基于辐条式转子的汽车用无die混合永磁电机研究

Jiseon Park, R. Tsunata, M. Takemoto, K. Orikawa, S. Ogasawara
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引用次数: 4

摘要

由于制造技术的发展,钕铁硼永磁体(Nd-PM)在不含镝的情况下,矫顽力可达21 kOe。但由于车辆牵引电机的高温运行特性,主要采用25kOe以上的Nd-PM。本文将21kOe Nd-PM和5.5kOe铁氧体-PM (Fe-PM)同时应用,提出了一种适用于车辆牵引电机环境温度条件的混合永磁电机(HPMM)。HPMM根据每个PM的排列方式分为串联配置和并联配置。本文比较了每种结构的优缺点,提出了能提高消磁耐久性和转矩特性的转子结构。通过二维有限元法比较了各转子结构的性能特点,最后提出了一种适用于车用牵引电机的HPMM。同时,所提出的HPMM具有与目标电机——丰田普锐斯第四代混合动力汽车(HEV)的牵引电机相同的转矩和功率密度。同时,与目标电机相比,所提出的HPMM将Nd-PM的使用量减少了47%,PM总成本减少了10%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Dy-Free Hybrid PM Motor Based on Spoke-Type Rotor for Automotive Applications
NdFeB permanent magnets (Nd-PM) can achieve a coercivity of up to 21 kOe without dysprosium due to the development of manufacturing technology. However, due to the high-temperature operation characteristics of vehicle traction motors, Nd-PM over 25kOe is mainly applied. In this paper, 21kOe Nd-PM and 5.5kOe ferrite-PM (Fe-PM) are simultaneously applied, and a hybrid PM motor (HPMM) suitable for environmental temperature conditions of vehicle traction motors is proposed. HPMM is divided into serial configuration and parallel configuration according to the arrangement of each PM. This paper compares the pros and cons of each configuration and presents rotor structures that can improve demagnetization durability and torque characteristics. After comparing the performance characteristics of each rotor structure through 2D-FEM, finally, an HPMM suitable for vehicle traction motors is proposed. Also, the proposed HPMM shows the same torque and power density as the traction motor of TOYOTA PRIUS 4th-generation hybrid electric vehicle (HEV), the target motor. At the same time, the proposed HPMM reduced the usage of Nd-PM by 47% and the total PM cost by 10% compared to the target motor.
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