电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2015年
13期
137-143
,共7页
程嵩%张国庆%郭志忠%申岩%于文斌
程嵩%張國慶%郭誌忠%申巖%于文斌
정숭%장국경%곽지충%신암%우문빈
全光纤电流互感器%分布参数模型%偏心问题%比差
全光纖電流互感器%分佈參數模型%偏心問題%比差
전광섬전류호감기%분포삼수모형%편심문제%비차
all-fiber optic current transformer (FOCT)%distributed parameter model%eccentricity problem%ratio error
针对全光纤电流互感器受导体偏心影响的问题,在光学电流互感器传感部分的分布参数模型的基础上,建立了与之对应的全光纤电流互感器传感环分布参数模型。基于传感环的分布参数模型提出了全光纤电流互感器受导体偏心影响的产生机理,该机理揭示了全光纤电流互感器受到导体偏心影响的原因,即为传感光纤中的线性双折射和传感环上不均匀磁场的共同作用。同时,分析了被测导体偏心对测量准确度的影响,得出偏心只会影响全光纤电流互感器比差的大小而不会影响线性度的结论。实验结果与理论分析一致,表明所提出的理论和结论的正确性。
針對全光纖電流互感器受導體偏心影響的問題,在光學電流互感器傳感部分的分佈參數模型的基礎上,建立瞭與之對應的全光纖電流互感器傳感環分佈參數模型。基于傳感環的分佈參數模型提齣瞭全光纖電流互感器受導體偏心影響的產生機理,該機理揭示瞭全光纖電流互感器受到導體偏心影響的原因,即為傳感光纖中的線性雙摺射和傳感環上不均勻磁場的共同作用。同時,分析瞭被測導體偏心對測量準確度的影響,得齣偏心隻會影響全光纖電流互感器比差的大小而不會影響線性度的結論。實驗結果與理論分析一緻,錶明所提齣的理論和結論的正確性。
침대전광섬전류호감기수도체편심영향적문제,재광학전류호감기전감부분적분포삼수모형적기출상,건립료여지대응적전광섬전류호감기전감배분포삼수모형。기우전감배적분포삼수모형제출료전광섬전류호감기수도체편심영향적산생궤리,해궤리게시료전광섬전류호감기수도도체편심영향적원인,즉위전감광섬중적선성쌍절사화전감배상불균균자장적공동작용。동시,분석료피측도체편심대측량준학도적영향,득출편심지회영향전광섬전류호감기비차적대소이불회영향선성도적결론。실험결과여이론분석일치,표명소제출적이론화결론적정학성。
In view of the influence of conductor eccentricity on the all-fiber optic current transformers (FOCTs), the corresponding distributed parameter model for the sensing coils of FOCTs is developed based on the distributed parameter model for sensor sections of optic current transformers.Based on the distributed parameter model of sensing coils,the influence mechanism of conductor eccentricity on FOCTs is proposed.The mechanism reveals the reasons for leading to the eccentricity problem of FOCT,i.e.,the combined effect of sensing fiber linear birefringence and nonuniform magnetic field on the sensing coil.The influence of measured conductor eccentricity on the measuring accuracy is analyzed.The conclusion that the eccentricity could only influence the ratio error of FOCT instead of linearity is obtained.The results of theoretical analysis are in agreement with experimental results,which shows the correctness of the theory and conclusion proposed. This work is supported by Heilongjiang Provincial Natural Science Foundation of China(No.E201237)and Fundamental Research Funds for the Central Universities(No.HIT.NSRIF.2013018).
