Suzhou Electric Appliance Research Institute
期刊號: CN32-1800/TM| ISSN1007-3175

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用于高幅值陡脈沖測量的電容分壓器特性研究

來源:電工電氣發(fā)布時間:2024-10-09 08:09瀏覽次數(shù):124

用于高幅值陡脈沖測量的電容分壓器特性研究

陳誠1,許雯珺2,3,4,唐利建2,傅凱2,樓俊濤2
(1 國網(wǎng)浙江省電力有限公司金華供電公司,浙江 金華 321000;
2 浙江交通技師學院 機電工程學院,浙江 金華 321015;
3 浙江師范大學 工學院,浙江 金華 321004;
4 浙江省城市軌道交通智能運維技術與裝備重點實驗室,浙江 金華 321005)
 
    摘 要:雷電沖擊試驗是電力設備電氣絕緣材料測試的重要試驗項目,具有上升時間快、幅值高的特點,對于高幅值陡脈沖電壓的測量是其核心的技術。建立了 400 kV 雷電脈沖的試驗平臺,對脈沖電容分壓器及其沖擊響應特性進行研究,分析了電容器介質材料對其頻率響應特性的影響。試驗結果表明:脈沖電容分壓器對雷電脈沖電壓具有不同的頻率響應,具體表現(xiàn)為測得的雷電電壓波形波尾處發(fā)生不同程度的畸變,同時不同介質的脈沖電容分壓器的刻度因數(shù)與理論計算值之間存在較大偏差。從介質理論出發(fā),對試驗現(xiàn)象進行了分析,研究結果為脈沖電容分壓器的深入研究提供了理論和工程應用基礎。
    關鍵詞: 電容分壓器;沖擊電壓測量;不確定度;陡脈沖;介電常數(shù);刻度因數(shù)
    中圖分類號:TM531.6     文獻標識碼:A     文章編號:1007-3175(2024)09-0051-07
 
Stduy on Capacitor Divider Characterization for High
Amplitude Steep Pulse Measurements
 
CHEN Cheng1, XU Wen-jun2,3,4, TANG Li-jian2, FU Kai2, LOU Jun-tao2
(1 Jinhua Power Supply Company of State Grid Zhejiang Electric Power Co., Ltd, Jinhua 321000, China;
2 College of Mechanical and Electrical Engineering, Zhejiang Traffic Technician College, Jinhua 321015, China;
3 College of Engineering, Zhejiang Normal University, Jinhua 321004, China;
4 Zhejiang Provincial Key Laboratory of Intelligent Operation and Maintenance Technology and
Equipment for Urban Rail Transit, Jinhua 321005, China)
 
    Abstract: Lightning impulse test is animportant test item of electrical insulating materials test with a fast rise time and high amplitude characteristics.The measurement of high-amplistude steep pulse voltage measurement is its core technology. This paper established test platform of 400 kV lightning impuls, researched on impulse capacitor dividers and its impact response characteristics,and analyzed the influence that capacitive dielectric material had on the frequency response characteristics. The results showed that impulse capacitor divider had different frequency responses to lightning impulse voltage, this phenomenon performed specifically in that the end of measured lightning voltage waveform occurred different degrees of distortion. At the same time, there was a large deviation between the scale factor and the theoretical calculated value of impulse capacitor divider with different dielectric. According the dielectric medium theory, the experimental phenomena were analyzed, and the research results provided the theoretical and engineering application basis for the further study of impulse capacitor divider.
    Key words: capacitor divider; impulse voltage measurement; uncertainty; steep pulse; dielectric constant; scale factor
 
參考文獻
[1] 陳啟榕,徐彩軍,方乙彬,等. 雷電沖擊電壓波形仿真模型建立與應用[J] . 計量與測試技術,2023,50(10) :34-37.
[2] 王凱雨,趙偉,李傳生,等.1200 kV 雷電沖擊電壓標準測量系統(tǒng)[J]. 計量學報,2024,45(1) :89-96.
[3] DEDEOGLU S, MEREV A.Realization of the Reference Composite Voltage Waveforms for Lightning Impulse(LI) Voltages Superimposed Over DC and AC Signals[J].MAPAN,2023,38(3) :597-606.
[4] 龍兆芝,李文婷,劉少波,等. 基于標準電容器的工頻、沖擊兩用型分壓器的研制[J] . 高電壓技術,2018,44(6) :1836-1843.
[5] 衛(wèi)兵, 李勇, 康軍軍, 等. 測量微秒量級脈寬方波信號的電容分壓器[J] . 強激光與粒子束,2023,35(2) :119-124.
[6] 謝施君,張晨萌,丁衛(wèi)東,等. 亞納秒級同軸電阻分壓器研制及其不確定度評定[J] . 高電壓技術,2020,46(12) :4391-4399.
[7] HOBEJOGI T, BIELA J.Coaxial capacitive voltage divider with high division ratio for high voltage pulses with very fast rise times[C]//2011 IEEE Pulsed Power Conference,2011.
[8] 王容,史嘉昭,郭璨,等.基于 CVT 的特高壓換流站復雜電磁環(huán)境下操作過電壓測量[J] . 中國電力,2022,55(10) :92-99.
[9] 衛(wèi)兵,傅貞,王玉娟,等. 脈沖功率裝置中電容分壓器的設計和應用[J] . 高電壓技術,2007,33(12) :39-43.
[10] LEWIN P L, TRAN T N, SWAFFIELD D J, et al.Zero-Phase Filtering for Lightning Impulse Evaluation: A K-Factor Filter for the Revision of IEC 60060-1 and -2[J].IEEE Transactions on Power Delivery,2008,23(1) :3-12.
[11] 陳紹東,王孝波,李斌,等. 標準雷電波形的頻譜分析及其應用[J]. 氣象,2006,32(10) :11-19.
[12] 張益民,龐瑾. 高電壓測量不確定度的評定與表示——在避雷器絕緣子高電壓測量中的應用[J] . 電瓷避雷器,2012(3) :33-41.
[13] 劉沖. 微晶白云母高溫結構變化及其對介電性能的影響[D]. 成都:成都理工大學,2009.
[14] 郭華超,鄧偉,楊波,等. 聚偏氟乙烯/膨脹石墨高介電復合材料的制備及性能[J] . 材料導報,2019,33(20) :3520-3523.
[15] 孫云龍. 基于時域介電譜和 PEA 測量的非線性絕緣介質介電特性表征[D] . 哈爾濱:哈爾濱理工大學,2021.