POWER/HVMOS Devices Compact Modeling
Description
Semiconductor power electronics plays a dominant role due its increased efficiency and high reliability in various domains including the medium and high electrical drives, automotive and aircraft applications, electrical power conversion, etc. Power/HVMOS Devices Compact Modeling will cover very extensive range of topics related to the development and characterization power/high voltage (HV) semiconductor technologies as well as modeling and simulations of the power/HV devices and smart power integrated circuits (ICs). Emphasis is placed on the practical applications of the advanced semiconductor technologies and the device level compact/spice modeling. This book is intended to provide reference information by selected, leading authorities in their domain of expertise. They are representing both academia and industry. All of them have been chosen because of their intimate knowledge of their subjects as well as their ability to present them in an easily understandable manner.
Reviews / Votes
"Linear and digital power applications have emerged as exciting new fields in integrated electronics. This book provides the necessary, up-to-date tools and techniques to understand HV device phenomena, physics and modeling of the components used in power and HV products."
Pekka Ojala
Senior Modeling Director
Exar Corporation
"This book is a must have for all high voltage/RF/analog designer and modeling engineers involved in corresponding technology development and design for integrated Circuits"
Ehrenfried Seebacher
Senior Manager
Process and Device Characterization - Modeling
austriamicrosystems AG
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Content
CHAPTER 1: Numerical Power/HV Device Simulations; Oliver Triebl and Tibor Grasser. CHAPTER 2: HiSIM-HV: A scalable, surface-potential-based compact model for symmetric and asymmetric high-voltage MOSFETs; Hans J. Mattausch, Norio Sadachika, et al. CHAPTER 3: MM20 HVMOS Model: a surface-potential based LDMOS model for circuit simulation; Annemarie Aarts and Alireza Tajic. CHAPTER 4: Practical HV DMOS modeling using HVEKV; Yogesh Singh Chauhan, Francois Krummenacher, et al. CHAPTER 5: Power Devices; Andrzej Napieralski, Malgorzata Napieralska, et al. CHAPTER 6: Distributed modeling approach applied to the IGBT; Patrick Austin and Jean-Louis Sanchez. CHAPTER 7: Web Based Modeling Tools; Andrzej Napieralski, Lukasz Starzak, et al. Index.
