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Author: Robert E. Simpson
ISBN13: 978-0205083770
Title: Introductory Electronics for Scientists and Engineers
Format: azw lrf docx txt
ePUB size: 1440 kb
FB2 size: 1648 kb
DJVU size: 1331 kb
Language: English
Category: Engineering
Publisher: Addison-Wesley; 2 edition (June 8, 1987)
Pages: 800

Introductory Electronics for Scientists and Engineers by Robert E. Simpson

Extra resources for Introductory electronics for scientists and engineers. 7 x 10" rads (point A) the gate bias was changed to - 5 V. Then the device was given an additional radiation increment of 3 x lo8 rads. At the completion of that increment, the device achieved the same flat-band value it would have had if it had been maintained with a gate bias of - 5 V (on the curve located approximately halfway between VBr 0 and Vgr - 10 V but not shown on this figure)

FREE shipping on qualifying offers. Develops basic theory necessary for a full understanding of analog and digital electronics. The 13-digit and 10-digit formats both work.

Lists with This Book. This book is not yet featured on Listopia. great text for anyone interested in electronics, but especially good for engineers and scientists.

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The author style to clarify the idea is very unique. You can also get the e-book from your official web site, so you can more easily to read the book. Adam McGrath: Reading a reserve tends to be new life style with this era globalization  .

This page intentionally left blank. Basic Electronics for Scientists and Engineers. Ideal for a one-semester course, this concise textbook covers basic electronics for undergraduate students in science and engineering. Beginning with basics of general circuit laws and resistor circuits to ease students into the subject, the textbook then covers a wide range of topics, from passive circuits through to semiconductor-based analog circuits and basic digital circuits. Eggleston’s book is exactly what I was looking for – a basic course ideal for science students needing a practical introduction to electronics.

This book is unique in several respects. Throughout, the emphasis is on fields of characteristic 2, the fields on which almost all applications are based. The importance of Euclid's algorithm is stressed early and often. Berlekamp's polynomial factoring algorithm is given a complete explanation. The book contains the first treatment of Berlekamp's 1982 bit-serial multiplication circuits, and concludes with a thorough discussion of the theory of m-sequences, which are widely used in communications systems of many kinds.

Sprott, Julien . Introduction to Modern Electronics (New York: Wiley, 1981). Uffenbeck, John . Introduction to Electronics, Devices and Circuits (Englewood Cliffs, NJ: Prentice-Hall, 1982). Valdes, Leopoldo . The Physical Theory of Transistors (New York: McGraw-Hill, 1961)

by Robert E. Simpson. Publisher: Addison-Wesley.

Develops basic theory necessary for a full understanding of analog and digital electronics.
Reviews: 3
I bought this book in hardcover so that it could survive trips to and from class in my backpack, but when I opened it I found that it is actually paperback. Very disappointing, paperback was not listed anywhere in the description.
As a second year undergraduate Biomedical Engineering student I used Simpson's text for my first Biomedical Instrumentation class at Duke University. At the time the professor told us that we would have a tough time with the book, but over time we would find that it was an outstanding reference and as our sophistication grew we would come to appraciate it more. That has certainly been the case!
As a professor now, teaching my own Biomedical Instrumentation class I still find this text to be the best on out there. It provides a thorough background on many of the key concepts of Electrical Engineering including AC and DC circuits, Fourier analysis, Semiconductor Physics, Transistors, Op Amps, Op Amp Ciucuits, Digital Logic, and even microprocessors. Some of this is admittedly dated, especially the digital sections, but the fundamentals are all there and I have not seen another book that covers so much, so clearly.
One of the great features of this text is its practical bent. There is a whole chapter on noise; describing phyical sources and some ways of dealing with probelms. There is also an excellent appendix describing various types of capacitors, inductors, and resistors. It answers great questions like: Should I use a ceramic capacitor in my design or an aluminum electrolytic?
Of the roughly 50 books on the shelf in my office, this is the one that is most commonly missing. I recommend this book as an excellent reference in an area where there are a lot of books available.
I highly recommend Simpson's book. It provides clear, accurate information on all those things that we may have missed (or forgotten). His treatment of solid state devices is detailed, but accurate (too many other books gloss over the SS theory).

The only reason that I can't give it 5 stars is it's age. I would prefer an updated edition. If you have a copy, keep it.