The characteristics of eddy current retarder were analyzed at low and high velocity respectively. A selecting method for switch point between mathematical model and neural network was proposed.
分析了电涡流缓速器的输出制动力矩在低、高速时的特性,提出了数学模型与神经网络模型切换点的选择方法。
The research of this paper will bring a feasible method to solve the problem of energy waste on the eddy current retarder.
本文的研究将为解决电涡流缓速器能量浪费问题带来一个较为可行的方法。
Regulators, Relays, Horns, Switch, Flashers, Sensors, Eddy current retarder control system.
调节器,继电器,喇叭,电磁开关,闪光器,传感器,电涡流缓速控制系统。
This method can provide an important test for the design and manufacture of the eddy current retarder, reducing the time and cost, and improving design level.
该方法可以作为电涡流缓速器设计的辅助验证手段,可有效节约设计时间与费用,提高设计水平。
This method can provide an important test for the design and manufacture of the eddy current retarder, reducing the time and cost, and improving design level.
该方法可以作为电涡流缓速器设计的辅助验证手段,可有效节约设计时间与费用,提高设计水平。
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