References
- M. Shimada, R. Oishi, D. Araki, Y. Nakamura (2010) Energy storage system for effective use of regenerative energy in electrified railways, Hitach Review, 59(1), pp. 33-38.
- G. Ning, B. Haran, B. N. Popov (2003) Capacity fade study of lithium-ion batteries cycled at high discharge rates, Journal of Power Sources, 117, pp. 160-169. https://doi.org/10.1016/S0378-7753(03)00029-6
- W. Li, G. Joos (2008) A power electronic interface for a battery supercapacitor hybrid energy storage system for wind applications, IEEE Power Electronics Specialists Conference, Island of Rhodes, Greece, pp.1762-1768.
- M.E. Glavin, P.K.W. Chan, S. Armstrong, W. G. Hurley (2008) A stand-alone photovoltaic supercapacitor battery hybrid energy storage system, EPE-PEMC Power Electronics and Motion Control Conference, Poznan, Poland, pp.1688-1695.
- Y. Zhang, Z. Jiang, X. Yu (2008) Control strategies for nattery/supercapacitor hybrid energy storage systems, IEEE Energy 2030 Conference, Atlanta, USA, pp. 1-6.
- X. Hu, K. J. Tseng, M. Srinivasan (2011) Optimization of battery energy storage system with super-capacitor for renewable energy applications, Proceeding of 8th Int. Conference on Power Electronics, Jeju, Korea, pp. 1552-1557.
- S.K. Chung (2000) A phase tracking system for three phase utility interface inverters, IEEE Trans. on Power Electronics, 15(3), pp. 431-438. https://doi.org/10.1109/63.844502
- H. Akagi, Y. Kanazawa, A. Nabae (1984) Instantaneous reactive power conpensators comprising switching devices without energy storage components, IEEE Trans. Ind. Applications, 20(3), pp. 625-630.
- J. Rodriguez, J. Pontt, C.A. Silva, P. Correa (2007) Predictive current control of a voltage source inverter, IEEE Trans. on Industrial Electronics, 54(1), pp. 495-503. https://doi.org/10.1109/TIE.2006.888802