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This book provides an in-depth study of primary frequency control (PFC) in photovoltaic (PV) and wind energy systems, focusing on their configurations, control loops, and mathematical modeling. It explores the challenges of integrating these renewable sources into power grids, emphasizing their impact on frequency stability. Various PFC techniques, including deloading strategies and energy storage solutions, are analyzed and compared to assess their effectiveness in different operating conditions. The book also examines advanced control methods, including AI-based approaches, to enhance grid stability and improve response dynamics. Through a balance of theoretical insights and practical applications, this work serves as a comprehensive resource for researchers, engineers, and students seeking to optimize frequency regulation in renewable energy systems.