Modeling and Stability Analysis of Inverter-Based Resources 1st Edition

Modeling and Stability Analysis of Inverter-Based Resources, 1st Edition by Lingling Fan and Zhixin Miao is an essential, up-to-date guide for engineers, researchers, and graduate students working on modern power systems. Clear, authoritative, and practice-oriented, this book addresses the challenges of integrating inverter-based resources into renewable-rich grids worldwide.

Start with a compelling exploration of why inverter dynamics matter today: rising penetration of solar, wind, and battery storage is reshaping grid behavior from North America to Europe and the Asia-Pacific. The authors distill complex mathematics into actionable models, helping readers understand how inverter controls, grid-forming and grid-following strategies, and network interactions influence stability.

Inside you’ll find comprehensive coverage of modeling techniques, small-signal and transient stability analysis, control design principles, and practical examples that bridge theory with real-world grid scenarios. The narrative balances rigorous derivations with intuitive explanations, making advanced topics accessible without sacrificing depth.

Ideal for utility engineers, control designers, policy analysts, and academics, this first edition equips you to diagnose instability, design robust controllers, and assess system performance under high renewable penetration. Its regionally relevant insights make it valuable for practitioners working on microgrids, distribution systems, and transmission networks across diverse regulatory environments.

If you are building expertise in inverter-based resource integration or preparing solutions for next-generation grids, this book is a must-have reference. Order your copy today to stay ahead in the evolving landscape of power system stability and control.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.