Average Current-Mode Control of DC-DC Power Converters (Hardcover)

An authoritative one-stop guide to the analysis, design, development, and control of a wide variety of power converter systems

Average Current-Mode Control of DC-DC Power Converters provides comprehensive and up-to-date information about average current-mode control (ACMC) of pulse-width modulated (PWM) dc-dc converters. This invaluable one-stop resource covers both fundamental and state-of-the-art techniques in current-mode control of power electronic converters--featuring novel small-signal models of advanced converter topologies with multiple switching elements and previously unpublished coverage of time domain analysis of control circuits.

The authors employ a systematic theoretical framework supported by step-by-step derivations, design procedures for measuring transfer functions, challenging end-of-chapter problems, easy-to-follow diagrams and illustrations, numerous examples for different power supply specifications, and practical tips for developing power-stage small-signal models using circuit-averaging techniques. The text addresses all essential aspects of modelling, design, analysis, and simulation of average current-mode control of basic power converter topologies such as buck, boost, and buck-boost converters in continuous-conduction mode (CCM)converter topologies, as well as more advanced converters such as fly back, impedance-source, and dual-SEPIC converters. Bridging the gap between fundamental modelling methods and their application in a variety of switched-mode power supplies, this book:

• Discusses the development of small-signal models and transfer functions related to the inner current and outer voltage loops
• Analyzes inner current loops with average current-mode control and describes their dynamic characteristics
• Presents dynamic properties of the poles and zeros, time-domain responses of the control circuits, and comparison of relevant modelling techniques
• Contains a detailed chapter on the analysis and design of control circuits in time-domain and frequency-domain
• Provides techniques required to produce professional MATLAB plots and schematics for circuit simulations, including example MATLAB codes for the complete design of PWM buck and boost DC-DC converters
• Includes appendices of the basics of fundamental circuits, MATLAB programming, circuit simulation tools, and standard values of passive components

Average Current-Mode Control of DC-DC Power Converters is a must-have reference and guide for researchers, advanced graduate students, instructors in power electronics, and for practicing engineers specializing in advanced circuit modelling methods for various converters at different operating conditions.

一本權威的全方位指南，涵蓋了各種功率轉換器系統的分析、設計、開發和控制。

《直流-直流功率轉換器的平均電流模式控制》提供了有關脈寬調變（PWM）直流-直流轉換器的平均電流模式控制（ACMC）的全面且最新的信息。這本寶貴的一站式資源涵蓋了功率電子轉換器的平均電流模式控制的基礎和最新技術，包括具有多個開關元件的先進轉換器拓撲的新型小信號模型，以及對控制電路的時域分析的未發表覆蓋。

作者們採用系統性的理論框架，支持逐步推導，設計測量傳遞函數的程序，具有挑戰性的章末問題，易於遵循的圖表和插圖，不同功率供應規格的眾多示例，以及使用電路平均技術開發功率級小信號模型的實用技巧。本書涵蓋了建模、設計、分析和模擬基本功率轉換器拓撲（如降壓、升壓和降升壓轉換器）以及更先進的轉換器（如反激、阻抗源和雙SEPIC轉換器）的平均電流模式控制的所有重要方面。本書填補了基本建模方法與其在各種開關模式電源中的應用之間的差距，具體內容如下：

- 討論了與內部電流和外部電壓環路相關的小信號模型和傳遞函數的發展
- 分析了具有平均電流模式控制的內部電流環路，並描述了它們的動態特性
- 提供了極點和零點的動態特性、控制電路的時域響應以及相關建模技術的比較
- 包含了一個詳細的章節，介紹了時域和頻域中控制電路的分析和設計
- 提供了製作專業MATLAB圖表和電路模擬的技巧，包括PWM降壓和升壓直流-直流轉換器的完整設計的示例MATLAB代碼
- 包括基本電路、MATLAB編程、電路模擬工具和被動元件標準值的附錄

《直流-直流功率轉換器的平均電流模式控制》是研究人員、高級研究生、電力電子學教師以及專注於不同工作條件下各種轉換器的先進電路建模方法的實踐工程師的必備參考和指南。

Marian K. Kazimierczuk, PhD, Professor of Electrical Engineering, Wright State University, Dayton, Ohio, USA. He has taught undergraduate and graduate electronics courses in the field of high-frequency power electronics for more than 35 years. Professor Kazimierczuk has performed an extensive research on PWM and resonant power converters, electronic ballasts, high-frequency magnetic components, high-efficiency RF power amplifiers, modeling and control of power converters, active power factor correction, wireless power transfer, renewable energy sources, power MOSFET drivers, and wide-bandgap GaN and SiC semiconductor devices. He has published over 500 papers in IEEE Transactions, IET journals, and IEEE international conferences, has written eight textbooks, and holds 7 patents. He is a Life Fellow of the IEEE.

Dalvir K. Saini, PhD, Research Engineer, Failure Analysis Lab, University of Dayton Research Institute, Wright Patterson Air Force Base, Dayton, Ohio, USA. She has been pursuing the area of failure analysis of electrical systems and components related to aircraft safety, and has published several journal and conference publications in the field of modeling of switched-mode power converters.

Agasthya Ayachit, PhD, Senior System Engineer, Mercedes-Benz Research & Development North America, Redford, Michigan, USA. He has been actively contributing to the design and development of power conversion stages in electric vehicle battery charging and e-drive systems. He has published several journal papers in IEEE Transactions, IET journals, and IEEE conferences in the field of small-signal modeling of power converters. His research interests are in the field of circuit topologies, modeling and design of power converters, wireless charging, and wide-bandgap semiconductor devices (GaN/SiC).

Marian K. Kazimierczuk博士，美國俄亥俄州代頓市萊特州立大學電機工程學教授。他在高頻功率電子學領域教授本科和研究生電子學課程已超過35年。Kazimierczuk教授在PWM和諧振功率轉換器、電子燈、高頻磁性元件、高效率射頻功率放大器、功率轉換器建模和控制、主動功率因數校正、無線電能傳輸、可再生能源、功率MOSFET驅動器以及寬禁帶GaN和SiC半導體器件方面進行了廣泛的研究。他在IEEE Transactions、IET期刊和IEEE國際會議上發表了500多篇論文，撰寫了八本教科書，並擁有7項專利。他是IEEE的終身會士。

Dalvir K. Saini博士，美國俄亥俄州代頓市萊特帕特森空軍基地大學代頓研究所失效分析實驗室的研究工程師。她一直致力於與飛機安全相關的電氣系統和元件的失效分析領域，並在開關模式功率轉換器建模領域發表了多篇期刊和會議論文。

Agasthya Ayachit博士，美國密歇根州雷德福德市梅賽德斯-奔馳北美研發高級系統工程師。他一直積極參與電動車電池充電和電動系統中功率轉換階段的設計和開發工作。他在電力轉換器的小信號建模領域發表了多篇期刊論文，包括IEEE Transactions、IET期刊和IEEE會議。他的研究興趣包括電路拓撲、功率轉換器的建模和設計、無線充電以及寬禁帶半導體器件（GaN/SiC）。