Sensorless motor control for electro-mechanical flight control actuators

Q2 Engineering

CEAS Aeronautical Journal Pub Date : 2023-09-25 DOI:10.1007/s13272-023-00682-x

Robert Kowalski, Patrick Juchmann

引用次数: 0

Abstract

Abstract Electro-mechanical flight control actuators have become a viable option as a replacement for conventional hydraulic actuators in future more electric aircraft. A rotor angle measurement is generally required for field-oriented control of the electrical machine and usually obtained from a safety-critical resolver. It contributes, however, to a rising local hardware complexity with a negative impact on space allocation, weight, motor inertia, reliability, and cost. This paper investigates sensorless control strategies that might substitute the resolver with an accurate estimate value. A hybrid observer is implemented that allows position control without an angle sensor at all speeds. In the high speed domain, the extended electromotive force of the permanent magnet synchronous machine is used for angle estimation. In the low speed domain, including standstill, anisotropy properties of the motor are exploited by applying the alternating injection method. The performance of the control algorithm is evaluated on an aileron actuator test rig for a large civil aircraft.

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机电飞行控制执行器的无传感器电机控制

机电飞控作动器已成为未来更多电动飞机替代传统液压作动器的可行选择。电机的磁场定向控制通常需要转子角度测量，通常由安全关键的解析器获得。然而，它会增加本地硬件的复杂性，并对空间分配、重量、电机惯性、可靠性和成本产生负面影响。本文研究了一种可以用精确的估计值代替解析器的无传感器控制策略。实现了一个混合观测器，允许在没有角度传感器的情况下在所有速度下进行位置控制。在高速领域，利用永磁同步电机的扩展电动势进行角度估计。在低速领域，包括静止状态，电机的各向异性特性利用交替注入方法。在某大型民用飞机副翼作动器试验台上对该控制算法的性能进行了评价。

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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来源期刊

CEAS Aeronautical Journal Engineering-Aerospace Engineering

CiteScore

3.40

自引率

0.00%

发文量

期刊介绍： The CEAS Aeronautical Journal has been created under the umbrella of CEAS to provide an appropriate platform for excellent scientific publications submitted by scientists and engineers. The German Aerospace Center (DLR) and the European Space Agency (ESA) support the Journal.The Journal is devoted to publishing results and findings in all areas of aeronautics-related science and technology as well as reports on new developments in design and manufacturing of aircraft, rotorcraft, and unmanned aerial vehicles. Of interest are also (invited) in-depth reviews of the status of development in specific areas of relevance to aeronautics, and descriptions of the potential way forward. Typical disciplines of interest include flight physics and aerodynamics, aeroelasticity and structural mechanics, aeroacoustics, structures and materials, flight mechanics and flight control, systems, flight guidance, air traffic management, communication, navigation and surveillance, aircraft and aircraft design, rotorcraft and propulsion.The Journal publishes peer-reviewed original articles, (invited) reviews and short communications.