磁悬浮飞轮转子在高转速下表现出的陀螺效应是影响系统稳定性的主要因素。
At high rotational speeds, the gyroscopic effect of flywheel rotor is the major factor that influences rotor stability.
介绍了磁悬浮飞轮的测试系统的硬件构成和软件实现。介绍了CPCI的工业控制计算机以及数据采集的硬件。
This paper introduces magnetic suspension flywheel's hardware configuration and software realization, and introduces CPCI industrial control computer, data acquisition CARDS.
涉及一种用于在超导磁悬浮列车、超导轴承、飞轮储能系统、超导电机转子等方面具有潜在的实用性的材料的制备方法。
It could be widely applied to superconductive magnetic levitation vehicle, superconductive bearing, flywheel energy-storage system, superconductive generator rotor, etc.
磁悬浮球是磁悬浮列车,磁悬浮轴承,磁悬浮飞轮储能系统,磁悬浮发射等一切磁悬浮研究的基础。
Magnetic levitation ball is the foundation of magnetic levitation train, magnetic bearing, magnetic flywheel storage system, magnetic levitation launch.
最后,针对实验中的问题,分析了零部件加工误差、磁悬浮飞轮的悬浮气隙、控制系统的PID参数等因素对磁悬浮飞轮稳定悬浮的影响。
At last, in allusion to the problems in experiment, the processing tolerance of components and parts, the gas gap of maglev flywheel, the PID parameters of control system are analyzed.
在磁悬浮盘片系统研究的基础上,提出了盘状磁悬浮飞轮转子支承结构,设计磁悬浮飞轮电池试验装置。
Based on research of maglev disc system, the bearing structure of discal maglev flywheel rotor is proposed, and the experimental device of maglev flywheel battery is designed.
对基础运动的磁悬浮转子系统建模进行了分析,针对车载飞轮电池中的磁悬浮转子系统建立了动力学模型。
The dynamic model of the MSR system in consideration of base motion which is applied into vehicle flywheel battery is built.
对基础运动的磁悬浮转子系统建模进行了分析,针对车载飞轮电池中的磁悬浮转子系统建立了动力学模型。
The dynamic model of the MSR system in consideration of base motion which is applied into vehicle flywheel battery is built.
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