Topic: Survey of Power Efficient Design Methods using Supercapacitor for Mobile Embedded System

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Contact Information

  1. Myoungseo (Matthew) Kim - myoungsk@uci.edu
  2. Yifan Yin - yyin5@uci.edu

References

[1] CAP-XX, 2014.

[2] Advantage and Limitations of Supercapacitors, 2014.

[3] Super-charging: Breakthrough in battery technology could fully charge a cellphone in minutes, May 2014.

[4] A. S. Westover, J. W. Tian, S. Bernath, L. Oakes, R. Edwards, F. N. Shabab, S. Chatterjee, A. V. Anilkumar, and C. L. Pint, "A Multifunctional Load-Bearing Solid-State Supercapacitor", Nano Letter, May 2014. (Paper about [4] news)

[5] J. Monteiro, N. Garrido, and R. Fonseca, "Efficient Supercapacitor Energy Usage in Mobile Phones", in Proceedings of IEEE International Conference on Consumer Electronics, Sep. 2011.

[6] D. Brunelli, C. Moser, L. Thiele, and L. Benini, "Design of a Solar-Harvesting Circuit for Batteryless Embedded Systems", IEEE Transactions on Circuits and Systems, Nov. 2009.

[7] J. Monteiro, and N. Garrido, "An experimental study of an efficient supercapacitor stacking scheme to power mobile phones", in Proceedings of IEEE 33rd International Telecommunications Energy Conference, Oct. 2011.

[8] A. Schneuwly, and R. Gallay, "Properties and applications of supercapacitors: from the state-of-the-art to future trends", in Proceedings of Power Electronics, Oct. 2000.