In this paper an expert control system of startup and shutdown in an atmospheric vacuum unit and a fuzzy control strategy of temperature increasing and decreasing process in a furnace are introduced.
本文介绍了常减压装置开停车过程的专家控制系统及加热炉升降温过程的模糊控制策略。
To introduce a plan for designing tubular furnace for laboratory and its automatic temperature control unit.
介绍一种试验室用管式炉及其自动控温装置的设计方案。
The new algorithm is compared with traditional PID algorithm through simulation, and its practical application - the temperature control of small electrical furnace for MFCC unit is introduced.
对其进行了仿真,与常规pid算法进行了比较,并将其应用于小型电加热炉的控制中。
The design of the single crystal furnace temperature control system is realized by analog electronic, microcomputer unit control skills.
文中应用模拟电路、微机控制技术实现了对控温精度要求很高的直拉单晶硅炉温度控制系统的设计。
Fuzzy and the single nerve unit control scheme was applied for furnace temperature control.
根据热电偶检定炉温度控制过程的特点和要求,提出了模糊单神经元控制算法。
Fuzzy and the single nerve unit control scheme was applied for furnace temperature control.
根据热电偶检定炉温度控制过程的特点和要求,提出了模糊单神经元控制算法。
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