基于ARM8和ZigBee的风电场数据采集系统的设计
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摘要
针对传统风电场数据采集装置数据采集效率低、实时性差以及数据传输繁琐等问题,设计了一种基于ARM8和ZigBee的风电场数据采集系统。该系统以ARM8为控制核心并为主控器嵌入Linux操作系统,运用多种传感器协调工作,实现对风向、风速、温度以及气压等参数的测量,通过ZigBee以及GPRS无线技术实现数据的无线传输。实际应用结果表明,该系统可实现数据无人采集、实时存储、实时显示以及历史查询等功能,节约了人力成本,具有一定的推广应用价值。
Aiming at the problems of low data collection efficiency,poor real-time performance,and tedious data transmission in traditional wind farm data acquisition devices,a wind farm data acquisition system based on ARM8 and ZigBee was designed.The system used the ARM8 as the control core and the main controller was embedded in the Linux operating system.It used a variety of sensors to work together to measure parameters such as wind direction,wind speed,temperature,and air pressure.The wireless data transmission was achieved through ZigBee and GPRS wireless technologies.The practical application results show that the system can realize the functions of unmanned data collection,real-time storage,real-time display and historical query,saving manpower cost and having certain application value.
Aiming at the problems of low data collection efficiency,poor real-time performance,and tedious data transmission in traditional wind farm data acquisition devices,a wind farm data acquisition system based on ARM8 and ZigBee was designed.The system used the ARM8 as the control core and the main controller was embedded in the Linux operating system.It used a variety of sensors to work together to measure parameters such as wind direction,wind speed,temperature,and air pressure.The wireless data transmission was achieved through ZigBee and GPRS wireless technologies.The practical application results show that the system can realize the functions of unmanned data collection,real-time storage,real-time display and historical query,saving manpower cost and having certain application value.
引文
[1] 岳乐鹏.风电场风速风向采集及无线通信[D].哈尔滨:哈尔滨理工大学,2010.
[2] 王奇.风电场数据采集与处理软件设计[D].北京:北京交通大学,2012.
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[4] 徐海鹏,孙冬梅,何响.基于ARM11的风电场实时采集监测系统[J].机床与液压,2015,43(23):150-153.
[5] 尹诗.基于OPC的风电场数据采集系统的设计与实现[D].北京:华北电力大学,2011.
[6] 窦真兰,程孟增.大型风电机组变桨距控制系统的研究[J].电机与控制应用,2011,38(20):38-44.
[7] 杨秀暖,肖洋,陈树勇.风电场风速和发电功率预测研究[J].中国电机工程学报,2010,25(11):1-5.
[8] 齐洁.基于移动网络的风电机数据采集系统的应用研究[D].北京:华北电力大学,2017.
[9] 杨姝凡.测风塔的测风数据精度对风电场产能影响的研究[D].乌鲁木齐:新疆大学,2017.
[10] 邓力.风电场SCADA系统信息安全防护技术研究[D].成都:电子科技大学,2017.
[2] 王奇.风电场数据采集与处理软件设计[D].北京:北京交通大学,2012.
[3] 齐昕.风电场运行数据采集和监控系统的研究和应用[D].北京:华北电力大学,2014.
[4] 徐海鹏,孙冬梅,何响.基于ARM11的风电场实时采集监测系统[J].机床与液压,2015,43(23):150-153.
[5] 尹诗.基于OPC的风电场数据采集系统的设计与实现[D].北京:华北电力大学,2011.
[6] 窦真兰,程孟增.大型风电机组变桨距控制系统的研究[J].电机与控制应用,2011,38(20):38-44.
[7] 杨秀暖,肖洋,陈树勇.风电场风速和发电功率预测研究[J].中国电机工程学报,2010,25(11):1-5.
[8] 齐洁.基于移动网络的风电机数据采集系统的应用研究[D].北京:华北电力大学,2017.
[9] 杨姝凡.测风塔的测风数据精度对风电场产能影响的研究[D].乌鲁木齐:新疆大学,2017.
[10] 邓力.风电场SCADA系统信息安全防护技术研究[D].成都:电子科技大学,2017.
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