电工电气
電工電氣
전공전기
ELECTROTECHNICS ELECTRIC
2015年
4期
53-55
,共3页
钱超%梅军%张宸宇%郑建勇
錢超%梅軍%張宸宇%鄭建勇
전초%매군%장신우%정건용
变电站自动化%无线传感器网络%IEC 61850标准%ZigBee技术
變電站自動化%無線傳感器網絡%IEC 61850標準%ZigBee技術
변전참자동화%무선전감기망락%IEC 61850표준%ZigBee기술
substation automation%wireless sensor networks%IEC 61850%ZigBee
介绍了一种基于IEC61850和ZigBee的无线传感器网络(WSN)技术的电力系统自动化模型,该模型基于一个控制单元数小于5的变电站来构建,对ZigBee到IEC 61850的信息时延进行仿真比较,结果表明,采用ZigBee 5信道,失活周期小于0.1s,实现了IEC61850对最大传输时延0.1s的要求。
介紹瞭一種基于IEC61850和ZigBee的無線傳感器網絡(WSN)技術的電力繫統自動化模型,該模型基于一箇控製單元數小于5的變電站來構建,對ZigBee到IEC 61850的信息時延進行倣真比較,結果錶明,採用ZigBee 5信道,失活週期小于0.1s,實現瞭IEC61850對最大傳輸時延0.1s的要求。
개소료일충기우IEC61850화ZigBee적무선전감기망락(WSN)기술적전력계통자동화모형,해모형기우일개공제단원수소우5적변전참래구건,대ZigBee도IEC 61850적신식시연진행방진비교,결과표명,채용ZigBee 5신도,실활주기소우0.1s,실현료IEC61850대최대전수시연0.1s적요구。
Introduction was made to a kind of power system automatic model based on IEC61850 and ZigBee wireless sensor networks (WSN) technology. This model consisted of a small substation with less than 5 control elements, which could be used for simulation com-parison of message delay from ZigBee to IEC61850 requirements. The results show that by adopting ZigBee 5 information channel, the de-activation cycle is less than 0.1s, which fuliflls the requirements of IEC 61850 for the maximum on transmission delay not more than 0.1s.
