摘要
为满足电机转子测试台热风循环系统的温控要求,针对转子表面温控精度低、稳定性差等问题,设计了一套热风循环温控系统。以该系统为原型,建立数学模型,使用单神经元网络控制的方式对传统PID中的控制参数进行动态调节,并采用模糊控制算法对单神经元PID控制器中的增益系数进行模糊控制。试验表明:该系统不仅性能稳定,控制精度较高,而且满足温控要求。
To meet the temperature control requirements of the hot air circulation system on the motor rotor test bench,a set of hot air circulation temperature control system was designed to address the problems of low temperature control accuracy and poor stability on the rotor surface.Based on this system as a prototype,a mathematical model is established to dynamically adjust the control parameters in traditional PID using a single neuron network control method,and a fuzzy control algorithm is used to perform fuzzy control on the gain coefficient in the single neuron PID controller.The experiment shows that the system not only has stable performance and high control accuracy,but also meets the temperature control requirements.
作者
陈永琪
何永义
CHEN Yongqi;HE Yongyi
出处
《计量与测试技术》
2025年第8期90-94,共5页
Metrology & Measurement Technique
关键词
测试台
热风循环
温控系统
单神经元PID
模糊控制
test bench
hot air circulation
temperature control system
single neuron PID
fuzzy control
