Affiliation of Author(s):航空学院

Journal:IEEE ASME Int Conf Adv Intellig Mechatron AIM

Abstract:Animal/human bodies produce a huge amount of energy while performing daily activities. Harvesting this kind of energy presents a viable way to overcome the battery capacity limitation that constrains the long-time operation of wearable monitoring devices. This paper demonstrated a new spring pendulum device integrated with traditional high performance piezoelectric ceramics. The device has two degrees-of-freedom (DOFs): the swing of pendulum u1, and the dynamic deformation of spring u2. If the resonant frequencies of the two DOFs are specially designed, the swing of pendulum may lead to the drastic oscillation of the spring, effectively converts the mechanical energy into electrical energy. Moreover, because the value of swinging resonance only depends the length of pendulum l0 and the gravity value g, the harvester is very easy to be manufactured to match the low-frequency vibration sources. Experimental results obtained from the designed prototype shows that the harvester can output 5.80 mW electrical power under the excitation of common human motion signals (1.75 Hz, 0.20 g). © 2018 IEEE.

Translation or Not:no

Date of Publication:2018-08-30

Co-author:Jinhao Qiu,jihongli,Zhou, Shengpeng

Correspondence Author:Yipeng Wu