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Pulsewidth modulated DC-to-DC power conversion : circuits, dynamics, and control designs / Byungcho Choi.

By: Choi, Byungcho [author.].
Contributor(s): IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: materialTypeLabelBookPublisher: Hoboken [New Jersey] : Wiley, 2013Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2013]Description: 1 PDF (1158 pages).Content type: text Media type: electronic Carrier type: online resourceISBN: 1118753577; 9781118753576; 9781118772188.Subject(s): Power electronics | Modulators (Electronics) | Pulse-duration modulation | DC-to-DC converters | Adaptation models | Adaptive control | Analytical models | Approximation methods | Batteries | Circuit stability | Energy exchange | Equations | Feedback circuits | Frequency conversion | Frequency response | Frequency-domain analysis | Inductors | Integrated circuit modeling | Laplace equations | Load modeling | MOSFET | Mathematical model | Oscillators | Power conversion | Process control | Pulse width modulation | Pulse width modulation converters | Resistors | Schottky diodes | Sections | Sensors | Stability criteria | Steady-state | Switches | Switching circuits | Switching frequency | Time-domain analysis | Transfer functions | Voltage controlGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.3132 Online resources: Abstract with links to resource Also available in print.
Contents:
8.3 Voltage Feedback Compensation and Loop Gain8.4 Compensation Design and Closed-Loop Performance; 8.5 Summary; References; Problems; Chapter 9: Practical Considerations in Modeling, Analysis, and Design of PWM Converters; 9.1 Generalization of PWM Converter Model; 9.2 Design and Analysis of Dc-to-Dc Converters with Practical Source System; 9.3 Consideration for Non-Resistive Load; 9.4 Summary; References; Problems; Part III: Current Mode Control; Chapter 10: Current Mode Control -- Functional Basics and Classical Analysis; 10.1 Current Mode Control Basics; 10.2 Classical Analysis and Control Design Procedures.
6.4 Power Stage Transfer Functions of Buck/Boost Converter6.5 Empirical Methods for Small-Signal Analysis; 6.6 Summary; References; Problems; Chapter 7: Dynamic Performance of PWM Dc-to-Dc Converters; 7.1 Stability; 7.2 Frequency-Domain Performance Criteria; 7.3 Time-Domain Performance Criteria; 7.4 Stability of Dc-to-Dc Converters; 7.5 Nyquist Criterion; 7.6 Relative Stability: Gain Margin and Phase Margin; 7.7 Summary; References; Problems; Chapter 8: Closed-Loop Performance and Feedback Compensation; 8.1 Asymptotic Analysis Method; 8.2 Frequency-Domain Performance
Part II: Modeling, Dynamics, and Design of PWM Dc-to-Dc ConvertersChapter 5: Modeling PWM Dc-to-Dc Converters; 5.1 Overview of PWM Converter Modeling; 5.2 Averaging Power Stage Dynamics; 5.3 Linearizing Averaged Power Stage Dynamics; 5.4 Frequency Response of Converter Power Stage; 5.5 Small-Signal Gain of PWM Block; 5.6 Small-Signal Model for PWM Dc-to-Dc Converters; 5.7 Summary; References; Problems; Chapter 6: Power Stage Transfer Functions; 6.1 Bode Plot for Transfer Functions; 6.2 Power Stage Transfer Functions of Buck Converter; 6.3 Power Stage Transfer Functions of Boost Converter
3.2 Buck Converter: Step-Down Dc-to-Dc Converter3.3 Buck Converter in Start-Up Transient; 3.4 Buck Converter in Steady State; 3.5 Buck Converter in Discontinuous Conduction Mode; 3.6 Closed-Loop Control of Buck Converter; 3.7 Summary; References; Problems; Chapter 4: Dc-to-Dc Power Converter Circuits; 4.1 Boost Converter; 4.2 Buck/Boost Converter; 4.3 Structure and Voltage Gain of Three Basic Converters; 4.4 Flyback Converter: Transformer-Isolated Buck/Boost Converter; 4.5 Bridge-Type Buck-Derived Isolated Dc-to-Dc Converters; 4.6 Forward Converters; 4.7 Summary; References; Problems
Cover; Half Title page; Title page; Copyright page; Dedication; Preface; Part I: Circuits for Dc-to-Dc Power Conversion; Chapter 1: PWM Dc-to-Dc Power Conversion; 1.1 PWM Dc-to-Dc Power Conversion; 1.2 Dc-to-Dc Power Conversion System; 1.3 Features and Issues of PWM Dc-to-Dc Converter; 1.4 Chapter Highlights; References; Chapter 2: Power Stage Components; 2.1 Semiconductor Switches; 2.2 Energy Storage and Transfer Devices; 2.3 Switching Circuits in Practice; 2.4 Summary; References; Problems; Chapter 3: Buck Converter; 3.1 Ideal Step-Down Dc-to-Dc Power Conversion
Summary: This is the definitive reference for anyone involved in pulsewidth modulated DC-to-DC power conversion Pulsewidth Modulated DC-to-DC Power Conversion: Circuits, Dynamics, and Control Designs provides engineers, researchers, and students in the power electronics field with comprehensive and complete guidance to understanding pulsewidth modulated (PWM) DC-to-DC power converters. Presented in three parts, the book addresses the circuitry and operation of PWM DC-to-DC converters and their dynamic characteristics, along with in-depth discussions of control design of PWM DC-to.
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Includes bibliographical references.

8.3 Voltage Feedback Compensation and Loop Gain8.4 Compensation Design and Closed-Loop Performance; 8.5 Summary; References; Problems; Chapter 9: Practical Considerations in Modeling, Analysis, and Design of PWM Converters; 9.1 Generalization of PWM Converter Model; 9.2 Design and Analysis of Dc-to-Dc Converters with Practical Source System; 9.3 Consideration for Non-Resistive Load; 9.4 Summary; References; Problems; Part III: Current Mode Control; Chapter 10: Current Mode Control -- Functional Basics and Classical Analysis; 10.1 Current Mode Control Basics; 10.2 Classical Analysis and Control Design Procedures.

6.4 Power Stage Transfer Functions of Buck/Boost Converter6.5 Empirical Methods for Small-Signal Analysis; 6.6 Summary; References; Problems; Chapter 7: Dynamic Performance of PWM Dc-to-Dc Converters; 7.1 Stability; 7.2 Frequency-Domain Performance Criteria; 7.3 Time-Domain Performance Criteria; 7.4 Stability of Dc-to-Dc Converters; 7.5 Nyquist Criterion; 7.6 Relative Stability: Gain Margin and Phase Margin; 7.7 Summary; References; Problems; Chapter 8: Closed-Loop Performance and Feedback Compensation; 8.1 Asymptotic Analysis Method; 8.2 Frequency-Domain Performance

Part II: Modeling, Dynamics, and Design of PWM Dc-to-Dc ConvertersChapter 5: Modeling PWM Dc-to-Dc Converters; 5.1 Overview of PWM Converter Modeling; 5.2 Averaging Power Stage Dynamics; 5.3 Linearizing Averaged Power Stage Dynamics; 5.4 Frequency Response of Converter Power Stage; 5.5 Small-Signal Gain of PWM Block; 5.6 Small-Signal Model for PWM Dc-to-Dc Converters; 5.7 Summary; References; Problems; Chapter 6: Power Stage Transfer Functions; 6.1 Bode Plot for Transfer Functions; 6.2 Power Stage Transfer Functions of Buck Converter; 6.3 Power Stage Transfer Functions of Boost Converter

3.2 Buck Converter: Step-Down Dc-to-Dc Converter3.3 Buck Converter in Start-Up Transient; 3.4 Buck Converter in Steady State; 3.5 Buck Converter in Discontinuous Conduction Mode; 3.6 Closed-Loop Control of Buck Converter; 3.7 Summary; References; Problems; Chapter 4: Dc-to-Dc Power Converter Circuits; 4.1 Boost Converter; 4.2 Buck/Boost Converter; 4.3 Structure and Voltage Gain of Three Basic Converters; 4.4 Flyback Converter: Transformer-Isolated Buck/Boost Converter; 4.5 Bridge-Type Buck-Derived Isolated Dc-to-Dc Converters; 4.6 Forward Converters; 4.7 Summary; References; Problems

Cover; Half Title page; Title page; Copyright page; Dedication; Preface; Part I: Circuits for Dc-to-Dc Power Conversion; Chapter 1: PWM Dc-to-Dc Power Conversion; 1.1 PWM Dc-to-Dc Power Conversion; 1.2 Dc-to-Dc Power Conversion System; 1.3 Features and Issues of PWM Dc-to-Dc Converter; 1.4 Chapter Highlights; References; Chapter 2: Power Stage Components; 2.1 Semiconductor Switches; 2.2 Energy Storage and Transfer Devices; 2.3 Switching Circuits in Practice; 2.4 Summary; References; Problems; Chapter 3: Buck Converter; 3.1 Ideal Step-Down Dc-to-Dc Power Conversion

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This is the definitive reference for anyone involved in pulsewidth modulated DC-to-DC power conversion Pulsewidth Modulated DC-to-DC Power Conversion: Circuits, Dynamics, and Control Designs provides engineers, researchers, and students in the power electronics field with comprehensive and complete guidance to understanding pulsewidth modulated (PWM) DC-to-DC power converters. Presented in three parts, the book addresses the circuitry and operation of PWM DC-to-DC converters and their dynamic characteristics, along with in-depth discussions of control design of PWM DC-to.

Also available in print.

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Description based on PDF viewed 12/22/2015.

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