Intelligent Self-Adjusting Protection Algorithm for Smart LVDC Distribution Networks

Dong Wang; Pengfei Hu; Yu Cao; Mazheruddin Syed

doi:10.23919/PCMP.2024.000221

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Intelligent Self-Adjusting Protection Algorithm for Smart LVDC Distribution Networks

更新时间：2025-11-23

- Intelligent Self-Adjusting Protection Algorithm for Smart LVDC Distribution Networks
- Protection and Control of Modern Power Systems Issue 6, Pages: 145-159(2025)
- 作者机构：
  
  1. School of Electrical Engineering, Zhejiang University,Hangzhou,China
  2. State Grid Zhejiang Electric Power Co., Ltd., Hangzhou Power Supply Company,Hangzhou,China
  3. WSP,Glasgow,UK
- 作者简介：
- 基金信息：
- DOI：10.23919/PCMP.2024.000221
  CLC：
- Published：2025
- 稿件说明：
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Dong Wang, Pengfei Hu, Yu Cao, et al. Intelligent Self-Adjusting Protection Algorithm for Smart LVDC Distribution Networks[J]. Protection and Control of Modern Power Systems, 2025, (6): 145-159.
DOI：

Dong Wang, Pengfei Hu, Yu Cao, et al. Intelligent Self-Adjusting Protection Algorithm for Smart LVDC Distribution Networks[J]. Protection and Control of Modern Power Systems, 2025, (6): 145-159. DOI： 10.23919/PCMP.2024.000221.

摘要

Abstract

With the increasing penetration of renewables

low voltage (LV) distribution networks face rising demands to accommodate an increasing range of renewable energies. Low voltage direct current (LVDC) distribution networks are considered as a viable approach to alleviate the strain on existing distribution networks. Nonetheless

establishing reliable and selective protection solutions is recognized as crucial challenges to facilitate the wide adoption of LVDC. Several existing protection algorithms focus on significant fault currents

fixed threshold settings

and high sampling frequency to establish effective coordination. However

these approaches are either constrained in low fault current scenarios or require expensive data acquisition techniques. To address such issues

this paper develops a novel self-adjusting based protection scheme. The method only utilizes the inherent post-transient voltage derivative (PTVD) sign and value with a self-adjusting mechanism to distinguish faults. The proposed method overcomes the selectivity limitations of existing voltage-based solutions when a lower sampling frequency is employed. The effectiveness is validated on an LVDC test network constructed in PSCAD/EMTDC and an RT-Box-based hardware test bed. Results under injected noise signals further demonstrate the robustness of the proposed method.

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