基于C8051F120单片机的电力设备运行环境智能控制系统的设计
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摘要
在电力设备的运行过程中对运行环境中的温湿度进行监测与控制,有助于提高设备运行的安全系数。对此,论文利用C8051F120单片机设计了一种电力设备运行环境智能控制系统。该系统以C8051F120单片机做为中央控制器,配以AM2315型高精度温湿度传感器等外围功能模块电路组成系统的硬件部分,用于采集传送、转换运行环境中的温湿度信息。利用自适应PID算法做为软件核心部分,用于对电力设备运行环境中的实时温湿度状态与目标温湿度状态的偏差度进行计算,并将计算结果送于中央控制器,以供中央控制器根据计算结果对外围模块电路进行调度,以实现对电力设备运行环境中的温湿度进行智能监测与控制。实验结果表明,论文通过C8051F120单片机所设计的电力设备运行环境智能控制系统,能够有效、快速地对运行环境中的温湿度进行监测与控制。
Monitoring and controlling the temperature and humidity in the operation environment during the operation of electric power equipment will help to improve the safety factor of the equipment. In this regard,this paper uses C8051 F120 microcontroller to design an intelligent control system for power equipment running environment. The system uses C8051 F120 as the centralcontroller and the peripheral function module circuit of AM2315 high precision temperature and humidity sensor to make up thehardware part of the system,which is used to collect the temperature and humidity information in the transmission and conversionenvironment. The adaptive PID algorithm is used as the core part of the software,which is used to calculate the deviation degree ofthe temperature and humidity state of the electric power equipment and the temperature and humidity state of the target. The calculation results are sent to the central controller for the central controller to schedule the external block circuit according to the calculation results,so as to realize the electric power. The temperature and humidity in the equipment running environment are monitoredand controlled. The experimental results show that the intelligent control system of the operation environment of power equipment,designed by C8051 F120 single chip microcomputer,can monitor and control the temperature and humidity in the operating environment effectively and quickly.paper can control the pressure quickly and accurately,and it can meet the pressure control requirements in the working process of the injection molding machine.
Monitoring and controlling the temperature and humidity in the operation environment during the operation of electric power equipment will help to improve the safety factor of the equipment. In this regard,this paper uses C8051 F120 microcontroller to design an intelligent control system for power equipment running environment. The system uses C8051 F120 as the centralcontroller and the peripheral function module circuit of AM2315 high precision temperature and humidity sensor to make up thehardware part of the system,which is used to collect the temperature and humidity information in the transmission and conversionenvironment. The adaptive PID algorithm is used as the core part of the software,which is used to calculate the deviation degree ofthe temperature and humidity state of the electric power equipment and the temperature and humidity state of the target. The calculation results are sent to the central controller for the central controller to schedule the external block circuit according to the calculation results,so as to realize the electric power. The temperature and humidity in the equipment running environment are monitoredand controlled. The experimental results show that the intelligent control system of the operation environment of power equipment,designed by C8051 F120 single chip microcomputer,can monitor and control the temperature and humidity in the operating environment effectively and quickly.paper can control the pressure quickly and accurately,and it can meet the pressure control requirements in the working process of the injection molding machine.
引文
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[8]王柯,赵强,彭向阳.基于PID的电力巡检光电吊舱稳定平台控制系统设计[J].控制工程,2015,22(S0):135-140.WANG Ke,ZHAO Qiang,PENG Xiangyang. Control System Design for Power Line Inspecting Electro-optical PodInertial Stabilization Platform Based on PID[J]. ControlEngineering of China,2015,22(S0):135-140.
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[11]赵树国,钱尼学,沈志生.改进PID算法在中压配电控制中的优化研究[J].科技通报,2016,32(7):103-107.ZHAO Shuguo,QIAN Nixue,SHEN Zhisheng. Study onOptimization of PID Algorithm in Medium Voltage PowerDistribution Control[J]. Bulletin of Science and Technology,2016,32(7):103-107.
[12]何新英,徐曼平.基于神经元自适应PID船舶电力推进电机控制系统研究[J].广东造船,2013,9(4):47-48,64.HE Xinying,XU Manping. Research on Ship ElectricPropulsion Motor Control System Based on Neuron Adaptive PID Control[J]. Guangdong Shipbuilding,2013,9(4):47-48,64.
[13]孟庆硕,许鸣珠,李玲瑞.基于自适应PID的异步电机电流控制[J].电机与控制应用,2018,45(4):39-43.MENG Qingshuo,XU Mingzhu,LI Lingrui. Asynchronous Motor Current Control Based on Adaptive PID[J].Electric Machines&Control Application,2018,45(4):39-43.
[14]冉华军,李健,牟书丹.基于模糊自适应PID控制的直流电机调速系统[J].通信电源技术,2017,34(1):23-25.RAN Huajun,LI Jian,MU Shudan. Speed Control System of DC Motor Based on Fuzzy Self-Adaptive PID Control[J]. Telecom Power Technology,2017,34(1):23-25.
[15]刘春蕾.电力设备温湿度控制系统[J].中国高新技术企业,2009,62(18):36-37.LIU Chunlei. Temperature and humidity control systemfor electric power equipment[J]. Chinese Hi-tech Enterprises,2009,62(18):36-37.
[2]郭杨,陈昊.激光导航智能机器人巡检系统在特高压变电站的应用[J].电力工程技术,2017,36(4):125-130.GUO Yang,CHEN Hao. Intelligent Robot Inspection System Based on Laser Navigation in UHV Substation[J].Electric Power Engineering Technology,2017,36(4):125-130.
[3]赖义汉,王宇松,傅智河.电力柜智能除湿系统研究与设计[J].徐州工程学院学报(自然科学版),2016,31(1):87-92.LAI Yihan,WANG Yusong,FU Zhihe. Research and Design of Smart Dehumidification System of Electric Cabinet[J]. Journal of Xuzhou Institute of Technology(NaturalSciences Edition),2016,31(1):87-92.
[4]唐达獒,周斌全.除湿器在高压开关柜内的应用[J].机电一体化,2014,5(1):38-43.TANG Daao,ZHOU Binquan,FU Zhihe. Application of dehumidifier in high voltage switchgear[J]. Mechatronics,2014,5(1):38-43.
[5]李丽,汤学博,刘嘉文.电力设备温湿度控制器的设计[J].制造业自动化,2012,34(10):146-149.LI Li,TANG Xuebo,LIU Jiawen.The design of controllerof temperature and humidity in electrical equipment[J].Manufacturing Automation,2012,34(10):146-149.
[6]吕川,王斌,张良力.高压电力线温湿度实时监测系统的设计[J].自动化与仪表,2014,10(15):54-57.LV Chuan,WANG Bin,ZHANG Liangli. Design of Monitoring System for Temperature and Humidity of High-tension Transmission Line[J]. Automation&Instrumentation,2014,10(15):54-57.
[7]魏韡,梅生伟,张雪敏.先进控制理论在电力系统中的应用综述及展望[J].电力系统保护与控制,2013,41(12):143-153.WEI Wei,MEI Shengwei,ZHANG Xuemin. Review of advanced control theory and application in power system[J].Power System Protection and Control,2013,41(12):143-153.
[8]王柯,赵强,彭向阳.基于PID的电力巡检光电吊舱稳定平台控制系统设计[J].控制工程,2015,22(S0):135-140.WANG Ke,ZHAO Qiang,PENG Xiangyang. Control System Design for Power Line Inspecting Electro-optical PodInertial Stabilization Platform Based on PID[J]. ControlEngineering of China,2015,22(S0):135-140.
[9]吴萍. PID控制在并联型有源电力滤波器中的有效性研究[J].三门峡职业技术学院学报,2017,16(3):133-136.WU Ping. Research on the effectiveness of PID control inshunt active power filter[J]. Journal of Sanmenxia Polytechnic,2017,16(3):133-136.
[10]李德新,钟俊.基于遗传算法与PID原理的IEEE1588从时钟同步研究[J].电力系统保护与控制,2016,44(18):96-101.LI Dexin,ZHONG Jun. Research on IEEE 1588 slavetime synchronization based on genetic algorithm and PIDcontrol theory[J]. Power System Protection and Control,2016,44(18):96-101.
[11]赵树国,钱尼学,沈志生.改进PID算法在中压配电控制中的优化研究[J].科技通报,2016,32(7):103-107.ZHAO Shuguo,QIAN Nixue,SHEN Zhisheng. Study onOptimization of PID Algorithm in Medium Voltage PowerDistribution Control[J]. Bulletin of Science and Technology,2016,32(7):103-107.
[12]何新英,徐曼平.基于神经元自适应PID船舶电力推进电机控制系统研究[J].广东造船,2013,9(4):47-48,64.HE Xinying,XU Manping. Research on Ship ElectricPropulsion Motor Control System Based on Neuron Adaptive PID Control[J]. Guangdong Shipbuilding,2013,9(4):47-48,64.
[13]孟庆硕,许鸣珠,李玲瑞.基于自适应PID的异步电机电流控制[J].电机与控制应用,2018,45(4):39-43.MENG Qingshuo,XU Mingzhu,LI Lingrui. Asynchronous Motor Current Control Based on Adaptive PID[J].Electric Machines&Control Application,2018,45(4):39-43.
[14]冉华军,李健,牟书丹.基于模糊自适应PID控制的直流电机调速系统[J].通信电源技术,2017,34(1):23-25.RAN Huajun,LI Jian,MU Shudan. Speed Control System of DC Motor Based on Fuzzy Self-Adaptive PID Control[J]. Telecom Power Technology,2017,34(1):23-25.
[15]刘春蕾.电力设备温湿度控制系统[J].中国高新技术企业,2009,62(18):36-37.LIU Chunlei. Temperature and humidity control systemfor electric power equipment[J]. Chinese Hi-tech Enterprises,2009,62(18):36-37.
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