高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
3期
601-608
,共8页
陶涛%赵治华%潘启军%唐健%吴文力
陶濤%趙治華%潘啟軍%唐健%吳文力
도도%조치화%반계군%당건%오문력
印制电路板(PCB)型Rogowski线圈%双面对称布线%回线设计%电磁参数%互感%抗干扰特性
印製電路闆(PCB)型Rogowski線圈%雙麵對稱佈線%迴線設計%電磁參數%互感%抗榦擾特性
인제전로판(PCB)형Rogowski선권%쌍면대칭포선%회선설계%전자삼수%호감%항간우특성
printed circuit board(PCB) Rogowski coil%symmetrical double-printed wiring%returning turn design%electromagnetic parameters%mutual inductance%anti-interference property
印制电路板(PCB)型Rogowski线圈广泛用作复杂电磁环境下的电流测量传感头,其性能决定着电流测量的灵敏性和精确度。针对传统直连结构PCB型Rogowski线圈的不足,设计了一种双面对称布线PCB型Ro-gowski线圈,在PCB板双面均匀密布沿半径方向且两端带导孔的直连铜箔,通过外径导孔处小段圆弧连接布线铜箔呈对称结构,使得线圈结构对称且单匝线圈垂直于PCB板面并指向轴心;在输出端设置与绕线方向相反的回线以抵消垂直PCB平面的杂散磁场干扰。计算了线圈的电磁参数,研究了被测载流导线偏离线圈轴线及线圈外存在干扰电流时线圈与被测载流导体间的互感特性并测试了其互感值。实验测试结果与理论计算值相符,表明该PCB型Rogowski线圈一致性好,抗干扰性能强,适合于用作外界杂散磁场复杂情况下的电流测量传感头。
印製電路闆(PCB)型Rogowski線圈廣汎用作複雜電磁環境下的電流測量傳感頭,其性能決定著電流測量的靈敏性和精確度。針對傳統直連結構PCB型Rogowski線圈的不足,設計瞭一種雙麵對稱佈線PCB型Ro-gowski線圈,在PCB闆雙麵均勻密佈沿半徑方嚮且兩耑帶導孔的直連銅箔,通過外徑導孔處小段圓弧連接佈線銅箔呈對稱結構,使得線圈結構對稱且單匝線圈垂直于PCB闆麵併指嚮軸心;在輸齣耑設置與繞線方嚮相反的迴線以牴消垂直PCB平麵的雜散磁場榦擾。計算瞭線圈的電磁參數,研究瞭被測載流導線偏離線圈軸線及線圈外存在榦擾電流時線圈與被測載流導體間的互感特性併測試瞭其互感值。實驗測試結果與理論計算值相符,錶明該PCB型Rogowski線圈一緻性好,抗榦擾性能彊,適閤于用作外界雜散磁場複雜情況下的電流測量傳感頭。
인제전로판(PCB)형Rogowski선권엄범용작복잡전자배경하적전류측량전감두,기성능결정착전류측량적령민성화정학도。침대전통직련결구PCB형Rogowski선권적불족,설계료일충쌍면대칭포선PCB형Ro-gowski선권,재PCB판쌍면균균밀포연반경방향차량단대도공적직련동박,통과외경도공처소단원호련접포선동박정대칭결구,사득선권결구대칭차단잡선권수직우PCB판면병지향축심;재수출단설치여요선방향상반적회선이저소수직PCB평면적잡산자장간우。계산료선권적전자삼수,연구료피측재류도선편리선권축선급선권외존재간우전류시선권여피측재류도체간적호감특성병측시료기호감치。실험측시결과여이론계산치상부,표명해PCB형Rogowski선권일치성호,항간우성능강,괄합우용작외계잡산자장복잡정황하적전류측량전감두。
We design a new type of printed circuit board(PCB) Rogowski coil with symmetric foils.Straight copper foils with polymers in both ends are uniformly and densely covered through radius in the double-printed board.Each coil unit is formed from the symmetric foils connected by the polymers with bit arc in double-face.So each coil unit is vertical to the coil plane and direct to the axis.Meanwhile,the returning turn which is reverse to the winding direction is set up to the output end in order to suppress the stray magnetic interference vertical to the PCB plane,and the electromagnetic parameters of the coil are calculated.The mutual-inductance characteristic between the coil and the primary conductor is investigated when the conductor offsets axis and interference current exists beyond the coil.Also the value of mutual-inductance is measured under the disturbed conditions.The measurement results accord with the calculation ones.The new Rogowski coil performs well on uniformity and anti-interference property,and is suitable as the sensing head on the complex condition of stray magnetic field.