High-degree lightweight design is one of the key techniques for the high speed maglev train with the sandwich panel structure.
高度轻量化设计是具有三明治复合板结构特征的高速磁浮列车技术关键之一。
The modeling method and the results are valuable for the design and analysis of the high speed maglev train.
本文的建模方法和结果对高速磁浮列车的设计和分析具有参考价值。
Suspension control of the join-structure is one of the keystone of High-Speed Maglev Train suspension technology.
搭接结构悬浮控制是高速磁浮列车悬浮技术的关键问题之一。
In the high-speed maglev train, the position sensor plays the crucial role in measuring the position of the train, but the signal directly affects the run effect of the train.
在高速磁悬浮列车中,定位传感器是测定列车位置的关键器件,其信号正常与否直接影响列车的运行效果。
A new method is forwarded to detect the rotor position for linear synchronous motor in high speed maglev train based on inductive sensor and DSP.
针对高速磁浮列车用长定子直线同步电机的特点,提出了一种基于电感式传感器和DSP的电机动子位置检测新方法。
Experiment shows that the system has the features of hard real time and high measuring precision which meets the requirement of the operating control system of high-speed maglev train.
试验表明:系统实时性强,测速定位精度高,满足高速磁悬浮列车运行控制的要求。
Known as "maglev", the technology USES powerful magnets to suspend a train above its rails and drive it forward at high speed.
这项被称为“磁浮”(maglev)的技术利用力量强大的磁力来使火车悬浮在铁轨之上,驱动它高速前行。
The superconductivity maglev train will be one of the transports with high-speed, safety, reliability, low environmental impact.
高温超导磁悬浮车可能成为将来的一种高速、安全、环保、经济的最有效的地面轨道交通方式之一。
A speed and position detection method for high-speed maglev train driven by long-stator synchronous linear motor, based on measuring cog-slots of the long-stator, was presented.
针对长定子直线同步电机驱动的高速磁悬浮列车,提出了采用对定子齿槽进行计数的测速定位方案。
A speed and position detection method for high-speed maglev train driven by long-stator synchronous linear motor, based on measuring cog-slots of the long-stator, was presented.
针对长定子直线同步电机驱动的高速磁悬浮列车,提出了采用对定子齿槽进行计数的测速定位方案。
应用推荐