Fundamentals Of Power Supply Design Robert A. Mammano.epub
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Fundamentals of Power Supply Design by Robert A. Mammano: A Review
If you are looking for a comprehensive and practical guide to power supply design, you may want to check out Fundamentals of Power Supply Design by Robert A. Mammano. This book is based on the knowledge and experience gained from forty years of Power Supply Design Seminars developed and presented by Unitrode and Texas Instruments, with references to TI's library of past seminar topics.
The book covers all the essential aspects of power supply design, from the basic definition and functions of a power supply, to the various circuit topologies and control algorithms, to the feedback-loop compensation and magnetic design principles. It also provides in-depth descriptions for complying with regulations for electromagnetic compatibility, human safety, and energy efficiency. Moreover, it discusses the value proposition and challenges of digital control and the practical aspects of power supply construction.
The book is written in a clear and concise style, with just enough math and ample illustrations to explain how power circuits, topologies, and control methods work. It is suitable for students, engineers, and power supply designers who want to learn or refresh their knowledge of power supply design. It is also a valuable reference for anyone who needs to understand the customer's needs or the market trends in power electronics.
You can find Fundamentals of Power Supply Design by Robert A. Mammano on Google Books[^1^], Amazon[^2^], or Open Library[^3^]. Whether you are a beginner or an expert in power supply design, this book will be a significant resource for you.
In this section, we will give you a brief overview of the main topics covered in the book. The book consists of 12 chapters and 4 appendices, as follows:
Chapter 1: Introduction to Power Supply Design. This chapter defines what a power supply is and what its main functions are. It also introduces some basic concepts and terminology used in power supply design.
Chapter 2: Voltage Regulation Techniques. This chapter explains the difference between linear and switching regulators, and the advantages and disadvantages of each type. It also describes the basic operation and characteristics of some common switching regulator topologies, such as buck, boost, buck-boost, flyback, forward, and push-pull.
Chapter 3: Control Methods for Switching Regulators. This chapter discusses the two main control methods for switching regulators: voltage mode and current mode. It compares their performance and stability criteria, and shows how to select the appropriate control method for a given application.
Chapter 4: Feedback-Loop Compensation. This chapter covers the theory and practice of feedback-loop compensation for switching regulators. It explains how to model the feedback loop using Bode plots and root locus diagrams, and how to design the compensation network using various techniques, such as pole-zero placement, lead-lag compensation, and PID controllers.
Chapter 5: Magnetic Design Principles. This chapter introduces the fundamentals of magnetic design for power supply applications. It covers the properties and types of magnetic materials, the design of inductors and transformers, and the calculation of losses and efficiency.
Chapter 6: Electromagnetic Compatibility (EMC). This chapter discusses the sources and effects of electromagnetic interference (EMI) in power supplies, and the standards and regulations for EMC compliance. It also provides some guidelines and techniques for reducing EMI emissions and improving EMI immunity.
Chapter 7: Human Safety Considerations. This chapter reviews the hazards and risks associated with power supplies, and the standards and regulations for human safety compliance. It also provides some recommendations and best practices for ensuring safe operation and handling of power supplies.
Chapter 8: Energy Efficiency Regulations. This chapter summarizes the global energy efficiency regulations for external power supplies (EPS) and active mode efficiency (AME) requirements. It also discusses some strategies and solutions for meeting or exceeding these regulations.
Chapter 9: Digital Control of Power Supplies. This chapter explores the benefits and challenges of digital control of power supplies. It compares digital control with analog control in terms of performance, flexibility, cost, and complexity. It also describes some common digital control architectures and algorithms.
Chapter 10: Practical Aspects of Power Supply Construction. This chapter covers some practical aspects of power supply construction, such as component selection, layout design, thermal management, testing, debugging, and troubleshooting.
Chapter 11: Power Supply Applications. This chapter presents some examples of power supply applications in various fields, such as industrial, automotive, medical, telecom, datacom, consumer electronics, lighting, renewable energy, etc.
Chapter 12: Future Trends in Power Supply Design. This chapter discusses some emerging trends and technologies in power supply design, such as wide bandgap semiconductors, wireless power transfer, energy harvesting, artificial intelligence, etc.
Appendix A: Glossary of Terms. This appendix provides a list of common terms and acronyms used in power supply design.
Appendix B: Useful Formulas. This appendix provides a collection of useful formulas for power supply design calculations.
Appendix C: Conversion Factors. This appendix provides a table of conversion factors for various units used in power supply design.
Appendix D: References. This appendix provides a list of references for further reading on power supply design topics.
We hope this overview has given you a glimpse of what Fundamentals of Power Supply Design by Robert A. Mammano has to offer. If you are interested in learning more about this book or purchasing a copy, please visit one of the links provided above. 248dff8e21