References
- V.H.M. Quezada, J.R. Abbad, T.G.S Roman, "Assessment of energy distribution losses for increasing penetration of distributed generation," IEEE Trans. Power Syst, Vol. 21, pp. 533-540, May 2006. https://doi.org/10.1109/TPWRS.2006.873115
- J. Benner, L. Kazmerski, "Photovoltaics gaining greater visibility," IEEE Spectr, Vol. 36, No. 9, pp 34-42, Sept. 1999.
- R. Wolk, "Fuel cells for home and hospitals," IEEE Spectr, Vol. 36, No. 5, pp. 45-52, May 1999. https://doi.org/10.1109/6.763203
- L. Weixing. M. Xiaoming, Z. Yuebin, C. Marnay, "On Voltage standards for DC Home Microgrids Energized by Distributed Sources," Power Electronics and Motion Control Conf., Vol. 3, pp. 2282-2286, June 2012.
- Engin Cetina, Ahmet Yilancia, H. Kemal Ozturka, Metin Colakb, Ismail Kasikcic, Serdar Iplikci, "A micro-DC power distribution system for a residential application energized by photovoltaic-wind/fuel cell hybrid energy systems," Energy and Buildings, Vol. 42, pp. 1344-1352, Aug. 2010. https://doi.org/10.1016/j.enbuild.2010.03.003
- F. Dastgeer, A. Kalam, "Efficiency comparison of DC and AC distribution systems for distributed generation," in 2009 Power Engineering Conf., pp. 27-30, Sept. 2009.
- K.H. Lee, K.Y. Koo, "Demonstration case of the Green Home and DC power distribution," The korea institute of electric engineers, Vol. 7, Sept. 2010.
- L. Weixing, M. Xiaoming, Z. Yuebin, C. Marnay, "On voltage standards for DC home microgrids energized by distributed sources," in 2012 7th Int. Power Electron. and Motion Control Conf., pp. 2282-2286, 2012.
- D.J. Hammerstrom, "AC Versus DC Distribution SystemsDid We Get it Right?," Power Engineering Society General Meeting, pp. 1-5, June 2007.
- M.R. Starke, L.M. Tolbert, B. Ozpineci, "AC vs. DC distribution: A loss comparison," in 2009 T&D. IEEE/PES Transmission and Distribution Conf. and Expo., pp. 1-7, April 2008.
- K. Engelen, E. Shun, P. Vermeyen, I. Pardon, R. D''hulst, J. Driesen, R.Belmans, "The feasibility of smal-scale residential dc distribution systems," IEEE Inudustrial Electron. Conf., pp. 2618-2632, Nov. 2006.
- D. Nilsson, A. Sannino, "Efficiency analysis of lowand mediumvoltage dc distribution systems," Power Engineering Society General Meeting, Vol. 2, pp. 2315-2321, Jun. 2004.
- A. Sannino, G.Postiglione, M. H. J.Bollen, "Feasibility of a dc network for commercial facilities," IEEE Transactions on Industry Applications, Vol. 39, No. 5, pp. 1499-1507, Oct. 2003. https://doi.org/10.1109/TIA.2003.816517
- Pratt, A., Kumar, P. "Evaluation of 400V Dc Distribution in Telco and Data Centers to Improve Energy Efficiency," in 2007 Intelec., pp. 33-39, 2007.
- NNT Facilities Inc., "Development of 400VDC Power Distribution System and 400VDC Output Rectifier," 2009.
- G. Byeon, H. Lee, "A research on the characteristics of fault current of DC distribution system and AC distribution system," in 2011 IEEE 8th Int. Power Electron. and ECCE Asia (ICPE & ECCE) Conf. on, pp. 543-550, 2011.
- Y.J. Lee, D.H. Han, "DC Characteristics Analysis of Various AC loads for Hybrid Distribution," The transactions of korea institute of power electronics, Vol. 3, 2010.
- Y.S. Jung, G.J. Yu, "A New MPPT Algorithm based on P&O Algorithm," The transactions of korea institute of power electronics, Vol. 2, 2003.
- G.H. Choe, D Bayasgalan, Y.J. Lee, D.H. Han, "Characteristics Analysis of RPV and AFD for Anti-Islanding in Active Method," The transactions of korea institute of power electronics, Vol. 14, 2009.