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Energy Storage Devices for Electronic Systems

Book Description

Cutting-edge energy storage technologies can overcome power limitations in applications from automotive electronics to photovoltaics. Choose the right storage for your design with this book!

Table of Contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. Copyright
  5. Dedication
  6. Preface
  7. Acknowledgments
  8. 1. Energy storage devices—a general overview
    1. Abstract
    2. 1.1 Introduction
    3. 1.2 Simple fundamentals
    4. 1.3 Energy storage in electrical systems
    5. 1.4 Compressed air energy storage
    6. 1.5 Superconductive magnetic energy storage
    7. 1.6 Rapid energy transfer requirements and fundamental circuit issues
    8. 1.7 Technical specifications of ESDs
    9. 1.8 Ragone plot
  9. 2. Rechargeable battery technologies: an electronic engineer’s view point
    1. Abstract
    2. 2.1 Introduction
    3. 2.2 Battery terminology and fundamentals
    4. 2.3 Battery technologies: an overview
    5. 2.4 Lead-acid batteries
    6. 2.5 Nickel-cadmium batteries
    7. 2.6 Nickel metal hydride batteries
    8. 2.7 Lithium-based rechargeable batteries
    9. 2.8 Reusable alkaline batteries
    10. 2.9 Zn-air batteries
  10. 3. Dynamics, models, and management of rechargeable batteries
    1. Abstract
    2. 3.1 Introduction
    3. 3.2 Simplest concept of a battery
    4. 3.3 Battery dynamics
    5. 3.4 Electrochemical impedance spectroscopy for batteries
    6. 3.5 Battery equivalent circuit models and modeling techniques
    7. 3.6 Battery management in practical applications
    8. 3.7 Prognostics in battery health management
    9. 3.8 Fast charging of batteries
    10. 3.9 Battery communication and related standards
    11. 3.10 Battery safety
  11. 4. Capacitors as energy storage devices—simple basics to current commercial families
    1. Abstract
    2. 4.1 Capacitor fundamentals
    3. 4.2 Capacitor types and their properties
    4. 4.3 Ragone plot
  12. 5. Electrical double-layer capacitors: fundamentals, characteristics, and equivalent circuits
    1. Abstract
    2. 5.1 Introduction
    3. 5.2 Historical background
    4. 5.3 Electrical double-layer effect and device construction
    5. 5.4 Pseudocapacitance and pseudocapacitors
    6. 5.5 Hybridization of electrochemical capacitors and rechargeable batteries
    7. 5.6 Modeling and equivalent circuits
    8. 5.7 Testing of devices and characterization
    9. 5.8 Modules and voltage balancing
  13. 6. Supercapacitor as a lossless dropper in DC-DC converters
    1. Abstract
    2. 6.1 Introduction
    3. 6.2 DC-DC converters and DC power management
    4. 6.3 Supercapacitor assisted low dropout regulator (SCALDO) technique
    5. 6.4 Generalized SCALDO concept
    6. 6.5 Practical examples
    7. 6.6 SCALDO implementation examples
    8. 6.7 Wider applications of SCALDO technique
    9. 6.8 Comparison between SCALDO regulators and charge pumps
  14. 7. Supercapacitors for surge absorption
    1. Abstract
    2. 7.1 Introduction
    3. 7.2 Lightning and inductive energy dumps in electric circuits and typical surge absorber techniques
    4. 7.3 Supercapacitor as a surge absorption device: summarized results of a preliminary investigation
    5. 7.4 Design approaches to a supercapacitor-based surge protector
    6. 7.5 Conclusion
  15. 8. Supercapacitors in a rapid heat transfer application
    1. Abstract
    2. 8.1 Introduction
    3. 8.2 Problem of wasted water in day-to-day situations at home
    4. 8.3 Problem of traditional heating from direct AC mains supply and heating system specifications
    5. 8.4 Commercial solutions for eliminating water wastage due to storage in buried plumbing
    6. 8.5 Practical requirements for a localized solution
    7. 8.6 SC-based solution with prestored energy
    8. 8.7 Results from an ongoing prototype development exercise
    9. 8.8 Specific advantages of SC energy storage
    10. 8.9 Implementation challenges
  16. Appendix A: capacitors and AC line filtering
  17. Index