English

Understanding Small-Signal Impedance Matrices in Different Reference Frames

Systems and Control 2026-07-07 v1

Abstract

This paper systematically analyzes the relationships among the dqdq-domain, αβ\alpha\beta-domain, and sequence-domain representations used in small-signal impedance modeling of voltage-source converters (VSCs). It is shown that the AC impedance matrix expressed with dqdq-complex and αβ\alpha\beta-complex variables leads to different formulations in the sequence domain. The study demonstrates that asymmetric systems exhibit different physical phenomena in the rotating and stationary reference frames; therefore, the transformations between these frames are not physically consistent in such cases. It is also demonstrated that the so-called modified sequence-domain impedance is equivalent to the universal impedance model in the frequency domain. The analysis clarifies several notational inconsistencies found in the literature. Finally, a physical interpretation is presented highlighting the implications of using stationary and rotating reference frames for stability analysis of power converters.

Cite

@article{arxiv.2607.06416,
  title  = {Understanding Small-Signal Impedance Matrices in Different Reference Frames},
  author = {J. Pedra},
  journal= {arXiv preprint arXiv:2607.06416},
  year   = {2026}
}

Comments

10 pages, 4 figures