The paper introduces a novel method for agile and precise wireless power transmission operated by a time-modulated array. The unique, almost real-time reconfiguration capability of these arrays is fully exploited by a two-step procedure: first, a two-element time-modulated subarray is used for localization of tagged sensors to be energized; the entire 16-element TMA then provides the power to the detected tags, by exploiting the fundamental and first-sideband harmonic radiation. An investigation on the best array architecture is carried out, showing the importance of the adopted nonlinear/full-wave computer-aided-design platform. Very promising simulated energy transfer performance of the entire nonlinear radiating system is demonstrated.
Masotti, D., Costanzo, A., Rizzoli, V. (2015). Smart wireless power transfer operated by time-modulated arrays via a two-step procedure. INTERNATIONAL JOURNAL OF ANTENNAS AND PROPAGATION, 2015, 1-11 [10.1155/2015/673536].
Smart wireless power transfer operated by time-modulated arrays via a two-step procedure
MASOTTI, DIEGO;COSTANZO, ALESSANDRA
;RIZZOLI, VITTORIO
2015
Abstract
The paper introduces a novel method for agile and precise wireless power transmission operated by a time-modulated array. The unique, almost real-time reconfiguration capability of these arrays is fully exploited by a two-step procedure: first, a two-element time-modulated subarray is used for localization of tagged sensors to be energized; the entire 16-element TMA then provides the power to the detected tags, by exploiting the fundamental and first-sideband harmonic radiation. An investigation on the best array architecture is carried out, showing the importance of the adopted nonlinear/full-wave computer-aided-design platform. Very promising simulated energy transfer performance of the entire nonlinear radiating system is demonstrated.| File | Dimensione | Formato | |
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