Design and evaluation of an experimental system for monitoring the mechanical response of piezoelectric energy harvesters |
Kim, Changho
(Department of Mechanical Engineering, Konkuk University)
Ko, Youngsu (Department of Mechanical Engineering, Konkuk University) Kim, Taemin (Department of Mechanical Engineering, Konkuk University) Yoo, Chan-Sei (Electronic Convergence Materials & Device Research Center, Korea Electronics Technology Institute) Choi, BeomJin (Technical Research Center, SENBOL Inc.) Han, Seung Ho (Electronic Convergence Materials & Device Research Center, Korea Electronics Technology Institute) Jang, YongHo (Technical Research Center, SENBOL Inc.) Kim, Youngho (Department of Mechanical Engineering, Konkuk University) Kim, Namsu (Department of Mechanical Engineering, Konkuk University) |
1 | Renato, C., Udaya, B.R., Domenico, C., Mario, M., Cesare, S., Gianluca, D.P. and Calogero, M.O. (2014), "Piezoelectric energy harvesting solutions", Sensors, 14(3), 4755-4790. DOI |
2 | Roundy, S., Wright, P.K. and Rabaey, J. (2003), "A study of low level vibrations as a power source for wireless sensor nodes", Comput. Commun., 26(11), 1131-1144 DOI |
3 | Roundy, S. and Wright, P.K. (2004), "A piezoelectric vibration based generator for wireless electronics", Smart Mater. Struct., 13, 1131-1142. DOI |
4 | Shu, Y.C. and Lien, I.C. (2006), "Efficiency of energy conversion for a piezoelectric power harvesting system", J. Micromech. Microeng., 16, 2429-2438. DOI |
5 | Stanton, S.C., Erturk, A., Mann, B.P. and Inman, D.J. (2010), "Nonlinear piezoelectricity in electroelastic energy harvesters: Modeling and experimental identification", J. Appl. Phys., 108, 074903. DOI |
6 | Avsar, A.L. and Sahin, M. (2016), "Bimorph piezoelectric energy harvester structurally integrated on a trapezoidal plate", Smart Struct. Syst., 18(2), 249-265. DOI |
7 | Olyaie, M. and Razfar, M. (2013), "Numerical characterizations of a piezoelectric micromotor using topology optimization design", Smart Struct. Syst., 11(3), 241-259. DOI |
8 | Dong, X.J., Meng, G. and Peng, J.C. (2006), "Vibration control of piezoelectric smart structures based on system identification technique: Numerical simulation and experimental study", J. Sound Vib., 297(3-5), 680-693. DOI |
9 | Indrani, D. and Nitin, A. (2013), "Piezoelectric energy generation and harvesting at the Nano-Scale: Materials and devices", Nanomater. Nanotechnol., 3, 16 DOI |
10 | Kim, H.S., Kim, J.H. and Kim, J. (2011), "A review of piezoelectric energy harvesting based on vibration", Int. J. Precision Eng. Manufact., 12(6), 1129-1141. DOI |
11 | Guan, Q.C., Ju, B., Xu, J.W., Liu, Y.B. and Feng, Z.H., (2014), "Improved strain distribution of cantilever piezoelectric energy harvesting devices using H-shaped proof masses", J. Intel. Mat. Syst. Str., 24, 1059-1066. |
12 | Lee, J., Shin, S., Kim, W., and Lee, C. (2016), "Electromechanical impedance based monitoring for the setting of cement paste using piezoelectricity sensor" Smart Struct. Syst., 17(1), 123-134. DOI |
13 | Liang, J. and Liao, W. (2012), "Impedance modeling and analysis for piezoelectric energy harvesting systems", IEEE/ASME T. Mechatron., 17(6), 1145-1157 DOI |