Analysis of two dimensional, wide-band, bistable vibration energy harvester

Sensors and Actuators, A: Physical

Volumn 202, Issue , 2013, Pages 176-182

  Ando B ^a   Baglio, S ^a   Maiorca, F ^a   Trigona, C ^a  

^a UNIVERSITY OF CATANIA   (Italy)

Author keywords

2D energy harvesting; Nonlinear dynamics; Wide spectrum vibrations

Indexed keywords

BI-STABLE OSCILLATORS; ENERGY HARVESTING SYSTEMS; EXTENSIVE SIMULATIONS; LOW-FREQUENCY COMPONENTS; MECHANICAL PRINCIPLES; ORTHOGONAL DIRECTIONS; VIBRATION ENERGY HARVESTERS; WIDE-SPECTRUM VIBRATIONS;

DYNAMICS; ELECTRIC MACHINERY; ENERGY CONVERSION; ENERGY HARVESTING; LINEAR SYSTEMS; MAGNETIC COUPLINGS; PIEZOELECTRICITY; STRUCTURAL ANALYSIS; TWO DIMENSIONAL;

VIBRATIONS (MECHANICAL);

EID: 84887037723     PISSN: 09244247     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.sna.2013.02.025     Document Type: Article

References (38)

1. A. Harb Energy harvesting: state-of-the-art Renewable Energy 36 2011 2641 2654
2. Y. Manoli, T. Hehn, D. Hoffmann, M. Kuhl, N. Lotze, D. Maurath, C. Moranz, D. Rossbach, and D. Spreemann Energy harvesting and chip autonomy CHIPS 2020 The Frontiers Collection, Springer 2012 393 420
3. U. Alvarado, A. Juanicorena, I. Adin, B. Sedano, I. Gutiérrez, and J. de Nó Energy harvesting technologies for low-power electronics Transactions on Emerging Telecommunications Technologies 2012
4. N.A. Kelly, and T.L. Gibson Increasing the solar photovoltaic energy capture on sunny and cloudy days Solar Energy 85 2011 111 125
5. T. Ackermann Wind Power in Power Systems 2nd ed. 2012 John Wiley & Sons
6. A.G. Thiam, and A.D. Pierce Electromechanical transduction system design for optimal energy harvesting from ocean waves Journal of the Acoustical Society of America 130 2011 2504
7. S. Monfray, O. Puscasu, G. Savelli, U. Soupremanien, E. Ollier, and C. Guerin Innovative thermal energy harvesting for zero power electronics Proceedings of Silicon Nanoelectronics Workshop 2012 1 4
8. J. Renno, M.F. Daqaq, and D.J. Inman On the optimal energy harvesting from a vibration source Journal of Sound and Vibration 320 2009 386 405
9. M. Fauzi Bin, A. Rahman, and K.S. Leong Investigation of useful ambient vibration sources for the application of energy harvesting Proceedings of Student Conference on Research and Development 2011 391 396
10. H. Lhermet, C. Condemine, M. Plissonnier, R. Salot, P. Audebert, and M. Rosset Efficient power management circuit: from thermal energy harvesting to above-IC microbattery energy storage Journal of Solid-State Circuits 43 2008 246 255
11. A. Erturk, and D.J. Inman Piezoelectric Energy Harvesting 2011 John Wiley & Sons
12. Y. Naruse, N. Matsubara, K. Mabuchi, M. Izumi, and S. Suzuki Electrostatic micro power generation from low-frequency vibration such as human motion Journal of Micromechanics and Microengineering 19 2009 1 5
13. Ö. Zorlu, E.T. Topal, and H. Külah A vibration-based electromagnetic energy harvester using mechanical frequency up-conversion method IEEE Sensor Journal 11 2011 481 488
14. F. Wang, C. Bertelsen, G. Skands, T. Pedersen, and O. Hansen Reactive ion etching of polymer materials for an energy harvesting device Microelectronic Engineering 97 2012 227 230
15. P.D. Mitcheson Energy harvesting for human wearable and implantable bio-sensors Proceedings of EEE Eng. Med. Biol. Soc. 2010 3432 3436
16. S. Sudevalayam, and P. Kulkarni Energy harvesting sensor nodes: survey and implications IEEE Communications Surveys & Tutorials 13 2011 443 461
17. A. Bonfiglio, and D. De Rossi Wearable Monitoring Systems 1st ed. 2011 Springer New York, NY, USA
18. S.P. Beeby, M.J. Tudor, and N.M. White Energy harvesting vibration sources for microsystems applications Measurement Science & Technology 17 2006 175 195
19. S. Priya, and D.J. Inman Energy Harvesting Technologies 2010 Springer Science Berlin, Heidelberg
20. M. Ferrari, V. Ferrari, M. Guizzetti, D. Marioli, and A. Taroni Piezoelectric multifrequency energy converter for power harvesting in autonomous Microsystems, Sensors and Actuators A: Physical 142 2008 329 335 (Pubitemid 351199597)
21. C. Peters, D. Maurath, W. Schock, and Y. Manoli Novel electrically tunable mechanical resonator for energy harvesting Proceedings of Power MEMS 2008 253 256
22. F. Cottone, H. Vocca, and L. Gammaitoni Nonlinear energy harvesting Physical Review Letters 102 2009 1 4
23. D. Barton, S. Burrow, and L. Clare Energy harvesting from vibrations with a nonlinear oscillator Proceedings of the ASME 2009 1 10
24. L. Gammaitoni, I. Neri, and H. Vocca Nonlinear oscillators for vibration energy harvesting Applied Physics Letters 94 2009 1 3
25. S. Stanton, and B. Mann Harvesting energy from the nonlinear oscillations of a bistable piezoelectric inertial generator Proceedings of the ASME 2009 1 10
26. B. Andò, S. Baglio, L. Latorre, F. Maiorca, P. Nouet, and C. Trigona Magnetically-coupled cantilevers with antiphase bistable behavior for kinetic energy harvesting Proceedings of Eurosensors 2012 2012
27. U. Bartsch, J. Gaspar, and O. Paul Low-frequency two-dimensional resonators for vibrational micro energy harvesting Journal of Micromechanics and Microengineering 20 2010 035016
28. Y. Zhu, S.O.R. Moheimani, and M.R. Yuce A 2-DOF wideband electrostatic transducer for energy harvesting and implantable applications IEEE Sensors Conference, vol. 2009 2009 1542 1545
29. J.C. Park, and J.Y. Park A two-dimensional vibration energy harvester using an piezoelectric bimorph cantilever with an asymmeteric inertial mass Proceedings of Power MEMS 2011 281 284
30. B. Andò, S. Baglio, F. Maiorca, and C. Trigona Two dimensional bistable vibration energy harvester Proceedings of Eurosensors 2012 2012
31. B. Andò, S. Baglio, C. Trigona, N. Dumas, L. Latorre, and P. Nouet Nonlinear mechanism in MEMS devices for energy harvesting applications Journal of Micromechanics and Microengineering 20 2010 1 12
32. B. Andò, S. Baglio, G. L'Episcopo, and C. Trigona Investigation on mechanically bistable MEMS devices for energy harvesting from vibrations IEEE Journal of Microelectromechanical Systems 21 2012 779 790
33. M. Ferrari, V. Ferrari, M. Guizzetti, B. Andò, S. Baglio, and C. Trigona Improved energy harvesting from wideband vibrations by nonlinear piezoelectric converters Procedia Chemistry 1-1 2009 1203 1206
34. J.E. Vandemeer, M.S. Kranz, G.K. Fedder, Nodal simulation of suspended MEMS with multiple degrees of freedom, DSC 354 (1997) 1-7.
35. J.C. Lagarias, J.A. Reeds, M.H. Wright, and P.E. Wright Convergence properties of the Nelder-Mead simplex method in low dimensions Journal on Optimization 9 1998 112 147
36. B. Andò, S. Baglio, G. L'episcopo, V. Marletta, N. Savalli, and C. Trigona A BE-SOI MEMS for inertial measurement in geophysical applications IEEE Transactions on Instrumentation & Measurement 99 2011 1 8
37. M. Calvo, J.I. Montijano, and L. Randez A fifth-order interpolant for the Dormand and Prince Runge-Kutta method Journal of Computational and Applied Mathematics 29 1990 91 100 (Pubitemid 20660001)
38. S. Okamoto, Experimental Study of Flow-Induced Vibrations and Scattering of Roof Tiles by Wind Tunnel Testing, InTech, Available from: http://www.intechopen.com/books/wind-tunnels/experimental-study-of-flow-induced- vibrations-and-scattering-of-roof-tiles-by-wind-tunnel-testing (2011).