Modeling and simulation of dv/dt filters for AC drives with fast switching transients

2006 IEEE Power India Conference Pub Date : 2006-06-05 DOI:10.1109/POWERI.2006.1632585

B. Basavaraja, D. Siva Sarma

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引用次数: 13

Abstract

Many of today's induction machines are operated using variable speed drives (VSD). VSDs are used for controlling the speed of induction machine by adjusting the amplitude and frequency of the AC voltage. These adjustments are made by advanced technology in semiconductors, which are faster switching devices. Faster switching reduces the switching power loss, requiring less heat sink, thus enabling drives to become more efficient and smaller, and this also helps to reduce cost. Along with the better performance enabled by the high switching speed and increased switching frequency, they have also raised several concerns related to the consequences of high speed switching. One of these concerns is the over-voltage that appears at the motor terminals due to the impedance mismatch between the power cable and the motor. In this paper, overvoltages at the motor terminal are analyzed and accurate simulation models of different filters are designed to reduce the overvoltage problems. The models can be readily implemented using computational tools like Matlab, thereby providing a convenient method to develop the best dv/dt filter solution for a particular drive to reduce the over voltage & hence increases the life of the motor

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具有快速开关瞬变的交流驱动器dv/dt滤波器的建模与仿真

今天的许多感应电机是使用变速驱动器(VSD)操作的。变频器通过调节交流电压的幅值和频率来控制感应电机的转速。这些调整是通过半导体的先进技术实现的，半导体是一种更快的开关设备。更快的开关降低了开关功率损耗，需要更少的散热器，从而使驱动器变得更高效和更小，这也有助于降低成本。随着高开关速度和增加的开关频率所带来的更好的性能，他们也提出了与高速开关的后果有关的几个问题。其中一个问题是由于电源线和电机之间的阻抗不匹配而出现在电机终端的过电压。本文对电机端过电压进行了分析，并设计了不同滤波器的精确仿真模型，以减少过电压问题。这些模型可以很容易地使用Matlab等计算工具实现，从而为特定驱动器开发最佳dv/dt滤波器解决方案提供了一种方便的方法，以减少过电压，从而增加电机的寿命

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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2006 IEEE Power India Conference

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