Semiconductor Device Modelling

Introduction to Semiconductor Device Modelling

Author : Christopher M. Snowden

Publisher : World Scientific

Page : 242 pages

File Size : 41,49 MB

Release : 1998

Category : Science

ISBN : 9789810236939

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Book Description

This book deals mainly with physical device models which are developed from the carrier transport physics and device geometry considerations. The text concentrates on silicon and gallium arsenide devices and includes models of silicon bipolar junction transistors, junction field effect transistors (JFETs), MESFETs, silicon and GaAs MESFETs, transferred electron devices, pn junction diodes and Schottky varactor diodes. The modelling techniques of more recent devices such as the heterojunction bipolar transistors (HBT) and the high electron mobility transistors are discussed. This book contains details of models for both equilibrium and non-equilibrium transport conditions. The modelling Technique of Small-scale devices is discussed and techniques applicable to submicron-dimensioned devices are included. A section on modern quantum transport analysis techniques is included. Details of essential numerical schemes are given and a variety of device models are used to illustrate the application of these techniques in various fields.



Semiconductor Device Modeling with Spice

Author : Giuseppe Massabrio

Publisher : McGraw Hill Professional

Page : 500 pages

File Size : 45,72 MB

Release : 1998-12-22

Category : Technology & Engineering

ISBN : 9780071349550

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Book Description

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.



The Monte Carlo Method for Semiconductor Device Simulation

Author : Carlo Jacoboni

Publisher : Springer Science & Business Media

Page : 382 pages

File Size : 14,35 MB

Release : 1989-10-30

Category : Technology & Engineering

ISBN : 9783211821107

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Book Description

This volume presents the application of the Monte Carlo method to the simulation of semiconductor devices, reviewing the physics of transport in semiconductors, followed by an introduction to the physics of semiconductor devices.



SEMICONDUCTOR DEVICES

Author : NANDITA DASGUPTA

Publisher : PHI Learning Pvt. Ltd.

Page : 342 pages

File Size : 19,60 MB

Release : 2004-01-01

Category : Technology & Engineering

ISBN : 812032398X

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Book Description

Aimed primarily at the undergraduate students pursuing courses in semiconductor physics and semiconductor devices, this text emphasizes the physical understanding of the underlying principles of the subject. Since engineers use semiconductor devices as circuit elements, device models commonly used in the circuit simulators, e.g. SPICE, have been discussed in detail. Advanced topics such as lasers, heterojunction bipolar transistors, second order effects in BJTs, and MOSFETs are also covered. With such in-depth coverage and a practical approach, practising engineers and PG students can also use this book as a ready reference.



Monte Carlo Simulation of Semiconductor Devices

Author : C. Moglestue

Publisher : Springer Science & Business Media

Page : 343 pages

File Size : 27,3 MB

Release : 2013-04-17

Category : Computers

ISBN : 9401581339

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Book Description

Particle simulation of semiconductor devices is a rather new field which has started to catch the interest of the world's scientific community. It represents a time-continuous solution of Boltzmann's transport equation, or its quantum mechanical equivalent, and the field equation, without encountering the usual numerical problems associated with the direct solution. The technique is based on first physical principles by following in detail the transport histories of indi vidual particles and gives a profound insight into the physics of semiconductor devices. The method can be applied to devices of any geometrical complexity and material composition. It yields an accurate description of the device, which is not limited by the assumptions made behind the alternative drift diffusion and hydrodynamic models, which represent approximate solutions to the transport equation. While the development of the particle modelling technique has been hampered in the past by the cost of computer time, today this should not be held against using a method which gives a profound physical insight into individual devices and can be used to predict the properties of devices not yet manufactured. Employed in this way it can save the developer much time and large sums of money, both important considerations for the laboratory which wants to keep abreast of the field of device research. Applying it to al ready existing electronic components may lead to novel ideas for their improvement. The Monte Carlo particle simulation technique is applicable to microelectronic components of any arbitrary shape and complexity.



Semiconductor Devices Explained

Author : Ton J. Mouthaan

Publisher : John Wiley & Sons

Page : 360 pages

File Size : 28,66 MB

Release : 1999

Category : Technology & Engineering

ISBN :

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Book Description

Offers an innovative and accessible new approach to the teaching of the fundamentals of semiconductor components by exploiting simulation to explain the mechanisms behind current in semiconductor structures. Simulation is a popular tool used by engineers and scientists in device and process research and the accompanying two dimensional process and device simulation software 'MicroTec', enables students to make their own devices and allows the recreation of real performance under varying parameters. There is also an accompanying ftp site containing ICECREAM software (Integrated Circuits and Electronics group Computerized Remedial Education And Mastering) which improves understanding of the physics involved and covers semiconductor physics, junction diodes, silicon bipolar and MOS transistors and photonic devices like LEDs and lasers. Features include: * MicroTec diskette containing a two-dimensional process and device simulator on which the many simulation exercises mentioned in the text can be performed thereby facilitating learning through experimentation * Computer aided education software (accessible vita ftp) featuring question and answer games, which enables students to enhance their understanding of the physics involved and allows lecturers to set assignments * Broad coverage spanning the common devices: pn junctions, metal semiconductor junctions, photocells, lasers, bipolar transistors, and MOS transistors * Discussion of fundamental concepts and technological principles offering the student a valuable grounding in semiconductor physics * Examination of the implications of recent research on small dimensions, reliability problems and breakdown mechanisms. Semiconductor Devices Explained offers a comprehensive new approach to teaching the fundamentals of semiconductor components based on the use of the accompanying process and device simulation software. Simulation is a popular tool used by engineers and scientists in device and process research. It supports the understanding of basic phenomena by linking the theory to hands on applications and real world problems with semiconductor devices. Throughout the text students are encouraged to augment their understanding by undertaking simulations and creating their own devices. The ICECREAM programme (Integrated Circuits and Electronics group Computerized Remedial Education And Mastering) question and answer game leads students through the concepts of common devices and makes learning fun. There is also a self-test element in which a data bank generates questions on the fundamentals of semiconductor junctions enabling students to assess their progress. Larger projects suitable for use as examination assignments are also incorporated. The test package is freely available to lecturers from the author on request. The remedial component of ICECREAM is available from the Wiley ftp site. MicroTec comes on a disk in the back of the book.



Noise in Semiconductor Devices

Author : Fabrizio Bonani

Publisher : Springer Science & Business Media

Page : 241 pages

File Size : 31,63 MB

Release : 2013-03-09

Category : Technology & Engineering

ISBN : 3662045303

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Book Description

Provides an overview of the physical basis of noise in semiconductor devices, and a detailed treatment of numerical noise simulation in small-signal conditions. It presents innovative developments in the noise simulation of semiconductor devices operating in large-signal quasi-periodic conditions.



Modelling of Interface Carrier Transport for Device Simulation

Author : Dietmar Schroeder

Publisher : Springer Science & Business Media

Page : 234 pages

File Size : 11,58 MB

Release : 2013-03-09

Category : Technology & Engineering

ISBN : 3709166446

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Book Description

This book contains a comprehensive review of the physics, modelling and simulation of electron transport at interfaces in semiconductor devices. It combines a review of existing interface charge transport models with original developments, and introduces a unified representation of charge transport at semiconductor interfaces.



Semiconductor Optoelectronic Devices

Author : Joachim Piprek

Publisher : Elsevier

Page : 296 pages

File Size : 32,33 MB

Release : 2013-10-22

Category : Technology & Engineering

ISBN : 0080469787

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Book Description

Optoelectronics has become an important part of our lives. Wherever light is used to transmit information, tiny semiconductor devices are needed to transfer electrical current into optical signals and vice versa. Examples include light emitting diodes in radios and other appliances, photodetectors in elevator doors and digital cameras, and laser diodes that transmit phone calls through glass fibers. Such optoelectronic devices take advantage of sophisticated interactions between electrons and light. Nanometer scale semiconductor structures are often at the heart of modern optoelectronic devices. Their shrinking size and increasing complexity make computer simulation an important tool to design better devices that meet ever rising perfomance requirements. The current need to apply advanced design software in optoelectronics follows the trend observed in the 1980's with simulation software for silicon devices. Today, software for technology computer-aided design (TCAD) and electronic design automation (EDA) represents a fundamental part of the silicon industry. In optoelectronics, advanced commercial device software has emerged recently and it is expected to play an increasingly important role in the near future. This book will enable students, device engineers, and researchers to more effectively use advanced design software in optoelectronics. - Provides fundamental knowledge in semiconductor physics and in electromagnetics, while helping to understand and use advanced device simulation software - Demonstrates the combination of measurements and simulations in order to obtain realistic results and provides data on all required material parameters - Gives deep insight into the physics of state-of-the-art devices and helps to design and analyze of modern optoelectronic devices



Advanced Physical Models for Silicon Device Simulation

Author : Andreas Schenk

Publisher : Springer Science & Business Media

Page : 384 pages

File Size : 34,66 MB

Release : 1998-07-07

Category : Technology & Engineering

ISBN : 9783211830529

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Book Description

From the reviews: "... this is a well produced book, written in a easy to read style, and will also be a very useful primer for someone starting out the field [...], and a useful source of reference for experienced users ..." Microelectronics Journal