光纤布拉格光栅
材料科学
局部放电
灵敏度(控制系统)
声学
频谱分析仪
超声波传感器
光学
信号(编程语言)
电磁干扰
光纤传感器
传感器
功率(物理)
光纤
波长
超声波
栅栏
电子工程
干扰(通信)
声发射
纤维
辐射
导波测试
光电子学
电介质
声表面波
电晕放电
电力电缆
法国号角
结构健康监测
声传感器
作者
Krishanlal Adhikari,Chiranjib Koley,Nirmal Kumar Roy,Aashish Kumar Bohre,Akshay Kumar Saha
出处
期刊:Energies
[Multidisciplinary Digital Publishing Institute]
日期:2026-03-12
卷期号:19 (6): 1429-1429
摘要
Insulation deterioration is the leading cause of premature failures in high-voltage (HV) power equipment, with partial discharge (PD) serving as a key indicator of insulation health. This study introduces a novel compact PD sensor assembly that integrates fiber Bragg grating (FBG) with an exponential acoustic horn to enhance the sensitivity of PD detection. The horn’s geometry effectively collects ultrasonic emissions from the PD, concentrating the acoustic energy to amplify the force on the FBG located at its focal point. To further enhance signal transduction, the FBG is mounted on a fixed solid structure engineered to resonate at higher ultrasonic frequencies that closely align with the dominant acoustic components generated by PD activity, ensuring improved strain amplification and optimal sensitivity. This results in measurable wavelength shifts, which are used for PD detection. A fiber Bragg grating analyzer interrogates the reflected spectra, providing real-time PD detection during HV operations. The effectiveness of the system was validated against the IEC 60270 standard method using laboratory models that emulated corona and surface discharge. The laboratory experiments demonstrated a significant sensitivity of 2.2 pm/Pa and a favorable signal-to-noise ratio of ~21 dB for the proposed sensor module. The dielectric construction of the sensor module, lightweight design, and resistance to electromagnetic interference make it suitable for harsh HV environments and the long-term condition monitoring of HV power equipment.
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