Performance analysis of fifteen level reduced device count asymmetrical multilevel inverter
Abstract
In this article, a fifteen-level reduced device count asymmetrical multilevel inverter is introduced for electric vehicle applications. This novel multilevel inverter topology minimizes the power switches required. Control of the proposed inverter is accomplished via the nearest-level control method. In a typical multilevel inverter, ten to twelve switches are used to create the fifteen levels. A high number of switches are used in traditional multilevel inverters, which increases the distortion from all harmonics, switching losses, cost, and cost per switch. Only nine switches are needed for the suggested architecture. It significantly minimizes the total harmonic distortion by 5% and lowers the switching losses, low-order harmonics, and complexity. The efficiency of the suggested multilevel inverter (MLI) is 98.35%.
Keywords
Alternating current; direct current; multilevel inverter; nearest level control; total harmonic distortion
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PDFDOI: http://doi.org/10.11591/ijpeds.v15.i4.pp2243-2252
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Copyright (c) 2024 Murugesan Manivel, Lakshmanan Palani, Sivaranjani Subramaniam, Bharani Prakash Thiagarajan, Divya Kannusamy, Jebakumar Immanuel D, Anandhkumar Varathan
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