低功耗风光互补电源控制系统

以无线电监测基站为工程背景,设计了一种为其供电的风光互补电源控制系统,设计过程中着重考虑了系统的低功耗.系统通过LIN总线实现对分布式电池组、太阳能电池板和风机的控制.设计了一种无干扰的电源切换方法.基站和工作站之间需要进行远程数据传输,以太网控制器经由无线AP实现工作站与基站之间的数据传输和对基站的远程监控....

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Bibliographic Details
Published in电子技术应用 Vol. 40; no. 2; pp. 59 - 61
Main Author 刘龙飞 贾科进 杜太行 钱春阳 王文贞
Format Journal Article
LanguageChinese
Published 河北工业大学控制科学与工程学院,天津,300130%河北工业大学信息工程学院,天津,300130%天津市农业科学院信息研究所,天津,300192 2014
Subjects
LIN总线
低功耗
无线电监测基站
风光互补
低功耗
LIN bus
LIN总线
wind-solar hybrid
low-power consumption
无线电监测基站
radio monitoring station
风光互补
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ISSN0258-7998

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Summary:以无线电监测基站为工程背景,设计了一种为其供电的风光互补电源控制系统,设计过程中着重考虑了系统的低功耗.系统通过LIN总线实现对分布式电池组、太阳能电池板和风机的控制.设计了一种无干扰的电源切换方法.基站和工作站之间需要进行远程数据传输,以太网控制器经由无线AP实现工作站与基站之间的数据传输和对基站的远程监控.
Bibliography:On the engineering background of the radio monitoring station, this paper designs a wind- solar hybrid power con- trol system, the low power consumption is emphatically considered during the design process. Control for the distributed battery packs, solar panels and wind driven generator, is implemented by the LIN bus. A kind of non-interference power switching method is proposed and designed. The Ethernet controller achieves data transmission between workstation and base station and the remote monitoring for the base station via the wireless AP.
Liu Longfei ,Jia Kejin, Du Taihang, Qian Chunyang, Wang Wenzhen (1 .School of Control Science and Engineering, Hebei University of Technology, Tianjin 300130, China; 2.School of Information Engineering, Hebei University of Technology, Tianjin 300130,China; 3.Tianjin Academy of Agricultural Sciences, Tianjin 300192, China)
11-2305/TN
radio monitoring station ;wind-solar hybrid;low-power consumption;LIN bus
ISSN:0258-7998