Parallel Active Filtering based on a three –phase multicell converter

Volume 4, Issue 3, June 2019     |     PP. 48-62      |     PDF (1294 K)    |     Pub. Date: July 15, 2019
DOI:    260 Downloads     6918 Views  

Author(s)

Emmanuel Yofo, Department of Physics, Higher Teacher Training’s College of Bertoua, The University of Ngaoundéré, Cameroun; Department of Physics, Faculty of Science, The University of Ngaoundéré, Cameroun
Philippe Djondiné, Department of Physics, Faculty of Science, The University of Ngaoundéré, Cameroun

Abstract
The energy issues related to the quality of the distribution of electrical energy require the development of active filtering devices of electrical networks. By injecting a current in phase opposition with the harmonics of the load (disruptive currents), the active power filter makes it possible to improve the quality of the electrical energy sampling and thus answers this problem. The aim of this article is based on the use of a three – phase multicellular converter with three switching cells per phase, to perform this function. The four voltage levels of this inverter provide the frequency benefits we will use. We start by modeling the filter in the sense of the instantaneous values and then we present its triangulo-sinusoidal control strategy. Subsequently we will develop the steps of the filter control. We finish by presenting the results of simulations of the harmonic current compensation.

Keywords
Active power filter, flying capacitor inverter, harmonics, Power quality

Cite this paper
Emmanuel Yofo, Philippe Djondiné, Parallel Active Filtering based on a three –phase multicell converter , SCIREA Journal of Electrical Engineering. Volume 4, Issue 3, June 2019 | PP. 48-62.

References

[ 1 ] C. Hochgraf, R. Lasseter, D. Divan, and T. A. Lipo, Comparison of multilevel inverters for static var compensation, IEEE-IAS Annu. Meeting, vol. 3, 1995, pp. 2557 – 2564.
[ 2 ] G. Choe and M. Park, a new injection method for ac harmonic elimination by active power filter, IEEE Transactions on Industry Applications, vol. 35, n. 1, february 1988, pp. 141-147.
[ 3 ] Lili, D. Czarkowski, Y. Liu, P. Pillay. Multilevel selective harmonic elimination PWM technique in series connected voltage inverters, IEEE Transactions on Industry Applications, vol. I-36, n. 1 pp. 160-169, january/February 2000.
[ 4 ] S. Saadate, Thyristor GTO de forte puissance interrupteur entièrement commandable destiné à la traction électrique / Analyse et traitement des perturbations induites dans le réseau électrique par les convertisseurs statiques AC/DC, Habilitation à diriger des recherches, INP Lorraine, Nancy, 12 Janv. 1995.
[ 5 ] C. Lott, Filtrage actif parallèle des harmoniques de courant sur des réseaux industriels Etude théorique et réalisation d'une maquette à GTO, PhD. Dissertation, I'INP Lorraine, Nancy, 1995.
[ 6 ] H. Akagi, Y. Kanazawa and A. Nabae, Instantaneous reactive power compensators comprising switching devices without energy storage components, IEEE trans. on Ind. Appl. Vol. 20, pp.: 625-630, 1984.
[ 7 ] A. Pigazo, V. M. Moreno, E. J. Estebanez, A Recursive Park Transformation to Improve the Performance of Synchronous Reference Frame Controllers in Shunt Active Power Filters. IEEE Trans on Power Electronics, vol. 24, n. 9, 2009.
[ 8 ] M. Malinowkski, K. Gopakumar, J. Rodriguez, M. A. Perez, A Survey on Cascaded Multilevel Inverters. IEEE Trans on Industrial Electronics, vol. 57, n. 7, 2010.
[ 9 ] P. Karuppanan, K. K. Mahapatra, Shunt Active Power Line Conditioners for Compensating Harmonics and Reactive Power, International Conference on Environment and Electrical Engineering (EEEIC), pp.: 277-280, 2010.
[ 10 ] V. Dargahi, M. Abarzadeh, M. Salehifar, and A. Shoulaie, Voltage compensation by a modified mixed cascade flying capacitor multicell inverter, 1st Power Quality Conference (PQC), pp. 1–5, Tehran, 2010.
[ 11 ] N. Senthilnathan, a novel control strategy for line harmonic reduction using three phase shunt active filter with balanced and unbalanced supply, European Journal of Scientific Research, vol. 67, n. 3, pp.456-466, 2012.
[ 12 ] A. Morsli, A. Tlemçani, M. S. Boucherit, N. Ould, Cherchali, Dépollution des réseaux électrique Bt utilisant un filtre actif parallèle à deux niveaux contrôlé par l’algorithme P-Q, conférence Nationale, Tizi-Ouzou, Algeria, 2011
[ 13 ] A. Yousfi, T. Allaoui, A. Chaker, Depollution of Low Voltage Electrical Networks using Parallel Active Filter five levels Controlled by the algorithm P-Q, ICMS’2014
[ 14 ] A. Morsli, N. Ould Cherchali, A. Tlemçani, M. S. Boucherit, Application the P-Q Algorithm Method and Fuzzy Logic Controller by using a Multilevel Inverter as an Active Power Filter shunt, the international conference on electronics & oil: from theory to applications, 05-06 / Mars /2013 , Ouargla.
[ 15 ] Raouf Belrechid, Mouloud Aissani, Filtrage des harmoniques via un poste à souder, IC-WNDT-MI’14, CSC, Annaba,09-11 novembre 2014
[ 16 ] R. Rajeswari, power quality improvement of novel pwm based 15 level inverter for modified unified power quality conditioner (upqc), international journal of mc square scientific research vol.7, n.1 nov 2015
[ 17 ] C. Mahamat, M. Petit, R. Marouani, C. Gautier, A. Mami, and F. Costa Decoupled PQ control Applied to a Multicellular Parallel Inverter for Grid-connected Photovoltaic System. IEEE Conferences. 17th International Conference on Sciences and Techniques of Automatic Control and Computer Engineering (STA), Sousse, Tunisia. 2017