Optimal design of switching power supply

Optimal design of switching power supply / Zhanyou Sha, Xiaojun Wang, Yanpeng Wang, and Hongtao Ma.

A contemporary evaluation of switching power design methods with real world applications. * Written by a leading author renowned in his field. Focuses on switching power supply design, manufacture and debugging; Switching power supplies have relevance for contemporary applications including mobile p...

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Bibliographic Details
Main Author: Sha, Zhanyou
Other Authors: Wang, Xiaojun (Electrical engineer), Wang, Yanpeng, Ma, Hongtao (Electrical engineer)
Format: eBook
Language:English
Published: Chichester, West Sussex, United Kingdom : John Wiley and Sons, Inc., 2015.
Subjects:
Switching power supplies > Design and construction.
TECHNOLOGY & ENGINEERING > Mechanical.
Switching power supplies > Design and construction
Online Access:Click for online access
Table of Contents:
  • Cover; Title Page; Copyright; Contents; Preface; Introduction; Chapter 1 Overview on Switching-Mode Power Supply (SMPS); 1.1 Classification of Integrated Regulated Power Supply; 1.1.1 Optimal Design of SMPS; 1.2 Characteristics of SMPS; 1.2.1 Main Characteristics of SMPS; 1.2.2 Performance Comparison of SMPS and Linear Regulated Power Supply; 1.3 New Development Trend of SMPS; 1.3.1 New Development Trend of SMPS; 1.3.2 New Technology in the SMPS Field; 1.4 Basic Principles of SMPS; 1.4.1 Working Mode of SMPS; 1.4.2 Basic Principles of PWM; 1.4.3 Classification of PWM Products.
  • 1.5 Control Mode Type of SMPS1.5.1 VMC-Type SMPS; 1.5.2 CMC-Type SMPS; 1.6 Working Mode of SMPS; 1.6.1 Setting Methods of CUM and DUM; 1.6.2 Power Consumption Comparison between These Two Working Modes; 1.7 Feedback Type of SMPS; 1.7.1 Basic Types of SMPS Feedback Circuit; 1.7.2 Feedback Principle of the Single-Chip SMPS; 1.8 Load Characteristics of SMPS; 1.8.1 Constant Load; 1.8.2 Transient Load; 1.8.3 Constant Current Load; 1.8.4 Constant Power Load; 1.8.5 Peak Power Load; 1.8.6 Inertia Load; 1.8.7 Low Noise Load; Chapter 2 New Technology and Its Application of SMPS.
  • 2.1 Single-Chip Integration of SMPS2.2 Computer-Based SMPS Design; 2.2.1 Main Features of SMPS Design Software; 2.2.2 Classification of Design and Simulation Software of SMPS; 2.2.3 Design Process of SMPS Software; 2.3 Internal Protection Circuit of SMPS; 2.4 Synchronous Rectification (SR) Technology; 2.4.1 Brief Introduction to the SR Technology; 2.4.2 Basic Principle of SR; 2.5 Active Clamp Technology; 2.6 Magnetic Amplifier Regulator Technology; 2.7 Programmable Voltage Regulator Technology; 2.7.1 Basic Work Principle of Digital Potentiometers.
  • 2.7.2 Circuit Design of Programmable Switching Regulators2.8 Digital Power Supply System; 2.8.1 Main Features of the Digital Power Supply; 2.8.2 Basic Constitution of the Digital Power Supply; 2.8.3 Circuit Design of Digital Power Supply; 2.9 Energy-Saving and Environment-Friendly Technology of SMPS; 2.9.1 Reduce the Switching Losses with Valley Switching Circuit; 2.9.2 Reduce the No-Load Power Consumption with EcoSmart Energy-Saving Technology; 2.9.3 Lead-Free Packaging Technology; Chapter 3 Topologies of the DC/DC Converter; 3.1 Topologies of the DC/DC Converter.
  • 3.1.1 Main Technical Indicators of the Typical Products of the DC/DC Converter3.2 Basic Principle of Buck Converter; 3.2.1 Simplified Circuit of Buck Converter; 3.3 Basic Principle of Boost Converter; 3.3.1 Simplified Circuit of Boost Converter; 3.4 Basic Principle of Buck-Boost Converter; 3.5 Basic Principle of Charge Pump Converter; 3.6 Basic Principle of SEPIC; 3.7 Basic Principle of Flyback Converter; 3.7.1 Basic Circuit of Multiple Output Flyback Converter; 3.8 Basic Principle of Forward Converter; 3.9 Basic Principle of Push-Pull Converter; 3.9.1 Two Types of Push-Pull Converter.

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