Central Library, Indian Institute of Technology Delhi
केंद्रीय पुस्तकालय, भारतीय प्रौद्योगिकी संस्थान दिल्ली

Computer techniques for dynamic modeling of DC-DC power converter / Farzin Asadi.

By: Asadi, Farzin [author.]Material type: TextTextSeries: Synthesis digital library of engineering and computer science | Synthesis lectures on power electronics ; # 12.Publisher: [San Rafael, California] : Morgan & Claypool, 2018Description: 1 PDF (xi, 75 pages) : illustrationsContent type: text Media type: electronic Carrier type: online resourceISBN: 9781681734187Subject(s): DC-to-DC converters -- Computer simulation | control of DC-DC converters | dynamics of DC-DC converters | input impedance of DC-DC converters | MATLAB® | PLECS® | small-signal model | state space averaging (SSA) | modeling of power electronics converters | output impedance of DC-DC converters | system identificationAdditional physical formats: Print version:: No titleDDC classification: 621.317 LOC classification: TK7872.C8 | A822 2018Online resources: Abstract with links to resource Also available in print.
Contents:
1. Extraction of small-signal transfer functions using PLECS® and MATLAB® -- 1 1.1 Introduction -- 1.2 Extraction of small-signal transfer functions using PLECS® -- 1.3 Obtaining the suitable algebraic transfer functions for the graph -- 1.4 Dynamics of CCM converters -- 1.4.1 Dynamics of a zeta converter -- 1.4.2 Verification of obtained results -- 1.5 Conclusion -- References --
2. On the extraction of input and output impedance of PWM DC-DC converters -- 2.1 Introduction -- 2.2 Buck converter -- 2.3 Buck-Boost converter -- 2.4 Boost converter -- 2.5 Conclusion -- References -- Author's biography.
Abstract: Computers play an important role in the analyzing and designing of modern DC-DC power converters. This book shows how the widely used analysis techniques of averaging and linearization can be applied to DC-DC converters with the aid of computers. Obtained dynamical equations may then be used for control design. The book is composed of two chapters. Chapter 1 focuses on the extraction of control-to-output transfer function. A second-order converter (a buck converter) and a fourth-order converter (a Zeta converter) are studied as illustrative examples in this chapter. Both ready-to-use software packages, such as PLECS® and MATLAB® programming, are used throughout this chapter. The input/output characteristics of DC-DC converters are the object of considerations in Chapter 2. Calculation of input/output impedance is done with the aid of MATLAB® programming in this chapter. The buck, buck-boost, and boost converter are the most popular types of DC-DC converters and used as illustrative examples in this chapter. This book can be a good reference for researchers involved in DC-DC converters dynamics and control.
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Part of: Synthesis digital library of engineering and computer science.

Includes bibliographical references.

1. Extraction of small-signal transfer functions using PLECS® and MATLAB® -- 1 1.1 Introduction -- 1.2 Extraction of small-signal transfer functions using PLECS® -- 1.3 Obtaining the suitable algebraic transfer functions for the graph -- 1.4 Dynamics of CCM converters -- 1.4.1 Dynamics of a zeta converter -- 1.4.2 Verification of obtained results -- 1.5 Conclusion -- References --

2. On the extraction of input and output impedance of PWM DC-DC converters -- 2.1 Introduction -- 2.2 Buck converter -- 2.3 Buck-Boost converter -- 2.4 Boost converter -- 2.5 Conclusion -- References -- Author's biography.

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Computers play an important role in the analyzing and designing of modern DC-DC power converters. This book shows how the widely used analysis techniques of averaging and linearization can be applied to DC-DC converters with the aid of computers. Obtained dynamical equations may then be used for control design. The book is composed of two chapters. Chapter 1 focuses on the extraction of control-to-output transfer function. A second-order converter (a buck converter) and a fourth-order converter (a Zeta converter) are studied as illustrative examples in this chapter. Both ready-to-use software packages, such as PLECS® and MATLAB® programming, are used throughout this chapter. The input/output characteristics of DC-DC converters are the object of considerations in Chapter 2. Calculation of input/output impedance is done with the aid of MATLAB® programming in this chapter. The buck, buck-boost, and boost converter are the most popular types of DC-DC converters and used as illustrative examples in this chapter. This book can be a good reference for researchers involved in DC-DC converters dynamics and control.

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