전기의세계

대한전기학회 (The Korean Institute of Electrical Engineers)
권호 표지

진동형 에너지 하베스터 기술동향

  • 지창현 (이화여자대학교 전자전기공학과)
  • 발행 : 2018.04.01
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초록

키워드

참고문헌

  1. S. Boisseau, G. Despesse and B. Ahmed Seddik, "Electrostatic conversion for vibration energy harvesting", Small-Scale Energy Harvesting, 2012
  2. P. Pillatsch, E. M. Yeatman and A. S. Holmes, "A piezoelectric frequency up-converting energy harvester with rotating proof mass for human body applications", Sens Actuators, A 206, 2014
  3. T. Galchev, H. Kim and K. Najafi, "Micro power generator for harvesting low-frequency and nonperiodic vibrations", J Microelectromech Syst 20, 2011
  4. T. Galchev, E. E. Aktakka and K. Najafi, "A piezoelectric parametric frequency increased generator for harvesting low-frequency vibrations", J Microelectromech Syst 21, 2012
  5. Z. Zhang, X. Zhang, Y. Rasim, C. Wang, B. Du and Y. Yuan, "Design, modeling and practical tests on a high-voltage kinetic energy harvesting (EH) system for a renewable road tunnel based on linear alternators", Appl Energy 164, 2016
  6. X. Zhang, H. Pan, L. Qi, Z. Zhang, Y. Yuan and Y. Lui, "A renewable energy harvesting system using a mechanical vibration rectifier (MVR) for railroads", Appl Energy 204, 2017
  7. H. Vocca, I. Neri, F. Travasso and L. Gammaitoni, "Kinetic energy harvesting with bistable oscillators", Appl Energy 97, 2012
  8. S. Zhou, J. Cao, D. J. Inman, J. Lin, S. Liu and Z. Wang, "Broadband tristable energy harvester: modeling and experiment verification", Appl Energy 133, 2014
  9. L. Zhao and Y. Yang, "An impact-based broadband aeroelastic energy harvester for concurrent wind and base vibration energy harvesting", Appl Energy 212, 2018
  10. L. Gu and C. Livemore, "Impact-driven, frequency up-converting coupled vibration energy harvesting device for low frequency operation", Smart Mater Struct 20, 2011
  11. M. Renaud, P. Fiorini, R. Van Schaijk and C. Van Hoof, "Harvesting energy from the motion of human limbs: the design and analysis of an impact-based piezoelectric generator", Smart Mater Struct 21, 2009
  12. E. Tufekcioglu and A. Dogan, "A flextensional piezo-composite structure for energy harvesting applications", Sens Actuators, A 216, 2014
  13. E. E. Aktakka, R. L. Peterson, K. Najafi, "Thined-PZT on SOI process and design optimization for piezoelectric inertial energy harvesting", Transducers 2011, 2011
  14. A. R. Md Foisal, C. Hong and G.-S. Chung, "Multi-frequency electromagnetic energy harvester using a magnetic spring cantilever", Sens Actuators, A 182, 2012
  15. O. Zorlu and H. Kulah, "A MEMS-based energy harvester for generating energy from non-resonant environment vibrations", Sens Actuators, A 202, 2013
  16. F. Khan, F. Sassani and B. Stoeber, "Nonlinear behavior of membrane type electromagnetic energy harvester under harmonic and random vibrations", J Microsyst Technol 20, 2014
  17. P. Miao, P. D. Mitcheson, A. S. Holmes, E. M. Yeatman, T. C. Green and B. H. Stark, "MEMS inertial power generators for biomedical applications", J Microsyst Technol 12, 2006
  18. G. Despesse, T. Jager, C. Jean-Jacques, J. M. Leger, A. Vassilev, S. Basrour, B. Charlot, "Fabrication and characterization of high damping electrostatic micro devices for vibration energy scavenging", Design, Test, Integration and Packaging of MEMS and MOEMS, 2005
  19. Y. Zhang, T. Wang, A. Luo, Y. Hu, X. Li and F. Wang, "Micro electrostatic energy harvester with both broad bandwidth and high normalized power density", Appl Energy 212, 2018
  20. S. Ju, S. H. Chae, Y. Choi and C.-H. Ji, "Macro fiber composite-based low frequency vibration energy harvester", Sens Actuators, A 226, 2015
  21. S. Ju, S. H. Chae, Y. Choi, S. Lee, H. W. Lee and C.-H. Ji, "A low frequency vibration energy harvester using magnetoelectric laminate composite", Smart Mater Struct 22, 2013
  22. S. Ju and C.-H. Ji, "Impact-based piezoelectric vibration energy harvester", Appl Energy 214, 2018