Voltage Stability Control Strategy for Wireless Transmitter and Receiver  Devices Powered by Hybrid Solar-Wind Sources Using Virtual Synchronous  Machine Approach

Hassan Sabeeh Hammoud Al-Hajjaj

Voltage Stability Control Strategy for Wireless Transmitter and Receiver Devices Powered by Hybrid Solar-Wind Sources Using Virtual Synchronous Machine Approach

Authors

Hassan Sabeeh Hammoud Al-Hajjaj

Keywords:

Virtual Synchronous Generator, Grid stability challenges in high-penetration renewable energy systems, frequency control, voltage regulation, virtual inertia, smart grid, decentralized control, adaptive

Abstract

This experimental study systematically examines the application of Virtual Synchronous Generator(VSG) technology to address critical Issues of stability in modern power grids with high renewableenergy penetration. As power systems transition from traditional synchronous generators to renewable

References

IEA. (2021). "Renewable Energy Market Update

Kundur, P., Balu, N. J.,&Lauby, M. G. (1994). Power System Stability and Control. McGraw-Hill

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Published

2025-07-30

How to Cite

Hassan Sabeeh Hammoud Al-Hajjaj. (2025). Voltage Stability Control Strategy for Wireless Transmitter and Receiver Devices Powered by Hybrid Solar-Wind Sources Using Virtual Synchronous Machine Approach . Journal of Computational Analysis and Applications (JoCAAA), 34(7), 294–322. Retrieved from https://www.eudoxuspress.com/index.php/pub/article/view/3340