"Mastering Power Electronics Design: A Comprehensive Practitioner's Guide"
Introduction:
Power electronics is a dynamic field that plays a crucial purpose in a wide straddle of applications, from large motor drives and power supplies to power transmittance equipment and utility systems. However, despite its significance, the practical knowledge and design considerations within this field are often not adequately peritrichous in today's electrical engineering curricula. This is where "Power Electronics Design: A Practitioner's Guide" steps in as a worthwhile resource for professionals, students, and engineers in various industries.
This hold defines power electronics as the practical application of high-power semiconductor engineering science to various devices and systems. It delves into the critical aspects of power electronics that are typically not part of mainstream physical phenomenon technology education. The primary feather aim is to provide virtual plan information to those already in the arena or aspiring to join it. It serves as a cite guide that offers insights into the intricacies of major power electronics design, allowing readers to learn from experience rather than making costly mistakes.
This comprehensive steer caters to a diverse audience. It is tailored for:
1. Design Architects and Engineers: Professionals in the power electronics industry will find this hold invaluable for expanding their design knowledge and enhancing their skills.
2. Engineering Students: Whether enrolled in two- or four-year electrical technology and technology technology programs, this hold offers a ready-made reference for students at various levels of their education.
3. Experienced Engineers: Engineers working in industries outside of power electronics but requiring a foundational understanding of the subject will impart this book to be a sententious and useful resource.
Readers of this reserve wish to appreciate several nam features that typeset it apart:
1. Realistic Style:The book adopts a practical and straightforward piece of writing style, avoiding unnecessary jargon or esoteric information, making it accessible to a broad readership.
2. Illustrations: Many simple illustrations accompany the discussions, portion to visualize complex concepts and design considerations.
3.Real-World Examples: The book provides vivid examples of costly design errors, allowing readers to learn from others' mistakes and avoid potential pitfalls.
The author's inspiration for this book draws from their early experiences with the "Westinghouse Electric Car Transmission and Statistical Distribution cites Manual," which is drenched in theory and practice in the field of electric car power generation, transmission, and distribution. The author aims to provide a similar level of comprehensive reporting and practical guidance for power electronics, making this a priceless reference for professionals in the field.
The author acknowledges their extensive experience in providing grooming courses during their undefined with Robicon Corporation. These courses covered the first harmonic topics such as transformers, transmission lines, ignite transfer, transients, and semiconductors. The courses were well-received by design engineers, gross revenue engineers, technicians, and editors. The author's power to transmit undefined information in an intelligible manner was highly appreciated.
Furthermore, the writer has contributed educational lessons to IEEE National Meetings and local presentations, which have been organized and structured in this reserve to cater to a comprehensive and organized resource.
In conclusion, "Power Electronics Design: A Practitioner's Guide" is a comprehensive and practical imagination for anyone interested in mastering the sphere of power electronics. It offers worthy insights, real-world examples, and a wealth of plant knowledge, making it an essential site for professionals and a comprehensive learning tool for students and engineers from various disciplines.
Contents Chapter:
Chapter 1: Electric Power
In this foundational chapter, you'll explore the fundamental concepts of electric power, providing you with a strong understanding of the core principles that underpin the world of power electronics. Gain insights into the generation, distribution, and utilization of electric power, laying the groundwork for the subsequent chapters.
Chapter 2: Power Apparatus
Chapter 2 focuses on the essential power apparatus that form the building blocks of power electronics. Discover the key components, devices, and systems used in various power electronics applications. This chapter is your gateway to understanding the hardware and infrastructure of power electronics.
Chapter 3: Analytical Tools
To design power electronics systems effectively, you need the right tools. Chapter 3 equips you with a range of analytical tools that are indispensable for your work. Learn about techniques, methods, and software that will aid in the analysis and design of power electronics systems.
Chapter 4: Feedback Control Systems
Feedback control systems are a crucial aspect of power electronics design. Chapter 4 delves into the theory and practice of feedback control, allowing you to understand how to maintain stability and control within power electronics systems. Explore control theory and its application in this chapter.
Chapter 5: Transients
Transients are sudden, short-lived events that can have a significant impact on power electronics systems. Chapter 5 is dedicated to understanding transients in power electronics and how to mitigate their effects. Learn how to protect your systems from sudden changes and voltage spikes.
Chapter 6: Traveling Waves
In the final chapter, we venture into the world of traveling waves in power electronics. You'll explore the dynamics of electrical waves as they propagate through systems, gaining insights into their behavior and how to work with them effectively.
Each chapter in "Power Electronics Design: A Practitioner's Guide" contributes to your journey in mastering power electronics. From understanding the basics of electric power to dealing with complex phenomena like transients and traveling waves, this book offers a comprehensive guide to empower your knowledge and enhance your skills in the world of power electronics design.
Information:
File Name : Power Electronics Design.
File Size : 1.36 MB.
By : Keith H. Sueker.