A neural-network-based space vector PWM of a five-level voltage-fed inverter

Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting. Pub Date : 2004-11-01 DOI:10.1109/IAS.2004.1348779

N. Filho, J. Pinto, B. Bose

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引用次数: 19

Abstract

The paper describes an artificial neural network (ANN) based space vector pulse width modulation (SVM) for a five-level voltage-fed inverter. Basically, it uses two multilayer perceptron (MLP) type neural networks. The first ANN uses the amplitude and angle of the reference voltage vector to determine the nearest three vectors (NTV) of the inverter by identifying the triangle wherein the reference vector lies. The second ANN is used to calculate the duty cycles of the three space vectors. An erasable programmable logic device (EPLD) synthesizes the PWM waves. The main advantages of this approach are the fast and simple implementation of the highly complex SVM algorithm for multilevel inverters without loosing precision compared to the conventional DSP-based SVM algorithm. Performance of the inverter using the proposed ANN-based SVM has been investigated extensively, and the results are found to be excellent. The principle described in the paper can be easily extended to an inverter with higher number of levels.

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一种基于神经网络的五电平电压馈电逆变器空间矢量PWM

提出了一种基于人工神经网络的空间矢量脉宽调制方法。基本上，它使用两个多层感知器(MLP)类型的神经网络。第一个人工神经网络使用参考电压矢量的幅度和角度，通过识别参考矢量所在的三角形来确定逆变器最近的三个矢量(NTV)。第二个人工神经网络用于计算三个空间向量的占空比。一个可擦除的可编程逻辑器件(EPLD)合成PWM波。与传统的基于dsp的SVM算法相比，该方法的主要优点是能够快速、简单地实现高度复杂的多电平逆变器SVM算法，而不会失去精度。本文对基于人工神经网络的支持向量机逆变器的性能进行了广泛的研究，得到了良好的结果。本文所描述的原理可以很容易地扩展到具有更高电平数的逆变器中。

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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Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting.

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