Frequency Domain Methods for Accuracy Assessment of Wideband Models in Electromagnetic Transient Stability Studies

Modern power systems face several problems at frequencies above the range of traditional stability studies due to the increasing penetration of power electronic devices. This phenomenon has been recently referred to as electromagnetic transient stability and is a growing issue in systems with power electronic converters at any power and voltage level, such as FACTS, high-voltage DC, interfaces for grid connection of renewable energies, custom power devices for power quality enhancement, among others. The study of power systems stability is usually carried out by simulation tools that represent the power system through phasor models. However, due to the faster dynamics of modern systems, the harmonic interaction among the controllers, converters, and electric power components, recent research results suggest that some stability analyses should be conducted with models suitable for wider frequency ranges, e.g., electromagnetic transient models. This paper reviews the use of frequency domain methods to analyze the influence of the modeling approach of passive power components on the results of electromagnetic transient stability studies. © 1986-2012 IEEE.

Electromagnetic transients; power system harmonics; power system stability; wideband modeling Electric power system control; Frequency domain analysis; HVDC power transmission; Power converters; Power electronics; Power quality; Transients; Electric power components; Electro-magnetic transient; Electromagnetic transient model; Power electronic converters; Power quality enhancement; Power system harmonics; Power system stability; Wideband modeling; Electric power system stability

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