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Wireless power transmission has gained significant global interest, particularly with the rise of electric vehicles and the Internet of Things (IoT). It's a technology that allows the transfer of electricity without physical connections, offering solutions for everything from powering small devices over short distances to long-range energy transmission for more complex systems.
Wireless Power Design provides a balanced mix of theoretical knowledge and practical insights, helping you explore the potential of wireless energy transfer and harvesting technologies. The book presents a series of hands-on projects that cover various aspects of wireless power systems, each accompanied by detailed explanations and parameter listings.
The following five projects guide you through key areas of wireless power:
- Project 1: Wireless Powering of Advanced IoT Devices
- Project 2: Wireless Powered Devices on the Frontline - The Future and Challenges
- Project 3: Wireless Powering of Devices Using Inductive Technology
- Project 4: Wireless Power Transmission for IoT Devices
- Project 5: Charging Robot Crawler Inside the Pipeline
These projects explore different aspects of wireless power, from inductive charging to wireless energy transmission, offering practical solutions for real-world applications. The book includes projects that use simulation tools like CST Microwave Studio and Keysight ADS for design and analysis, with a focus on practical design considerations and real-world implementation techniques.
About the author
Dr. Mohamed Zied Chaari holds a BSc in Electronic Engineering, an MSc in Electronics Telecommunications, and a PhD in Wireless Power Transmission. He is the author of three technical books and more than 90 articles on wireless power harvesting, IoT, and related fields. A chartered electrical engineer and Senior Member of the Institute of Electrical and Electronics Engineers (IEEE), Dr. Chaari has also reviewed numerous manuscripts for IEEE, MDPI journals, and Springer.
