Semiconductors Bookshelf

This book provides an extensive examination of the practical implementations and theoretical foundations of circuit design with Gallium Nitride (GaN) devices. Designed with scientists and engineers in mind, the advanced studies detailed in this book provide invaluable insights into new methodologies and approaches, serving as a comprehensive guide for those embarking on innovative design endeavors.

This essential book offers comprehensive coverage of Silicon Carbide (SiC) technology, including materials, manufacturing processes, device development, and design approaches. Authored by leading experts, it provides authoritative insights for engineers, researchers, and enthusiasts. Understanding SiC's future impact on technology is crucial, making this publication indispensable for those seeking to leverage its transformative potential.

This book is one of a series of five volumes forming an integrated, self-study course on silicon device physics, modes of operation, characterization, and fabrication. The series is based on many years of the author’s experience in academic and industrial teaching of semiconductors. The books are suitable for both class-teaching and self-study. The authors have designed the content to enable readers to be introduced gradually to semiconductors, in particular silicon components.

This book provides readers with state-of-the-art knowledge of established and emerging semiconducting materials, their processing, and the fabrication of chips and microprocessors. In addition to covering the fundamentals of these materials, it details the basics and workings of many semiconducting devices and their role in modern electronics and explores emerging semiconductors and their importance in future devices.

Advanced Nanoscale MOSFET Architectures provides an in-depth review of modern metal–oxide–semiconductor field-effect transistor (MOSFET) device technologies and advancements, with information on their operation, various architectures, fabrication, materials, modeling and simulation methods, circuit applications, and other aspects related to nanoscale MOSFET technology.

In the “More than Moore” era, performance requirements for leading edge semiconductor devices are demanding extremely fine pitch interconnection in semiconductor packaging. Direct copper interconnection has emerged as the technology of choice in the semiconductor industry for fine pitch interconnection, with significant benefits for interconnect density and device performance. Low temperature direct copper bonding, in particular, will become widely adopted for a broad range of high performance semiconductor devices in the years to come.

For decades the most valuable technologycompany in Europe operated in the shadows. The chips manufactured by its machines, power our smartphones and AI assistants, make our coffee and drive our cars and even guide cruise missiles. In fact, roughly 90% of all chips worldwide are made with ASML’s machines. In recent years, the Dutch manufacturing company has found itself in the spotlight, at the centre of a geopolitical storm between the United States, China and Europe.

This book features a collection of carefully selected papers that were presented at the 4th International Conference on Power and Electrical Engineering, ICPEE 2023. The conference was held in Singapore from November 3-5, 2023, and focused on the latest advancements and technologies in the field of power and electrical engineering.

This book presents a comprehensive treatise on the extraction of semiconductor diode parameters using various methods. Its focus is on metal-semiconductor, metal-insulator-semiconductor, and p-n junction diodes, covering a wide range of metals and semiconductors, including elemental, compound, organic, and nanostructured materials.

This book will be a “one-stop” place for all the young material researchers to understand the recent and reliable material making process, characterization, and reliability test tools. The book is designed to provide basic knowledge to understand and analyse structure-property relationship for reliable emerging material systems for next generation of semiconductor technologies.

This book includes proceedings of the 21st International Workshop on Physics of Semiconductor Devices. The workshop is jointly organized by the Indian Institute of Technology, Delhi, and Solid State Physics Laboratory, Delhi, in collaboration with the Society for Semiconductor Devices and Semiconductor Society of India. This book disseminates the current knowledge of semiconductor physics and its applications across the scientific community.

GaN Transistor Modeling for RF and Power Electronics: Using The ASM-GaN-HEMT Model covers all aspects of characterization and modeling of GaN transistors for both RF and Power electronics applications. Chapters cover an in-depth analysis of the industry standard compact model ASM-HEMT for GaN transistors. The book details the core surface-potential calculations and a variety of real device effects, including trapping, self-heating, field plate effects, and more to replicate realistic device behavior.

This book entitled “Recent Advances in Power Electronics and Drives - Select Proceedings of EPREC-2023 provides rigorous discussions, case studies, and recent developments in the emerging areas of power electronics, especially in power inverters and converters, electrical drives, regulated power supplies, electric vehicle and its charging infrastructure, etc. The readers would benefit from enhancing their knowledge and skills in the domain areas. Also, this book may help the readers in developing new and innovative ideas.

This book presents a comprehensive treatise on the extraction of semiconductor diode parameters using various methods. Its focus is on metal-semiconductor, metal-insulator-semiconductor, and p-n junction diodes, covering a wide range of metals and semiconductors, including elemental, compound, organic, and nanostructured materials. By bringing together these methods in one place, this book provides a much-needed standardized point of reference for the field.

This book provides a single-source reference for any reader requiring basic and advanced information on wide bandgap semiconductors and related design topics. Focusing on practicability, it explains the principles of GaN and SiC semiconductors, manufacturing, characterization, market and design for key applications.

Master fundamental technologies for modern semiconductor integrated circuits with this definitive textbook. It includes an early introduction of a state-of-the-art CMOS process flow, exposes students to big-picture thinking from the outset, and encourages a practical integration mindset. Extensive use of process and TCAD simulation, using industry tools such as Silvaco Athena and Victory Process, provides students with deeper insight into physical principles, and prepares them for applying these tools in a real-world setting.

Power Electronics Handbook delivers an expert guide to power electronics and their applications. The book examines the foundations of power electronics, power semiconductor devices, and power converters, before reviewing a constellation of modern applications. Comprehensively updated throughout, this new edition features new sections addressing current practices for renewable energy storage, transmission, integration, and operation, as well as smart-grid security, intelligent energy, artificial intelligence, and machine learning applications applied to power electronics, and autonomous and electric vehicles.

Advanced MOS Devices and their Circuit Applications book comprehensively discusses the advanced MOS devices and their circuit applications with reliability concerns. Further, an energy-efficient Tunnel FET-based circuit application will be investigated in terms of the output voltage, power efficiency, energy consumption, and performances using the device circuit co-design approach.

Fundamentals of Semiconductor Materials and Devices is a textbook that presents the advanced principled underlying semiconductors in an accessible and comprehensive way. Combining material from both engineering and physics, it remains grounded throughout in practical applications of semiconductors. Its approach makes it ideal for readers looking to gain a thorough understanding of this ubiquitous technology.

Design of Three-phase AC Power Electronics Converters contains a systematic discussion of the three-phase AC converter design considering various converter electrical, thermal, and mechanical subsystems and functions. Focusing on establishing converter components and subsystems models needed for the design, the text demonstrates example designs for these subsystems and for whole three-phase AC converters considering interactions among subsystems. The design methods apply to different applications and topologies.