Abstract
In this paper, we present a vibration energy harvester using a spherical permanent magnet as springless proof mass and a magnetoelectric laminate structure composed of MSMA (magnetic shape memory alloy) and MFC (macro fiber composite) in d31 or d33 operational modes. Combination of transduction mechanisms, including magnetoelectric effect and impact-induced vibration of the magnetoelectric laminate composite, generates power from low frequency excitation such as human-body-induced motion. Two different types of magnetoelectric laminate composite based power generators have been fabricated, tested and compared. Moreover, the contributions of individual transduction mechanisms have been analyzed experimentally. Maximum peak-to-peak open circuit voltage of 16.4V has been obtained in response to a 3g vibration at 15Hz for device with d33 mode MFC. Device with d31 mode MFC generated maximum output power of 11.2μW in vibration exciter test and 82.5μW in manual vibration test across an 800Ω load. Based on the experimental observations, an impact-based harvester with d31 mode MFC has been proposed, which generated improved output power of 245.6μW.
Published Version
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