Abstract:
The practical use of optical sensors to measure direct high voltages can be limited by their high sensitivity. A new optical high voltage measurement technique for applyi...Show MoreMetadata
Abstract:
The practical use of optical sensors to measure direct high voltages can be limited by their high sensitivity. A new optical high voltage measurement technique for applying to high voltage levels up to 400 kV in a wide bandwidth between DC to 30 MHz is developed. A prototype of the optical voltage transformer is assembled using Pockels crystals in a multisegmented arrangement, a super luminescent diode (SLD) light source and a special optical fiber link. A good performance of linearity and accuracy is obtained for DC, AC, lightning impulse and step voltage measurements, In addition, an excellent agreement is observed between the measured and predicted values.
Published in: IEEE Transactions on Power Delivery ( Volume: 15, Issue: 1, January 2000)
DOI: 10.1109/61.847221
Citations are not available for this document.
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Cites in Papers - IEEE (63)
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1.
V. M. Zavyalov, N. N. Smoktal, A. S. Velilyaev, "Study of Frequency Characteristics of a Voltage Sensor Based on System of Galvanically Coupled Bodies", 2024 International Ural Conference on Electrical Power Engineering (UralCon), pp.1-5, 2024.
2.
V. M. Zavyalov, A. S. Velilyaev, N. N. Smoktal, "Study of Electromagnetic Compatibility of a Voltage Sensor Based on a System of Galvanically Coupled Bodies with a Wireless Energy Transmission System", 2024 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM), pp.342-347, 2024.
3.
Kaixuan Li, Boya Zhang, Ziyue Yang, Xinyu Jiang, Minghan Yao, Xingwen Li, "Spatiotemporal Measurement of Charge at Ceramic Substrate–Silicone Gel Interface in Medium-Voltage Power Modules", IEEE Transactions on Power Electronics, vol.39, no.12, pp.15360-15375, 2024.
4.
Mingzhu Yao, Shuang Liao, Fuchang Lin, Zhaozhi Long, Ruiqi Liu, Yi Liu, "Overview of Broadband Measurement Characteristics of Voltage Sensing Devices", 2024 IEEE 7th International Electrical and Energy Conference (CIEEC), pp.3238-3245, 2024.
5.
Jun Zhao, Min Yan, Shenguo Xu, Xiaohan Sun, "Fiber Optic Voltage Sensor Based on Capacitance Current Measurement With Temperature and Wavelength Error Correction Capability", IEEE Sensors Journal, vol.22, no.24, pp.23829-23836, 2022.
6.
Jun Zhao, Min Yan, Shenguo Xu, Xiaohan Sun, "Study on Performance of Novel Optical Voltage Transformer Based on Current Measurement", IEEE Transactions on Instrumentation and Measurement, vol.71, pp.1-6, 2022.
7.
Jun Li, Yifan Lin, Nan Xie, "Design of optical voltage sensor based on electric field regulation and rotating isomerism electrode", 2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE), pp.1-4, 2022.
8.
Ye Yuanhao, Wang Tingting, Luo Bing, Zhou Jinhui, Song Guoliang, Wen Yonghua, "Optimal Simulation Research of MEMS Electric Field Measurement Sensor Based on Piezoelectric-Piezoresistive Coupling", 2021 11th International Conference on Power and Energy Systems (ICPES), pp.295-299, 2021.
9.
Binxian Lu, Lijuan Song, Jun Xiong, Shan Gao, "The Study on a New Method for Measurement of the Surge Voltage of 10/700 μs Based on Electric Induction of the Metal Slice", IEEE Transactions on Instrumentation and Measurement, vol.70, pp.1-9, 2021.
10.
Yuewu Shi, Wei Wang, Zhizhen Zhu, Jing Yang, Xin Nie, Yinhui Cheng, "A Bias Controllable Birefringence Modulation Measurement System for Subnanosecond Pulsed Electric Field", IEEE Transactions on Instrumentation and Measurement, vol.70, pp.1-11, 2021.
11.
Dimitrios Tzelepis, Vasileios Psaras, Eleni Tsotsopoulou, Sohrab Mirsaeidi, Adam Dyśko, Qiteng Hong, Xinzhou Dong, Steven M. Blair, Vassilis C. Nikolaidis, Vassilis Papaspiliotopoulos, Grzegorz Fusiek, Graeme M. Burt, Pawel Niewczas, Campbell D. Booth, "Voltage and Current Measuring Technologies for High Voltage Direct Current Supergrids: A Technology Review Identifying the Options for Protection, Fault Location and Automation Applications", IEEE Access, vol.8, pp.203398-203428, 2020.
12.
Zhaoyang Li, Haiwen Yuan, Jianxun Lv, Luxing Zhao, Yong Cui, "Analysis of Distorted Electric Field Using ZigBee-Based Optical Measurement System", IEEE Transactions on Instrumentation and Measurement, vol.69, no.6, pp.3442-3450, 2020.
13.
Victor H. Aristizabal-Tique, Nicolás A. Gómez-Montoya, Hernán de J. Salazar-Escobar, Francisco J. Vélez-Hoyos, Camilo A. Flórez-Velasquez, "Performance Parameters Estimation of Pockels High-Voltage Sensors by Means of Numerical Optimization", IEEE Transactions on Instrumentation and Measurement, vol.69, no.4, pp.1540-1546, 2020.
14.
D.V. Topolsky, I.G. Topolskaya, Y.G. Plaksina, "Digital Measurement System to Substation Automation Systems", 2019 International Russian Automation Conference (RusAutoCon), pp.1-6, 2019.
15.
Yu Zhang, Qing Yang, Shijun Xie, Chenmeng Zhang, "Mechanism and Application of Arrester Block Voltage Division to Lightning Transient Voltage Monitoring in Substation Transformers", IEEE Transactions on Electromagnetic Compatibility, vol.61, no.3, pp.689-696, 2019.
16.
Zhihe Fu, Qifeng Xu, Xiaowei Cai, Wenfeng He, "Defects and Improvements of Pockels Transducer Voltage Segmentation", IEEE Sensors Journal, vol.19, no.1, pp.138-143, 2019.
17.
Dujing Wang, Nan Xie, "An Optical Voltage Sensor Based on Wedge Interference", IEEE Transactions on Instrumentation and Measurement, vol.67, no.1, pp.57-64, 2018.
18.
Xian Su, Qifeng Xu, Hao Chen, "A new optical voltage sensor for linear measurement", 2017 2nd IEEE International Conference on Integrated Circuits and Microsystems (ICICM), pp.147-150, 2017.
19.
Qing Ma, Kaitian Huang, Zhanqing Yu, Zheyao Wang, "A MEMS-Based Electric Field Sensor for Measurement of High-Voltage DC Synthetic Fields in Air", IEEE Sensors Journal, vol.17, no.23, pp.7866-7876, 2017.
20.
Asmaa M. Saber, Jala El-Azab, Salah H. El-Naby, Rabah Y. Amer, "Utilization of transversal Pockels effect in intense electric field sensing", 2017 14th International Conference on Smart Cities: Improving Quality of Life Using ICT & IoT (HONET-ICT), pp.57-61, 2017.
21.
Wenxia Sima, Rui Han, Qing Yang, Shangpeng Sun, Tong Liu, "Dual LiNbO3 Crystal-Based Batteryless and Contactless Optical Transient Overvoltage Sensor for Overhead Transmission Line and Substation Applications", IEEE Transactions on Industrial Electronics, vol.64, no.9, pp.7323-7332, 2017.
22.
Qiao Tan, Qifeng Xu, Linyang Chen, Yifan Huang, "A New Method to Improve Internal Electric Field Distributions of Pockels OVS", IEEE Sensors Journal, vol.17, no.13, pp.4115-4121, 2017.
23.
Yifan Huang, Qi Feng Xu, Qiao Tan, Zhikun Xu, "An OVT Based on Conoscopic Interference and Position Sensitive Detector", IEEE Sensors Journal, vol.17, no.2, pp.340-346, 2017.
24.
Qiao Tan, Qifeng Xu, Nan Xie, Chao Li, "A New Optical Voltage Sensor Based on Radial Polarization Detection", IEEE Transactions on Instrumentation and Measurement, vol.66, no.1, pp.158-164, 2017.
25.
Yu Zhang, Tiantang Xiang, Rui Han, "Application of non-contact optic voltage sensor based on Pockels effect in ±800 kV convertor station", 2016 IEEE International Conference on High Voltage Engineering and Application (ICHVE), pp.1-4, 2016.
26.
Gwenaël Gaborit, Laurane Gillette, Guillaume Revillod, Jean Dahdah, Lionel Duvillaret, Christophe Volat, Christian Pons, Emmanuel Bic, Laura Giannini, Erwan Dumont, "Electrical diagnostics of high voltage devices via high resolution near field analysis", 2016 IEEE Electrical Insulation Conference (EIC), pp.555-558, 2016.
27.
Woo-Sung Chu, Sung-Moon Kim, Xiaoping Wu, Liu Wen, Min-Cheol Oh, "Optical Voltage Sensors Based on Integrated Optical Polarization-Rotated Reflection Interferometry", Journal of Lightwave Technology, vol.34, no.9, pp.2170-2174, 2016.
28.
Yu Zhang, Xia Xiao, Xu Yan, "Review of research on measurement technologies of DC high voltage", 2015 7th International Conference on Information Technology and Electrical Engineering (ICITEE), pp.179-183, 2015.
29.
Qi Wang, Ji Xia, Xu Liu, Yong Zhao, Jin Li, Haifeng Hu, "A Novel Current Sensor Based on Magnetic Fluid and Fiber Loop Cavity Ring-Down Technology", IEEE Sensors Journal, vol.15, no.11, pp.6192-6198, 2015.
30.
Pierre Jarrige, Jean Dahdah, Frédéric Lecoche, Lionel Duvillaret, Gwenaël Gaborit, Laurane Gillette, "Optical antennas for a complete electric field characterization", 2015 IEEE Electrical Insulation Conference (EIC), pp.471-474, 2015.
Cites in Papers - Other Publishers (39)
1.
祝俊男 ZHU Junnan, 谭巧 TAN Qiao, "110 kV纵向光学电压互感器的结构优化与设计", Infrared and Laser Engineering, vol.53, no.9, pp.20240208, 2024.
2.
Shen Chen, Hengxin He, Ying Chen, Zhenyu Liu, Siyuan Xie, Junru Che, Kun He, Weijiang Chen, "Measurement of inhomogeneous electric field based on electric field-induced second-harmonic generation", Measurement, pp.114576, 2024.
3.
Jiarong Wang, Bo He, "Modulation of electrodes on the sensitivity of the Pockels effect", Measurement Science and Technology, vol.35, no.5, pp.055202, 2024.
4.
Seongmin Choi , Seunggi Ham , Jonghyeon Ryu , Sungbin Park , Jung-Hwa Kim , YeongHwan Choi , Kyoung-Jae Chung , Y.S. Hwang , Y.-c. Ghim , " Measurement of the voltage evolution on a load of X-pinch plasma system using the Pockels effect ", Journal of Instrumentation , vol. 18 , no. 11 , pp. C11019 , 2023 .
5.
Jun Yang, Ziming Fan, Yue Yang, Xiayao Zhao, "Introduction on Current Application of Voltage Transformer", E3S Web of Conferences, vol.375, pp.03028, 2023.
6.
Andrzej Wetula, Andrzej Bień, Mrunal Parekh, "New Sensor for Medium- and High-Voltage Measurement", Energies, vol.14, no.15, pp.4654, 2021.
7.
Haiying Lu, Yingna Li, Jiahong Zhang, "Design and Analysis of Broadband LiNbO3 Optical Waveguide Electric Field Sensor with Tapered Antenna", Sensors, vol.21, no.11, pp.3672, 2021.
8.
Kodai Mitsuhashi, Atsushi Komuro, Kento Suzuki, China Natsume, Akira Ando, "Spatiotemporal variations of the electrical potential on surface dielectric barrier discharges", Plasma Sources Science and Technology, vol.30, no.4, pp.04LT02, 2021.
9.
Philip W.T. Pong, Anuradha M. Annaswamy, Benjamin Kroposki, Yingchen Zhang, Ram Rajagopal, Gil Zussman, H. Vincent Poor, "Cyber-enabled grids: Shaping future energy systems", Advances in Applied Energy, vol.1, pp.100003, 2021.
10.
S. Choi, A.A. Sugianto, D.-g. Lee, H.J. Woo, S.H. Hong, Y.-c. Ghim, "Polar-coordinate-based data analysis scheme for high-voltage measurement system using the Pockels electro-optic effect", Journal of Instrumentation, vol.15, no.03, pp.C03030, 2020.
11.
Yanxiao He, Qing Yang, Shangpeng Sun, Mandan Luo, Renyuan Liu, Gang-Ding Peng, "A multi-point voltage sensing system based on PZT and FBG", International Journal of Electrical Power & Energy Systems, vol.117, pp.105607, 2020.
12.
Lorenzo Sabug, Aysar Musa, Flavio Costa, Antonello Monti, "Real-time boundary wavelet transform-based DC fault protection system for MTDC grids", International Journal of Electrical Power & Energy Systems, vol.115, pp.105475, 2020.
13.
"Electro‐optics", Crystal Optics, pp.265, 2019.
14.
Xing Fan, Weijiang Chen, Qiaogen Zhang, Ming Chen, Tao Wen, Xiaohan Zhang, Zhehao Pei, Tianyu He, "An electric field measurement method based on electro-optical modulation for corona discharge in air", Review of Scientific Instruments, vol.90, no.8, pp.084704, 2019.
15.
Pengcheng Zhao, Jingang Wang, Qian Wang, Qianbo Xiao, Ruiqiang Zhang, Shucheng Ou, Yaqin Tao, "Simulation, Design, and Test of a Dual-Differential D-Dot Overvoltage Sensor Based on the Field-Circuit Coupling Method", Sensors, vol.19, no.15, pp.3413, 2019.
16.
Jie Zhou, Qifeng Xu, Qiao Tan, "An optical voltage transducer based on radial polarization demodulation and four quadrant detection", Measurement Science and Technology, vol.30, no.4, pp.045202, 2019.
17.
Jingang Wang, Yanhang Zhao, Wenjiang Li, Xianglong Zeng, Juan Tang, Yao Wang, Xudong Deng, "Research on Transmission Line Voltage Measurement Method of D-Dot Sensor Based on Gaussian Integral", Sensors, vol.18, no.8, pp.2455, 2018.
18.
Guangrui Tang, "Research on the Adjacent Charged Object Monitoring Device Based On MEMS Electric Field Sensing Technology", IOP Conference Series: Materials Science and Engineering, vol.382, pp.042047, 2018.
19.
Yifan Huang, Qifeng Xu, Kun-Long Chen, Jie Zhou, "Optimization of Pockels electric field in transverse modulated optical voltage sensor", Measurement Science and Technology, vol.29, no.5, pp.055101, 2018.
20.
Hala M Abdel Mageed, Faisal Q Alenezi, "Traceability of DC and AC high voltage measurements using voltage divider calibration", International Journal of Electrical Engineering Education, pp.002072091875483, 2018.
21.
Jane Lehr, Pralhad Ron, "Pulsed Voltage and Current Measurements" in Foundations of Pulsed Power Technology, pp.493-546, 2018.
22.
"Ferroelectric Ceramics: Devices and Applications", Ferroelectrics, pp.195, 2017.
23.
Nikola Stan, Frederick Seng, LeGrand Shumway, Rex King, Stephen Schultz, "Non-perturbing voltage measurement in a coaxial cable with slab-coupled optical sensors", Applied Optics, vol.56, no.24, pp.6814, 2017.
24.
Josiah Firth, Zourab Brodzeli, Mihai Ciobotaru, Toan Phung, François Ladouceur, Leonardo Silvestri, "Accurate optical measurement of high voltage waveform using novel optical liquid crystal based sensor", Sensors and Actuators A: Physical, 2017.
25.
Changsheng Li, "Optical voltage sensors: principle, problem and research proposal", Optical Communication, Optical Fiber Sensors, and Optical Memories for Big Data Storage, vol.10158, pp.101581N, 2016.
26.
Rui Han, Qing Yang, Wenxia Sima, Yu Zhang, Shangpeng Sun, Tong Liu, Shaoqing Chen, "Non-contact measurement of lightning and switching transient overvoltage based on capacitive coupling and pockels effects", Electric Power Systems Research, 2016.
27.
N. Patel, D. W. Branch, E. Schamiloglu, S. Cular, "Comparative study of 0° X-cut and Y + 36°-cut lithium niobate high-voltage sensing", Review of Scientific Instruments, vol.86, no.8, pp.085001, 2015.
28.
Hua Yun Yang, "Construction Principle and Application Test of 220kV Self-Healing Optical Voltage Sensor", Applied Mechanics and Materials, vol.511-512, pp.116, 2014.
29.
Jiahong Zhang, Fushen Chen, Bao Sun, Kaixin Chen, "Nanosecond transient electric field measurement system using an integrated electro-optic sensor", Optical Engineering, vol.53, no.11, pp.117101, 2014.
30.
Li Jing Li, Wen Hui Zhang, Hui Li, Rui Pan, "An Overview of Optical Voltage Sensor Based on Pockels Effect", Advanced Materials Research, vol.694-697, pp.987, 2013.
