| 1. | Most conventional permanent magnet motors can accept an armature current three or four times the rated current .
大多数普通的永磁式电动机能承受34倍额定值的电枢电流。 |
| 2. | Dc ferrite permanent magnet motors
铁氧体永磁直流电动机 |
| 3. | Analysis of 3d electromagnetic field in transverse flux permanent magnet motor
横向磁通永磁电机的三维电磁场分析 |
| 4. | Modeling and simulation of doubly salient permanent magnet motor based on matlab simulink
的双凸极永磁电机建模与仿真 |
| 5. | Optimal design of minitype permanent magnet motor based on hybrid algorithm of chaos and pso
混沌粒子群混合算法对微型永磁电机的优化设计 |
| 6. | D . hanselman , brushless permanent magnet motor design , 2nd ed . , mcgraw - hill , new york , 2003
黄昌圳,表面型永磁马达磁路分析,高性能无刷马达设计技术研讨会讲义, 2003 。 |
| 7. | Most conventional permanent magnet motors can accept an armature current three or four times the rated current
大多数普通的永磁式电动机能承受3 4倍额定值的电枢电流。 |
| 8. | Analysis of armature magnetic field of doubly salient permanent magnet motor with external rotor on inductance characteristics of windings
外转子双凸极永磁电机电枢磁场对绕组电感特性的影响 |
| 9. | Alexander c smith , albert k b wong . performance of line start single phase permanent magnet motors for domestic applications , 1996 ieee
周洁.单相永磁同步电动机的理论研究与分析计算.西安交通大学博士学位论文 |
| 10. | J . r . hendershot and t . j . e . miller , “ design of brushless permanent magnet motors , ” magna physics publishing and clarendon press , 1994
黄昌圳,有限元素法简介,高性能无刷马达设计技术研讨会讲义, 2003 。 |
