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DC Power Supplies: Power Management and Surge Protection for Power Electronic Systems [Hardback]

(The University of Waikato, Hamilton, New Zealand)
  • Formāts: Hardback, 428 pages, height x width: 234x156 mm, weight: 725 g, 39 Tables, black and white; 252 Illustrations, black and white
  • Izdošanas datums: 20-Dec-2011
  • Izdevniecība: CRC Press
  • ISBN-10: 0415802474
  • ISBN-13: 9780415802475
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  • Cena: 269,29 €
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DC Power Supplies: Power Management and Surge Protection for Power Electronic SystemsPalielināt
  • Formāts: Hardback, 428 pages, height x width: 234x156 mm, weight: 725 g, 39 Tables, black and white; 252 Illustrations, black and white
  • Izdošanas datums: 20-Dec-2011
  • Izdevniecība: CRC Press
  • ISBN-10: 0415802474
  • ISBN-13: 9780415802475
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780415802475.html
Keywords:
As we increasingly use electronic devices to direct our daily lives, so grows our dependence on reliable energy sources to power them. Because modern electronic systems demand steady, efficient, reliable DC voltage sourcesoften at a sub-1V levelcommercial AC lines, batteries, and other common resources no longer suffice. New technologies also require intricate techniques to protect against natural and manmade disasters. Still, despite its importance, practical information on this critical subject remains hard to find.

Using simple, accessible language to balance coverage of theoretical and practical aspects, DC Power Supplies, Power Management and Surge Protection details the essentials of power electronics circuits applicable to low-power systems, including modern portable devices. A summary of underlying principles and essential design points, it compares academic research and industry publications and reviews DC power supply fundamentals, including linear and low-dropout regulators. Content also addresses common switching regulator topologies, exploring resonant conversion approaches.

Coverage includes other important topics such as:





Control aspects and control theory Digital control and control ICs used in switching regulators Power management and energy efficiency Overall power conversion stage and basic protection strategies for higher reliability Battery management and comparison of battery chemistries and charge/discharge management Surge and transient protection of circuits designed with modern semiconductors based on submicron dimension transistors

This specialized design resource explores applicable fundamental elements of power sources, with numerous cited references and discussion of commercial components and manufacturers. Regardless of their previous experience level, this information will greatly aid designers, researchers, and academics who, study, design, and produce the viable new power sources needed to propel our modern electronic world.
Preface xi
Acknowledgments xiii
About the Author xv
Contributors xvii
1 Review of Fundamentals Related to DC Power Supply Design and Linear Regulators
1.1 Introduction
1-1(1)
1.2 Simple Unregulated DC Power Supply and Estimating the Essential Component Values
1-2(1)
1.3 Linear Regulators
1-3(1)
1.4 Low-Dropout Regulators
1-18(1)
2 Switching Power Supply Topologies and Design Fundamentals
2.1 Introduction
2-1(1)
2.2 Why Switch Modes: An Overall Approach
2-2(1)
2.3 Basic Switch-Mode Power Supply Topologies
2-3(1)
2.4 Applications and Industry-Favorite Configurations
2-33(1)
2.5 A Few Design Examples and Guidelines
2-39(1)
3 Power Semiconductors
3.1 Introduction
3-1(1)
3.2 Power Diodes and Thyristors
3-2(1)
3.3 Gate Turn-Off Thyristors
3-18(1)
3.4 Bipolar Power Transistors
3-20(1)
3.5 Power MOSFETs
3-28(1)
3.6 Insulated Gate Bipolar Transistor (IGBT)
3-45(1)
3.7 MOS-Controlled Thyristor (MCT)
3-50(1)
4 Resonant Converters and Wireless Power Supplies
4.1 Introduction
4-1(1)
4.2 Fundamentals of Resonant Converters
4-1(1)
4.3 Resonant DC-DC Converters
4-5(1)
4.4 Load Resonant Converters for Contactless Power Supplies
4-11(1)
5 Control Loop Design of DC-to-DC Converters
5.1 Introduction
5-1(1)
5.2 Feedback Control and Frequency Response
5-1(1)
5.3 Poles, Zeros, and S-Domain
5-2(1)
5.4 Stability Using Bode Plots
5-3(1)
5.5 Linear Regulators' Feedback and Loop Stability
5-4(1)
5.6 Stability
5-11(1)
5.7 Feedback Loop and Stability of Switch-Mode Power Supplies
5-19(1)
5.8 Digital Control
5-27(1)
5.9 Control Modes of Switch-Mode Converters
5-33(1)
6 Power Management
6.1 Introduction
6-1(1)
6.2 Design Approaches and Specifications
6-1(1)
6.3 Specifying DC Power Supply Requirements
6-13(1)
6.4 Loading Considerations
6-18(1)
6.5 Powering High-Power Processors and ASICs
6-20(1)
7 Off-the-Line Switching Power Supplies
7.1 Introduction
7-1(1)
7.2 Building Blocks of a Typical Off-the-Line Switching Power Supply
7-1(1)
7.3 Rectifier Section
7-2(1)
7.4 Popular Transformer-Isolated Configurations for Off-the-Line Power Supplies and Industry Approaches
7-7(1)
7.5 Magnetic Components
7-11(1)
7.6 Output Blocks
7-18(1)
7.7 Efficiency Improvements and Synchronous Rectification
7-21(1)
7.8 EMI Reduction
7-25(1)
7.9 Power Supply Protection
7-28(1)
7.10 Age-Related Aspects
7-35(1)
7.11 Testing of Power Supplies
7-36(1)
8 Rechargeable Batteries and Their Management
8.1 Introduction
8-1(1)
8.2 Battery Terminology
8-2(1)
8.3 Battery Technologies: An Overview
8-5(1)
8.4 Lead-Acid Batteries
8-8(1)
8.5 Nickel Cadmium (NiCd) Batteries
8-13(1)
8.6 Nickel Metal Hydride Batteries
8-16(1)
8.7 Lithium-Based Rechargeable Batteries
8-18(1)
8.8 Reusable Alkaline Batteries
8-22(1)
8.9 Zn-Air Batteries
8-24(1)
8.10 Battery Management
8-25(1)
8.11 Battery Communication and Related Standards
8-47(1)
8.12 Battery Safety
8-49(1)
8.13 Future
8-51(1)
9 Protection of Systems from Surges and Transients
9.1 Introduction
9-1(1)
9.2 Types of Disturbances and Power Quality Issues
9-2(1)
9.3 Principles of Surge Protection Techniques
9-9(1)
9.4 Surge Protection Standards and Practices
9-16(1)
9.5 Practical Design Considerations
9-26
Appendix A-1
Appendix B-1
Index
The University of Waikato, Hamilton, New Zealand