Abstract:The impact from motor structure and several other key parameters to flux-weakening performance was analyzed by combining the structural characteristics of PMSM, its flux-weakening principles and the special operating conditions of electric vehicles. This paper also reviews the research status of flux-weakening performance in recent years, to provide a reference for the study of flux-weakening performance of PMSM applied in EV.
[1] 张千帆, 寇宝泉, 程树康. 电动车用新型驱动电机发展综述[J]. 微特电机, 2004, 32(6): 33-37. [2] 彭海涛, 何志伟, 余海阔. 电动汽车用永磁同步电机的发展分析[J]. 微电机, 2010, 43(6): 78-81. [3] 王铁成, 代颖, 崔淑梅. 电动车用永磁同步电机发展现状[J]. 微电机, 2005, 38(1): 55-57. [4] 唐任远. 现代永磁电机理论与设计[M]. 北京: 机械工业出版社, 2002. [5] 王秀和. 永磁电机[M]. 北京: 中国电力出版社, 2007. [6] 张飞, 唐任远. 永磁同步电机电抗参数研究[J]. 电工技术学报, 2006, 21(11): 7-10. [7] 陈益广, 王颖, 沈勇环, 等. 宽调速可控磁通永磁同步电机磁路设计和有限元分析[J]. 中国电机工程学报, 2005, 25(20): 157-161. [8] 陈益广, 仲维刚, 沈勇环. 内置混合式可控磁通永磁同步电机有限元分析[J]. 中国电机工程学报, 2009, 29(6): 61-66. [9] Muhlegger W, Teppan W, Manfred Rentmeister. Working conditions of a Permanent Excited Synchronous Motor in Flux-Weakening Mode[C] //Proceeding of ICEM. 1990: 1107-1110. [10] Bianchi N, Bolognani S, Chalmers B J. Salient-rotor PM synchronous motors for an extended flux-weakening operation range[J]. Industry Applications, IEEE Transactions on, 2000, 36(4): 1118-1125. [11] 尹华杰. 主轴永磁同步电机电磁结构及“弱磁”问题的研究[D]. 武汉: 华中理工大学, 1994. [12] Dutta R, Rahman M F. Design and analysis of an interior permanent magnet (IPM) machine with very wide constant power operation range[J]. Energy Conversion, IEEE Transactions on, 2008, 23(1): 25-33. [13] Xu Longya, Ye L, Li Zhen, et al. A new design concept of permanent magnet machine for flux weakening operation[J]. Industry Applications, IEEE Transactions on, 1995, 31(2): 373-378. [14] Masabiro Masuzawa, Noriyoshi Hirao, Takashi Sasaki, et al. Brassless Motor Having Permanent Magnets: United States Patent,5821710[P]. 1998-10-13. [15] Kim Houng Joong, Kazan Tabara, Kou Ajima, et a1. Hybrid Car and Dynamo-Electric Machine: United States Patent, US646243081 [P].2002.10-8. [16] Kim Houng Joong, Shigeta Ueda. Dynamo—Electric Machine Having a Rotor with First and Second Axially or Rotationally Displaceable Field Magnets: United States Patent, US697505582[P]. 2005-12-13. [17] Kim Houng Joong, Yoshitaka lwaji. Rotary Electric Machine and Automobile Provided witll the Same: United States Patent, US700227482[P]. 2006-2-21. [18] Ki-Chan K. A novel magnetic flux weakening method of permanent magnet synchronous motor for electric vehicles[J]. Magnetics, IEEE Transactions on, 2012, 48(11): 4042-4045. [19] 寇宝泉, 李春艳, 李立毅, 等. 能够跟随转速自动弱磁的永磁电机转子[P]: 中国, 200610009857.5. 2006-8-23. [20] Kou Baoquan, Li Chunyan, Cheng Shukang. Flux-Weakening-Characteristic analysis of a new Permanent-Magnet synchronous motor used for electric vehicles[J]. Plasma Science, IEEE Transactions on, 2011, 39(1): 511-515. [21] 蔡军, 万山明. 永磁同步电机参数对弱磁性能的影响[J]. 微电机, 2011, 44(1): 1-3. [22] 许家群, 徐衍亮, 邢伟, 等. 电动汽车驱动用永磁同步电动机转子结构选择[J]. 微特电机, 2004, 32(3): 12-13, 24. [23] 马晓枫. 宽转速范围永磁同步电动机电磁参数优化设计[J]. 微电机, 2014, 47(4): 13-16. [24] 陈阳生, 黄碧霞, 诸自强, 等. 电机参数误差对永磁同步电机弱磁性能的影响[J]. 中国电机工程学报, 2008, 28(6): 92-98. [25] 于家斌, 秦晓飞, 郑军, 等. 一种改进型超前角弱磁控制算法[J]. 电机与控制学报, 2012, 16(3): 101-106. [26] 方晓春, 胡太元, 林飞, 等. 基于交直轴电流耦合的单电流调节器永磁同步电机弱磁控制[J]. 电工技术学报, 2015, 30(2): 140-147. [27] Jahns TM. Flux-Weakening regime operation of an interior Permanent-Magnet synchronous motor drive[J]. Industry Applications, IEEE Transactions on, 1987, IA-23(4): 681-689. [28] Tursini M, Chiricozzi E, Petrella R. Feedforward Flux-Weakening control of Surface-Mounted Permanent-Magnet synchronous motors accounting for resistive voltage drop[J]. Industrial Electronics, IEEE Transactions on, 2010, 57(1): 440-448. [29] 王莹, 唐任远, 曹先庆, 等. 内置式永磁同步电动机弱磁控制实验研究[J]. 微电机, 2008, 41(11): 1-4. [30] 吴芳, 万山明, 黄声华. 一种过调制算法及其在永磁同步电动机弱磁控制中的应用[J]. 电工技术学报, 2010, 25(1): 58-63. [31] Bose BK. A high-performance inverter-fed drive system of an interior permanent magnet synchronous machine[J]. Industry Applications, IEEE Transactions on, 1988, 24(6): 987-997.