一种基于DTC的多速率三电平载波支持向量机的新方法

2011 INTERNATIONAL CONFERENCE ON RECENT ADVANCEMENTS IN ELECTRICAL, ELECTRONICS AND CONTROL ENGINEERING Pub Date : 2011-12-01 DOI:10.1109/ICONRAEECE.2011.6129750

J. Jeyashanthi, V. Hemamaheswari, G. L. Thilagam, G. Loganayaki

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引用次数: 1

摘要

本项目描述了基于3级载波空间矢量脉宽调制的感应电机(IM)驱动直接转矩控制(CSVPWM DTC)的多速率采样技术的实现，目的是减少中大功率应用的电磁转矩脉动。与单速率采样技术相比，本文提出的基于三电平CSVPWM DTC的IM驱动器的多速率采样技术具有更低的转矩脉动。在多速率采样技术中，对于同一个数字信号处理器，使用两个采样周期。基本采样周期用于数据捕获和估计速度、转矩和磁通参数。另一个采样周期是基本采样周期的整数倍，用于速度、磁链和转矩误差处理，也用于实现CSVPWM算法合成门脉冲。3级逆变器提供较小的电压步长，从而产生更高功率质量的波形。仿真结果得到了实验验证。

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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A novel approach for a multirate 3 level carrier SVM of DTC based IM drive

This project describes the implementation of multirate sampling technique for 3-level carrier space vector pulse width modulation based direct torque control (CSVPWM DTC) of induction motor (IM) drive with an objective to reduce the electromagnetic torque ripple for medium to high power applications. The proposed multirate technique for 3-level CSVPWM DTC based IM drive gives lower torque ripple as compared to single rate sampling technique. In multirate sampling technique, for the same digital signal processor, two sampling periods are used. The fundamental sampling period is used for data capturing and estimation of speed, torque and flux parameters. The other sampling period which is an integer multiple of the fundamental sampling period, is used for speed, flux and torque error processing and also for the implementation of CSVPWM algorithm for synthesizing gate pulses. The 3-level inverter gives the smaller voltage steps lead to the production of higher power quality waveforms. The simulation results are experimentally validated.

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2011 INTERNATIONAL CONFERENCE ON RECENT ADVANCEMENTS IN ELECTRICAL, ELECTRONICS AND CONTROL ENGINEERING

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