Research on the Intelligent Transformation of Electrical Handover Tests_Vol. 3 No. 4 (JIKE 2025)_Journal of Intelligence and Knowledge Engineering (ISSN: 2959-0620)

Home > Journal of Intelligence and Knowledge Engineering (ISSN: 2959-0620) > Vol. 3 No. 4 (JIKE 2025) >

Research on the Intelligent Transformation of Electrical Handover Tests

Download PDF

DOI: https://doi.org/10.62517/jike.202504419

Author(s)

Lei Yang, Song Lin, Jing Yan, Fangyi Xie, Fuxiang Guo

Affiliation(s)

Beijing Northstar Technology Development Co., Ltd., Beijing, China

Abstract

With the in-depth advancement of the digital transformation of power grids, the traditional handover test mode relying on manual recording and paper documentation has increasingly revealed bottlenecks in operational efficiency and data accuracy. Its intelligent transformation has become an inevitable requirement for industry development. This paper focuses on the core path of this transformation: through intelligent data acquisition devices, it breaks down the data interface barriers between different test instruments, and constructs a solution integrating automatic test data acquisition, real-time and reliable transmission, as well as data judgment and standardized report automatic generation. Practical applications show that this path has effectively achieved paperless test processes, source automation of data acquisition, and preliminary intelligence of result determination. It not only significantly improves on-site work efficiency and data quality, but also lays a solid data foundation for building complete digital equipment archives and realizing full-lifecycle refined management.

Keywords

Handover Tests; Intelligentization; Automatic Data Acquisition; Intelligent Judgment; Digital Transformation

References

[1] Huang, C. (2025). Analysis of error sources in high-voltage electrical handover tests. Energy New Observation, (11), 105-106. [2] Song, Z., Pei, D., Liang, Y., et al. (2017). Application of a USB3.0-based data acquisition system in power electronics. Electronic Devices, 40(3), 708-712. [3] Han, P., Xu, Z., & Wu, C. (2021). Research on automatic acquisition of handover test data based on Bluetooth. Electronic Technology & Software Engineering, (13), 221-222. [4] Zheng, W., & Li, C. (2022). Research and application of intelligent management and control technology for electrical equipment handover tests. Hebei Electric Power Technology, 41(4), 51-55. [5] Liu, B., Jiang, Z., Xu, D., Tang, J., & Wang, N. (2025). Application of intelligent management and control technology in electrical equipment handover tests. Electronic Technology, 54(8), 272-273. [6] Wang, L., Zhang, M., & Yin, B. (2018). Problems and solutions in high-voltage electrical handover tests for power equipment. Science and Technology Innovation, (29), 186-187. [7] Zhang, J., Cao, W., & Wu, Y. (2025). Application of communication technology in real-time monitoring and remote control. Electronic Technology, 54(2), 336-337. [8] Wang, Z., Zhou, J., Su, Y., & Zhang, Y. (2022). Design of an automatic acquisition and verification system for digital-analog unified grid equipment test data. Power System Protection and Control, 50(11), 130-138. [9] Zhao, J., Zhang, J., Song, P., Ren, M., Ji, Y., & Shang, B. (2022). An efficient cloud-edge-device collaborative power data acquisition system. Power System and Clean Energy, 38(5), 49-55. [10]Gong, D., Ma, Y., & Zhang, Y. (2023). Research on the application of intelligent technology in electrical engineering automation of power systems. Technology Innovation and Productivity, 44(11), 111-114. [11]Sun, L. (2023). Application of information technology in power system monitoring and management. Applications of IC, 40(8), 398-399.