
POWER/HVMOS Devices Compact Modeling
によって
David M. Shlaes
まだ評価がありません
Science & Technology
形式
キンドル
ページ数
334
言語
オランダ語、フラマン語
公開されました
Jan 1, 2010
出版社
Springer
版
2010
ISBN-10
9048130468
ISBN-13
9789048130467
説明
David M. Shlaes explores the intricate world of semiconductor power electronics, emphasizing the critical role of power/hybrid vertical metal-oxide-semiconductor (HVMOS) devices in modern applications. He delves into their enhanced efficiency and reliability, which are paramount in today’s fast-paced technological landscape.
The book presents a comprehensive overview of compact modeling techniques essential for designing and optimizing power devices. With a deep focus on practicality, Shlaes illustrates various methodologies, making complex concepts accessible for both seasoned engineers and newcomers to the field. He highlights the importance of accurate modeling in predicting device behavior, which is crucial for the development of increasingly sophisticated electronic systems.
Through a blend of theoretical insights and practical applications, Shlaes equips readers with the necessary tools to navigate the challenging terrain of power electronics. His work stands out as a valuable resource for anyone looking to deepen their understanding of semiconductor device modeling and their pivotal role in powering the future.
The book presents a comprehensive overview of compact modeling techniques essential for designing and optimizing power devices. With a deep focus on practicality, Shlaes illustrates various methodologies, making complex concepts accessible for both seasoned engineers and newcomers to the field. He highlights the importance of accurate modeling in predicting device behavior, which is crucial for the development of increasingly sophisticated electronic systems.
Through a blend of theoretical insights and practical applications, Shlaes equips readers with the necessary tools to navigate the challenging terrain of power electronics. His work stands out as a valuable resource for anyone looking to deepen their understanding of semiconductor device modeling and their pivotal role in powering the future.