- 1.R. Amirtharajah and A.P. Chandrakasan, "Self-powered signal processing using vibration-based power generation," IEEE Journal of Solid State Circuits, voi.33, no.5 May, 1998.Google Scholar
- 2.K. Bult et al., "Low power systems for wireless microsensors,' IEEE/ACM International Symposium on Low Power Electronics and Design, August, 1996. Google ScholarDigital Library
- 3.G. Asada, M. Dong, T.S. Lin, E Newberg, G. Pottie, W.J. Kaiser, and H.O. Marcy, "Wh'eless integrated network sensors: Low power systems on a chip," IEEE ESSIRC, 1998.Google Scholar
- 4.S.M. Wu, J.R. Yang, and T.Y. Liu, "An ASIC transponder for radio frequency identification system," Proceedings Ninth Annual IEEE International ASIC Conference and Exhibit, 1996.Google Scholar
- 5.A.P. Chandrakasan, R. Amirtharajah, J. Goodman, and W. Rabiner, "Trends in low power digital signal processing," 1998 IEEE International Symposium on Circuits and Systems Vol. 4,1998.Google Scholar
- 6.M.J. Konak, I.G. Powlesland, S.E van der Velden, and S.C. Galea, "A selfpowered discrete time piezoelectric vibration damper," Proceedings of SPIE - The International Society for Optical Engineering Vol. 3241, 1997.Google Scholar
- 7.C.B. Williams and R.B. Yates, "Ananlysis of a micro-electric generator for microsystems,' Transducers '95/Eurosensors IX, 1995.Google Scholar
- 8.H.H. Woodson and J.R. Melcher, Electromechanicat Dynamics, Vot. 1, John Wile)~ 1968.Google Scholar
- 9.A.A. Ayon, C.C. Lin, R.A. Braff, M.A. Schmidt, and H.H. Sawin, "Etching characteristics and profile control of a time multiplexed inductivelycoupled plasma etching system," Solid State Sensor and Actuator Workshop, 1998.Google Scholar
- 10.Abram Dancy, "Power supplies for ultra low power applications," Massachusetts institute of Technology, Masters Thesis, 1996.Google Scholar
- 11.D. Aebischer, H.J. Oguey, and V.R. Kaenel, "A 2.1Mhz crystal oscillator time base with a current consumption under 500nA,' IEEE Journal of Solid-State Circuits, Vo132, No. 7, July, 1997.Google Scholar
Index Terms
- Vibration-to-electric energy conversion
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