Power Electronics Basics: Principles, Design, Formulas, and Applications PDF
Introduction:
"Power Electronics Basics: Principles, Design, Formulas, and Applications" is a collaborative effort authored by a team including Evgeny Chaplygin, Yuriy Rozanov, Sergey Ryvkin, and Pavel Voronin. This comprehensive book focuses on the undefined principles, design considerations, formulas, and virtual applications of power electronics. Optimized for search engines, this article will delve into the book's key topics, providing valuable insights for engineers, students, and researchers alike.
Exploring Great Power Electronics:
This book delves deep into the realm of power electronics, unraveling the essential operation principles of key devices like diodes, transistors, and thyristors. It doesn't stop there; it also explores the intricacies of power electronic converters and inverters, circumferent DC-DC converters, DC-AC inverters, and AC-DC rectifiers. Moreover, it discusses critical aspects such as power factor correction, magnetic attraction compatibility (EMC), and efficient energy direction within power physics systems.
Design Guidelines and Formulas:
In plus to elucidating operational fundamentals, "Power Electronics Basics" offers invaluable plan guidance, formulas, and real-world examples to facilitate the creation of effective power electronic systems. It touches upon pivotal subjects including power semiconductor devices, power electronic circuitry, control strategies, and thermal considerations. Abundantly enriched with illustrations, diagrams, and practical instances, the book ensures a comprehensive understanding of power electronics concepts and applications.
Broad Applicability:
This book transcends mere theory and serves as an authoritative reference for a diverse audience, encompassing students, engineers, and researchers intrigued by the fundamentals of power electronics. Its insights see relevance in a concourse of applications, spanning energy conversion, drive drives, renewable vim systems, and more.
Unlocking Efficiency Through Great Power Electronics:
Efficiency gains in electrical vitality utilization are attainable through the adept use of power electronics. As the fastest-growing segment in electrical engineering, this book emerges as a dedicated guide to this dynamic field. It systematically introduces and elucidates fundamental concepts, empowering readers to analyze and plan within the world of power electronics. Real-world examples vividly illustrate the strides and potentiality of power electronics, particularly in mainstream applications like renewable energy production, transmission, and distribution.
Audience Reach:
This book caters to a broad readership, including fine-tuned students, manufacturing professionals, researchers, and academics. It expresses gratitude to all contributors who have played a pivotal purpose in its creation.
Table of Contents:
Chapter 1: Fundamental Concepts and Terminology in Power Electronics
1.1 Electrical Energy Conversion: Converter Classification
1.2 Output Parameters and Characteristics of Converters
1.3 Converter Impact on the Grid
1.4 Key Converter Parameters
1.5 AC and DC Filters
1.5.1 Dynamic Processes in Filters References
Chapter 2: Semiconductor Power Switches and Passive Components
2.1 Introduction
2.2 Power Diodes
2.2.1 Power Diodes with p+–n−–n+ Structure
2.2.2 Schottky Power Diodes
2.2.3 Pulsed Diodes
2.3 Power Bipolar Transistors
2.4 Thyristors
2.4.1 Controllable Semiconductor Switches with p–n–p–n Structure
2.4.2 Power Photothyristors
2.4.3 Symmetric Thyristors
2.5 Switched Thyristors
2.5.1 The GTO Thyristor
2.5.2 Gate-Commuted Thyristors (GCTs, ETOs, MTOs)
2.5.3 The Integrated GCT Thyristor
2.5.4 The MOS-Controlled Thyristor
2.6 Field Transistors
2.6.1 Powerful Short-Channel MOS Transistors
2.6.2 CoolMOS Technology
2.6.3 Static Induction Transistors
2.7 The IGBT
2.7.1 Epitaxial (PT) and Homogeneous (NPT) IGBT Structures
2.7.2 Trench-Gate IGBT
2.7.3 The Trench-FS and SPT
2.7.4 The CSTBT and SPT+
2.8 Switch Modules
2.8.1 Topology of Integrated Power Modules
2.8.2 Assembly of Power Modules
2.8.3 Connecting the Module to the Power Circuit
2.9 Power Assemblies
2.9.1 Integrated Power Modules
2.9.2 Intellectual Power Module
2.9.3 Power Assemblies of Basic Topology (1/2B2, B2, B6) with a DC Element and a Cooling System
2.9.4 Power Assemblies of B6U + B6I Topology: Inverter Platforms
2.9.5 Power Bipolar Assemblies
2.10 Applications of Power Switches
2.11 Cooling Systems for Semiconductor Power Devices
2.11.1 Radiators for Air Cooling
2.11.2 Radiators for Liquid Cooling
2.12 Promising Developments in Power Electronics
2.12.1 Power Switches Based on SiC
2.12.2 Highly Integrated Power Modules
2.13 Control of Semiconductor Power Switches
2.14 Passive Components
2.14.1 Introduction
2.14.2 Electromagnetic Components
2.14.2.1 Basic Characteristics of Ferromagnetic Materials
2.14.2.2 Influence of High Frequencies and Nonsinusoidal Voltage on the Operation of Transformers and Reactors
2.14.3 Capacitors: Basic Definitions and Characteristics
2.14.3.1 Influence of Voltage Shape and Frequency on Capacitor Operation
Chapter 3: Control of Power Electronic Devices
3.1 Mathematical Models
3.1.1 One-Dimensional and Multidimensional Models
3.1.2 Linear and Nonlinear Systems—Linearization
Chapter 4: Line-Commutated Converters
Chapter 5: Direct Current to Direct Current Conversion
Chapter 6: Inverters and AC Converters Based on Fully Controllable Switches
Chapter 7: Pulse-Width Modulation and Power Quality Control
Chapter 8: Resonant Converters
Chapter 9: Multilevel, Modular, and Multicell Converters
Chapter 10: Applications of Power Electronics
Book Information:
Title: Power Electronics Basics: Operating Principles, Design, Formulas, and Applications PDF
Size: 8 MB
Pages: 478
Year: 2015
Format: PDF
Language: English
Authors: Arijit Saha & Nilotpal Manna
Download Link : PDF