Basic Electronics for Scientists and Engineers

Name: Basic Electronics for Scientists and Engineers
Availability: InStock
ISBN: 9780521154307

ISBN-10: 0521154308

ISBN-13: 9780521154307

Edition: 2011

Authors: Dennis L. Eggleston

List price: $79.95

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Book details

List price: $79.95
Copyright year: 2011
Publisher: Cambridge University Press
Publication date: 4/28/2011
Binding: Paperback
Pages: 261
Size: 7.48" wide x 9.65" long x 0.59" tall
Weight: 1.430

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.



Preface



Basic concepts and resistor circuits



Basics



Resistors



AC signals


Exercises


Further reading



AC circuits



Introduction



Capacitors



Inductors



RC circuits



Response to a sine wave



Using complex numbers in electronics



Using the complex exponential method for a switching problem



Fourier analysis



Transformers


Exercises


Further reading



Band theory and diode circuits



The band theory of solids



Diode circuits


Exercises


Further reading



Bipolar junction transistors



Introduction



Bipolar transistor fundamentals



DC and switching applications



Amplifiers


Exercises


Further reading



Field-effect transistors



Introduction



Field-effect transistor fundamentals



DC and switching applications



Amplifiers


Exercises


Further reading



Operational amplifiers



Introduction



Non-linear applications I



Linear applications



Practical considerations for real op-amps



Non-linear applications II


Exercises


Further reading



Oscillators



Introduction



Relaxation oscillators



Sinusoidal oscillators



Oscillator application: EM communications


Exercises


Further reading



Digital circuits and devices



Introduction



Binary numbers



Representing binary numbers in a circuit



Logic gates



Implementing logical functions



Boolean algebra



Making logic gates



Adders



Information registers



Counters



Displays and decoders



Shift registers



Digital to analog converters



Analog to digital converters



Multiplexers and demultiplexers



Memory chips


Exercises


Further Reading



Selected answers to exercises



Solving a set of linear algebraic equations



Inductively coupled circuits


References


Index