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Microgrid for High-Surety Power: Architectures, Controls, Protection, and Demonstration  391


               4.  Lahyani, A., Venet, P., Guermazi, A., Troudi, A., Battery/supercapacitors combination in uninterruptible
                power supply (UPS), IEEE Transactions on Power Electronics, 28(4), 1509–1522, April 2013.
               5.  Nguyen, M.Y., Yoon, Y.T., A comparison of microgrid topologies considering both market operations and
                reliability, Electric Power Components and Systems, 42(6), 585–594, 2014.
               6.  Kwasinski, A., Power electronic interfaces for ultra available DC micro-grids, Power Electronics for
                Distributed Generation Systems (PEDG), 2010, pp. 58–65, Hefei, Anhui, People’s Republic of China
                June 2010.
               7.  Li, Z., Yuan, Y., Li, F., Evaluating the reliability of islanded microgrid in an emergency mode, 45th
                International Universities Power Engineering Conference (UPEC) 2010, pp. 1–5, Cardiff, U.K., August
                2010.
               8.  Burgio, A., Menniti, D., Pinnarelli, A., Sorrentino, N., Reliability studies of a PV-WG hybrid system
                in presence of multi-micro storage systems,  IEEE Bucharest PowerTech 2009, pp. 1–5, Bucharest,
                Romania, June 2009.
               9.  Salomonsson, D., Soder, L., Sannino, A., Protection of low-voltage DC microgrids, IEEE Transactions
                on Power Delivery, 24(3), 1045–1053, July 2009.
              10.  Li, H., Zhang, W., Xu, D., High-reliability long-backup-time super UPS with multiple energy sources,
                Energy Conversion Congress and Exposition (ECCE), 2013 IEEE, pp. 4926–4933, Denver, CO,
                September 15–19, 2013.
              11.  Zhu, Y., Xu, B., Chen, L., Dong, D., Lin, P., Xu, D., Multi-functional bidirectional AC/DC T-type 3-level
                converter for super UPS, IEEE PEAC 2014, pp. 390–395, Shanghai, China, November 5–8, 2014.
              12.  Zhou, J., Li, H., Zhou, Z., Xu, D., Control strategy of Li-ion battery module in super UPS, IEEE PEAC
                2014, pp. 1236–1241, Shanghai, China, November 5–8, 2014.
              13.  Li, H., Zhou, J., Liu, Z., Xu, D., Solid state DC circuit breaker for super uninterruptible power supply
                (UPS), IEEE PEAC 2014, pp. 1230–1235, Shanghai, China, November 5–8, 2014.
              14.  Li, X., Zhang, W., Li, H., Xie, R., Chen, M., Shen, G., Xu, D., Power management unit with its control for
                a three-phase fuel cell power system without large electrolytic capacitors, IEEE Transactions on Power
                Electronics, 26(12), 3766–3777, December 2011.
              15.  Choi, W., Enjeti, P., Howze, J.W., Fuel cell powered UPS systems: Design considerations, The 34th IEEE
                Annual Power Electronics Specialists Conference, pp. 385–390, Acapulco, Mexico, June 2003.
              16.  Saghafi, H., Karshenas, H.R., Power sharing improvement in standalone microgrids with decentralized
                control strategy, Electric Power Components and Systems, 42(12), 1278–1288, 2014.
              17.  Loh, P.C., Li, D., Chai, Y.K., Blaabjerg, F., Hybrid AC-DC microgrids with energy storages and progres-
                sive energy flow tuning, Power Electronics and Motion Control Conference (IPEMC), 2012, Vol. 1, pp.
                120–127, Harbin, Heilongjiang, People’s Republic of China, June 2012.
              18.  Chen, Y.-K., Wu, Y.-C., Song, C.-C., Chen, Y.-S., Design and implementation of energy management
                system with fuzzy control for DC microgrid systems, IEEE Transactions on Power Electronics, 28(4),
                1563–1570, April 2013.
              19.  Valenciaga, F., Puleston, P.F., Supervisor control for a stand-alone hybrid generation system using wind
                and photovoltaic energy, IEEE Transactions on Energy Conversion, 20(2), 398–405, June 2005.
              20.  Erdinc, O., Uzunoglu, M., Optimum design of hybrid renewable energy systems: Overview of different
                approaches, Renewable and Sustainable Energy Reviews, 16(3), 1412–1425, April 2012.
              21.  Dagdougui, H., Sacile, R., Decentralized control of the power flows in a network of smart microgrids
                modeled as a team of cooperative agents, IEEE Transactions on Control Systems Technology, 22(2),
                510–519, March 2014.
              22.  Colson, C.M., Nehrir, M.H., A review of challenges to real-time power management of microgrids,
                Power & Energy Society General Meeting, 2009 (PES ’09), pp. 1–8, Alberta, Canada, July 26–30, 2009.
              23.  Guerrero, J.M., Loh, P.C., Lee, T.-L., Chandorkar, M., Advanced control architectures for intelligent
                microgrids—Part II: Power quality, energy storage, and  AC/DC microgrids,  IEEE Transactions  on
                Industrial Electronics, 60(4), 1263–1270, April 2013.
              24.  Schmerda, R., Cuzner, R., Clark, R., Nowak, D., Bunzel, S., Shipboard solid-state protection: Overview
                and applications, IEEE Electrification Magazine, 1(1), 32–39, September 2013.
              25.  Meyer, C., Kowal, M., De Doncker, R.W., Circuit breaker concepts for future high-power DC-applications,
                Fourtieth IAS Annual Meeting. Conference Record of the 2005 Industry Applications Conference 2005,
                pp. 860–866, Hong Kong, China, 2005.
              26.  Krstic, S., Wellner, E.L., Bendre, A.R., Semenov, B., Circuit breaker technologies for advanced ship
                power systems,  IEEE Electric Ship  Technologies Symposium 2007, pp. 201–208, Arlington,  TX,
                2007.
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