전기철도용 무선전력전송 기술동향 및 경제성 분석

References

1. Alfred Rufer: Energy Storage for Railway Systems. Energy Recovery and Vehicle Autonomy in Europe. International Power Electronics Conference. 2010.
2. A.W. Green and J.T. Boys : 10kHz Inductive Coupled Power Transfer. Concept and Control. IEE Power Electronics and Variable-Speed Drives. 1994.
3. Grant A. Covic. John T. Boys. Michael l.G. Kissin. and Howard G. Lu : A Three-Phase Inductive Power Transfer System for Roadway-Powered Vehicles . IEEE Transactions on Industrial Electronics, VOL. 54, NO.6, 2007
4. Dr. Michael Steiner, Markus Klohr: Energy Storage System with UltraCaps on Board of Railway Vehicles. WCRR, Kbm 2007.
5. L. Latkovskis, V. Brazzis: Simulation of the Regenerative Energy Storage with Supercapacitors in Tatra T3A Type Trams. Tenth International Conference on Computer Modeling and Simulation.
6. Jisheng Hu, Yukun Zhao and Xiaojing Liu: The design of regeneration braking system in light rail vehicle using energy-storage Ultra-capacitor. IEEE Vehicle Power and Propulsion Conference (VPPC), 2008.
7. C. E. Zell and J. G. Bolger, "Development of an engineering prototype of a roadway powered electric transit vehicle system," in Proc. 32nd IEEE Vehicular Technology Conference, 1982, pp. 435- 438.
8. G. A. Covic, J . T. Boys, M. L. G. Kissin, and H. G. LU, ''A three-phase inductive power transfer system for roadway-powered vehicles," IEEE Trans. Ind. Electron., vol. 54, no. 6, pp. 3370-3378, Dec. 2007. https://doi.org/10.1109/TIE.2007.904025
9. www .icnirp.de/documents/ emfgdl . pdf, "International commission on non-ionizing radiation protection (ICNIRP) Guidelines," 1998.