A new triple voltage gain seven level switched capacitor-based inverter with minimum voltage stress

International Journal of Emerging Electric Power Systems Pub Date : 2024-05-14 DOI:10.1515/ijeeps-2023-0300

Suresh Katta, N. Jayaram, S. V. K. Pulavarthi, J. Rajesh

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Abstract

This paper presents, a new seven level triple voltage gain inverter topology is proposed based on switched capacitor technique. The proposed inverter topology has minimum voltage stresses on the switches and balanced capacitor voltages. This paper briefs the operation of proposed topology, voltage stress analysis, capacitor sizing and generation gate signals for the switches. In addition, proposed topology is modeled in industrial based software PLECS with practical switches to study thermal behavior and efficiency analysis. Further, the proposed inverter topology is compared with competitive topologies in the recent literature. The proposed topology has merits like minimum total standing voltage, switching redundancy and inherent polarity generation. Furthermore, MATLAB based simulations and experimental analysis is done to validate the superior performance the proposed topology. The experimental results for the proposed seven-level inverter are presented and discussed in brief by considering different types of loads, amplitude modulation variations and frequency variations.

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电压应力最小的新型三倍电压增益七电平开关电容式逆变器

本文提出了一种基于开关电容器技术的新型七电平三电压增益逆变器拓扑结构。所提出的逆变器拓扑对开关的电压应力最小，电容器电压平衡。本文简要介绍了所提拓扑结构的运行、电压应力分析、电容器选型以及开关的栅极信号生成。此外，还利用基于工业软件 PLECS 的实用开关对所提出的拓扑结构进行了建模，以研究其热行为和效率分析。此外，还将拟议的逆变器拓扑与近期文献中具有竞争力的拓扑进行了比较。所提出的拓扑结构具有最小总驻留电压、开关冗余和固有极性生成等优点。此外，还进行了基于 MATLAB 的仿真和实验分析，以验证所提拓扑结构的优越性能。通过考虑不同类型的负载、振幅调制变化和频率变化，对所提出的七电平逆变器的实验结果进行了简要介绍和讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Emerging Electric Power Systems

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