This book is an edited collection that explores the fundamental concepts of real-time simulation/hardware-in-the-loop testing using 'Typhoon HIL' for complex electrical systems. Typhoon HIL has recently emerged as a powerful tool in the rapidly growing field of ultra-high-fidelity controller-hardware-in-the-loop (C-HIL) simulations for power electronics, microgrids, and distribution networks. The book integrates the coverage of underlying theory and acclaimed methodological approaches and high-value applications of real-time simulation and hardware-in-the-loop testing-all from the perspectives…mehr
This book is an edited collection that explores the fundamental concepts of real-time simulation/hardware-in-the-loop testing using 'Typhoon HIL' for complex electrical systems. Typhoon HIL has recently emerged as a powerful tool in the rapidly growing field of ultra-high-fidelity controller-hardware-in-the-loop (C-HIL) simulations for power electronics, microgrids, and distribution networks. The book integrates the coverage of underlying theory and acclaimed methodological approaches and high-value applications of real-time simulation and hardware-in-the-loop testing-all from the perspectives of eminent researchers around the globe utilizing Typhoon HIL. This book serves as a valuable resource for engineers, academicians, researchers, experienced professionals, and research scholars engaged in /becoming familiarized with the real-time simulation of complex electrical systems using Typhoon HIL with a specific focus on hardware-in-the-loop testing.
Saurabh Mani Tripathi is currently an Associate Professor in electrical engineering and Founder & Coordinator of the Power & Energy Research Centre (Centre of Excellence) at Kamla Nehru Institute of Technology, Sultanpur, India. He is a recipient of the prestigious "IEI Young Engineers Award 2018-19" presented by the Institution of Engineers (India). He is also a recipient of the "Best Teachers Award 2020" presented by Dr. A.P.J. Abdul Kalam Technical University, Lucknow, India. He authored and edited several books and has published numerous research papers in various journals and conferences as well. He is a member of several professional societies such as the Institution of Engineers (India) and the International Association of Engineers. He is a Life Member of the Indian Society for Technical Education. His areas of current interest include renewable energy systems, electrical drives, real-time simulation, and hardware-in-the-loop testing. Francisco M. Gonzalez-Longatt is currently a Professor in Electrical Energy Systems at the Centre for Smart Grid, University of Exeter, Founder & Leader of the DIgEnSys-Lab (Digital Energy Systems Laboratory) at the University of South-Eastern Norway, Norway, where he is an honorary full professor in Electrical Power Systems. He has been involved in several industrial research projects and consultancy worldwide. In addition, he is the author/editor of numerous books (Spanish and English) and a member of the editorial board of several leading journals. His primary research interest is digital technologies as an enabler of net-zero energy systems and smart grids.
Inhaltsangabe
Introduction to Typhoon HIL.- Typhoon HIL Control Centre and Virtual HIL Device.- Control of Grid-tied Converter: Real-time Validation.- Real-time Control Validation for Multilevel Converter.- Design and Analysis of Cascaded H-Bridge Eleven-Level Inverter.- Grid-connected converter employing optimized modulation strategy coordinated with the virtual synchronous machine concept.- Development of MMC based HVDC and model for SSR analysis in Typhoon HIL.- Selective Harmonic Compensation in Active Power Filter.- RHigh Impedance Fault Modelling and Tests for Real Time Applications.- Cyber Security in Smart Grid.- Sensorless Control of Electric Motor Drives.- Validation of Relaying Techniques on HIL Platform.- Power System Protection Co-ordination and Relay-in-the-Loop.- Testing Distance Element of SEL411-L using Power Hardware-in-the-Loop.- Testing IEC61850 Sampled Values using Typhoon HIL 604.
Introduction to Typhoon HIL.- Typhoon HIL Control Centre and Virtual HIL Device.- Control of Grid-tied Converter: Real-time Validation.- Real-time Control Validation for Multilevel Converter.- Design and Analysis of Cascaded H-Bridge Eleven-Level Inverter.- Grid-connected converter employing optimized modulation strategy coordinated with the virtual synchronous machine concept.- Development of MMC based HVDC and model for SSR analysis in Typhoon HIL.- Selective Harmonic Compensation in Active Power Filter.- RHigh Impedance Fault Modelling and Tests for Real Time Applications.- Cyber Security in Smart Grid.- Sensorless Control of Electric Motor Drives.- Validation of Relaying Techniques on HIL Platform.- Power System Protection Co-ordination and Relay-in-the-Loop.- Testing Distance Element of SEL411-L using Power Hardware-in-the-Loop.- Testing IEC61850 Sampled Values using Typhoon HIL 604.
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