Frontiers in Energy Research (Jan 2023)

Mixed-potential-function-based large-signal stability analysis of DC microgrid with constant power loads

  • Pengyu Wang,
  • Jianfeng Zhao,
  • Kangli Liu,
  • Kangli Liu,
  • Cheng Jin,
  • Wenzhe Chen

DOI
https://doi.org/10.3389/fenrg.2022.1052789
Journal volume & issue
Vol. 10

Abstract

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With the development of power grid technology, a large number of constant power loads (CPL) are introduced into the power grid system. The negative damping characteristic of CPL poses a great challenge to the stability of power grid under the condition of large signal disturbance. This paper focuses on the large signal stability and dynamic response characteristics of DC microgrid with CPL. The mixed potential function (MPF) method is adopted to model the large signal characterstic of load converter controlled by the traditional PI control strategy and the new virtual DC motor (VDM) control strategy. The large signal stability criteria and the asymptotic stability region of the DC microgrid system under the two control strategies are derived. The dynamic response characteristics of the DC microgrid are compared under three large signal operation conditions of the load step, load linear change and the load fault. The results show that VDM control strategy can effectively improve dynamic response characteristics of the DC microgrid system compared with those of PI control, and enhance the stability and anti-interference ability of the DC microgrid system.

Keywords