3 edition of Physics and operation of silicon devices in integrated circuits found in the catalog.
Physics and operation of silicon devices in integrated circuits
Includes bibliographical references and index.
|Statement||edited by Jacques Gautier.|
|Contributions||Gautier, Jacques, 1948-|
|LC Classifications||QC611.8.M4 P4713 2009|
|The Physical Object|
|LC Control Number||2009021528|
This book gives a fascinating picture of the state-of-the-art in silicon photonics and a perspective on what can be expected in the near future. It is composed of a selected number of reviews authored by world leaders in the field and is written from both academic and industrial viewpoints. An in-depth discussion of the route towards fully integrated silicon photonics is presented.3/5(1). Polycrystalline Silicon for Integrated Circuits and Displays - Kindle edition by Kamins, Ted. Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Polycrystalline Silicon for Integrated Circuits and Displays.5/5(1).
ESD Physics and Devices. This volume is the first in a series of three books addressing Electrostatic Discharge (ESD) physics, devices, circuits and design across the full range of integrated circuit technologies. ESD Physics and Devices provides a concise treatment of the ESD phenomenon and the physics of devices operating under ESD conditions. A semiconductor device is an electronic component that relies on the electronic properties of a semiconductor material (primarily silicon, germanium, and gallium arsenide, as well as organic semiconductors) for its nductor devices have replaced vacuum tubes in most applications. They use electrical conduction in the solid state rather than the gaseous state or .
A system-on-a-chip (SoC or SOC) is an integrated circuit in which all the components needed for a computer or other system are included on a single chip. The design of such a device can be complex and costly, and whilst performance benefits can be had from integrating all needed components on one die. Recently, some SiC power devices such as Schottky-barrier diodes (SBDs), metal-oxide-semiconductor field-effect-transistors (MOSFETs), junction FETs (JFETs), and their integrated modules have come onto the market. However, to stably supply them and reduce their cost, further improvements for material characterizations and those for device processing are still necessary. This book abundantly Cited by:
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This book provides a comprehensive insight into the operation of the main microelectronic devices in silicon integrated circuits. It covers the physics of semiconductor materials, linking their basic properties to those of devices. Applied Solid State Science, Supplement 2: Silicon Integrated Circuits, Part A focuses on MOS device physics.
This book is divided into three chapters—physics of the MOS transistor; nonvolatile memories; and properties of silicon-on-sapphire substrates devices, and integrated circuits. Silicon Integrated Circuits, Part B covers the special considerations needed to achieve high-power Si-integrated circuits.
The book presents articles about the most important operations needed for the high-power circuitry, namely impurity diffusion and oxidation; crystal defects under thermal equilibrium in silicon and the development of high-power device physics; and associated technology.
vi Silicon Devices in Integrated Circuits Transport in devices 59 System at thermodynamic equilibrium 60 Out-of-equilibrium systems 61 Equations tobe solved for the study of devices 63 Example of a PN junction 68 Realization: doping profiles 68 PN junction at thermodynamic equilibrium 69 Applied Solid State Science, Supplement 2: Silicon Integrated Circuits, Part A focuses on MOS device physics.
This book is divided into three chapters—physics of the MOS transistor; nonvolatile memories; and properties of silicon-on-sapphire substrates devices, and integrated Edition: 1. Focusing specifically on silicon devices, the Third Edition of Device Electronics for Integrated Circuits takes students in integrated-circuits courses from fundamental physics to detailed device operation.
Because the book focuses primarily on silicon devices, each topic can include more depth, and extensive worked examples and practice problems ensure that students understand the details.
Focusing specifically on silicon devices, the Third Edition of Device Electronics for Integrated Circuits takes students in integrated-circuits courses from fundamental physics to detailed device operation. Because the book focuses primarily on silicon devices, each topic can include more depth, and extensive worked.
ESD in Silicon Integrated Circuits, Second Edition. Author(s): Ajith Amerasekera book provides an understanding of the basic features related to ESD and deals with topics ranging from the physics of devices operating under ESD conditions to approaches for solving and improving ESD performance in advanced ICs.
Physics and Operation of. The prolonged operation of semiconductor integrated circuits (ICs) needed for long-duration exploration of the surface of Venus has proven insurmountably challenging to date due to the ∼ °C, ∼ MPa caustic by: ESD in Silicon Integrated Circuits Second Edition Ajith Amerasekera Charvaka Duvvury normal device operation.
Hence, the physics governing this behavior are not typ- This book covers the state-of-the-art in circuit design for ESD prevention as well as the device physics, test. In the second edition of this book, new and outstanding integrated high-bandwidth pin photodiodes as well as avalanche photodiodes in the linear mode and in the Geiger mode are introduced.
To cover the topic comprehensively, the book presents detailed descriptions of OEICs for a wide range. Advanced device concepts will exploit these effects for integrated circuits with novel or improved properties.
Keeping in mind the trend towards systems on chip, this book deals with silicon-based quantum devices and focuses on room-temperature operation. Polycrystalline Silicon for Integrated Circuits and Displays, polysilicon is now also included in virtually all modern bipolar ICs, where it improves the basic physics of device operation.
The compatibility of polycrystalline silicon with subsequent high-temperature processing allows its efficient integration into advanced IC processes. About the Author. Richard Stephen Muller is an American professor in the Electrical Engineering and Computer Science Department of the University of California at Berkeley.
He made contributions to the founding and growth of the field of MicroElectromechanical Systems. Theodore I. Kamins is the author of Device Electronics for Integrated Circuits, Cited by: The prolonged operation of semiconductor integrated circuits (ICs) needed for long-duration exploration of the surface of Venus has proven insurmountably challenging to date due to the ∼ °C, ∼ MPa caustic environment.
Past and planned Venus landers have been limited to a few hours of surface operation, even when IC electronics needed for basic lander operation are protected with Cited by: To expose the students to advanced devices and process technology for silicon IC manufacturing.
Principles and Models of Semiconductor Devices (EE) and Integrated Circuits Fabrication Technology (EE). McGraw Hill Book Com, Year: S. Sze, Physics of Semiconductor Devices, Wiley Y.
Taur and T. Ning, Fundamentals of Modern. able, the most commonly used is silicon, and integrated circuits are popularly known as silicon chips. (Unless otherwise noted, the remainder of these discus-sions will assume integrated circuits based on silicon as the semiconductor.) To a large extent, the demand for miniaturization was driven by the demands of the American space program.
BJT power devices. Power BJTs Darlington Transistors Silicon Controlled Rectifier (SCR) or Thyristor DIode and TRiode AC switch (DIAC and TRIAC) Examples- Problems- Review Questions- Bibliography - Equations. Chapter 6: Metal-Oxide-Silicon Capacitors. Introduction Structure and principle of operation.
Integrated Circuits are defined as the circuit that comprises elements that are inseparable and interconnected electrically in such a way that the IC cannot be separated for the reason of commerce and construction. Myriad technologies can be used to build such a circuit.
Today what we call an IC, was originally known as a monolithic integrated circuit. This book provides all the required information for a course in modern device electronics taken by undergraduate electrical engineers.
Offers coverage of silicon technology, several topics in basic semiconductor physics, and Hall-effect : John Wiley & Sons, Inc. Electronic Devices and Circuits II. This book, intended as a text for a first course in electronics for electrical engineering or physics students, has two primary objectives: to present a clear, consistent picture of the internal physical behavior of many electronic devices, and to teach the reader how to analyze and design electronic circuits.Power Semiconductor Devices and Integrated Circuits This lecture note covers the following topics related to power semiconductors: Basics of Power semiconductors, Semiconductor Fundamentals and Transport Physics, P-N Junction and Breakdown Mechanisms, Power Rectifier and Power BJT, Power MOSFET, Insulated Gate Bipolar Transistor and State-of.* Reviews the new Charged Device Model (CDM) test method and evaluates design requirements necessary for circuit protection.
About the Author E. Ajith Amerasekera is the author of ESD in Silicon Integrated Circuits, 2nd Edition, published by Wiley.