International Journal of Electronics and Microcircuits
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P-ISSN: 2708-4493, E-ISSN: 2708-4507

2024, Vol. 4, Issue 2, Part A


Real-time grid stability and control using FPGA-optimized smart power microcircuits with adaptive voltage regulation


Author(s): Rūta Kavaliauskas

Abstract: Ensuring grid stability in modern power systems is a critical challenge, particularly with the integration of renewable energy sources, increased load variability, and rising energy demands. This study focuses on utilizing FPGA (Field-Programmable Gate Array)-optimized smart power microcircuits integrated with adaptive voltage regulation techniques to address these challenges. FPGAs, known for their parallel processing capabilities, flexibility, and real-time responsiveness, are ideal for implementing adaptive control algorithms for dynamic grid stability. The proposed system incorporates real-time monitoring, dynamic voltage scaling (DVS), and fault-tolerant control strategies. Experimental results demonstrate significant improvements in grid stability, including reduced response time, lower energy losses, and enhanced resilience to load fluctuations. This research highlights the potential of FPGA-optimized smart power microcircuits as a scalable and efficient solution for real-time grid stability and control.

DOI: 10.22271/27084493.2024.v4.i2a.55

Pages: 38-43 | Views: 48 | Downloads: 21

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International Journal of Electronics and Microcircuits
How to cite this article:
Rūta Kavaliauskas. Real-time grid stability and control using FPGA-optimized smart power microcircuits with adaptive voltage regulation. Int J Electron Microcircuits 2024;4(2):38-43. DOI: 10.22271/27084493.2024.v4.i2a.55
International Journal of Electronics and Microcircuits
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