Sine Averaging and Duty Ratio Approach PWM Techniques at Low Switching Frequencies

2022 IEEE 9th International Conference on e-Learning in Industrial Electronics (ICELIE) Pub Date : 2022-10-17 DOI:10.1109/ICELIE55228.2022.9985414

P. Meena, Neha Meena, Pratik Kalkal, A. V. Ravi Teja

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Abstract

The concept of a Sine PWM inverter is based on the assumption that a sine wave can be assumed to be constant for one switching cycle. This assumption holds true for low voltage high switching frequency needs, but as power or voltage requirements increase, having a high switching frequency can result in high switching losses, necessitating the use of a PWM inverting technique that can efficiently work with low switching frequencies. This paper examines several possible versions of sine PWM algorithms for low-frequency applications, focusing on their fundamental frequency content and total harmonic distortion. A comparison is made for inverters (utilising Pure sine wave as a reference and stepped sine wave as a reference) with existing and proposed method taking the cases of scaled and non-scaled. With the thorough analysis of all the cases, A stepped sine methodology Sine Averaging and Duty Ratio Approach that offers comparatively better results than existing techniques has been proposed.

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低开关频率下正弦平均和占空比方法PWM技术

正弦PWM逆变器的概念是基于一个假设，即正弦波在一个开关周期内是恒定的。这种假设适用于低电压高开关频率需求，但随着功率或电压需求的增加，高开关频率可能导致高开关损耗，因此需要使用可以在低开关频率下有效工作的PWM反相技术。本文研究了低频应用中正弦PWM算法的几种可能版本，重点讨论了它们的基频含量和总谐波失真。对逆变器(以纯正弦波为基准和以阶跃正弦波为基准)与现有方法和所提出的方法在缩放和非缩放情况下进行了比较。通过对所有情况的深入分析，提出了一种阶跃正弦方法，即正弦平均和占空比方法，该方法比现有技术提供了相对更好的结果。

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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2022 IEEE 9th International Conference on e-Learning in Industrial Electronics (ICELIE)

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