A Novel Time-frequency Domain Reflectometry Method Based on S-transform for Power Cable Defect Localization

Title:A Novel Time-frequency Domain Reflectometry Method Based on S-transform for Power Cable Defect Localization

Volume: 17

Author(s): Lei Zhang*

Affiliation:

• Shandong Vocational College of Industry, Shandong/256414, China

Abstract: Background: The large-scale aging of cross-linked polyethylene (XPLE) leads to an increase in the frequency of power cable accidents, which poses a threat to the safe operation of the power grid.

Objective: Traditional time-frequency domain reflectometry (TFDR) techniques for fault localization in power cables are susceptible to cross-terms interference, which makes it impossible to accurately locate defects. To overcome the limitation, this paper has proposed a novel cable fault localization method based on S-transform.

Method: The method employs S-transform to perform time-frequency analysis on the collected signals of TFDR, mapping the time-domain signals into time-frequency domain signals. Then, cross-correlation of the time-frequency domain signals is estimated, allowing for accurate positioning of cable defects.

Results: The results of the field experiments conducted on a 10 kV cross-linked polyethylene cable with artificially introduced defects have demonstrated that the proposed method could effectively locate the cable defects with small absolute error.

Conclusion: Compared to existing TFDR methods, the proposed method has been found to be free from interference of cross-terms, resulting in higher reliability and smaller blind spots for detecting cable defects.

Cite this article as:

Zhang Lei*, A Novel Time-frequency Domain Reflectometry Method Based on S-transform for Power Cable Defect Localization, Recent Advances in Electrical & Electronic Engineering 2024; 17 () . https://dx.doi.org/10.2174/0123520965266890231125133247