电工电气
電工電氣
전공전기
ELECTROTECHNICS ELECTRIC
2014年
1期
43-46,50
,共5页
无线传感器网络%温度监测系统%ZigBee技术%GPRS技术
無線傳感器網絡%溫度鑑測繫統%ZigBee技術%GPRS技術
무선전감기망락%온도감측계통%ZigBee기술%GPRS기술
wireless sensor networks%temperature monitoring system%ZigBee technology%general packet radio service technology
为实现变电站无人职守,设计了一种基于ZigBee技术的温度实时监测系统,选择了分层式拓扑结构,在普通节点中加入了数据处理、能量等更强大的异构节点,增加了无线传输距离,减少了布线。系统结合CAN与GPRS技术实现了温度的实时监控和报警功能,有效防止了因设备温度过高造成的电力事故。
為實現變電站無人職守,設計瞭一種基于ZigBee技術的溫度實時鑑測繫統,選擇瞭分層式拓撲結構,在普通節點中加入瞭數據處理、能量等更彊大的異構節點,增加瞭無線傳輸距離,減少瞭佈線。繫統結閤CAN與GPRS技術實現瞭溫度的實時鑑控和報警功能,有效防止瞭因設備溫度過高造成的電力事故。
위실현변전참무인직수,설계료일충기우ZigBee기술적온도실시감측계통,선택료분층식탁복결구,재보통절점중가입료수거처리、능량등경강대적이구절점,증가료무선전수거리,감소료포선。계통결합CAN여GPRS기술실현료온도적실시감공화보경공능,유효방지료인설비온도과고조성적전력사고。
In order to realize substation no-man control, this paper designed a kind of temperature real-time monitoring system based on ZigBee technology, selecting layer-divided topologic structure, and adding stronger isomeric structure nodes of data processing, storage and communication etc abilities in common nodes, so as to increase wireless transmission distance, to reduce cable laying. Combined with CAN and general packet radio service (GPRS) technology, the system realized temperature real-time monitoring and alarming functions, which effectively prevents power accidents from taking place due to equipment over temperature.
