Learn to control and modify electrical output with this cutting-edge introduction
Pulse width modulation (PWM) is a method of modifying the amount of power delivered by an electrical supply by switching the electrical signal on and off at fixed intervals. The period between 'off' cycles--the pulse--can be adjusted to ensure that a given device is receiving no more power than it can use. PWM's applications in electrical engineering are innumerable, and its role in controlling output from sustainable energy sources has only increased its importance in the modern energy landscape.
Pulse Width Modulation for Control and Automation provides a comprehensive overview of the wide-ranging control topologies. It combines the theoretical concepts underlying pulse width with the practice of controlling pulse width, covering both principles and practical applications. The result is a book which takes readers from fundamentals to experimental results.
Pulse Width Modulation for Control and Automationreaders will also find:
- Implementation guidelines pertinent to residential, commercial, and industrial energy use, and more
- Detailed simulation exercises to reinforce learning
- Coverage of control topologies including both conventional and intelligent controllers
Pulse Width Modulation for Control and Automation is a must-have for electrical engineers and professionals working in energy systems, energy storage, and adjacent fields.
About the Author:
Ashok Kumar Loganathan, PhD, is Professor and Associate Head of the Department of Electrical and Electronics Engineering, PSG College of Technology, Coimbatore, India. He is an IEEE Senior Member and has published extensively on electrical engineering and renewable energy subjects.
Albert Alexander Stonier, PhD, is Associate Professor in the School of Electrical Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India. He previously held a Postdoctoral Research Fellowship at Northeastern University, USA, and has published widely on electronics and electrical engineering subjects.