POWER ELECTRONICS HANDBOOK
The field of power undefined is vast and dynamic, encompassing a wide array of topics ranging from the fundamental frequency operation of semiconductor units undefined to advanced applications in renewable energy and automotive systems. One worthy resource that offers a comprehensive exploration of this world is the Handbook, which serves as a roadmap for understanding the intricacies of power semiconductor devices, converters, applications, and peripheral issues.
Overview of vade mecum Structure:
The Handbook is meticulously union into six distinct areas, each direction on particular aspects of great power electronics. It begins with an introductory chapter, setting the stage for the exploration that follows. From there, the Handbook delves into a detailed examination of various power semiconductor unit devices, including Power Diode, Thyristor, MOSFET, and more, in Chapters 2 to 9.
Next, Chapters 10 to 20 delve into the principles of operation and plan methodologies of power converters, covering topics such as logic gate drive circuits and control methods. This section provides a solid institution for sympathy for the conversion of electrical world power and joint circuitry.
The sequent chapters, spanning from 21 to 33, shift the focus towards real-world applications of power electronics. These chapters explore a range of applications, including power supplies, electronic ballasts, renewable energy sources, and HVDC transmission systems. Additionally, topics such as capacitor charging and automotive applications are addressed in detail, offering insights into virtual implementations of power-undefined technology.
As the Handbook progresses, Chapters 34 to 37 delve into the operational theory and control methods of drive drives, along with self-propelling systems. This section bridges the gap between possibility and practice and offers valuable insights into the application of power electronics in the automotive industry.
Continuing the exploration, Chapters 38 to 40 delve into major power quality issues, active voice filters, and electromagnetic noise (EMI) effect joint with superpowe converters. These chapters shed get off on the challenges and solutions correlative to maintaining high-quality power in electrical systems.
Finally, the enchiridion concludes with Chapters 41 to 42, which focus on data processor simulation, packaging techniques, and smart major power systems. These chapters foreground the importance of simulation tools in the design process and the significance of packaging considerations for ensuring dependability in power undefined applications.
In conclusion, the Handbook offers a comprehensive and structured set about to understanding power electronics, covering first harmonic concepts, advanced applications, and emerging trends in the field. By providing a detailed exploration of power semiconductor device devices, converters, applications, and peripheral device issues, the Handbook serves as a priceless resource for researchers, engineers, and students alike, seeking to navigate the complex landscape of power electronics.
Contents Of The Book:
Chapter 1: Introduction
This chapter serves as a prefatory overview of the field of power electronics, providing an innovation for understanding the subsequent chapters. It introduces key concepts, applications, and challenges in superpower electronics.
Chapter 2: The Power Diode
The Power crystal rectifier undefined explores the operation, characteristics, and applications of diode devices in world power physics circuits. It covers topics such as rectification, freewheeling, and protection circuits.
Chapter 3: Power Bipolar Transistors
This chapter focuses on power bipolar transistors, including their structure, behavior, and applications in power amplification and switching circuits. It discusses the advantages and limitations of Janus-faced transistors compared to other semiconductor devices.
Chapter 4: The Power MOSFET
The Power MOSFET undefined delves into metal-oxide-semiconductor field-effect transistors (MOSFETs) designed for high-power applications. It covers the MOSFET structure, operative principles, and applications in power switching and gain circuits.
Chapter 5: Insulated Gate Bipolar Transistor
This undefined explores insulated gate bipolar transistors (IGBTs), semiconductor devices combining the high-speed switching capacity of MOSFETs with the high-current treatment capability of bipolar transistors. It discusses IGBT structure, operation, and applications.
Chapter 6: Thyristors
Thyristors are semiconductor devices unremarkably used for power verification in AC circuits. This chapter examines thyristor types, characteristics, and applications in phase control, EMF regulation, and power conversion circuits.
Chapter 7: Gate Turn-off Thyristors
Gate turn-off thyristors (GTOs) are enhanced thyristor devices capable of organisms turned off by a gate signal. This undefined discusses GTO operation, characteristics, and applications in high-power switching circuits.
Chapter 8: MOS Controlled Thyristors (MCTs)
MOS-controlled thyristors (MCTs) are semiconductor devices that combine MOSFET and thyristor structures. This undefined explores MCT operation, characteristics, and applications in major power electronics.
Chapter 9: Static Induction Devices
Static induction devices (SIDs) are high-power semiconductor devices undefined with unique characteristics right for high-frequency and high-power applications. This undefined examines SID structure, operation, and applications.
Chapter 10: Crystal Rectifier Rectifiers
Diode rectifiers are electronic circuits used to win over cyclical current (AC) to direct current (DC). This undefined covers crystal rectifier rectifier configurations, operation, and applications in power supplies and motor drives.
Chapter 11: Single-phase Controlled Rectifiers
Single-phase controlled rectifiers are electronic circuits used for AC to DC conversion with controlled production voltage. This chapter discusses single-phase rectifier topologies, verify methods, and applications.
Chapter 12: Three-phase Controlled Rectifiers
Three-phase controlled rectifiers are AC to District of Columbia conversion circuits used in three-phase superpower systems. This chapter examines three-phase rectifier configurations, control techniques, and applications.
Chapter 13: DC-DC Converters
DC-DC converters are electronic circuits old to win over a single DC voltage level to another. This chapter covers DC-DC converter topologies, control methods, and applications in major power supplies, inexhaustible energy systems, and electric vehicles.
Chapter 14: DC/DC transition proficiency and twelve Serial Luo-converters
This chapter focuses on high-tech DC/DC conversion techniques, including the twelve serial Luo converters. It discusses circuit topologies, operative principles, and applications in high-efficiency power conversion systems.
Information Of The Book :
File Name Of The Book : POWER ELECTRONICS HANDBOOK
File Size : 18.7 MB
language : English
Page : 1189
Format : PDF
Author : Muhammad H. Rashid