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E-raamat: Basic Electronics for Scientists and Engineers

3.25/5 (31 hinnangut Goodreads-ist)
(Occidental College, Los Angeles)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 28-Apr-2011
  • Kirjastus: Cambridge University Press
  • Keel: eng
  • ISBN-13: 9781139636704
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Basic Electronics for Scientists and EngineersSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 28-Apr-2011
  • Kirjastus: Cambridge University Press
  • Keel: eng
  • ISBN-13: 9781139636704
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"Ideal for a one-semester course, this concise textbook covers basic electronics for undergraduate students in science and engineering. Beginning with the 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. Using a balance of thorough analysis and insight, readers are shown how to work with electronic circuits and apply the techniques they have learnt. The textbook's structure makes it useful as a self-study introduction to the subject. All mathematics is kept to a suitable level, and there are several exercises throughout the book. Password-protected solutions for instructors, together with eight laboratory exercises that parallel the text, are available online at www.cambridge.org/Eggleston"--

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Arvustused

'Basic Electronics for Scientists and Engineers by Dennis Eggleston is an example of how the most important material in the introduction to electronics can be presented within a one semester time frame. The text is written in a nice logical sequence and is beneficial for students majoring in all areas In addition, many examples and detailed introduction of all equations allow this course to be taught to students of different background[ s] - sophomores, juniors, and seniors. Overall, the effort of the author is thrilling and, definitely, this text will be popular among many instructors and students.' Anatoliy Glushchenko, University of Colorado, Colorado Springs 'This text is an excellent choice for undergraduates majoring in Physics. It covers the basics, running from passive components through diodes, transistors and op-amps to digital electronics. This makes it self-contained and a one-stop reference for the student. A brief treatment of the semiconductor physics of silicon devices provides a good basis for understanding the mathematical models of their behaviour and the end-of-chapter problems help with the learning process. The concise and sequential nature of the book makes it easier to teach (and study) from than the venerable but somewhat overwhelming Art of Electronics by Horowitz and Hill.' David Hanna, W. C. Macdonald Professor of Physics, McGill University 'I have been frustrated in the past by my inability to find a suitable book for a one-semester Electronics course that starts with analog and progresses to basic digital circuits. Most available books seem to be out of date or aimed at electrical engineers rather than scientists. Eggleston's book is exactly what I was looking for - a basic course ideal for science students needing a practical introduction to Electronics. Written concisely and clearly, the book emphasizes many practical applications, but with sufficient theoretical explanation so that the results don't simply appear out of thin air.' Susan Lehman, Clare Boothe Luce Associate Professor and Chair of Physics, The College of Wooster

Muu info

Ideal for a one-semester course, this concise textbook covers basic electronics for undergraduate students in science and engineering.
Preface xi
1 Basic concepts and resistor circuits
1(26)
1.1 Basics
1(3)
1.2 Resistors
4(15)
1.3 AC signals
19(8)
Exercises
23(3)
Further reading
26(1)
2 AC circuits
27(41)
2.1 Introduction
27(1)
2.2 Capacitors
27(2)
2.3 Inductors
29(1)
2.4 RC circuits
30(7)
2.5 Response to a sine wave
37(6)
2.6 Using complex numbers in electronics
43(11)
2.7 Using the complex exponential method for a switching problem
54(4)
2.8 Fourier analysis
58(3)
2.9 Transformers
61(7)
Exercises
65(2)
Further reading
67(1)
3 Band theory and diode circuits
68(36)
3.1 The band theory of solids
68(12)
3.2 Diode circuits
80(24)
Exercises
101(2)
Further reading
103(1)
4 Bipolar junction transistors
104(29)
4.1 Introduction
104(1)
4.2 Bipolar transistor fundamentals
104(4)
4.3 DC and switching applications
108(2)
4.4 Amplifiers
110(23)
Exercises
131(1)
Further reading
132(1)
5 Field-effect transistors
133(19)
5.1 Introduction
133(1)
5.2 Field-effect transistor fundamentals
134(6)
5.3 DC and switching applications
140(1)
5.4 Amplifiers
141(11)
Exercises
150(1)
Further reading
151(1)
6 Operational amplifiers
152(19)
6.1 Introduction
152(1)
6.2 Non-linear applications I
153(1)
6.3 Linear applications
154(5)
6.4 Practical considerations for real op-amps
159(6)
6.5 Non-linear applications II
165(6)
Exercises
168(2)
Further reading
170(1)
7 Oscillators
171(29)
7.1 Introduction
171(1)
7.2 Relaxation oscillators
171(14)
7.3 Sinusoidal oscillators
185(8)
7.4 Oscillator application: EM communications
193(7)
Exercises
198(1)
Further reading
199(1)
8 Digital circuits and devices
200(36)
8.1 Introduction
200(1)
8.2 Binary numbers
200(2)
8.3 Representing binary numbers in a circuit
202(2)
8.4 Logic gates
204(2)
8.5 Implementing logical functions
206(2)
8.6 Boolean algebra
208(3)
8.7 Making logic gates
211(2)
8.8 Adders
213(3)
8.9 Information registers
216(4)
8.10 Counters
220(3)
8.11 Displays and decoders
223(1)
8.12 Shift registers
224(3)
8.13 Digital to analog converters
227(1)
8.14 Analog to digital converters
228(1)
8.15 Multiplexers and demultiplexers
229(3)
8.16 Memory chips
232(4)
Exercises
234(1)
Further reading
235(1)
Appendix A Selected answers to exercises 236(2)
Appendix B Solving a set of linear algebraic equations 238(3)
Appendix C Inductively coupled circuits 241(4)
References 245(2)
Index 247
Dennis L. Eggleston is Professor of Physics at Occidental College, Los Angeles, where he teaches undergraduate courses and labs at all levels (including the course on which this textbook is based). He has also established an active research program in plasma physics and, together with his undergraduate assistants, he has designed and constructed three plasma devices which form the basis for an active research program in plasma physics.
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