Research on Fiber-Optic Sensing Technology of Short-Circuit Test Current

LI Chuansheng; ZHAO Yeming; LIN Feipeng; LIANG Bo; WANG Jiafu; ZHAO Wei; SHAO Haiming

doi:10.12338/j.issn.2096-9015.2020.9054

Volume 65 Issue 5

Jun. 2021

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Article Navigation > Metrology Science and Technology > 2021 > 65(5): 3-7

LI Chuansheng, ZHAO Yeming, LIN Feipeng, LIANG Bo, WANG Jiafu, ZHAO Wei, SHAO Haiming. Research on Fiber-Optic Sensing Technology of Short-Circuit Test Current[J]. Metrology Science and Technology, 2021, 65(5): 3-7. doi: 10.12338/j.issn.2096-9015.2020.9054

Citation:

LI Chuansheng, ZHAO Yeming, LIN Feipeng, LIANG Bo, WANG Jiafu, ZHAO Wei, SHAO Haiming. Research on Fiber-Optic Sensing Technology of Short-Circuit Test Current[J]. Metrology Science and Technology, 2021, 65(5): 3-7. doi: 10.12338/j.issn.2096-9015.2020.9054

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Research on Fiber-Optic Sensing Technology of Short-Circuit Test Current

doi: 10.12338/j.issn.2096-9015.2020.9054

1.
National Institute of Metrology, Beijing 100029, China
2.
Beijing Information Science & Technology University, Beijing 100192, China

Available Online: 2021-05-08
Publish Date: 2021-06-24

Abstract

Abstract

A fiber-optic short-circuit current sensing method is proposed in order to solve the short-circuit test current calibration problem for the AC and DC switch electric appliance. A low-frequency simplified dynamic model of the fiber-optic current sensor was established, and the parameters of the closed-loop signal-detection system were obtained according to the time-domain and frequency-domain characteristics simulation results. The results show that the dynamic performance of the sensor can meet the requirements of tracking the measured short-circuit current. A fiber-optic current sensor calibration device was built, and the calibration results showed that the measurement accuracy of the sensor prototype was better than 0.2% in the range of 5 to 300 kA DC and 5 to 50 kA power frequency. The comparison tests of the AC short-circuit current between the fiber-optic current sensor and the common adopted Rogowski coil were performed. The results showed that for DC short-circuit currents from 6 to 100 kA, the relative error between the shunt and the fiber-optic current sensor was less than 0.3%. For the power frequency short-circuit currents from 10 to 130 kA, the relative error between the Rogowski coil and the fiber-optic current sensor does not exceed 0.2%. The research work provides a new solution for the short-circuit test current measurement.
- fiber-optic current sensor,
- short-circuit current,
- high-current measurement,
- shunt,
- Rogowski coil

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References(12)

References

[1]	班建, 高享想, 黄实, 等. 直流断路器电流开断试验技术与试验回路[J]. 高压电器, 2017, 53(6): 167-172.
[2]	高享想, 纪祥贞, 马健, 等. 大容量发电机断路器短路试验程序分析与讨论[J]. 高压电器, 2017, 53(2): 172-177.
[3]	张秀青, 傅鹏, 高格, 等. ITER直流隔离开关短路试验研究[J]. 强激光与粒子束, 2017, 29(2): 025003-1-025003-5.
[4]	王卫东, 邢文奇, 孙珂珂. 直流断路器用快速机械开关的试验研究[J]. 电工电气, 2018(9): 46-51.
[5]	邓晓峰, 屈建宇, 侯国斌, 等. 万能式断路器短时耐受性能研究综述[J]. 电器与能效管理技术, 2017(12): 1-7.
[6]	冯璟, 季慧玉. 提高断路器短时耐受电流性能的研究和分析[J]. 低压电器, 2011(10): 1-5.
[7]	蔡梦怡, 杨为, 贾转转, 等. 基于半波法的非对称短路试验电流交直流分量特征参数计算方法研究[J]. 电器与能效管理技术, 2019(11): 52-56.
[8]	国家市场监督管理总局. 低压断路器动作特性试验台校准规范: JJF 1799-2020[S]. 北京: 中国质检出版社, 2020.
[9]	王安, 姚斯立, 阎对丰, 等. 新一代的大容量试验测量系统[J]. 高压电器, 2012, 48(6): 38-43.
[10]	李传生, 李奇, 林飞鹏, 等. 光纤超大电流在线校准技术[J]. 计量技术, 2020(6): 51-54.
[11]	张朝阳, 张春熹, 王夏霄, 等. 数字闭环全光纤电流互感器信号处理方法[J]. 中国电机工程学报, 2009, 29(30): 42-46.
[12]	王巍, 吴维宁, 王雪峰. 调制器调制系数对光纤电流互感器测量精度的影响[J]. 电力系统自动化, 2012, 36(24): 64-68.