电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2015年
13期
94-100
,共7页
付科源%郑涛%张保会%白梨
付科源%鄭濤%張保會%白梨
부과원%정도%장보회%백리
电力线通信%结构%信道容量
電力線通信%結構%信道容量
전력선통신%결구%신도용량
power line communication%structure%channel capacity
提出了一种基于传输线理论的信道容量简化算法,在高带宽利用率条件下将信道容量解耦成几个独立的部分,分别用于研究传输距离、单根分支线对信道容量的影响及分支线之间的耦合效果。通过对无分支结构的电力线信道容量分析,提出了信道容量的简化算法及其适用条件。将分支线对信道容量的影响,分解成了对分支线长度及所接负载影响的研究,通过对部分典型负载特征的分析,讨论信道容量对负载的敏感性。利用统计方法研究了分支之间的耦合效应,当电力网中分支相距较远时,该耦合效果可以忽略不计,则信道容量可以看作与传输距离和分支线数量呈线性关系。仿真结果表明,该简化算法与传统计算方法具有较好的一致性,可用于分析不同网络结构对电力线传输性能的影响和信道容量的快速估计。
提齣瞭一種基于傳輸線理論的信道容量簡化算法,在高帶寬利用率條件下將信道容量解耦成幾箇獨立的部分,分彆用于研究傳輸距離、單根分支線對信道容量的影響及分支線之間的耦閤效果。通過對無分支結構的電力線信道容量分析,提齣瞭信道容量的簡化算法及其適用條件。將分支線對信道容量的影響,分解成瞭對分支線長度及所接負載影響的研究,通過對部分典型負載特徵的分析,討論信道容量對負載的敏感性。利用統計方法研究瞭分支之間的耦閤效應,噹電力網中分支相距較遠時,該耦閤效果可以忽略不計,則信道容量可以看作與傳輸距離和分支線數量呈線性關繫。倣真結果錶明,該簡化算法與傳統計算方法具有較好的一緻性,可用于分析不同網絡結構對電力線傳輸性能的影響和信道容量的快速估計。
제출료일충기우전수선이론적신도용량간화산법,재고대관이용솔조건하장신도용량해우성궤개독립적부분,분별용우연구전수거리、단근분지선대신도용량적영향급분지선지간적우합효과。통과대무분지결구적전력선신도용량분석,제출료신도용량적간화산법급기괄용조건。장분지선대신도용량적영향,분해성료대분지선장도급소접부재영향적연구,통과대부분전형부재특정적분석,토론신도용량대부재적민감성。이용통계방법연구료분지지간적우합효응,당전력망중분지상거교원시,해우합효과가이홀략불계,칙신도용량가이간작여전수거리화분지선수량정선성관계。방진결과표명,해간화산법여전통계산방법구유교호적일치성,가용우분석불동망락결구대전력선전수성능적영향화신도용량적쾌속고계。
A simplified method for channel capacity estimation is derived based on the transmission line theory under the condition of high bandwidth utilization. With this method, the channel capacity is decoupled into several independent components which may help to investigate the effects of backbone and branch,respectively.Analysis of the channel capacity of the structure without any branches reveals the applicable condition for the simplified method,while separate branch effects are investigated by considering the branch length together with the loads.According to investigations on the effects of typical loads,the load sensibility of the channel capacity is obtained.In addition,the coupling effects caused by branch interactions are studied statistically.When the branches are far apart,their coupling effects can be neglected and in this case the channel capacity is in linear relationship to the transmission distance and number of branches.The simulation results of the proposed method are in fairly good agreement with those of the conventional one showing it is applicable to analysis of the influence of different network structures on the performance of power network parameters and fast estimate of the channel capacity. This work is supported by Specialized Research Fund for the Doctoral Program of Higher Education (SRFDP) of China (No.20130201120008).