Multicarrier PWM With DC-Link Ripple Feedforward Compensation for Multilevel Inverters

Like most power converter topologies, multilevel inverters are controlled with modulation techniques that are conceptually based on nonlinear waveform synthesis assuming constant dc-link voltages. However, real applications have load and supply dependent dc-links that usually present important low f...

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Veröffentlicht in:	IEEE transactions on power electronics 2008-01, Vol.23 (1), p.52-59
Hauptverfasser:	Kouro, S., Lezana, P., Angulo, M., Rodriguez, J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Capacitors Carriers Chirp modulation Circuit properties Circuit topology DC-link ripple Direct current networks Electric currents Electric potential Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical power engineering Electronic circuits Electronics Exact sciences and technology Feedforward Frequency Harmonic analysis Inverters Low frequencies Low voltage Miscellaneous Modulation multicarrier PWM multilevel inverters Power electronics, power supplies Power harmonic filters Power networks and lines Pulse duration modulation Pulse width modulation Pulse width modulation inverters Rectifiers Ripples Signal convertors Simulation Voltage control Waveform analysis
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creator	Kouro, S. Lezana, P. Angulo, M. Rodriguez, J.
description	Like most power converter topologies, multilevel inverters are controlled with modulation techniques that are conceptually based on nonlinear waveform synthesis assuming constant dc-link voltages. However, real applications have load and supply dependent dc-links that usually present important low frequency ripple, which is also modulated and transmitted to the load, generating undesirable low frequency voltage and current distortion. This paper introduces a simple but effective dc-link ripple feedforward strategy into traditional carrier-based modulation techniques. The dc-link ripples are measured and used to modify the carriers or the reference directly in the modulation stage. Simulation and experimental results show the accuracy of the proposed method, eliminating low order harmonics in the load current.
doi_str_mv	10.1109/TPEL.2007.911834
format	Article
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However, real applications have load and supply dependent dc-links that usually present important low frequency ripple, which is also modulated and transmitted to the load, generating undesirable low frequency voltage and current distortion. This paper introduces a simple but effective dc-link ripple feedforward strategy into traditional carrier-based modulation techniques. The dc-link ripples are measured and used to modify the carriers or the reference directly in the modulation stage. 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Electrical power engineering ; Electrical power engineering ; Electronic circuits ; Electronics ; Exact sciences and technology ; Feedforward ; Frequency ; Harmonic analysis ; Inverters ; Low frequencies ; Low voltage ; Miscellaneous ; Modulation ; multicarrier PWM ; multilevel inverters ; Power electronics, power supplies ; Power harmonic filters ; Power networks and lines ; Pulse duration modulation ; Pulse width modulation ; Pulse width modulation inverters ; Rectifiers ; Ripples ; Signal convertors ; Simulation ; Voltage control ; Waveform analysis</subject><ispartof>IEEE transactions on power electronics, 2008-01, Vol.23 (1), p.52-59</ispartof><rights>2008 INIST-CNRS</rights><rights>Copyright Institute of Electrical and Electronics Engineers, Inc. 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However, real applications have load and supply dependent dc-links that usually present important low frequency ripple, which is also modulated and transmitted to the load, generating undesirable low frequency voltage and current distortion. This paper introduces a simple but effective dc-link ripple feedforward strategy into traditional carrier-based modulation techniques. The dc-link ripples are measured and used to modify the carriers or the reference directly in the modulation stage. Simulation and experimental results show the accuracy of the proposed method, eliminating low order harmonics in the load current.</description><subject>Applied sciences</subject><subject>Capacitors</subject><subject>Carriers</subject><subject>Chirp modulation</subject><subject>Circuit properties</subject><subject>Circuit topology</subject><subject>DC-link ripple</subject><subject>Direct current networks</subject><subject>Electric currents</subject><subject>Electric potential</subject><subject>Electric, optical and optoelectronic circuits</subject><subject>Electrical engineering. 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However, real applications have load and supply dependent dc-links that usually present important low frequency ripple, which is also modulated and transmitted to the load, generating undesirable low frequency voltage and current distortion. This paper introduces a simple but effective dc-link ripple feedforward strategy into traditional carrier-based modulation techniques. The dc-link ripples are measured and used to modify the carriers or the reference directly in the modulation stage. Simulation and experimental results show the accuracy of the proposed method, eliminating low order harmonics in the load current.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TPEL.2007.911834</doi><tpages>8</tpages></addata></record>
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subjects	Applied sciences Capacitors Carriers Chirp modulation Circuit properties Circuit topology DC-link ripple Direct current networks Electric currents Electric potential Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical power engineering Electronic circuits Electronics Exact sciences and technology Feedforward Frequency Harmonic analysis Inverters Low frequencies Low voltage Miscellaneous Modulation multicarrier PWM multilevel inverters Power electronics, power supplies Power harmonic filters Power networks and lines Pulse duration modulation Pulse width modulation Pulse width modulation inverters Rectifiers Ripples Signal convertors Simulation Voltage control Waveform analysis
title	Multicarrier PWM With DC-Link Ripple Feedforward Compensation for Multilevel Inverters
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