| 1. | Design of magnetic suspension system for icf target
激光聚变靶丸磁悬浮系统设计 |
| 2. | The digital - control research for magnetic suspension system
混合磁悬浮系统的数字控制研究 |
| 3. | Research of the space - state control on maglev system
状态空间控制方法在磁悬浮系统应用的研究 |
| 4. | A new fuzzy - pid double model controller based - on fuzzy rules switching
磁悬浮系统的模糊控制研究 |
| 5. | De - noise simulation on harmonic measurement of high - speed maglev
高速磁悬浮系统谐波检测的小波降噪仿真分析 |
| 6. | A simulation study of controller for single - axis electromagnetic suspension system
单轴磁悬浮系统控制器的仿真研究 |
| 7. | The result shows that maglev system is stable and controllable on the balance point ( i0 , z0 ) that corresponding to the stationary state
结果显示,磁悬浮系统在与定态相对应的平衡点( i _ 0 , z _ 0 )处是稳定可控的。 |
| 8. | High performance control of a magnetic levitation system of attractive type in the presence of papameter uncertainties is of particular interest
当系统出现不确定参数时,吸引类型磁悬浮系统的高性能控制特别令人关注。 |
| 9. | Abstract : to reduce power dissipation in maglev system and upgrade maglev quality , it is proposed that permanent magnet be adopted for suspension body in attractive maglev system
文摘:为降低悬浮系统的功耗,提高悬浮品质,建议在吸力型磁悬浮系统中采用永磁材料做悬挂体。 |
| 10. | In this paper , a four - point attraction magnetic suspension system is designed and analyzed , the principle of each part of the magnetic suspension system is described in detail
本文对四点吸引式磁悬浮实验系统进行了设计和分析,对磁悬浮系统的各个组成部分及其原理进行了详细的说明。 |
