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A MEMS electret generator with electrostatic levitation for vibration-driven energy-harvesting applications

2010; IOP Publishing; Volume: 20; Issue: 10 Linguagem: Inglês

10.1088/0960-1317/20/10/104002

1361-6439

Yuji Suzuki, Daigo Miki, Masato Edamoto, Makoto Honzumi,

Dielectric materials and actuators

In this paper, we propose a passive gap-spacing control method in order to avoid stiction between top and bottom structures in in-plane sensor/actuator/generator applications. A patterned electret using a high-performance perfluoro polymer material is employed to induce a repulsive electrostatic force. An out-of-plane repulsive force is successfully demonstrated with our early prototype, in both air and liquid. By using the present electret-based levitation method to keep the air gap, a MEMS electret generator has been developed for energy-harvesting applications. A dual-phase electrode arrangement is adopted in order to reduce the horizontal electrostatic damping force. With the present prototype, about 0.5 µW is obtained for both phases of the generator, resulting in a total power output of 1.0 µW at an acceleration of 2 g with 63 Hz. With our electromechanical model of the generator, we have confirmed that the model can mimic the response of the generator prototype.