DC Power Bibliography
Found 199 results
Author [ Title
] Type Year Filters: First Letter Of Last Name is M [Clear All Filters]
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2007. {Evaluating the limits of solar photovoltaics (PV) in electric power systems utilizing energy storage and other enabling technologies}. Energy Policy. 35:4424–4433.
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2007. Evaluating the limits of solar photovoltaics (PV) in electric power systems utilizing energy storage and other enabling technologies. Energy Policy. 35:4424–4433.
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2012. Evaluation and efficiency comparison of front end AC-DC plug-in hybrid charger topologies. IEEE Transactions on Smart Grid. 3:413–421.
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2012. {Evaluation and efficiency comparison of front end AC-DC plug-in hybrid charger topologies}. IEEE Transactions on Smart Grid. 3:413–421.
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2000. {Expanding Electricity Access to Remote Areas : Off-Grid Rural Electrification in Developing Countries}. World Power 2000.
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1999. {Feedback control of the input DC voltage sources of the seven levels NPC voltage source inverter}. Africon, 1999 IEEE. 2:691–696vol.2.
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1999. Feedback control of the input DC voltage sources of the seven levels NPC voltage source inverter. Africon, 1999 IEEE. 2:691–696vol.2.
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2016. {From Pittsburgh to India, racing to reinvent the electric grid Pt 1/2}. Pittsburgh Post-Gazette2.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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2013. Grid-interface bidirectional converter for residential DC distribution systems - Part one: High-density two-stage topology. IEEE Transactions on Power Electronics. 28
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2013. {Grid-interface bidirectional converter for residential DC distribution systems - Part one: High-density two-stage topology}. IEEE Transactions on Power Electronics. 28
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2014. {A Hybrid Microgrid With DC Connection at Back to Back Converters}. Smart Grid, IEEE Transactions on. 5:251–259.
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2014. A Hybrid Microgrid With DC Connection at Back to Back Converters. Smart Grid, IEEE Transactions on. 5:251–259.
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2001. {Improved immunity of current sensorless AC-DC converters for mains voltage disturbances}. Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE 32nd Annual. 2:748–753vol.2.