.325070.1372
Magdy, A., Hassan, D., El-Hady, B., Nafea, S. Design of a 5 GHz Circular Rectenna for Efficient RF Energy Harvesting in IoT Applications. EKB Journal Management System, 2025; 29(2): 37-48. doi: 10.21608/pserj.2025.325070.1372

Design of a 5 GHz Circular Rectenna for Efficient RF Energy Harvesting in IoT Applications

Port-Said Engineering Research Journal
Article 4, Volume 29, Issue 2, June 2025, Page 37-48  XML PDF (1.28 MB)
Document Type: Original Article
DOI: 10.21608/pserj.2025.325070.1372
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Authors
Ahmed Magdy1; Dalia Salem Hassan email 1; Basem El-Hadyorcid 1; Sherif Nafeaorcid 2
1Electrical Engineering Department, Faculty of Engineering, Suez Canal University, Ismailia, Egypt
2Department of Electrical Engineering, Faculty of Engineering, Suez Canal University Ismailia, Egypt
Abstract
The growing dependence on wireless technologies in urban areas highlights an important challenge concerning how to ensure reliable and sustainable power for sensor devices. Traditional power solutions, such as batteries or wired connections have many limitations such as the finite lifespan of batteries and the requirement of regular maintenance. An effective alternative for regular power sources is radio frequency (RF) energy harvesting, which improves service efficiency as it extends the lifetime of sensor nodes integrated into urban areas. Electromagnetic energy can be captured and transformed into effective direct current (DC) voltage using a radio frequency (RF) energy harvesting device. This paper presents a compact rectenna for RF energy harvesting at the Wi-Fi 5 GHz band, which covers the IEEE 802.11j band. Firstly, a circular antenna surrounded by a circular patch with a whole ground plane is proposed, followed by a transmission line impedance matching for the rectenna design. Additionally, a high-efficiency rectifier is designed using Rogers4003C substrate with a thickness of 1.524 mm, connected to the antenna to create a small rectenna. Simulation results show that an output DC voltage of 1.12 V is achieved at a 3 kΩ resistor for 0 dBm input power at 5 GHz. The experimental results showed a slight difference, with a 0.9 V DC output voltage at 0 dBm input power. The rectenna was able to reach a maximum efficiency of 30.5% at an input power of 5 dBm. The proposed rectenna is viable for several energy-harvesting applications, compact, and easy to build.
Keywords
Energy Harvesting; microstrip patch antenna; rectenna; matching network; Rogers 4003C
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