机构地区:[1]Laboratory of Modeling Materials and Methods of the National Higher Polytechnic School, Douala University, Douala, Cameroon [2]Institute of Technology, Douala University, Douala, Cameroon [3]Higher Normal School of Technical Education, Douala University, Douala, Cameroon [4]Faculty of Engineering—ESIB, St-Joseph University, Beirut, Lebanon [5]Université de Toulouse, INPT, UPS, ENSEEIHT, Toulouse, France [6]CNRS, LAPLACE, F-31071, Toulouse, France [7]School of Electrical and Electronic, Engineering University, Beijing, China
出 处:《Energy and Power Engineering》2020年第10期578-602,共25页能源与动力工程(英文)
摘 要:In this article, we propose a topology of a TLC-HAPF power filter as a harmonic compensator for an optimization of the pollution control of electrical networks. This filter consists of an active part and a passive part in order to reduce or limit switching losses during current injection into networks thanks to its TLC module. This topology also provides solutions dynamic performance issues, resonance and lack of compensation capacity for imbalance cases. It also offers a greater range of compensation than conventional active models which do not offer as well as an intermediate circuit voltage in the order of 105 V to 109 V relatively lower than others models (600 v). A modulated hysteresis control of this topology is therefore also developed in this article and allows to obtain a network analysis on the three phases at three levels: source side, load side, and finally at the connection of the filter to the network, allowing to specify for these different positions the value of the current spectrum and its THD at this well-defined moment.In this article, we propose a topology of a TLC-HAPF power filter as a harmonic compensator for an optimization of the pollution control of electrical networks. This filter consists of an active part and a passive part in order to reduce or limit switching losses during current injection into networks thanks to its TLC module. This topology also provides solutions dynamic performance issues, resonance and lack of compensation capacity for imbalance cases. It also offers a greater range of compensation than conventional active models which do not offer as well as an intermediate circuit voltage in the order of 105 V to 109 V relatively lower than others models (600 v). A modulated hysteresis control of this topology is therefore also developed in this article and allows to obtain a network analysis on the three phases at three levels: source side, load side, and finally at the connection of the filter to the network, allowing to specify for these different positions the value of the current spectrum and its THD at this well-defined moment.
关 键 词:Hybrid Adaptive Active Filter Modulated Hysteresis THD Harmonic Pollution Control
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