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A flying-capacitor-based multilevel shunt active power filter for power quality improvement under severe operating conditions

A Shunt Active Power Filter (SAPF) based on the multilevel flying-capacitor topology is used for a three-phase four wire power distribution networks. The compensator consists of three active legs, each having three cells, and a neutral connection at the mid-point of a DC capacitor leg. A new control...

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Main Authors: Hanna Nohra, A. F., Kanaan, H. Y., Fadel, M.
Format: Conference Proceeding
Language:English
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creator Hanna Nohra, A. F.
Kanaan, H. Y.
Fadel, M.
description A Shunt Active Power Filter (SAPF) based on the multilevel flying-capacitor topology is used for a three-phase four wire power distribution networks. The compensator consists of three active legs, each having three cells, and a neutral connection at the mid-point of a DC capacitor leg. A new control method for adjusting the current zero sequence is presented in this work. Combined with the known instantaneous reactive power theory, this proposed control strategy is applied to the active filter the inverter to achieve a perfect compensation for harmonics and reactive power when the load currents are non-sinusoidal and severely unbalanced.
doi_str_mv 10.1109/REDEC.2014.7038555
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Active filters
Control systems
Flying-capacitor-based inverter
Harmonic analysis
harmonics
instantaneous reactive power control
Power harmonic filters
Reactive power
Renewable energy sources
shunt active power filter
title A flying-capacitor-based multilevel shunt active power filter for power quality improvement under severe operating conditions
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