Partial Discharge Optical Fiber Sensing System Based on Heterodyne Interference

WANG Ruizhi; JIANG Jun; SHI Rongbin; LI Xiaohan; ZHANG Chaohai

doi:10.13334/j.0258-8013.pcsee.241024

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Partial Discharge Optical Fiber Sensing System Based on Heterodyne Interference

更新时间：2026-02-05

- Partial Discharge Optical Fiber Sensing System Based on Heterodyne Interference
- Vol. 45, Issue 18, Pages: 7403-7416(2025)
- 作者机构：
  
  1. 江苏省新能源发电与电能变换重点实验室(南京航空航天大学),江苏省,南京市,211106
  2. 中国能源建设集团江苏省电力设计院有限公司,江苏省,南京市,211102
  3. 国网江苏省电力有限公司电力科学研究院,江苏省,南京市,211103
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.241024
  CLC：
- Published：2025
- 稿件说明：
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WANG Ruizhi, JIANG Jun, SHI Rongbin, et al. Partial Discharge Optical Fiber Sensing System Based on Heterodyne Interference[J]. 2025, 45(18): 7403-7416.
DOI：

WANG Ruizhi, JIANG Jun, SHI Rongbin, et al. Partial Discharge Optical Fiber Sensing System Based on Heterodyne Interference[J]. 2025, 45(18): 7403-7416. DOI： 10.13334/j.0258-8013.pcsee.241024.

摘要

光纤传感技术应用于局部放电超声检测具有显著优势，但易受光强等参量影响，导致输出不稳定、信噪比低等问题。为此，该文构建光强/偏振无关的外差干涉光纤传感系统，结合仿真与试验，分析传感系统的相位噪声与激光光源线宽、光纤光程差的关联关系和变化规律；搭建标准的灵敏度测试平台以及局部放电试验平台，对比验证外差干涉型光纤传感器在灵敏度以及超声检测方面的优势。通过优化系统参数组合，超声频段响应信噪比均值提升24.72 dB；经过对比测试，所研制的光纤传感系统在20~120 kHz检测频段内相较于压电传感器的峰值灵敏度提升15 dB以上，均值灵敏度提升13 dB以上；针对于绝缘缺陷模型的局部放电检测，所研制的光纤传感器相较于R15α传感器的峰值信噪比提升12.37 dB。研究结果明确了外差干涉型局部放电光纤传感系统性能的关键制约因素并提出参数优化方法，研制出新型高灵敏度局部放电光纤超声传感器。

Abstract

Optical fiber sensing technology has significant advantages in partial discharge (PD) ultrasonic detection

but it is susceptible to the variations in parameters such as light intensity

which can lead to output instability and low signal-to-noise ratio (SNR). To address these issues

this paper constructs the heterodyne interferometric optical fiber sensing system that is independent from light intensity and polarization. The system's phase noise and its correlation with the laser linewidth and optical path difference are analyzed through simulations and experiments. The standard sensitivity testing platform and PD experimental platform are established

and the advantages of the heterodyne interferometric optical fiber sensor in terms of sensitivity and ultrasonic detection are compared and validated. By optimizing the system parameter combination

the average SNR in the ultrasonic frequency band is improved by 24.72 dB. Comparative tests show that the developed optical fiber sensing system exhibits a peak sensitivity improvement of more than 15 dB and an average sensitivity improvement of more than 13 dB over piezoelectric transducers (PZT) within the 20~120 kHz detection frequency band. For PD detection in insulation-defect models

the developed optical fiber sensor shows a peak SNR improvement of 12.37 dB compared to the R15α sensor. This study identifies the key constraints on the performance of heterodyne interferometric PD optical fiber sensing systems and proposes parameter optimization methods and a new high-sensitivity PD optical fiber ultrasonic sensor.

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