Abstract
In this paper, analysis and modelling of a single-phase cascaded full-bridge resonance inverter are considered. The control of proposed inverter by full-wave phase method at high frequency is implemented. In the first step, MATLAB/Simulink environments are used to simulate the model and show obtained results of waveforms. The second step is the experimental validation of simulation results by a realization of the inverter and generated signals. The Root-Mean-Squared voltage of a capacitor waveform between 3 and 7 kHz frequency with simulation and realization are presented, comparatively, for a comparison. The results obtained are satisfactory and show the efficiencies of analysis and the proposed model of the full-bridge resonance inverter.
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References
Taleb R, Benyoucef D, Helaimi M, Boudjemaa Z, Saidi H (2015) Cascaded H-bridge asymmetrical seven-level inverter using THIPWM for high power induction motor. Energy Procedia 74:844–853
Helaimi M, Benghanem M, Beldamani B (2012) An improved PIλ controller for resonant inverter induction heating systems under load and line variations. Stud Inform Control 21(4):423–430
Abdar HM, Chakraverty A, Moore DH, Murray JM, Loparo KA (2012) Design and implementation a specific grid-tie inverter for an agent-based microgrid. In: 2012 IEEE energytech conference
Feng W, Mattavelli P, Lee FC (2013) Pulsewidth locked loop (PWLL) for automatic resonant frequency tracking in LLC DC–DC transformer (LLC-DCX). IEEE Trans Power Electron 28(4):1862–1869
Kazimierczuk MK, Czarkowski D (2011) Resonant power converters. Wiley, New York
Toubal Maamar AE, Helaimi M, Taleb R, Chabni F (2018) Analysis and implementation of half-bridge series resonant inverter using Arduino. In: ICCEE’18 international conference on communications and electrical engineering, El-Oued, Algeria
Adel Z, Hamou AA, Abdellatif S (2018) Design of real-time PID tracking controller using Arduino Mega 2560 for a permanent magnet DC motor under real disturbances. In: 2018 international conference on electrical sciences and technologies in Maghreb (CISTEM), Algiers, pp 1–5
Fannakh M, Elhafyani ML, Zouggar S (2019) Hardware implementation of the fuzzy logic MPPT in an Arduino card using a Simulink support package for PV application. IET Renew Power Gener 13(3):510–518
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Toubal Maamar, A.E., Helaimi, M., Taleb, R. (2021). Analysis and Experimental Validation of Single Phase Series Resonance Inverter. In: Bououden, S., Chadli, M., Ziani, S., Zelinka, I. (eds) Proceedings of the 4th International Conference on Electrical Engineering and Control Applications. ICEECA 2019. Lecture Notes in Electrical Engineering, vol 682. Springer, Singapore. https://doi.org/10.1007/978-981-15-6403-1_14
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DOI: https://doi.org/10.1007/978-981-15-6403-1_14
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