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首页> 外文会议>International Conference on Power Electronics Systems and Applications >Optimal Design of Magnetic Induction Power Taking System for Vehicle Sensors of Maglev Train
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Optimal Design of Magnetic Induction Power Taking System for Vehicle Sensors of Maglev Train

机译:Maglev列车车辆传感器磁感应功率的最优设计

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Safety, cost and performance requirements formaglev train have driven the development of a wide range of onboard condition monitoring applications, whose bogies are instrumented for real-time measuring of parameters like component acceleration or temperature. Energy harvesting from maglev train has become a viable alternative to primary batteries. In this paper, ANSYS/Maxwell and ANSYS/Simplorer are used to build an energy extraction CT model with a centralized annular iron core and an energy extraction CT model with a distributed coiled iron core applied to the measurement end of the magnetic levitation train sensor to obtain the magnetic field distribution. On this basis, with the goal of increasing the energy extraction power, the parameters are optimized. Finally, the measuring terminal circuit and the overall module of the magnetic levitation train sensor were developed and the system was tested.
机译:安全性,成本和性能要求Formaglev列车推动了各种车载状态监测应用的开发,其转向架是用于实时测量的参数,如组件加速或温度。 Maglev火车的能源收获已成为原发性电池的可行替代品。在本文中,ANSYS / MAXWELL和ANSYS / SIMPLORER用于构建具有集中式环形铁芯的能量提取CT模型和具有应用于磁悬浮列车传感器的测量端的分布式卷轴铁芯的能量提取CT模型获得磁场分布。在此基础上,目的是增加能量提取功率,参数进行了优化。最后,开发了测量终端电路和磁悬浮列车传感器的整体模块,并测试了系统。

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