[1] 柯锟,田双双,张晓星,等.环保型介质HFO-1234ze(E)的分解路径及其化学反应速率分析[J].电工技术学报, 2021,36(17):3553-3563. [2] 谢小荣, 贺静波, 毛航银, 等. “双高”电力系统稳定性的新问题及分类探讨[J]. 中国电机工程学报, 2021, 41(2):461-475. [3] 张子扬, 张宁, 杜尔顺, 等. 双高电力系统频率安全问题评述及其应对措施[J]. 中国电机工程学报, 2022, 42(1):1-25. [4] 江秀臣, 许永鹏, 李曜丞, 等. 新型电力系统背景下的输变电数字化转型[J]. 高电压技术, 2022, 48(1):1-10. [5] 杨庆, 孙尚鹏, 司马文霞, 等. 面向智能电网的先进电压电流传感方法研究进展[J]. 高电压技术, 2019, 45(2): 349-367. [6] STRASSER T, ANDREN F, KATHAN J, et al. A review of architectures and concepts for intelligence in future electric energy systems[J]. IEEE Transactions on Industrial Electronics, 2015, 62(4):2424-2438. [7] 杨庆,董富宁,罗曼丹,等.宽频电压感知方法及其数据应用[J].高电压技术, 2021,47(6):1969-1983. [8] 胡泉伟,黄海波,袁鹏,等. 基于罗氏线圈原理的 500 kV 电网过电压监测系统的研究[J]. 高压电器,2011,47(5):59-64. [9] 何为,罗睿希,汪金刚,等.分式 D-dot 电压互感器原理及试验研究[J]. 中国电机工程学报,2014,34(15):2445-2451. [10] LOCKWOOD D J,PAVESI L.Silicon fundamentals for photonics applications[M]//PAVESI L,LOCKWOOD D J.Silicon Photonics.Berlin:Springer,2004:1-50. [11] XUE F,HU J,WANG S X,et al.Electric field sensor based on piezoelectric bending effect for wide range measurement[J] . IEEE Transactions on Industrial Electronics,2015,62(9):5730-5737. [12] WU X M,HUANG J A.A sensitivity-enhanced electric field sensor with electrostatic field bias[C]// Proceedings of 2017 IEEE SENSORS.Glasgow:IEEE,2017:1-3. [13] 司文荣,傅晨钊,赵丹丹,等.电网暂态过电压传感耦合技术述评[J].高电压技术, 2016, 42(4):1124-1141. [14] 杜林,常阿飞,司马文霞,等.一种非接触式架空输电线路过电压传感器[J].电力系统自动化,2010,34(11):93-97. [15] WANG S J,TAN F L,ZHAO H L,et al. Research on overvoltage monitoring technology for transmission lines[J]. IOP Conference Series: Materials Science and Engineering,2019,486(1). [16] 韩睿. 基于 Pockels 效应的无源非接触式光学过电压传感器及测量系统的研究[D]. 重庆: 重庆大学, 2017. [17] 尹露. 基于陶瓷电容绝缘子的配电网感应雷过电压监测方法研究[D]. 重庆: 重庆大学, 2019. [18] 廖芳. 基于电场感应的非接触式电压传感器分布电容特性的研究[D]. 南昌:东华理工大学, 2019. [19] LAWRENCE D,DONNAL J S,LEEB S,et al. Non-contact measurement of line voltage[J].IEEE Sensors Journal,2016,16(24):8990-8997. [20] ZHU K,LEE W K,PONG P W T.Non-contact capacitive-coupling-based and magnetic-field-sensing-assisted technique for monitoring voltage of overhead power transmission lines[J]. IEEE Sensors Journal,2017,17(4):1069-1083. [21] 李开成,胡为兵,刘建锋.基于光电电压互感器的电压实时相位测量方案的研究[J].高压电器,2008,44(1):34-36. [22] HAN R,YANG Q,SIMA W X,et al. Non-contact measurement of lightning and switching transient overvoltage based on capacitive coupling and pockels effects[J]. Electric Power Systems Research,2016,139:93-100. [23] 杜林,黄旭,司马文霞,等.基于容性设备泄漏电流的电网电压分频测量方法分析[J].高电压技术, 2012, 38(6):1307-1312. [24] 黄国良,钱昊,徐东辉,等.容性设备带电检测接口在电力系统中的应用[J].电气应用,2018,37(22):67-70. [25] 吴兵.新型漏电检测技术在低压配电系统中的应用[J].工程技术研究,2019,4(15):223-224. [26] 邵慧丽.电压谐波对MOA泄漏电流检测方法影响分析[J].电瓷避雷器,2012(1):94-98. [27] 赵海鹏,唐邦义,谷倩倩,等.基于相位变换法的MOA阻性电流检测与故障诊断相关系数法研究[J].电工技术,2020(3):42-45,50. [28] 司电成. 电场积分法输电线路电压测量方法与系统研究[D].重庆:重庆大学,2018. [29] 高参. D-dot 电压传感器设计与三相电压测量系统研究[D]. 重庆: 重庆大学, 2015. [30] JAKUBOWSKI J,KUCHTA M,KUBACKI R. D-dot sensor response improvement in the evaluation of high-power microwave pulses[J]. Electronics,2021,10(2):123. [31] 李智宇,李昊,曹鹤飞,等.基于D-dot传感器的弓网离线放电瞬态电场时域测试方法[J].强激光与粒子束,2022,34(12):70-79. [32] 汪金刚,赵鹏程,王谦,等.基于电场逆问题的双差分式D-dot过电压传感器研究[J].中国电机工程学报,2020,40(16):5363-5373. [33] 李春霞.一体化D-dot探头在传输线电压测量中的设计和应用[J].强激光与粒子束,2018,30(9):88-91. [34] ZHAO P C,WANG J G,WANG Q,et al. Simulation, design, and test of a dual-differential D-dot overvoltage sensor based on the field-circuit coupling method[J]. Sensors,2019,19(15):3413. [35] WU Q, ZHANG X C. Ultrafast electro-optic field sensors[J]. Applied physics letters, 1996, 68(12): 1604-1606. [36] MEIER T, KOSTRZEWA C, PETERMANN K, et al. Integrated optical E-field probes with segmented modulator electrodes[J]. Journal of Lightwave Technology, 1994, 12(8): 1497-1503. [37] 曾嵘, 俞俊杰, 牛犇,等. 用于宽频带时域电场测量的光电集成电场传感器[J]. 中国电机工程学报, 2014, 34(29): 5234-5243. [38] ZENG R, WANG B, YU Z, et al. Design and application of an integrated electro-optic sensor for intensive electric field measurement[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2011, 18(1): 312-319. [39] ZENG R, YU J, WANG B, et al. Study of an integrated optical sensor with mono-shielding electrode for intense transient E-field measurement[J]. Measurement, 2014, 50: 356-362. [40] WANG H,ZENG R,ZHUANG C,et al.Measuring AC/DC hybrid electric field using an integrated optical electric field sensor[J]. Electric Power Systems Research, 2020, 179: 106087.1-106087.7. [41] 孙尚鹏. 基于铌酸锂电光效应干涉式强电场传感器研制及其温湿度适应性研究[D]. 重庆: 重庆大学, 2019. [42] SALEH B E, TEICH M C, SALEH B E. Fundamentals of photonics[M]. New York, USA: Wiley, 1991. [43] KUMADA A, HIDAKA K. Directly high-voltage measuring system based on Pockels effect[J]. IEEE Transactions on Power Delivery, 2013, 28(3): 1306-1313. [44] YANG Q, SUN S, HE Y, et al. Intense electric-field optical sensor for broad temperature-range applications based on a piecewise transfer function[J]. IEEE Transactions on Industrial Electronics, 2019, 66(2): 1648-1656. [45] 李正安. 基于压电效应的步行集能技术研究与应用[D]. 长春: 吉林建筑大学, 2022. [46] KAWAMURA K, SAITO H, NOTO F. Development of a high voltage sensor using a piezoelectric transducer and a strain gage[J]. IEEE Transactions on Instrumentation & Measurement, 1988, 37(4): 564-568. [47] XU X, TANG J, HE L, et al. Design of a novel optical voltage sensor for ultra-high voltage application[C]//Asia-Pacific Power and Energy Engineering Conference. Wuhan, China: IEEE, 2009: 1-4. [48] BOHNERT K M, KOSTOVIC J, PEQUIGNOT P. Fiber optic voltage sensor for 420 kV electric power systems[J]. Optical Engineering, 2000, 39(11): 3060-3067. [49] RIBEIRO B D A, WERNECK M M, SILVA-NETO J L D. Novel optimization algorithm to demodulate a PZT-FBG sensor in AC high voltage measurements[J]. IEEE Sensors Journal, 2013, 13(4): 1259-1264. [50] DANTE A, BACURAU R M, SPENGLER A W, et al. A temperature-independent interrogation technique for FBG sensors using monolithic multilayer piezoelectric actuators[J]. IEEE Transactions on Instrumentation & Measurement, 2016, 65(11): 2476-2484. [51] FUSIEK G, NIEWCZAS P. Laboratory investigation of an intensiometric dual FBG-based hybrid voltage sensor[C]//24th International Conference on Optical Fibre Sensors. Curitiba, Brazil: International Society for Optics and Photonics, 2015: 96341H. [52] XUE F, HU J, WANG S X, et al. Electric field sensor based on piezoelectric bending effect for wide range measurement[J]. IEEE Transactions on Industrial Electronics, 2015, 62(9): 5730-5737. [53] 柴彬,刘飞,江平开,等.面向电力设备检测与诊断的压电材料及器件[J].中国电力,2021,54(10):105-116. [54] 黄子军. 压电陶瓷和石英晶体谐振器复合的谐振式电压传感技术研究[D].南京:南京理工大学,2020. [55] 储昭志,彭春荣,任仁,等.一种扭转谐振式MEMS电场传感器[J].传感器与微系统,2019,38(6):83-85,88. [56] ZHU T, ZHOU L, LIU M,et al. High sensitive space electric field sensing based on micro fiber interferometer with field force driven gold nanofilm. Scientific Reports,2015(5):15802. [57] KAINZ A, STEINER H, SCHALKO J,et al. Distortion-free measurement of electric field strength with a MEMS sensor. Nature Electronic,2018(1):68-73. [58] RONCIN A, SHAFAI C, SWATEK D R. Electric field sensor using electrostatic force deflection of a micro-spring supported membrane[J]. Sensors and Actuators A: Physical, 2005,123-124: 179-184. [59] CHEN T, SHAFAI C, RAJAPAKSE A, et al. Micromachined AC/DC electric field sensor with modulated sensitivity[J]. Sensors and Actuators A: Physical, 2016,245: 76-84. [60] HAN Z F,XUE F, HU J, et al. Trampoline-Shaped Micro Electric-Field Sensor for AC/DC High Electric Field Measurement[J]. IEEE Transactions on Industrial Electronics, 2022,69(12): 13791-13798. [61] LI J,LIU J,PENG C,et al. Design and testing of a non-contact MEMS voltage sensor based on single-crystal silicon piezoresistive effect[J]. Micromachines, 2022,13(4): 619. [62] 何为,江泽佳, 谭邦定. 二维非均匀各向异性人体心电场正问题和逆问题的有限元法分析[J]. 生物医学工程学杂志, 1989(3): 157-162. [63] 郭飞. 电磁场有限元法数值分析中的若干技术与恒定电场逆问题的研究[D]. 西安: 西安交通大学, 1999. [64] 杨帆, 何为, 杨浩, 等. 高压瓷质绝缘子电场逆问题的研究及其应用[J]. 电网技术, 2006,30(8): 36-40. [65] 杨帆, 何为, 付永长, 等. 高压输电线环境评估中的电场逆问题研究[J]. 中国电机工程学报, 2009, 29(25): 98-103. [66] 周强. 输电线路空间电磁场中场-源逆推方法与场式传感器研究[D]. 重庆: 重庆大学, 2016. [67] 杨杰. 基于电场逆问题的三相D-dot传感器设计与测量系统研究[D]. 重庆: 重庆大学, 2016. [68] 高参, 汪金刚, 杨杰, 等. 基于电场逆问题的D-dot电压传感器的设计与仿真[J]. 电工技术学报, 2016, 31(4): 36-42. [69] 刘淮通. 用于架空输电线路电压反演的工频电场测量方法研究[D]. 重庆: 重庆大学, 2017. [70] 同济大学计算数学教研室. 现代数值计算:2版[M].北京: 人民邮电出版社, 2014. [71] 朱萍萍, 张贵新, 罗承沐, 等. 数值积分法在电压互感器中的应用及误差分析[J]. 高电压技术, 2008,34(5):919-924. [72] CHAVEZ P P, JAEGER N A F, RAHMATIAN F. Accurate voltage measurement by the quadrature method[J]. IEEE Transactions on Power Delivery, 2003, 18(1): 14-19. [73] FAN J R,CHENG A,GUO A F,et al. Evaluation of electric field integral voltage measurement method of transmission line based on error transmission and uncertainty analysis[J]. Sensors, 2021, 21(13): 4340. [74] WANG J G,YAN X J,ZHONG L,et al. Simulation and test of a contactless voltage measurement method for overhead lines based on reconstruction of integral node parameters[J]. Sensors, 2020, 20(1): 246. [75] WANG J,LI X,WANG Q,et al. Research on transmission line voltage measurement method based on Gauss-kronrod integral algorithm[J]. Measurement science & technology, 2020, 31(8): 85103. [76] 胡雪琪. 基于电场积分法的输电线电压测量方法研究[D]. 重庆: 重庆大学, 2017. [77] 汪金刚, 颜晓军, 李想, 等. 基于一种Gauss型积分算法的输电线路电压测量方法与试验[J]. 电工技术学报, 2021, 36(19): 3978-3986. |