DC Power Bibliography
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1991. {A Modified Parallel HVDC Converter for 24 Pulse Operation}. Power Engineering Review, IEEE. 11:50.
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1991. A Modified Parallel HVDC Converter for 24 Pulse Operation. Power Engineering Review, IEEE. 11:50.
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1993. Modelling and analysis of a three phase PWM AC-DC convertor without current sensor. Electric Power Applications, IEE Proceedings B. 140:201–208.
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1993. {Modelling and analysis of a three phase PWM AC-DC convertor without current sensor}. Electric Power Applications, IEE Proceedings B. 140:201–208.
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1995. A multilevel voltage-source converter system with balanced DC voltages. Power Electronics Specialists Conference, 1995. PESC '95 Record., 26th Annual IEEE. 2:1144–1150vol.2.
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1995. {A multilevel voltage-source converter system with balanced DC voltages}. Power Electronics Specialists Conference, 1995. PESC '95 Record., 26th Annual IEEE. 2:1144–1150vol.2.
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1998. Modeling and control of parallel three-phase PWM boost rectifiers in PEBB-based DC distributed power systems. Applied Power Electronics Conference and Exposition, 1998. APEC '98. Conference Proceedings 1998., Thirteenth Annual. 2:1126–1132vol.2.
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1998. {Modeling and control of parallel three-phase PWM boost rectifiers in PEBB-based DC distributed power systems}. Applied Power Electronics Conference and Exposition, 1998. APEC '98. Conference Proceedings 1998., Thirteenth Annual. 2:1126–1132vol.2.
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2000. A modified back-to-back HVDC system for 36-pulse operation. Power Delivery, IEEE Transactions on. 15:641–645.
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2000. {A modified back-to-back HVDC system for 36-pulse operation}. Power Delivery, IEEE Transactions on. 15:641–645.
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2001. {Multi-level, uni-directional AC-DC converters, a cost effective alternative to bi-directional converters}. Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE 32nd Annual. 4:1911–1916vol.4.
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2001. Multi-level, uni-directional AC-DC converters, a cost effective alternative to bi-directional converters. Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE 32nd Annual. 4:1911–1916vol.4.
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2004. A microcontroller-based stand-alone photovoltaic power system for residential appliances. Applied Energy. 78:419–431.
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2004. {A microcontroller-based stand-alone photovoltaic power system for residential appliances}. Applied Energy. 78:419–431.
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2005. A microgrid-based telecom power system using modular multiple-input DC-DC converters. INTELEC, International Telecommunications Energy Conference (Proceedings). :515–520.
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2005. {A microgrid-based telecom power system using modular multiple-input DC-DC converters}. INTELEC, International Telecommunications Energy Conference (Proceedings). :515–520.
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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.
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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.
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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.
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2011. {Modeling and analysis of DC distribution systems}. 8th International Conference on Power Electronics - ECCE Asia. :223–227.
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2011. Modeling and analysis of DC distribution systems. 8th International Conference on Power Electronics - ECCE Asia. :223–227.
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2012. {Middlesex College Installs Geothermal System - Energy Manager Today}. Energy Manager Today.
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2012. Model and Control of a DC Microgrid Made Up by Solar and Wind. 2012 International Conference on Computer Science and Electronics Engineering. 1:437–441.
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2012. {Model and Control of a DC Microgrid Made Up by Solar and Wind}. 2012 International Conference on Computer Science and Electronics Engineering. 1:437–441.
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2014. {Master-Planned Community Goes with Geothermal Heat Pump Closed-Loop System - Energy Manager Today}. Energy Manager Today.