Abstract
This paper presents a methodology that aims at identifying virtual inertia (VI) gain limitations from virtual synchronous generators (VSGs) while maintaining the frequency stability considering the delay associated with the frequency measurement process. The phase-locked loop (PLL) is typically used for frequency estimation that is used to calculate the rate of change of frequency (RoCoF) and it drives the VI loop. The PLL is generally accompanied by a low-pass filter that aims to suppress the impact of harmonics. This filter introduces a delay that when used with the VI control loop causes stability issues for high values of VI gain. A comparison of various PLL approaches suggests that certain variants tend to permit higher value of cut-off frequencies which can be utilized to increase the VI gain limit from VSG. This study presents a method by which the upper limit on VI gain can be quantified and related to the cut-off frequency of the PLL low pass filter that is indirectly representing the delay. It is performed using small signal frequency stability analysis on the frequency domain model of the grid with virtual inertia emulating VSG. The effective maximum VI gain from VSG is explored while satisfying the frequency measurement accuracy specification considering harmonics. The results show that the requirements of reaching a stable operation with sufficient stability margins can still be met with a faster PLL-based system and the potential increases in VI support from VSG can be quantified using the proposed method. The study has been first performed on a single machine single inverter bus (SMSIB) system and is generalized to the multi-machine and multi-inverter system.
Highlights
The climate change impacts have necessitated the need of transition from traditional combustion based generation to environmentally friendly sources of energy
The small signal stability analysis are performed for the ∆Pref mentioned in Table 2, the stability results obtained are based on the system pole locations and are independent of ∆Pref
This work addresses the key question in the industry about virtual inertia support from virtual synchronous generators (VSGs) in improving the small signal frequency stability
Summary
The climate change impacts have necessitated the need of transition from traditional combustion based generation to environmentally friendly sources of energy. The inertia emulating source under current control is termed as virtual synchronous generator (VSG) It operates in grid following mode in terms of frequency control and can represent an energy storage system, PV, wind turbine or other inverter interfaced generation. The frequency estimation introduces a delay of 200 ms during signal propagation and filtering in the PLL This delay plays an important role in limiting the virtual inertia support while studying the stability of the power system.
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