开关数少的多电平逆变器新拓扑

International Journal of Innovative Research in Computer Science and Technology Pub Date : 2021-09-28 DOI:10.55524/ijircst.2021.9.5.27

Thottempudi Prasanth, Garikapati Siva Sankar, Bathula Swarna Babu, Dupati Gopi, Chandana Gowtham Sai, G. Murthy, K. S. Kumar, K. Naresh, S. Kavitha

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引用次数: 0

摘要

本文提出了一种新的多层逆变器拓扑结构。在这种创新的拓扑结构中使用了级联特性。除了在级联H桥中看到的孤立直流电源外。箝位二极管中的二极管和箝位多电平逆变器(CHB-MLI)。利用这些优势，发现了耦合时具有18个总分量计数的逆变器拓扑。根据分配给其直流电源的比例，该拓扑有可能产生多达17个输出电平。除了增加输出电压电平的数量外，本研究的组件计数数量相对较低。IEEE标准定义的THD限制也是69kV以下所有电压应用的目标(即5%)。为了确保所建议的拓扑是功能性的，在Mat lab/Simulink中使用各种调制指标对其进行了模拟。对THD的量、电压输出的数量和均方根电压都进行了监控和讨论。最后，为了评估所建议拓扑的唯一性，与最近公开的拓扑进行了比较研究。

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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The New Topology of Multilevel Inverter with Less Number of Switches

A new multilayer inverter topology is proposed in this study. The cascaded feature is used in this innovative topology. In addition to the isolated DC sources seen in Cascaded H- bridge. The clamping diode in Diode and the multilevel inverter (CHB-MLI) Inverter with Clamped Multilevel (DC-MLI). With these advantages, an inverter topology with 18 total component counts when coupled had been discovered. This proposed topology has the potential to generate up to According to the ratio allocated to its DC sources, there are 17 output levels. Aside from increasing the number of output voltage levels, this study has a relatively low number of component counts. The THD limit defined by IEEE standard is also a goal (i.e. 5 percent) all voltage applications under 69kV. To ensure that the suggested topology is functional, it is being simulated in Mat lab/Simulink with various modulation indexes. The amount of THD, the number of voltage outputs, and the RMS voltage are all being monitored and discussed. Finally, to assess the uniqueness of the suggested topology, a comparison study with recently disclosed topologies is being carried out.

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International Journal of Innovative Research in Computer Science and Technology

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