| 1. | Electromagnetic continuously variable transmission for vehicle
车用电磁耦合无级变速系统 |
| 2. | Electromagnetism coupling continuously variable transmission system
电磁耦合无级变速传动系统 |
| 3. | Structure and simulation of electromagnetic continuously - variable transmission system
电磁耦合无级变速系统的结构及仿真 |
| 4. | Analysis of electromagnetic coupling of integrated four - pole radial magnetic bearing
整体四磁极径向电磁轴承电磁耦合分析 |
| 5. | Both the red shift of the plasmon absorption band and the sers effect result from the interparticle interactions of gold nanoparticles within the films
吸收峰红移及sers效应与薄膜中的金纳米粒子间的电磁耦合作用有关。 |
| 6. | The research plays an important part in the adding or moving shielding layer in the process of analizing electromagnetic coupling , and it makes there is a systemic method for electromagnetic field labeling
此研究对于分析电磁耦合过程中加入或移除屏蔽层具有重要的物理意义,并使得电磁场标号有一个系统的方法。 |
| 7. | It is difficult to achieve the satisfactory results both of analysis and calculation by using traditional method because of the different shapes of the devices , structure complexion , material non - linearity and the reason of electromagnetism coupling
由于电气产品的形状各异、结构复杂、材料非线性和电磁耦合等特点,利用传统的解析方法难以获得满意的分析和计算结果。 |
| 8. | Combining it with classical algorithm , the electromagnetic coupling path needing to be improved ( viz . weak paths ) are founded , and by using linear programming theory , this paper gives the optimum restroration of the weak paths
该模型中的电磁拓扑图简明且利于分析,与已有的算法结合,得到了需要改进的电磁耦合路径(即薄弱路径) ,并利用线性规划理论对模型中的薄弱路径进行优化修复。 |
| 9. | Wireless induction communication method is based on electromagnetic induction principle , using the electromagnetic coupling to transmit data between the train and ground . this communication system can cover a long rail and it is easy to maintain and fix
无线感应通信是基于电磁感应原理,利用电磁耦合完成车辆与地面双向数据传输的一种通信方式,具有传输损耗小、覆盖线路长、架设方便、易于维护等优点。 |
| 10. | To meet the bandwidth requirements , a two - layer electromagnetically coupled rectangular microstrip antenna was introduced to the system . the influence of the inset position and the air thickness between the two layers on the impedance , resonant frequency , as well as the bandwidth was investigated
为使天线达到系统要求,本文设计了两层电磁耦合矩形微带天线,分析了影响天线性能的微带馈线插入深度,微带馈线与贴片间距以及空气层厚度这三个参数。 |
