The possibility to establish a wireless link in the radiative near field at millimeter waves through Transverse Electric (TE) polarized Bessel beams is here investigated. Previous realizations of TE-polarized Bessel beams at millimeter waves are based on leaky-wave resonant cavities fed with loop antennas. Unfortunately, these feeders also excite undesired, nonnegligible Transverse Magnetic (TM) field components, thus leading to a hybrid TE polarization, rather than a pure TE polarization. In this work, we propose a radial-slot array feeding technique as an effective solution to generate almost pure TE-polarized Bessel beams in leaky-wave resonant cavities. The design is based on an effective leaky-wave approach for the characterization of the launcher. The proposed TE feeding scheme is validated with full-wave results. The study of a complete wireless power transfer scenario shows that the proposed solution significantly improves the link budget compared to previous hybrid TE- and TM-polarization cases.
Effective TE-polarized Bessel-beam excitation for wireless power transfer near-field links / Negri, Edoardo; Benassi, Francesca; Fuscaldo, Walter; Masotti, Diego; Burghignoli, Paolo; Costanzo, Alessandra; Galli, Alessandro. - (2022). (Intervento presentato al convegno 52st European Microwave Conference, EuMC 2022 tenutosi a Milano, Italia).
Effective TE-polarized Bessel-beam excitation for wireless power transfer near-field links
Edoardo Negri;Walter Fuscaldo;Paolo Burghignoli;Alessandro Galli
2022
Abstract
The possibility to establish a wireless link in the radiative near field at millimeter waves through Transverse Electric (TE) polarized Bessel beams is here investigated. Previous realizations of TE-polarized Bessel beams at millimeter waves are based on leaky-wave resonant cavities fed with loop antennas. Unfortunately, these feeders also excite undesired, nonnegligible Transverse Magnetic (TM) field components, thus leading to a hybrid TE polarization, rather than a pure TE polarization. In this work, we propose a radial-slot array feeding technique as an effective solution to generate almost pure TE-polarized Bessel beams in leaky-wave resonant cavities. The design is based on an effective leaky-wave approach for the characterization of the launcher. The proposed TE feeding scheme is validated with full-wave results. The study of a complete wireless power transfer scenario shows that the proposed solution significantly improves the link budget compared to previous hybrid TE- and TM-polarization cases.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
