DC Power Bibliography

Found 738 results
Author [ Title(Asc)] Type Year
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 
L
Komurcugil H, Kukrer O.  1998.  Lyapunov-based control for three-phase PWM AC/DC voltage-source converters. Power Electronics, IEEE Transactions on. 13:801–813.
Komurcugil H, Kukrer O.  1998.  {Lyapunov-based control for three-phase PWM AC/DC voltage-source converters}. Power Electronics, IEEE Transactions on. 13:801–813.
Salomonsson D, Sannino A.  2007.  Low-voltage DC distribution system for commercial power systems with sensitive electronic loads. IEEE Transactions on Power Delivery. 22:1620–1627.
Salomonsson D, Sannino A.  2007.  {Low-voltage DC distribution system for commercial power systems with sensitive electronic loads}. IEEE Transactions on Power Delivery. 22:1620–1627.
Kakigano H, Miura Y, Ise T.  2010.  Low-voltage bipolar-type dc microgrid for super high quality distribution. IEEE Transactions on Power Electronics. 25:3066–3075.
Kakigano H, Miura Y, Ise T.  2010.  Low-Voltage Bipolar-Type DC Microgrid for Super High Quality Distribution. IEEE Transactions on Power Electronics. 25:3066–3075.
Kakigano H, Miura Y, Ise T.  2010.  {Low-Voltage Bipolar-Type DC Microgrid for Super High Quality Distribution}. IEEE Transactions on Power Electronics. 25:3066–3075.
Wang J, Peng FZ, Anderson J, Joseph A, Buffenbarger R.  2004.  Low cost fuel cell converter system for residential power generation. IEEE Transactions on Power Electronics. 19:1315–1322.
Wang J, Peng FZ, Anderson J, Joseph A, Buffenbarger R.  2004.  {Low cost fuel cell converter system for residential power generation}. IEEE Transactions on Power Electronics. 19:1315–1322.
Herrmann U., Langer H.G., van der Broeck H..  1993.  Low cost DC to AC converter for photovoltaic power conversion in residential applications. Proceedings of IEEE Power Electronics Specialist Conference - PESC '93.
Herrmann U., Langer H.G., van der Broeck H..  1993.  {Low cost DC to AC converter for photovoltaic power conversion in residential applications}. Proceedings of IEEE Power Electronics Specialist Conference - PESC '93.
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, 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.
Norrell D.  2016.  {Lifestyles Reportłdots}In my travels spring 2016 | New Pittsburgh Courier}. New Pittsburgh Courier.
I
Wang B, Sechilariu M, Locment F.  2012.  Intelligent DC Microgrid With Smart Grid Communications: Control Strategy Consideration and Design. Smart Grid, IEEE Transactions on. 3:2148–2156.
Wang B, Sechilariu M, Locment F.  2012.  {Intelligent DC Microgrid With Smart Grid Communications: Control Strategy Consideration and Design}. Smart Grid, IEEE Transactions on. 3:2148–2156.
Eiholzer T, Olsen D, Hoffmann S, Sturm B, Wellig B.  2017.  {Integration of a solar thermal system in a medium-sized brewery using pinch analysis: Methodology and case study}. Applied Thermal Engineering. 113:1558–1568.
Blaabjerg F, Pedersen JK.  1993.  An integrated high power factor three-phase AC-DC-AC converter for AC-machines implemented in one microcontroller. Power Electronics Specialists Conference, 1993. PESC '93 Record., 24th Annual IEEE. :285–292.
Blaabjerg F, Pedersen JK.  1993.  {An integrated high power factor three-phase AC-DC-AC converter for AC-machines implemented in one microcontroller}. Power Electronics Specialists Conference, 1993. PESC '93 Record., 24th Annual IEEE. :285–292.
Roggia L, Schuch L, Baggio JEduardo, Rech C, Pinheiro JRenes.  2013.  Integrated full-bridge-forward dc-dc converter for a residential microgrid application. IEEE Transactions on Power Electronics. 28:1728–1740.
Roggia L, Schuch L, Baggio JEduardo, Rech C, Pinheiro JRenes.  2013.  {Integrated full-bridge-forward dc-dc converter for a residential microgrid application}. IEEE Transactions on Power Electronics. 28:1728–1740.
Johnson S.  2015.  {Inside (literally) wind turbines meant to work at the South Pole—and Mars | Ars Technica}. Ars Technica.

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