DC Power Bibliography

Found 146 results
Author [ Title(Desc)] Type Year
Filters: First Letter Of Last Name is L  [Clear All Filters]
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 
1
Lee J, Jo J, Choi S, Han SB.  2006.  {A 10-kW SOFC low-voltage battery hybrid power conditioning system for residential use}. IEEE Transactions on Energy Conversion. 21:575–585.
Lee J, Jo J, Choi S, Han SB.  2006.  A 10-kW SOFC low-voltage battery hybrid power conditioning system for residential use. IEEE Transactions on Energy Conversion. 21:575–585.
A
Starke MR, Li F, Tolbert LM, Ozpineci B.  2008.  AC vs. DC distribution: Maximum transfer capability. Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE. :1–6.
Starke MR, Li F, Tolbert LM, Ozpineci B.  2008.  {AC vs. DC distribution: Maximum transfer capability}. Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE. :1–6.
Justo JJohn, Mwasilu F, Lee J, Jung J-W.  2013.  {AC-microgrids versus DC-microgrids with distributed energy resources: A review}. Renewable and Sustainable Energy Reviews. 24:387–405.
Justo JJohn, Mwasilu F, Lee J, Jung J-W.  2013.  AC-microgrids versus DC-microgrids with distributed energy resources: A review. Renewable and Sustainable Energy Reviews. 24:387–405.
Justo JJohn, Mwasilu F, Lee J, Jung JWoo.  2013.  AC-microgrids versus DC-microgrids with distributed energy resources: A review. Renewable and Sustainable Energy Reviews. 24:387–405.
D
Pang H, Lo E, Pong B.  2006.  {DC electrical distribution systems in buildings}. Power Electronics Systems and Applications, 2006. ICPESA'06. 2nd International Conference on. :115–119.
Pang H, Lo E, Pong B.  2006.  DC electrical distribution systems in buildings. Power Electronics Systems and Applications, 2006. ICPESA'06. 2nd International Conference on. :115–119.
Locment F, Sechilariu M.  2014.  {DC microgrid for future electric vehicle charging station designed by Energetic Macroscopic Representation and Maximum Control Structure}. Energy Conference (ENERGYCON), 2014 IEEE International. :1454–1460.
Locment F, Sechilariu M.  2014.  DC microgrid for future electric vehicle charging station designed by Energetic Macroscopic Representation and Maximum Control Structure. Energy Conference (ENERGYCON), 2014 IEEE International. :1454–1460.
Live E.  2013.  DC motors deliver higher performance and efficiency. Engineer Live.
Live E.  2013.  {DC motors deliver higher performance and efficiency}. Engineer Live.
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.
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.
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.

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