Design and analysis of a new multi-level inverter topology with a reduced number of switches and controlled by PDPWM technique

IF 0.8 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Electrical and Computer Engineering Systems Pub Date : 2023-06-05 DOI:10.32985/ijeces.14.5.11

Fatima Chakir, A. El Magri, R. Lajouad, M. Kissaoui, Mostafa Chakir, O. Bouattane

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Abstract

With their many advantages, including low power dissipation in power switches, low harmonic content, and reduced electromagnetic interference (EMI) from the inverter, multilevel converter (MLI) topologies are becoming more and more in demand in high and medium power applications. This paper introduces a novel multi-level symmetric inverter topology with adopted control. The objectives of this article are to architecturally define the positions of the various switches, to choose the right switches and to propose an inverter control strategy that will eliminate harmonics while producing the ideal output voltage/current. By using fewer switching elements, fewer voltage sources, and switches with a total harmonic content (THD) which reduces losses and a drop in minimum voltage (Vstrssj), the proposed topology is more efficient than conventional inverters with the same number of levels. The new topology will be demonstrated using a seven-level single-phase inverter. For various modulation indices, MATLAB-SIMULINK is used to study and validate the topology.

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一种新型多电平逆变器拓扑结构的设计与分析

多电平变换器（MLI）拓扑结构具有许多优点，包括功率开关的低功耗、低谐波含量和减少逆变器的电磁干扰（EMI），在高功率和中功率应用中越来越受欢迎。本文介绍了一种采用控制的新型多电平对称逆变器拓扑结构。本文的目的是从架构上定义各种开关的位置，选择合适的开关，并提出一种逆变器控制策略，该策略将消除谐波，同时产生理想的输出电压/电流。通过使用更少的开关元件、更少的电压源和具有总谐波含量（THD）的开关（其减少了损耗和最小电压下降（Vstrssj）），所提出的拓扑结构比具有相同电平数量的传统逆变器更高效。新拓扑结构将使用七电平单相逆变器进行演示。对于各种调制指数，使用MATLAB-SIMULINK对拓扑结构进行了研究和验证。

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来源期刊

International Journal of Electrical and Computer Engineering Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.20

自引率

11.80%

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期刊介绍： The International Journal of Electrical and Computer Engineering Systems publishes original research in the form of full papers, case studies, reviews and surveys. It covers theory and application of electrical and computer engineering, synergy of computer systems and computational methods with electrical and electronic systems, as well as interdisciplinary research. Power systems Renewable electricity production Power electronics Electrical drives Industrial electronics Communication systems Advanced modulation techniques RFID devices and systems Signal and data processing Image processing Multimedia systems Microelectronics Instrumentation and measurement Control systems Robotics Modeling and simulation Modern computer architectures Computer networks Embedded systems High-performance computing Engineering education Parallel and distributed computer systems Human-computer systems Intelligent systems Multi-agent and holonic systems Real-time systems Software engineering Internet and web applications and systems Applications of computer systems in engineering and related disciplines Mathematical models of engineering systems Engineering management.

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