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内蒙古科技大学
本科生毕业设计说明书(毕业论文)
题目:基于单片机的双容水箱液位控制器设计
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专业:测控技术与仪器
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基于单片机的双容水箱液位控制器设计
摘要
液位作为工业生产过程中的主要的被控参数之一,被广泛应用于冶金、建材、化工、食品、石油等工业中,工艺过程中液位的控制效果直接影响着所生产出的产品质量。现代工业中的液位控制系统规模日趋复杂化、大型化,液位控制已逐渐成为目前过控领域的一个研究热点。基于单片机的液位控制器具有性能稳定、可靠,控制精度高,造价低,设置方便,操作方便等优点。
本设计利用单片机实现对双容水箱液位的控制,该系统是以上下两个串联的水箱为研究对象,把下水箱的液位作为被控参数,通过压力变送器测量水箱的液位,并把测量结果送到以单片机为核心的控制器作为反馈信号,控制器再根据预先设置的增量型PID控制算法进行运算,发出控制命令控制执行机构之一的调节阀开度大小,从而改变进入上水箱中水的流量大小,实现水箱液位的自动控制,整个控制过程中,水泵电机保持匀速供水。
关键词:单片机STC89C52,液位控制,增量式PID控制算法,LED显示
Based on single chip dual tank water level controller design
Abstract
The level is charged with one of the parameters of the industrial production process, the most important, widely used in metallurgy, building materials, chemicals, food, petroleum and other industries, the level of control in the process directly influences the production of productsquality. Level Control System scale of modern industry are ing plex, large-scale, level control has gradually e the Process Control field of a hot research topic. Based on single chip water level controller has many advantages, such as stable performance, reliable, high control precision, low cost, easy set up, easy operation.
The design use single chip achieve dual-tank water level control system is based on the two upper and lower water tanks in series for the study, the following tank level is controlled parameters, the pressure transmitter to measure the level of the water tank, and the measurements gave microcontroller as the core controller as the feedback signal, the controller based on incremental PID control algorithm is pre-puting, issue mands to control the actuator valve opening size, thus changing into the flow of water on the tank size. tank liquid level automatic control.
Key words: single chip STC89C52,liquid level control, incremental PID control algorithm, LED display
目录
摘要 I
Abstract II
第一章引言 1
研究背景 1
国内液位控制的发展现状 1
PID调节器简介 2
设计思路 2
设计意义 3
第二章硬件组成 4
系统硬件组成