论文信息 - A wearable piezoelectric rotational energy harvester

A wearable piezoelectric rotational energy harvester

This paper discusses the operating principle of a rotational energy harvester for body motion with an eccentric proof mass. A mathematical analysis for the rotor motion under different excitations is performed and the gravitational and inertial operation explained. The transducing mechanism works on the principle of frequency up-conversion that is now widely used to harvest low frequency vibration more efficiently, and uses a piezoelectric beam and magnetic coupling. A miniaturized device with an overall size similar to that of a wristwatch is introduced. The fabrication is entirely done using standard milling and turning processes. Experimental results for this device show significant improvement in the attachment of the piezoelectric beam compared to a previous prototype. Furthermore, there is a good match between the magnetic forces and the proof mass for the tested excitations. A disadvantage of the miniaturized prototype is the higher stiffness of the piezo beam, preventing free oscillation after actuation. Modifications to counteract this problem are provided and experimentally validated.

Eric M. Yeatman | Andrew S. Holmes | P. Pillatsch

[1] T.C. Green,et al. Architectures for vibration-driven micropower generators , 2004, Journal of Microelectromechanical Systems.

[2] Meiling Zhu,et al. The pizzicato knee-joint energy harvester: characterization with biomechanical data and the effect of backpack load , 2012 .

[3] Eric M. Yeatman,et al. Piezoelectric Rotational Energy Harvester for Body Sensors Using an Oscillating Mass , 2012, 2012 Ninth International Conference on Wearable and Implantable Body Sensor Networks.

[4] Xinxin Li,et al. Bi-stable frequency up-conversion piezoelectric energy harvester driven by non-contact magnetic repulsion , 2011 .

[5] Andrew S. Holmes,et al. MAGNETIC BEAM PLUCKING IN A PIEZOELECTRIC ENERGY HARVESTER WITH ROTATING PROOF MASS , 2012 .

[6] Khalil Najafi,et al. A piezoelectric frequency-increased power generator for scavenging low-frequency ambient vibration , 2010, 2010 IEEE 23rd International Conference on Micro Electro Mechanical Systems (MEMS).

[7] N. Goo,et al. Use of a magnetic force exciter to vibrate a piezocomposite generating element in a small-scale windmill , 2012 .

[8] C. Pereira,et al. Piezoelectric-based power sources for harvesting energy from platforms with low-frequency vibration , 2006, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[9] Sondipon Adhikari,et al. A piezoelectric device for impact energy harvesting , 2011 .