English

Topology Detection in Microgrids with Micro-Synchrophasors

Systems and Control 2015-02-25 v1 Data Analysis, Statistics and Probability

Abstract

Network topology in distribution networks is often unknown, because most switches are not equipped with measurement devices and communication links. However, knowledge about the actual topology is critical for safe and reliable grid operation. This paper proposes a voting-based topology detection method based on micro-synchrophasor measurements. The minimal difference between measured and calculated voltage angle or voltage magnitude, respectively, indicates the actual topology. Micro-synchrophasors or micro-Phasor Measurement Units ({\mu}PMU) are high-precision devices that can measure voltage angle differences on the order of ten millidegrees. This accuracy is important for distribution networks due to the smaller angle differences as compared to transmission networks. For this paper, a microgrid test bed is implemented in MATLAB with simulated measurements from {\mu}PMUs as well as SCADA measurement devices. The results show that topologies can be detected with high accuracy. Additionally, topology detection by voltage angle shows better results than detection by voltage magnitude.

Keywords

Cite

@article{arxiv.1502.06938,
  title  = {Topology Detection in Microgrids with Micro-Synchrophasors},
  author = {Reza Arghandeh and Martin Gahr and Alexandra von Meier and Guido Cavraro and Monika Ruh and Göran Andersson},
  journal= {arXiv preprint arXiv:1502.06938},
  year   = {2015}
}

Comments

5 Pages, PESGM2015, Denver, CO

R2 v1 2026-06-22T08:36:58.106Z