交流驱动器的无传感器矢量控制

G. Szabó, Fároly Veszprémi
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引用次数: 1

摘要

近年来,汽车和其他行业的电驱动数量急剧增加,这导致人们明显认识到必须根据应用选择适当的控制方法。矢量控制理论本身是由Hasse和Blaschke在70年代早期描述的,但这些方法的实现对于开发工程师来说仍然是一项具有挑战性的任务。在大多数情况下,轴角编码器不能省略,因为安全水平的应用。但在这种情况下,可以使用无传感器矢量控制方法作为备用算法,在不损坏驱动器或用户的情况下停止驱动系统。本文总结了目前工业上已成功实现的几种无传感器矢量控制方法。综合分析了模型参考自适应系统(MRAS)、自然场定向(NFO)和高频信号注入等主要无传感器技术的控制结构、可能的应用领域和仿真结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensorless Vector Control of AC Drives
In the recent years the numbers of electric drives in the automotive and other industries have drastically increased, which leads to the obvious recognition that appropriate control method must be chosen based on the application. The vector control theory itself was described by Hasse and Blaschke in the early ’70s, but the implementation of these methods are still a challenging task for the developer engineers. In most cases, the shaft angle encoder cannot be omitted, since the safety level of the application. But in these cases a sensorless vector control method can be used as backup algorithm, with which the drive systems can be stopped without damaging the drive or the users. This paper summarizes some of the available sensorless vector control methods, which have been successfully implemented in the industry. Comprehensive analysis of the main sensorless techniques, such as Model Reference Adaptive System (MRAS), Natural Field Orientation (NFO) and High Frequency Signal injection methods will be presented with their control structure, possible field of application and simulation results.
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