Simplified design of micropower and battery circuits

Simplified design of micropower and battery circuits

'Simplified Design of Micropower and Battery Circuits' provides a simplified, step-by-step approach to micropower and supply cell circuit design. No previous experience in design is required to use the techniques described, thus making the book well suited for the beginner, student, or ex...

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Detalles Bibliográficos
Autor principal: Lenk, John D. (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Boston : Butterworth-Heinemann c1996.
Edición:1st edition
Colección:EDN series for design engineers.
Materias:
Electric batteries.
Microcomputers > Power supply.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009629357506719
Tabla de Contenidos:
  • Front Cover; Simplified Design of Micropower and Battery Circuits; Copyright Page; Dedication; Table of Contents; Preface; Acknowledgments; CHAPTER 1. Introduction to Micropower/Battery Design; 1. 1 Basic Approaches to Low-Power Circuit Design; 1.2 Micropower/Battery Design Checklist; 1.3 Notebook-Computer Power Conditioning; 1.4 Palmtop-Computer Power Conditioning; 1.5 High-Side Switches and Drivers; 1.6 3-V and 3.3-V Systems; 1.7 Replacing NiCads with Alkalines; 1.8 Low-Dropout Linear Regulators; 1.9 Replacing 9-V Batteries with Two AA Cells
  • 1.10 Main Power Supplies for Low Vol-tage Batteries1. 11 Four-Cell to 5-V Output; 1. 12 Main Power Supplies for High-Voltage Batteries; 1.13 -5-V Power Sources; 1.14 + 12-V Power Sources; 1. 15 Surface-Mount Component Suppliers; CHAPTER 2. Battery Basics; 2.1 Dry cells; 2.2 Mercury Cells; 2.3 Silver-Oxide Cells; 2.4 Lithium Manganese Dioxide (LiMn02); 2.5 Lithium Sulfur Dioxide (LiS02); 2.6 Lithium Thionyl-chloride (LiSOCI2); 2.7 Lithium Poly-carbonmonofluoride (LiCFn); 2.8 Nickel-Cadmium and Nickel-Metal Hydride; 2.9 Lead-Acid Batteries; 2.10 Using Available Batteries
  • 2. 11 AA-Cell and 9-V Battery Characteristics2. 12 The Linear Step-Down Approach; 2. 13 The Switching Step-Down Approach; 2. 14 The Step-Up Switching Approach; CHAPTER 3. Battery Chargers; 3. 1 Fast-Charge Controllers; 3.2 Constant-Current Battery Charger; 3.3 Dual-Rate Battery Charger; 3.4 Programmable Battery Charger; 3.5 Four-Cell NiCad Regulator/Charger; 3.6 Thermally Based NiCad Charger; 3.7 Lead-Acid Battery Charger; 3.8 Sub-Notebook-Computer Power Controller; CHAPTER 4. Single-Cell Circuits; 4. 1 Single-Cell Design Limitations; 4.2 Selecting the Single-Cell Battery
  • 4.3 Single-Cell Step-Up Converters4.4 Single-Cell Step-Up Switching Regulator; 4.5 Low-Voltage Input, Step-Up DC/DC Converters; 4.6 Single-Cell Temperature-Compensated Crystal Oscillator; 4.7 Single-Cell Laser-Diode Driver; 4.8 Single-Cell Radiation Detector; 4.9 Single-Cell Pulse Generator (350-ps rise time); 4.10 Single-Cell 1.5-V-to-5-V Converter (200 mAl); 4.11 Single-Cell 1.5-V-to-5-V Converter (150 mAl); CHAPTER 5. Multicell Circuits; 5. 1 Micropower DC/DC Converters; 5.2 Voltage Converter (Charge Pump); 5.3 High-Efficiency Regulators for Notebook/Laptop Computers
  • 5.4 Regulators for Palmtop Computers5.5 High-Side Switch Drivers; 5.6 5-V-to-3.3-V and 3.3-V-to-5-V Supplies; 5.7 Alkaline-Battery Switching Regulator; 5.8 Ultralow-Dropout Regulator; 5.9 Replacing a 9-V Battery with Two AA Cells; 5.10 Low-Voltage Battery Supplies; 5.11 5-V Supplies with Four Cells; 5. 12 High-Voltage Battery Supplies; 5.13 -5-V Power Supplies; 5.14 12-V Power Supplies; 5.15 Miscellaneous Circuits; APPENDIX :For Further Information; Index

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