Review of small-signal modeling methods including frequency-coupling dynamics of power converters
Over the past years, the linearized modeling techniques for power converters have been
continuously developed to capture the small-signal dynamics beyond half the switching …
continuously developed to capture the small-signal dynamics beyond half the switching …
Modeling of wind turbine generators for power system stability studies: A review
Wind power generation is making an increasingly significant contribution to global electricity
production. The high penetration of wind power greatly affects the stability of modern power …
production. The high penetration of wind power greatly affects the stability of modern power …
Harmonic stability in power electronic-based power systems: Concept, modeling, and analysis
X Wang, F Blaabjerg - IEEE Transactions on Smart Grid, 2018 - ieeexplore.ieee.org
The large-scale integration of power electronic based systems poses new challenges to the
stability and power quality of modern power grids. The wide timescale and frequency …
stability and power quality of modern power grids. The wide timescale and frequency …
Modeling of three-phase dynamic systems using complex transfer functions and transfer matrices
L Harnefors - IEEE Transactions on Industrial Electronics, 2007 - ieeexplore.ieee.org
A compilation of methods for modeling and analysis of three-phase dynamic systems-such
as AC machines, resistance-inductance-capacitance components, and power electronic …
as AC machines, resistance-inductance-capacitance components, and power electronic …
Modeling of LCC-HVDC systems using dynamic phasors
M Daryabak, S Filizadeh, J Jatskevich… - … on Power Delivery, 2014 - ieeexplore.ieee.org
This paper presents an average-value model of a line-commutated converter-based HVDC
system using dynamic phasors. The model represents the low-frequency dynamics of the …
system using dynamic phasors. The model represents the low-frequency dynamics of the …
Revisiting power systems time-domain simulation methods and models
JD Lara, R Henriquez-Auba… - … on Power Systems, 2023 - ieeexplore.ieee.org
The changing nature of power systems dynamics is challenging present practices related to
modeling and study of system-level dynamic behavior. While developing new techniques …
modeling and study of system-level dynamic behavior. While developing new techniques …
Dynamic system equivalents: A survey of available techniques
UD Annakkage, NKC Nair, Y Liang… - … on Power Delivery, 2011 - ieeexplore.ieee.org
This paper presents a brief review of techniques available for reducing large systems to
smaller equivalents. This paper is divided into high frequency equivalents, low frequency …
smaller equivalents. This paper is divided into high frequency equivalents, low frequency …
Dynamic modeling of networks, microgrids, and renewable sources in the dq0 reference frame: A survey
With increasing the penetration of distributed and renewable sources into power grids, and
with increasing the use of power electronics-based devices, the dynamic behavior of large …
with increasing the use of power electronics-based devices, the dynamic behavior of large …
Modeling and stability analysis of inverter-based microgrid under harmonic conditions
Microgrids (MGs) operate under harmonic conditions due to the integration of nonlinear
loads. The autonomous harmonic compensation control of inverter-interfaced DG has been …
loads. The autonomous harmonic compensation control of inverter-interfaced DG has been …
Transient response analysis of inverter-based microgrids under unbalanced conditions using a dynamic phasor model
Microgrids (MGs) are often unbalanced due to the integration of single-phase generators,
unbalanced loads, and asymmetrical faults. To better analyze such MGs, this paper presents …
unbalanced loads, and asymmetrical faults. To better analyze such MGs, this paper presents …