具有最佳开关数量的n级级多电平变换器

2018 International Conference on Recent Trends in Electrical, Control and Communication (RTECC) Pub Date : 2018-03-01 DOI:10.1109/RTECC.2018.8625638

B. Mahato, Sudhanshu Mittal, P. K. Nayak

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引用次数: 6

摘要

在众多原因中，谐波含量的降低是选择多电平逆变器而不是传统的两电平变换器的主要原因。多电平逆变器的电流额定值或电压额定值成为特定开关的复合，因此逆变器的额定功率可以超过单个开关所能执行的极限。因此，为了以较少的元件数量提高电压水平，开发了一种简化的开关拓扑结构，并在MATLAB/Simulink环境中进行了测试。本文提出了一种适用于对称和非对称电压源分布的单相n电平逆变器。此外，在MATLAB中开发了9电平对称逆变器和21电平不对称逆变器的原型模型。然而，进一步将该拓扑与其他现有的简化交换机拓扑进行了比较，发现该拓扑在复杂性、经济成本和维护方面都更好。

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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N-Level Cascade Multilevel Converter with optimum number of switches

Among various reasons, reduction of harmonic content is the major reason for which multilevel inverters has been chosen over the classical two-level converter The current rating or the voltage rating of the multilevel inverter becomes a compound of specific switches and thus the power rating of the inverter can surpass the limit executed by the individual switches. Thus, in order to increase the voltage levels with the lesser number of components, a reduced switch topology is developed and is tested in MATLAB/Simulink environment.A single phase N-level inverter is proposed in this paper for both the symmetric and asymmetric voltage source distribution. In addition, prototype model of 9-level symmetrical inverter and 21-level asymmetrical inverter is developed in MATLAB. Nevertheless, the topology is further compared with other existed reduced switches topology and found to be better in terms of complexity, economic cost and maintenance.

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来源期刊

2018 International Conference on Recent Trends in Electrical, Control and Communication (RTECC)

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