Transient response analysis in IBR-dominated power systems based on short circuit ratio
Transient response analysis in IBR-dominated power systems based on short circuit ratio
Inverter-based resources (IBRs) play a major role in transition to renewable energy, which poses new threats to the power grid’s stability and dependability. As convention a synchronous generators are replaced by IBR causes decrease in the inertia of the grid. As the penetration level rises, the grid’s strength decreases, making it more vulnerable to disturbances. This paper presents a dynamic performance evaluation of a grid-following inverter(GFLI) under varying grid strengths, characterized by different Short Circuit Ratios (SCRs). The inverter is designed with a constant DC voltage source, an L-filter interface, and a cascaded control structure that includes inner current control loops and outer power control (PQ) executed in the synchronous d q reference frame. The transient behavior and current tracking performance of the inverter are examined by applying a step change in active power reference from 10kW to 11 kW. The Key system responses are observed by time domain simulations. The analysis highlights the influence of grid strength on the Efficiency of the control strategy, especially in weak grid conditions. Results demonstrate that the proposed control strategy maintains stable operation and accurate power delivery under strong to moderately weak grid conditions, while performance degrades significantly under weak grid scenarios (SCR = 1).
Koduri, Gowtham
1595733c-2330-4dae-9e86-4655e0324e9e
Teeparthi, Kiran
6db10ff7-0640-4c6f-9244-b2cc0f6a7bfb
Yadala, Pavan Kumar
5cd41b9c-57cc-4ac1-b36d-4143d5d1a81b
Koduri, Gowtham
1595733c-2330-4dae-9e86-4655e0324e9e
Teeparthi, Kiran
6db10ff7-0640-4c6f-9244-b2cc0f6a7bfb
Yadala, Pavan Kumar
5cd41b9c-57cc-4ac1-b36d-4143d5d1a81b
Koduri, Gowtham, Teeparthi, Kiran and Yadala, Pavan Kumar
(2025)
Transient response analysis in IBR-dominated power systems based on short circuit ratio.
In 2025 International Conference on Power System.
IEEE.
6 pp
.
(In Press)
Record type:
Conference or Workshop Item
(Paper)
Abstract
Inverter-based resources (IBRs) play a major role in transition to renewable energy, which poses new threats to the power grid’s stability and dependability. As convention a synchronous generators are replaced by IBR causes decrease in the inertia of the grid. As the penetration level rises, the grid’s strength decreases, making it more vulnerable to disturbances. This paper presents a dynamic performance evaluation of a grid-following inverter(GFLI) under varying grid strengths, characterized by different Short Circuit Ratios (SCRs). The inverter is designed with a constant DC voltage source, an L-filter interface, and a cascaded control structure that includes inner current control loops and outer power control (PQ) executed in the synchronous d q reference frame. The transient behavior and current tracking performance of the inverter are examined by applying a step change in active power reference from 10kW to 11 kW. The Key system responses are observed by time domain simulations. The analysis highlights the influence of grid strength on the Efficiency of the control strategy, especially in weak grid conditions. Results demonstrate that the proposed control strategy maintains stable operation and accurate power delivery under strong to moderately weak grid conditions, while performance degrades significantly under weak grid scenarios (SCR = 1).
More information
Accepted/In Press date: 11 September 2025
Venue - Dates:
International conference on power systems, Indian Institute of Technology (IIT) Hyderabad, Hyderabad, India, 2025-12-07 - 2025-12-09
Identifiers
Local EPrints ID: 506958
URI: http://eprints.soton.ac.uk/id/eprint/506958
PURE UUID: b5297332-cd16-4649-81fb-03bc958a604c
Catalogue record
Date deposited: 24 Nov 2025 17:34
Last modified: 25 Nov 2025 03:17
Export record
Contributors
Author:
Gowtham Koduri
Author:
Kiran Teeparthi
Author:
Pavan Kumar Yadala
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics