考虑转矩/转数工作循环的电动固定翼无人机外转子永磁同步电机设计优化

Ryad Sadou, N. Bernard, F. Auger, Denis Pitance
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引用次数: 1

摘要

本文提出了一种新的永磁同步电机优化设计方法。应用于无人机外旋翼机。该研究表明,考虑到工作周期扭矩/RPM的所有点(最多数千个),如何优化几何形状和控制策略,以最小化重量和损失为目标,同时减少计算时间。在这类应用中,工作点可能会有很大的变化,这就需要一个特定的方法来避免过大,同时控制多个约束。因此,计算了考虑瞬态的时间热变化。同时考虑了沿工作周期的磁饱和、几何和电约束。建立了电磁模型,并通过有限元分析进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design Optimization of an Outer Rotor PMSM for Electrical fixed-wing UAV Application Considering the Torque/RPM Working Cycle
In this paper, a novel methodology for the design optimization of permanent magnet synchronous machines (PMSM) is presented. It is applied to an outer rotor machine for an unmanned aerial vehicle (UAV). The study shows how, considering all points (up to several thousands) of a working cycle torque/RPM, it is possible to optimize both geometry and control strategy, with the objective of weight and losses minimization while keeping a reduced computational time. With this kind of applications, the working points can have a big variation, which requires a specific method to avoid oversizing and to control multiple constraints in the same time. Hence, the temporal thermal variation is calculated, taking into account the transient. The magnetic saturation, geometrical and electrical constraints are also considered along the working cycle. The electromagnetic model is presented and validated by finite element analysis (FEA).
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