Pspice For Basic Microelectronics
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PSpice for Basic Microelectronics
A step-by-step manual providing detailed explanations and examples of PSpice that can be used with any microelectronics text. It introduces students to the fundamental uses of this book in support of basic microelectronics. The organization allows readers to advance quickly to solve a variety of microelectronic problems.
Microelectronics Education
Author: B. Courtois
language: en
Publisher: Springer Science & Business Media
Release Date: 2013-03-09
This is the third edition of the European Workshop on Microelectronics Education (EWME). A steady-state regime has now been reached. An international community of university teachers is constituted; they exchange their experience and their pedagogical tools. They discuss the best ways to transfer the rapidly changing techniques to their students, and to introduce them to the new physical and mathematical concepts and models for the innovative techniques, devices, circuits and design methods. The number of abstracts submitted to EWME 2000 (about one hundred) enabled the scientific committee to proceed to a clear selection. EWME is a European meeting. Indeed, authors from 20 different European countries contribute to this volume. Nevertheless, the participation of authors from Brazil, Canada, China, New Zealand, and USA, shows that the workshop gradually attains an international dimension. th The 20 century can be characterized as the "century of electron". The electron, as an elementary particle, was discovered by J.J. Thomson in 1897, and was rapidly used to transfer energy and information. Thanks to electron, universe and micro-cosmos could be explored. Electron became the omnipotent and omnipresent, almost immaterial, angel of our W orId. This was made possible thanks to electronics and, for the last 30 years, to microelectronics. Microelectronics not only modified and even radically transformed the industrial and the every-day landscapes, but it also led to the so-called "information revolution" with which begins the 21 st century.
Microelectronics
Author: Mason Snider
language: en
Publisher: Scientific e-Resources
Release Date: 2018-06-21
Microelectronics is the cornerstone of the information technologies that pervade virtually every aspect of contemporary life. It is difficult to imagine any field of science or technology that has had a more profound impact on the latter half of the 20 century than microelectronics. Microelectronics industry has been able to provide transistors, chips and products that are becoming smaller, faster, cheaper and better every year. As transistors become smaller, they become faster, more and more of such transistors can be packed on a chip, and thus chips are able to store and process more information. Digital circuits are made from analog components. The design must assure that the analog nature of the components doesn't dominate the desired digital behaviour. Digital systems must manage noise and timing margins, parasitic inductances and capacitances, and filter power connections. Bad designs have intermittent problems such as "e;glitches"e;, vanishingly-fast pulses that may trigger some logic but not others, "e;runt pulses"e; that do not reach valid "e;threshold"e; voltages, or unexpected ("e;undecoded"e;) combinations of logic states. A digital circuit is often constructed from small electronic circuits called logic gates that can be used to create combinational logic. Each logic gate represents a function of boolean logic. A logic gate is an arrangement of electrically controlled switches, better known as transistors. Each logic symbol is represented by a different shape. This book is designed for advanced undergraduates and graduate students with background knowledge in basic electronics including biasing, modeling, circuit, analysis, and frequency response.