Low speed performance improvement in sensorless drive using measured stator voltages of PWM voltage source inverter

IEEE International Conference on Industrial Technology, 2003 Pub Date : 2003-12-10 DOI:10.1109/ICIT.2003.1290388

G. Edelbaher, E. Urlep, M. Ćurković, V. Kranjec

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引用次数: 7

Abstract

Besides the quality of used parameters also the applied voltage is an important issue in the speed sensorless induction motor control. Information contained in the value of measured rotor speed has to be obtained from other available signals, especially the stator input voltages. However, the actual output voltage of the voltage source inverter differs from the reference value. This influence is especially important in low speed region where the error in calculated flux values might cause not only reduced pull-out torque and additional losses of the machine but also the unstability of the drive system. While one would like to avoid measurement of actual stator voltages because of its complexity and higher cost of the system, additional performance improvement in very low speed region can only be achieved with exact knowledge of voltage. But this can only be obtained by using measurements. The main goal of this paper is to present advantages of stator voltage measurements in low speed region of speed sensorless drives over cost effective solutions using dead time compensated inverter.

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利用PWM电压源逆变器测量定子电压改善无传感器驱动的低速性能

在无速度传感器异步电动机控制中，除参数的质量外，外加电压也是一个重要的问题。所测转子转速值中包含的信息必须从其他可用信号中获得，特别是定子输入电压。但是，电压源逆变器的实际输出电压与参考值不同。这种影响在低速区域尤为重要，在低速区域，计算出的磁通值的误差不仅会导致拉出转矩的减小和机器的额外损失，而且还会导致驱动系统的不稳定。虽然由于系统的复杂性和较高的成本，人们希望避免测量实际定子电压，但只有在精确了解电压的情况下，才能在极低速区域实现额外的性能改进。但这只能通过测量得到。本文的主要目的是介绍无速度传感器驱动的低速区域定子电压测量与使用死区补偿逆变器的成本效益解决方案相比的优势。

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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IEEE International Conference on Industrial Technology, 2003

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