Integrated Microelectronic Devices Physics and Modeling

BOOKS - Integrated Microelectronic Devices Physics and Modeling

Integrated Microelectronic Devices Physics and Modeling - J.A. del Alamo 2017 PDF Pearson BOOKS

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Integrated Microelectronic Devices Physics and Modeling

Author: J.A. del Alamo
Year: 2017
Pages: 868
Format: PDF
File size: 28.4 MB
Language: ENG

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A. K. Bhatia. Book Description: 'Integrated Microelectronic Devices Physics and Modeling' by Dr. A. K. Bhatia is a comprehensive guide to understanding the physics and modeling of integrated microelectronic devices. The book covers the fundamental principles of semiconductor physics, device fabrication, and modeling techniques, providing readers with a deep understanding of the technology and its applications. With the increasing demand for high-performance and low-power consumption electronic devices, this book is an essential resource for researchers, engineers, and students working in the field of microelectronics. The book begins with an introduction to the basics of semiconductor materials and diodes, followed by a detailed discussion on transistors, thyristors, and other important devices. It then delves into the physics of semiconductor devices, covering topics such as carrier transport, recombination, and injection, as well as the theory of p-n junctions and their applications. The author also explores the various types of semiconductor devices, including bipolar and MOSFETs, and discusses their characteristics and applications. The second part of the book focuses on the modeling of integrated microelectronic devices, covering both analytical and numerical methods.

А. К. Бхатия. «Физика и моделирование интегрированных микроэлектронных устройств» доктора А. К. Бхатия является всеобъемлющим руководством по пониманию физики и моделирования интегрированных микроэлектронных устройств. Книга охватывает фундаментальные принципы физики полупроводников, изготовления устройств и методов моделирования, предоставляя читателям глубокое понимание технологии и ее применения. С ростом спроса на высокопроизводительные электронные устройства с низким энергопотреблением эта книга является важным ресурсом для исследователей, инженеров и студентов, работающих в области микроэлектроники. Книга начинается с введения в основы полупроводниковых материалов и диодов, за которым следует подробное обсуждение транзисторов, тиристоров и других важных устройств. Затем он углубляется в физику полупроводниковых устройств, охватывая такие темы, как транспорт носителей, рекомбинация и инжекция, а также теорию p-n переходов и их применения. Автор также исследует различные типы полупроводниковых устройств, включая биполярные и МОП-транзисторы, и обсуждает их характеристики и применения. Вторая часть книги посвящена моделированию интегрированных микроэлектронных устройств, охватывая как аналитические, так и численные методы.

A. C. Bhatia. «Fisica e modellazione dei dispositivi microelettronici integrati» del dottor A. C. Bhatia è una guida completa per la comprensione della fisica e la simulazione dei dispositivi microelettronici integrati. Il libro abbraccia i principi fondamentali della fisica dei semiconduttori, della fabbricazione dei dispositivi e dei metodi di simulazione, fornendo ai lettori una profonda comprensione della tecnologia e delle sue applicazioni. Con l'aumento della domanda di dispositivi elettronici a basso consumo ad alte prestazioni, questo libro rappresenta una risorsa importante per ricercatori, ingegneri e studenti che lavorano nel campo della microelettronica. Il libro inizia con l'introduzione di materiali semiconduttori e diodi, seguita da una discussione dettagliata su transistor, tiristori e altri dispositivi importanti. Poi si approfondisce nella fisica dei dispositivi semiconduttori, coprendo temi come il trasporto dei supporti, la ricombinazione e l'iniezione, e la teoria delle transizioni p-n e le loro applicazioni. L'autore esamina anche diversi tipi di dispositivi semiconduttori, inclusi transistor bipolari e MOP, e ne discute le caratteristiche e le applicazioni. La seconda parte è dedicata alla modellazione dei dispositivi microelettronici integrati, che comprende sia metodi analitici che numerici.

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