Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/2029
Title: PI and Fuzzy Logic Controller based 3-phase 4-Wire Interleaved Buck Active Power Filter for Mitigation of Harmonics with the Id-Iq Control Strategy
Authors: Patel, R
Panda, A K
Mikkili, S
Issue Date: Nov-2013
Citation: 39th Annual Conference of the IEEE Industrial Electronics Society, November 10-13 2013, Vienna, Austria
Abstract: The “shoot-through” failure glossary define as the rush of current that occurs while both the devices are ON at the same time of a particular limb, which is one of the most perilous failure modes encountered in conventional inverter circuits of the active power filter (APF). Shoot-through results in reduced efficiency, typical ringing, increased temperature in power switches and higher Electromagnetic Interference (EMI). However, these conventional inverters suffer from “shootthrough”. To avert the “shoot-through”, dead time control could be added but it deteriorates the harmonic compensation level. A novel 3-phase 4-wire active power filter based on interleaved buck (IB) DC-to-AC converters with the instantaneous active and reactive current component (id-iq) control strategy is proposed here to mitigate the harmonics having PI and fuzzy logic (FLC) controllers. This interleaved buck (IB) DC-to-AC converter is augmented conventional phase leg configuration and is innately immune to “shoot-through” phenomenon, with the elimination of special protection features required in conventional inverter circuits. Here in this paper, a comparison has been made on the compensation capabilities of the 3-phase IB-APF with the PI and fuzzy logic controller (FLC) used by id-iq control strategy under different supply voltage condition.
Description: Copyright belongs to proceeding publisher
URI: http://hdl.handle.net/2080/2029
Appears in Collections:Conference Papers

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