A New Vibration Energy Harvester Using Magnetoelectric Transducer

Abstract A broadband vibration energy harvester based on nonlinear magnetic force and rotary pendulums is proposed in this paper. The harvester is mainly composed of a magnetoelectric transducer and a rotary pendulum fixed with four permanent magnets. In order to improve the working bandwidth of the harvester, two pairs of permanent magnets are added in the middle of the rotary pendulum by using magnetic nonlinearity. The mechanical - magnetic - electrical analytical model of the harvester is established, and the theoretical value obtained by the model is basically consistent with the experimental value. The results show that the harvester has a strong nonlinearity through the magnetic force. When the acceleration is 0.4 g, some typical testing results are as follows: the resonant frequency is 19 Hz, maximum peak-peak voltage is 94.1 V, half power bandwidth is 15.8 Hz, center frequency is 26.9 Hz, and the ratio of half power bandwidth to the center frequency is 58.73 %.

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A broadband vibration energy harvester using magnetoelectric transducer

2010 IEEE Sensors ◽

10.1109/icsens.2010.5690026 ◽

2010 ◽

Cited By ~ 2

Author(s):

Jin Yang ◽

Yumei Wen ◽

Ping Li ◽

Xianzhi Dai ◽

Ming Li

Keyword(s):

Energy Harvester ◽

Vibration Energy ◽

Vibration Energy Harvester ◽

Magnetoelectric Transducer

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Vibration energy harvester based on magnetoelectric transducer

Acta Physica Sinica ◽

10.7498/aps.59.2137 ◽

2010 ◽

Vol 59 (3) ◽

pp. 2137

Author(s):

Dai Xian-Zhi ◽

Wen Yu-Mei ◽

Li Ping ◽

Yang Jin ◽

Jiang Xiao-Fang

Keyword(s):

Energy Harvester ◽

Vibration Energy ◽

Vibration Energy Harvester ◽

Magnetoelectric Transducer

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Simply supported FPEDs connected by springs for broadband energy harvesting

International Journal of Applied Electromagnetics and Mechanics ◽

10.3233/jae-209323 ◽

2020 ◽

Vol 64 (1-4) ◽

pp. 201-210

Author(s):

Yoshikazu Tanaka ◽

Satoru Odake ◽

Jun Miyake ◽

Hidemi Mutsuda ◽

Atanas A. Popov ◽

...

Keyword(s):

Energy Harvesting ◽

Evaluation Method ◽

Energy Harvester ◽

Vibrational Energy ◽

Functional Materials ◽

Vibration Energy ◽

Theoretical Evaluation ◽

Vibration Energy Harvester ◽

Polyvinylidene Difluoride ◽

Simply Supported

Energy harvesting methods that use functional materials have attracted interest because they can take advantage of an abundant but underutilized energy source. Most vibration energy harvester designs operate most effectively around their resonant frequency. However, in practice, the frequency band for ambient vibrational energy is typically broad. The development of technologies for broadband energy harvesting is therefore desirable. The authors previously proposed an energy harvester, called a flexible piezoelectric device (FPED), that consists of a piezoelectric film (polyvinylidene difluoride) and a soft material, such as silicon rubber or polyethylene terephthalate. The authors also proposed a system based on FPEDs for broadband energy harvesting. The system consisted of cantilevered FPEDs, with each FPED connected via a spring. Simply supported FPEDs also have potential for broadband energy harvesting, and here, a theoretical evaluation method is proposed for such a system. Experiments are conducted to validate the derived model.

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