Pulse Pattern-Modulated Strategy for Harmonic Current Components Reduction in Three-Phase AC-DC Converters
MetadataShow full item record
© 2016 IEEE. Generated harmonic current as a consequence of employing power electronics converter is known as an important power quality issue in distribution networks. From industry point of view, complying with international standards is mandatory; however, cost and efficiency are two other important features, which need to be considered in order to be competitive in the market. Therefore, having a flexibility to meet various requirements imposed by the standard recommendations or costumer needs is at most desirable. This makes the generated harmonic current mitigation a challenging task especially with three-phase diode-bridge rectifier, which is still preferred in many power electronic systems. This paper addresses a novel current modulation strategy using a single-switch boost three-phase diode-bridge rectifier. The proposed method can selectively mitigate current harmonics, which makes it suitable for different applications. The obtained results at experimental and simulation levels verify and confirm the robustness of the proposed approach.
Showing items related by title, author, creator and subject.
Maticevic, Stjepan (2011)This work has focused on understanding the nature and impact of non-linear loads on isolated industrial power systems. The work was carried out over a period of 8 years on various industrial power systems: off-shore oil ...
Ladjavardi, Marjan (2008)This thesis investigates the impact of harmonics as a power quality issue on the dynamic behaviour of the power systems. The effectiveness of the power system stabilizers in distorted conditions is also investigated. This ...
Online coordination of plug-in electric vehicles considering grid congestion and smart grid power qualityDeilami, Sara (2018)© 2018 MDPI AG. All rights reserved. This paper first introduces the impacts of battery charger and nonlinear load harmonics on smart grids considering random plug-in of electric vehicles (PEVs) without any coordination. ...