Power supply cookbook
Power Supply Cookbook, Second Edition provides an easy-to-follow, step-by-step design framework for a wide variety of power supplies. With this book, anyone with a basic knowledge of electronics can create a very complicated power supply design in less than one day. With the common industry design a...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Boston :
Newnes
c2001.
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| Edición: | 2nd ed |
| Colección: | EDN series for design engineers.
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627233506719 |
Tabla de Contenidos:
- Cover; Contents; Preface; Introduction; 1. The Role of the Power Supply within the System and Design Program; 1.1 Getting Started. This Journey Starts with the First Question; 1.2 Power System Organization; 1.3 Selecting the Appropriate Power Supply Technology; 1.4 Developing the Power System Design Specification; 1.5 A Generalized Design Approach to Power Supplies: Introducing the Building- block Approach to Power Supply Design; 1.6 A Comment about Power Supply Design Software; 1.7 Basic Test Equipment Needed; 2. An Introduction to the Linear Regulator; 2.1 Basic Linear Regulator Operation
- 2.2 General Linear Regulator Considerations2.3 Linear Power Supply Design Examples; 3. Pulsewidth Modulated Switching Power Supplies; 3.1 The Fundamentals of PWM Switching Power Supplies; 3.2 The Building-block Approach to PWM Switching Power Supply Design; 3.3 Which Topology of PWM Switching Power Supply to Use?; 3.4 The Black Box Considerations for Switching Power Supplies; 3.5 Design of the Magnetic Elements; 3.6 The Design of the Output Stages; 3.7 Designing the Power Switch and Driver Section; 3.8 Selecting the Controller IC; 3.9 Designing the Voltage Feedback Circuit
- 3.10 Start-up and IC Bias Circuit Designs3.11 Output Protection Schemes; 3.12 Designing the Input Rectifier/Filter Section; 3.13 Additional Functions Normally Associated with Power Supplies; 3.14 Laying Out the Printed Circuit Board; 3.15 PWM Design Examples; 4. Waveshaping Techniques to Improve Switching Power Supply Efficiency; 4.1 Major Losses within the PWM Switching Power Supply; 4.2 Techniques for Reducing the Major Losses; 4.3 Snubbers; 4.4 The Active Clamp; 4.5 Saturable Inductors to Limit Rectifier Reverse Recovery Current; 4.6 Quasi-resonant Converters
- 4.7 High Efficiency Design ExamplesAppendix A. Thermal Analysis and Design; A.1 Developing the Thermal Model; A.2 Power Packages on a Heatsink (TO-3, TO-220, TO- 218, etc.); A.3 Power Packages Not on a Heatsink (Free Standing); A.4 Radial-leaded Diodes; A.5 Surface Mount Parts; A.6 Examples of Some Thermal Applications; Appendix B. Feedback Loop Compensation; B.1 The Bode Response of Common Circuits Encountered in Switching Power Supplies; B.2 Defining the Open Loop Response of the Switching Power Supply The Control- to- Output Characteristics
- B.3 The Stability Criteria Applied to Switching Power SuppliesB.4 Common Error Amplifier Compensation Designs; Appendix C. Power Factor Correction; C.1 A Universal Input, 180W, Active Power Factor Correction Circuit; Appendix D. Magnetism and Magnetic Components; D.1 Basic Magnetic Theory Applied to Switching Power Supplies; D.2 Selecting the Core Material and Style; Appendix E. Noise Control and Electromagnetic Interference; E.1 The Nature and Sources of Electrical Noise; E.2 Typical Sources of Noise; E.3 Enclosure Design; E.4 Conducted EMI Filters; Design of the common-mode filter
- Choosing the damping factor
