A 24-GHz 4-Element Multi-Beam Wireless Energy Harvesting Array with Class-F Rectifiers Achieving 51.5% PCE
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Author
Mohsen Ghorbanpoor, Erwan Le Roux, Amir M. Ahmadi Najafabadi, Oleksandr Vorobyov, Pascal Nussbaum, Hua Wang, Mohsen Ghorbanpoor
DOI
10.1109/IMS40175.2024.10600372
Abstract
This study introduces a 24GHz 4-element concurrent multi-beam energy harvesting array, distinguished by the implementation of a novel three-line-coupler to simultaneously perform matching and harmonic shaping, achieving the best reported rectifier power conversion efficiency (PCE) of 51.5%. A 4-port ultra-compact Butler matrix with transformer-based 90° hybrid couplers is utilized to develop concurrent coherent beamforming. Fabricated in a 22nm CMOS FD-SOI process with a total core area of 0.53mm2, the proposed array can cover the full field of view (FoV) with 28dB peak-to-null ratio and 30.2% system efficiency. The proposed architecture offers a compact, efficient solution, which can significantly enhance the performance of mm-Wave wireless power transfer (WPT) links.
Publication Reference
EEE MTT-S International Microwave Symposium
Year
2024-06-16