In this work, a technique to improve the magnetic frequency up-conversion (FuC) of piezoelectric energy harvesters at low velocities of interaction (0.4 m/s-0.6 m/s) is proposed. The magnets used in the FuC are shielded with additional magnetic material and opposite polarization with the aim of making the force-distance curve between the magnetic blocks sharper. The concept is investigated both analytically and experimentally. A mesoscale energy harvester is then simulated at low-frequency (5 Hz). The results show that the proposed technique improves the impulsiveness of the magnetic interaction and a power gain of about 36x is obtained with an amplitude of velocity equal to 0.6 m/s.
Enhanced Frequency Up-Conversion of Vibration Energy Harvesters via Modified Magnetic Forces
Rosso, Michele;Corigliano, Alberto;Ardito, Raffaele
2023-01-01
Abstract
In this work, a technique to improve the magnetic frequency up-conversion (FuC) of piezoelectric energy harvesters at low velocities of interaction (0.4 m/s-0.6 m/s) is proposed. The magnets used in the FuC are shielded with additional magnetic material and opposite polarization with the aim of making the force-distance curve between the magnetic blocks sharper. The concept is investigated both analytically and experimentally. A mesoscale energy harvester is then simulated at low-frequency (5 Hz). The results show that the proposed technique improves the impulsiveness of the magnetic interaction and a power gain of about 36x is obtained with an amplitude of velocity equal to 0.6 m/s.| File | Dimensione | Formato | |
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Enhanced_Frequency_Up-Conversion_of_Vibration_Energy_Harvesters_via_Modified_Magnetic_Forces.pdf
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