DC Power Bibliography

Found 117 results
Author [ Title(Desc)] Type Year
Filters: Keyword is Voltage control  [Clear All Filters]
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Inaba H, Shima S, Ueda A, Ando T, Kurosawa T, Sakai Y.  1985.  A New Speed Control System for DC Motors Using GTO Converter and its Application to Elevators. Industry Applications, IEEE Transactions on. IA-21:391–397.
Inaba H, Shima S, Ueda A, Ando T, Kurosawa T, Sakai Y.  1985.  {A New Speed Control System for DC Motors Using GTO Converter and its Application to Elevators}. Industry Applications, IEEE Transactions on. IA-21:391–397.
Draou A, Sato Y, Kataoka T.  1995.  {A new state feedback based transient control of PWM AC to DC voltage type converters}. Power Electronics, IEEE Transactions on. 10:716–724.
Draou A, Sato Y, Kataoka T.  1995.  A new state feedback based transient control of PWM AC to DC voltage type converters. Power Electronics, IEEE Transactions on. 10:716–724.
Baumann M, Drofenik U, Kolar JW.  2000.  New wide input voltage range three-phase unity power factor rectifier formed by integration of a three-switch buck-derived front-end and a DC/DC boost converter output stage. Telecommunications Energy Conference, 2000. INTELEC. Twenty-second International. :461–470.
Baumann M, Drofenik U, Kolar JW.  2000.  {New wide input voltage range three-phase unity power factor rectifier formed by integration of a three-switch buck-derived front-end and a DC/DC boost converter output stage}. Telecommunications Energy Conference, 2000. INTELEC. Twenty-second International. :461–470.
Komurcugil H, Kukrer O.  1999.  A novel current-control method for three-phase PWM AC/DC voltage-source converters. Industrial Electronics, IEEE Transactions on. 46:544–553.
Komurcugil H, Kukrer O.  1999.  {A novel current-control method for three-phase PWM AC/DC voltage-source converters}. Industrial Electronics, IEEE Transactions on. 46:544–553.
Kolar JW, Ertl H, Zach FC.  1994.  {A novel three-phase single-switch discontinuous-mode AC-DC buck-boost converter with high-quality input current waveforms and isolated output}. Power Electronics, IEEE Transactions on. 9:160–172.
Kolar JW, Ertl H, Zach FC.  1994.  A novel three-phase single-switch discontinuous-mode AC-DC buck-boost converter with high-quality input current waveforms and isolated output. Power Electronics, IEEE Transactions on. 9:160–172.
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Lago J, Heldwein ML.  2011.  {Operation and Control-Oriented Modeling of a Power Converter for Current Balancing and Stability Improvement of DC Active Distribution Networks}. Power Electronics, IEEE Transactions on. 26:877–885.
Lago J, Heldwein ML.  2011.  Operation and Control-Oriented Modeling of a Power Converter for Current Balancing and Stability Improvement of DC Active Distribution Networks. Power Electronics, IEEE Transactions on. 26:877–885.
Marschalko R, Weinhold M.  1992.  Optimal control and appropriate pulse width modulation for a three-phase voltage DC-link PWM converter. Industry Applications Society Annual Meeting, 1992., Conference Record of the 1992 IEEE. :1042–1049vol.1.
Marschalko R, Weinhold M.  1992.  {Optimal control and appropriate pulse width modulation for a three-phase voltage DC-link PWM converter}. Industry Applications Society Annual Meeting, 1992., Conference Record of the 1992 IEEE. :1042–1049vol.1.
Zhang R, Lee FC.  1997.  {Optimum PWM pattern for a three-phase boost DCM PFC rectifier}. Proc. IEEE APEC'97. 2:895–901.
Zhang R, Lee FC.  1997.  Optimum PWM pattern for a three-phase boost DCM PFC rectifier. Proc. IEEE APEC’97. 2:895–901.
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Kinn MC.  2011.  {Proposed components for the design of a smart nano-grid for a domestic electrical system that operates at below 50V DC}. Innovative Smart Grid Technologies (ISGT Europe), 2011 2nd IEEE PES International Conference and Exhibition on. :1–7.
Kinn MC.  2011.  Proposed components for the design of a smart nano-grid for a domestic electrical system that operates at below 50V DC. Innovative Smart Grid Technologies (ISGT Europe), 2011 2nd IEEE PES International Conference and Exhibition on. :1–7.
Kataoka T, Mizumachi K, Miyairi S.  1979.  A Pulsewidth Controlled AC-to-DC Converter to Improve Power Factor and Waveform of AC Line Current. Industry Applications, IEEE Transactions on. IA-15:670–675.
Kataoka T, Mizumachi K, Miyairi S.  1979.  {A Pulsewidth Controlled AC-to-DC Converter to Improve Power Factor and Waveform of AC Line Current}. Industry Applications, IEEE Transactions on. IA-15:670–675.
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Shieh J.-J., Pan CT.  1998.  {ROM-based current controller for three-phase boost-type AC/DC converter}. Electric Power Applications, IEE Proceedings -. 145:544–552.
Shieh J.-J., Pan CT.  1998.  ROM-based current controller for three-phase boost-type AC/DC converter. Electric Power Applications, IEE Proceedings -. 145:544–552.
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Doradla SR, Nagamani C, Sanyal S.  1985.  A Sinusoidal Pulsewidth Modulated Three-Phase AC to DC Converter-Fed DC Motor Drive. Industry Applications, IEEE Transactions on. IA-21:1394–1408.
Doradla SR, Nagamani C, Sanyal S.  1985.  {A Sinusoidal Pulsewidth Modulated Three-Phase AC to DC Converter-Fed DC Motor Drive}. Industry Applications, IEEE Transactions on. IA-21:1394–1408.
Habetler TG.  1993.  A space vector-based rectifier regulator for AC/DC/AC converters. Power Electronics, IEEE Transactions on. 8:30–36.

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