基于ZigBee无线通信的烤房控制仪的设计与实现
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摘要
针对密集烤房系统中烤房控制仪无线组网的需求,提出了基于ZigBee无线通信的烤房控制仪设计方案。以STM32作为主控芯片,后备电池供电方式可保证系统断电时数据自动存储,采用串口触屏使得人机接口更加友好直观、操作方便,串口ZigBee无线模块满足了烤房群星型网络的组网设计需求,利用变频器驱动循环风机无级调速提升了烘烤的精准控温和节能高效,最后,实验测试结果证明该控制仪性能稳定可靠,有效提升了烤房群的管理水平。
In order to meet the requirement of wireless networking of curing barn controller in bulk curing barn system, a design scheme of curing barn controller based on ZigBee wireless communication is proposed. Using STM32 as the main control chip. Backup battery power supply mode can ensure automatic data storage when the system is powered off. Serial port touch screen makes the man-machine interface more friendly, intuitive and easy to operate. Serial port ZigBee wireless module meets the network design requirements of star network in roasting barn group. The stepless speed regulation of the recirculating fan driven by the frequency converter improves the precision temperature control and energy saving of the roasting. Finally, The experimental results show that the controller is stable and reliable, and effectively improves the management level of the roasting barn group.
In order to meet the requirement of wireless networking of curing barn controller in bulk curing barn system, a design scheme of curing barn controller based on ZigBee wireless communication is proposed. Using STM32 as the main control chip. Backup battery power supply mode can ensure automatic data storage when the system is powered off. Serial port touch screen makes the man-machine interface more friendly, intuitive and easy to operate. Serial port ZigBee wireless module meets the network design requirements of star network in roasting barn group. The stepless speed regulation of the recirculating fan driven by the frequency converter improves the precision temperature control and energy saving of the roasting. Finally, The experimental results show that the controller is stable and reliable, and effectively improves the management level of the roasting barn group.
引文
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[14] 陈章进,张建峰,李翰超,等.基于ZigBee技术的教学设备系统设计[J].电子测量技术,2015,38(8):99-103.
[15] 魏鑫,韦海成. 基于ZigBee 的远程环境监测人机交互系统设计[J]. 现代电子技术,2017,40(18):156-160.
[2] 谢守勇,王靖,罗舒.基于GPRS的烟叶烘烤温湿度远程监控系统[J].中国农机化学报,2016,37(6):118-121.
[3] 李志强,黄明英,郭华新.基于GSM的烟叶烘烤远程监控系统设计[J].安徽农业科学,2010,38(34):19852-19853.
[4] 胡凤忠,罗志年,李俊.基于无线通信的密集烤房群远程监控系统[J].计算机测量与控制,2011,19(11):2689-2691.
[5] 蔡剑华,熊锐,黄国玉. 基于无线传输的烤房温湿度远程监测系统[J]. 烟草科技,2016,49(10):81-86.
[6] 意法半导体. 器件手册 STM32F103x8[EB/OL]. [2015-10].https://www.st.com/resource/en/datasheet/cd00161566.pdf.
[7] 宫长荣,陈江华,吴洪田,等. 密集烤房[M].北京:科学出版社,2010.
[8] 比亚迪.BM3452-B系列说明书[EB/OL].[2016-11-08].https://wenku.baidu.com/view/d232d23b e3bd960590c69ec3d5bbfd0a7956d5a4.html.
[9] 胡凤忠,黎添笑,高金定.智能化密集烤房控制器的设计与实现[J].计算机测量与控制,2011,19(12):2952-2954.
[10] 宋珍伟,李莉,黄友锐.基于CC2630的低成本井下监测系统研究[J].电气自动化,2016,38(4):54-55,112.
[11] 康国磊,黄春,江泳.智能烟叶烤房控制系统的设计[J].安徽农业科学,2009,37(14):6616-6617,6621.
[12] 王瑜,杨武成,李腾飞,等.基于单片机的节能饮水机控制系统设计[J].国外电子测量技术,2017,36(6):75-80.
[13] 高明远,杜诗超.基于RS-485总线的烟叶烤房温度控制器[J].仪表技术与传感器,2007(8):29-30,32.
[14] 陈章进,张建峰,李翰超,等.基于ZigBee技术的教学设备系统设计[J].电子测量技术,2015,38(8):99-103.
[15] 魏鑫,韦海成. 基于ZigBee 的远程环境监测人机交互系统设计[J]. 现代电子技术,2017,40(18):156-160.