主要飞行表面作动器的电机选择分析

A. Credo, L. Di Leonardo, M. D'Andrea, D. Macera
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摘要

本文介绍了不同的电机解决方案集成在初级飞行表面执行器的飞机应用领域的所谓的“更电动飞机”的研究和开发。特别是,考虑到热工况和气动载荷扭矩需求的最严峻工作点,对电机进行了设计和有限元分析,旨在预测其性能和退化情况。此外,在相同的临界条件下,对具有容错能力的无磁体电机解决方案进行了研究和比较。考虑到热问题,电机在故障方面的行为,电磁性能以及具有市场竞争力产品的必要性,对不同类型的电机进行了比较。
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Analysis of electric motor alternatives for Primary Flight Surface Actuators
This paper presents different electric motor solutions integrated in primary flight surface actuators for aircraft applications in the field of the so called ‘More Electric Aircraft’ research and development. In particular, the motors have been designed and analyzed with a finite-element study, considering the most severe working-points in terms of thermal conditions and aerodynamic load torque demand, aiming to predict both the performance and the degradation. In addition, magnet-free motor solutions with fault-tolerant capabilities towards possible magnet demagnetization are investigated and compared in the same critical conditions. The comparison between the different motor typologies is carried out considering the thermal issues, the behavior of the motor with respect to the faults, the electromagnetic performances, and the necessity to have a market competitive product.
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