Predictive Direct Power Control of Three-Phase Pulsewidth Modulation (PWM) Rectifier Using Space-Vector Modulation (SVM)

In this paper, we present a direct power control (DPC) of three-phase pulsewidth modulation rectifier with constant switching frequency using space-vector modulation (SVM). The developed DPC scheme is based on the predictive control strategy to achieve direct control of instantaneous active and reac...

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Published in	IEEE transactions on power electronics Vol. 25; no. 1; pp. 228 - 236
Main Authors	Bouafia, Abdelouahab, Gaubert, Jean-Paul, Krim, Fateh
Format	Journal Article
Language	English
Published	New York, NY IEEE 01.01.2010 Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Active control Applied sciences Circuit properties Computer Science Control algorithms Convertors Deadbeat control Diodes direct power control Electric power Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical machines Electronic circuits Electronic equipment and fabrication. Passive components, printed wiring boards, connectics Electronics Error correction Exact sciences and technology Frequencies Frequency modulation instantaneous powers Mathematical analysis Modulation Power control Predictive control pulsewidth modulation (PWM) rectifier Reactive power Reactive power control Rectifiers Regulation and control Signal convertors Space vector pulse width modulation space-vector modulation (SVM) Support vector machines Switching Switching frequency Tables (data) unity power factor Vector space Voltage control Performance evaluation Deadbeat control instantaneous powers Power converter Support vector machine Dead beat control space-vector modulation (SVM) direct power control unity power factor Reactive power control Reactive power Switching conditions Tracking error Power factor Predictive control Rectifier Direct digital control Phase modulation Control system Power electronics Algorithm Switching Power control Three phase circuit System simulation Pulse duration modulation Comparative study pulsewidth modulation (PWM) rectifier
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Abstract	In this paper, we present a direct power control (DPC) of three-phase pulsewidth modulation rectifier with constant switching frequency using space-vector modulation (SVM). The developed DPC scheme is based on the predictive control strategy to achieve direct control of instantaneous active and reactive power of the converter. For this purpose, at the beginning of each switching period, the required rectifier average voltage vector allowing the cancellation of active and reactive power tracking errors, at the end of the switching period, is calculated by means of predictive control algorithm in the sense of deadbeat control. The main advantages of the proposed control, compared to the works published in this subject, are that no need to use predefined switching table and voltage vector or virtual flux position, PI-based active and reactive power control loops are not necessary and constant-switching frequency. The proposed predictive direct power control was tested both in simulations and experimentally and compared with DPC using switching table. Results have proved excellent performance, and verify the validity of the proposed DPC scheme, which is much better than conventional DPC using switching table.
AbstractList	In this paper, we present a direct power control (DPC) of three-phase pulsewidth modulation rectifier with constant switching frequency using space-vector modulation (SVM). The developed DPC scheme is based on the predictive control strategy to achieve direct control of instantaneous active and reactive power of the converter. For this purpose, at the beginning of each switching period, the required rectifier average voltage vector allowing the cancellation of active and reactive power tracking errors, at the end of the switching period, is calculated by means of predictive control algorithm in the sense of deadbeat control. The main advantages of the proposed control, compared to the works published in this subject, are that no need to use predefined switching table and voltage vector or virtual flux position, PI-based active and reactive power control loops are not necessary and constant-switching frequency. The proposed predictive direct power control was tested both in simulations and experimentally and compared with DPC using switching table. Results have proved excellent performance, and verify the validity of the proposed DPC scheme, which is much better than conventional DPC using switching table. In this paper, we present a direct power control (DPC) of three-phase pulsewidth modulation rectifier with constant switching frequency using space-vector modulation (SVM). The developed DPC scheme is based on the predictive control strategy to achieve direct control of instantaneous active and reactive power of the converter. For this purpose, at the beginning of each switching period, the required rectifier average voltage vector allowing the cancellation of active and reactive power tracking errors, at the end of the switching period, is calculated by means of predictive control algorithm in the sense of deadbeat control. The main advantages of the proposed control, compared to the works published in this subject, are that no need to use predefined switching table and voltage vector or virtual flux position, PI-based active and reactive power control loops are not necessary and constant-switching frequency. The proposed predictive direct power control was tested both in simulations and experimentally and compared with DPC using switching table. Results have proved excellent performance, and verify the validity of the proposed DPC scheme, which is much better than conventional DPC using switching table. [PUBLICATION ABSTRACT]
Author	Gaubert, Jean-Paul Bouafia, Abdelouahab Krim, Fateh
Author_xml	– sequence: 1 givenname: Abdelouahab surname: Bouafia fullname: Bouafia, Abdelouahab email: bouafia_aou@yahoo.fr organization: Laboratory of Power Electronics and Industrial Electronics, Department of Electronics, University of Sétif, Sétif, Algeria – sequence: 2 givenname: Jean-Paul surname: Gaubert fullname: Gaubert, Jean-Paul email: jean.paul.gaubert@univ-poitiers.fr organization: Laboratory of Automatic and Industrial Data, Electrical Engineering and Control team, University of Poitiers, Poitiers, France – sequence: 3 givenname: Fateh surname: Krim fullname: Krim, Fateh email: krim_f@ieee.org organization: Laboratory of Power Electronics and Industrial Electronics, Department of Electronics, University of Sétif, Sétif, Algeria
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Keywords	Performance evaluation Deadbeat control instantaneous powers Power converter Support vector machine Dead beat control space-vector modulation (SVM) direct power control unity power factor Reactive power control Reactive power Switching conditions Tracking error Power factor Predictive control Rectifier Direct digital control Phase modulation Control system Power electronics Algorithm Switching Power control Three phase circuit System simulation Pulse duration modulation Comparative study pulsewidth modulation (PWM) rectifier
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Snippet	In this paper, we present a direct power control (DPC) of three-phase pulsewidth modulation rectifier with constant switching frequency using space-vector...
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SubjectTerms	Active control Applied sciences Circuit properties Computer Science Control algorithms Convertors Deadbeat control Diodes direct power control Electric power Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical machines Electronic circuits Electronic equipment and fabrication. Passive components, printed wiring boards, connectics Electronics Error correction Exact sciences and technology Frequencies Frequency modulation instantaneous powers Mathematical analysis Modulation Power control Predictive control pulsewidth modulation (PWM) rectifier Reactive power Reactive power control Rectifiers Regulation and control Signal convertors Space vector pulse width modulation space-vector modulation (SVM) Support vector machines Switching Switching frequency Tables (data) unity power factor Vector space Voltage control
Title	Predictive Direct Power Control of Three-Phase Pulsewidth Modulation (PWM) Rectifier Using Space-Vector Modulation (SVM)
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