DC Power Bibliography

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A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

, Cvetkovic I, Boroyevich D, Zhang W, Wang R, Mattavelli P. 2013. Grid-interface bidirectional converter for residential DC distribution systems - Part one: High-density two-stage topology. IEEE Transactions on Power Electronics. 28

, Cvetkovic I, Boroyevich D, Zhang W, Wang R, Mattavelli P. 2013. {Grid-interface bidirectional converter for residential DC distribution systems - Part one: High-density two-stage topology}. IEEE Transactions on Power Electronics. 28

B

Baran ME, Mahajan NR. 2003. {DC distribution for industrial systems: opportunities and challenges}. Industry Applications, IEEE Transactions on. 39:1596–1601.

Baran ME, Mahajan NR. 2003. DC distribution for industrial systems: opportunities and challenges. Industry Applications, IEEE Transactions on. 39:1596–1601.

C

Cetin E, Yilanci A, Ozturk HK, Colak M, Kasikci I, Iplikci S. 2010. A micro-DC power distribution system for a residential application energized by photovoltaic–wind/fuel cell hybrid energy systems. Energy and Buildings. 42:1344–1352.

Cetin E, Yilanci A, Ozturk HK, Colak M, Kasikci I, Iplikci S. 2010. A micro-DC power distribution system for a residential application energized by photovoltaic-wind/fuel cell hybrid energy systems. Energy and Buildings. 42:1344–1352.

Cetin E, Yilanci A, Ozturk HK, Colak M, Kasikci I, Iplikci S. 2010. {A micro-DC power distribution system for a residential application energized by photovoltaic–wind/fuel cell hybrid energy systems}. Energy and Buildings. 42:1344–1352.

D

Deng Z-hui, Cchen W-ying. 2014. {住宅直流供电的可行性探讨 [The DC-HOME Micro-Grid Voltage Value Research]}. Mechanical {&} Electrical Engineering Technology. 8:70–72.

Deng Z-hui, Cchen W-ying. 2014. 住宅直流供电的可行性探讨 [The DC-HOME Micro-Grid Voltage Value Research]. Mechanical & Electrical Engineering Technology. 8:70–72.

H

Hesla E, Brusso B, Downey L, Giese B, Parise G, Valdes M, Clemente K, Cook C, Dionise T, Garland P et al.. 2013. DC task team report. Industrial & Commercial Power Systems Technical Conf (I&CPS), 2013 IEEE/IAS 49th. :1–9.

Hesla E, Brusso B, Downey L, Giese B, Parise G, Valdes M, Clemente K, Cook C, Dionise T, Garland P et al.. 2013. {DC task team report}. Industrial {&} Commercial Power Systems Technical Conf (I{&}CPS), 2013 IEEE/IAS 49th. :1–9.

K

Kakigano H, Hashimoto T, Matsumura Y, Kurotani T, Iwamoto W, Miura Y, Ise T, Momose T, Hayakawa H. 2010. Fundamental characteristics of laboratory scale model DC microgrid to exchange electric power from distributed generators installed in residential houses. Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi). 172:28–41.

Kakigano H, Nomura M, Ise T. 2010. Loss evaluation of dc distribution for residential houses compared with ac system. 2010 International Power Electronics Conference - ECCE Asia -, IPEC 2010. :480–486.

Kakigano H, Hashimoto T, Matsumura Y, Kurotani T, Iwamoto W, Miura Y, Ise T, Momose T, Hayakawa H. 2010. {Fundamental characteristics of laboratory scale model DC microgrid to exchange electric power from distributed generators installed in residential houses}. Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi). 172:28–41.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H. 2008. Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house. IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES. :1–8.

Kakigano H, Nomura M, Ise T. 2010. {Loss evaluation of dc distribution for residential houses compared with ac system}. 2010 International Power Electronics Conference - ECCE Asia -, IPEC 2010. :480–486.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H. 2008. Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house. IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES.

Kakigano H, Miura Y, Ise T. 2009. {Configuration and control of a DC microgrid for residential houses}. Transmission and Distribution Conference and Exhibition: Asia and Pacific, IEEE/PES. :1–4.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H. 2008. {Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house}. IEEE Power and Energy Society 2008 General Meeting: Conversion and Delivery of Electrical Energy in the 21st Century, PES. :1–8.

Kakigano H, Miura Y, Ise T. 2009. Configuration and control of a DC microgrid for residential houses. Transmission and Distribution Conference and Exposition: Asia and Pacific, T and D Asia 2009.

Kurohane K, Uehara A, Senjyu T, Yona A, Urasaki N, Funabashi T, Kim CH. 2011. {Control strategy for a distributed DC power system with renewable energy}. Renewable Energy. 36:42–49.

Kurohane K, Senjyu T, Uehara A, Yona A, Funabashi T, Kim C-H. 2010. A hybrid smart AC/DC power system. Industrial Electronics and Applications (ICIEA), 2010 the 5th IEEE Conference on. :764–769.

Kurohane K, Senjyu T, Uehara A, Yona A, Funabashi T, Kim C-H. 2010. {A hybrid smart AC/DC power system}. Industrial Electronics and Applications (ICIEA), 2010 the 5th IEEE Conference on. :764–769.

Kurohane K, Uehara A, Senjyu T, Yona A, Urasaki N, Funabashi T, Kim CH. 2011. Control strategy for a distributed DC power system with renewable energy. Renewable Energy. 36:42–49.

L

Li W, Mou X, Zhou Y, Marnay C. 2012. {On voltage standards for DC home microgrids energized by distributed sources}. Power Electronics and Motion Control Conference (IPEMC), 2012 7th International. 3:2282–2286.

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