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The Art of Electronics(第三版)中文名:电子学

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  • 日期: 2018-05-04
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标签: 电子百科全书

The Art of Electronics(第三版)带书签

是一本好书

本书涉及了基础电路,模拟电路,高频电路,数电等,现在高校中有讲的电子方面的知识基本都有。介绍还可以看http://bbs.eeworld.com.cn/forum.php?mod=viewthread&tid=98670&highlight=The%2BArt%2Bof%2BElectronics

说实话因为看到很吃力,描述就不写太多了。

想要中文版的留言给我,太大了不好上传。

文档内容节选

The Art of Electronics Third Edition At long last here is the thoroughly revised and updated and longanticipated third edition of the hugely successful The Art of Electronics Widely accepted as the best single authoritative text and reference on electronic circuit design both analog and digital the rst two editions were translated into eight languages and sold more than a million copies worldwide The art of electronics is explained by stressing the methods actually used by circuit designers a c......

The Art of Electronics Third Edition At long last, here is the thoroughly revised and updated, and long-anticipated, third edition of the hugely successful The Art of Electronics. Widely accepted as the best single authoritative text and reference on electronic circuit design, both analog and digital, the first two editions were translated into eight languages, and sold more than a million copies worldwide. The art of electronics is explained by stressing the methods actually used by circuit designers – a combination of some basic laws, rules of thumb, and a nonmathematical treatment that encourages understanding why and how a circuit works. Paul Horowitz is a Research Professor of Physics and of Electrical Engineering at Harvard University, where in 1974 he originated the Laboratory Electronics course from which emerged The Art of Electronics. In addition to his work in circuit design and electronic instrumentation, his research interests have included observational astrophysics, x-ray and particle microscopy, and optical interferometry. He is one of the pioneers of the search for intelligent life beyond Earth (SETI). He is the author of some 200 scientific articles and reports, has consulted widely for industry and government, and is the designer of numerous scientific and photographic instruments. Winfield Hill is by inclination an electronics circuit-design guru. After dropping out of the Chemical Physics graduate program at Harvard University, and obtaining an E.E. degree, he began his engineering career at Harvard’s Electronics Design Center. After 7 years of learning electronics at Harvard he founded Sea Data Corporation, where he spent 16 years designing instruments for Physical Oceanography. In 1988 he was recruited by Edwin Land to join the Rowland Institute for Science. The institute subsequently merged with Harvard University in 2003. As director of the institute’s Electronics Engineering Lab he has designed some 500 scientific instruments. Recent interests include high-voltage RF (to 15 kV), high-current pulsed electronics (to 1200 A), low-noise amplifiers (to sub-nV and pA), and MOSFET pulse generators. THE ART OF ELECTRONICS Third Edition Paul Horowitz HARVARD UNIVERSITY Winfield Hill ROWLAND INSTITUTE AT HARVARD 32 Avenue of the Americas, New York, NY 10013-2473, USA Cambridge University Press is part of the University of Cambridge. It furthers the University’s mission by disseminating knowledge in the pursuit of education, learning, and research at the highest international levels of excellence. www.cambridge.org Information on this title: www.cambridge.org/9780521809269 © Cambridge University Press, 1980, 1989, 2015 This publication is in copyright. Subject to statutory exception and to the provisions of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of Cambridge University Press. First published 1980 Second edition 1989 Third edition 2015 Printed in the United States of America A catalog record for this publication is available from the British Library. ISBN 978-0-521-80926-9 Hardback Cambridge University Press has no responsibility for the persistence or accuracy of URLs for external or third-party Internet websites referred to in this publication and does not guarantee that any content on such websites is, or will remain, accurate or appropriate. CONTENTS List of Tables Preface to the First Edition Preface to the Second Edition Preface to the Third Edition xxii xxv xxvii xxix 1.7 ONE: Foundations Introduction 1.1 1.2 Voltage, current, and resistance 1.2.1 Voltage and current 1.2.2 Relationship between voltage and current: resistors 1.2.3 Voltage dividers 1.2.4 Voltage sources and current 1.3 sources Th´evenin equivalent circuit Small-signal resistance 1.2.5 1.2.6 1.2.7 An example: “It’s too hot!” Signals 1.3.1 1.3.2 1.3.3 Other signals 1.3.4 Logic levels Signal sources 1.3.5 Sinusoidal signals Signal amplitudes and decibels 1.4 Capacitors and ac circuits Capacitors RC circuits: V and I versus time Integrators 1.4.1 1.4.2 1.4.3 Differentiators 1.4.4 1.4.5 Not quite perfect. . . Inductors and transformers 1.5.1 1.5.2 Inductors Transformers 1.5 1.6 Diodes and diode circuits 1.6.1 Diodes 1.6.2 1.6.3 1.6.4 Rectification Power-supply filtering Rectifier configurations for power supplies 1 1 1 1 3 7 8 9 12 13 13 14 14 15 17 17 18 18 21 25 26 28 28 28 30 31 31 31 32 33 ix 1.6.5 1.6.6 1.6.7 Regulators Circuit applications of diodes Inductive loads and diode protection Interlude: inductors as friends 1.6.8 Impedance and reactance 1.7.1 Frequency analysis of reactive circuits 1.7.2 Reactance of inductors 1.7.3 Voltages and currents as 1.7.4 complex numbers Reactance of capacitors and inductors Power in reactive circuits 1.7.5 Ohm’s law generalized 1.7.6 1.7.7 Voltage dividers generalized 1.7.8 1.7.9 1.7.10 RC differentiators and RC highpass filters RC lowpass filters integrators in the frequency domain 1.7.11 Inductors versus capacitors 1.7.12 Phasor diagrams 1.7.13 “Poles” and decibels per octave 1.7.14 Resonant circuits 1.7.15 LC filters 1.7.16 Other capacitor applications 1.7.17 Th´evenin’s theorem generalized Putting it all together – an AM radio 1.8 1.9 Other passive components 1.9.1 1.9.2 Electromechanical devices: switches Electromechanical devices: relays Connectors Indicators 1.9.3 1.9.4 1.9.5 Variable components 1.10 A parting shot: confusing markings and itty-bitty components 1.10.1 Surface-mount technology: the joy and the pain 34 35 38 39 40 41 44 44 45 46 47 48 48 50 51 51 51 52 52 54 54 55 55 56 56 59 59 61 63 64 65 x Contents Art of Electronics Third Edition Additional Exercises for Chapter 1 Review of Chapter 1 TWO: Bipolar Transistors 2.1 2.2 2.3 2.4 Introduction 2.1.1 First transistor model: current amplifier Some basic transistor circuits 2.2.1 2.2.2 2.2.3 2.2.4 Transistor switch Switching circuit examples Emitter follower Emitter followers as voltage regulators Emitter follower biasing Current source Common-emitter amplifier 2.2.5 2.2.6 2.2.7 2.2.8 Unity-gain phase splitter 2.2.9 Ebers–Moll model applied to basic tran- sistor circuits 2.3.1 Transconductance Improved transistor model: transconductance amplifier Consequences of the Ebers–Moll model: rules of thumb for transistor design The emitter follower revisited The common-emitter amplifier revisited Biasing the common-emitter amplifier 2.3.2 2.3.3 2.3.4 2.3.5 Current mirrors 2.3.6 An aside: the perfect transistor 2.3.7 2.3.8 Differential amplifiers Some amplifier building blocks 2.4.1 Push–pull output stages 2.4.2 Darlington connection 2.4.3 2.4.4 Bootstrapping Current sharing in paralleled BJTs Capacitance and Miller effect Field-effect transistors 2.4.5 2.4.6 2.5 Negative feedback Introduction to feedback 2.5.1 2.5.2 Gain equation 2.5.3 Effects of feedback on amplifier circuits Two important details Two examples of transistor amplifiers with feedback 2.5.4 2.5.5 2.6 Some typical transistor circuits 66 68 71 71 72 73 73 75 79 82 83 85 87 88 89 90 90 91 93 93 96 99 101 102 105 106 109 111 112 113 115 115 116 116 117 120 121 123 2.6.1 2.6.2 2.6.3 Regulated power supply Temperature controller Simple logic with transistors and diodes Additional Exercises for Chapter 2 Review of Chapter 2 THREE: Field-Effect Transistors 3.1 3.2 FET characteristics FET types Introduction 3.1.1 3.1.2 3.1.3 Universal FET characteristics 3.1.4 3.1.5 Manufacturing spread of FET FET drain characteristics characteristics Basic FET circuits 3.1.6 FET linear circuits 3.2.1 Some representative JFETs: a brief tour JFET current sources FET amplifiers 3.2.2 3.2.3 3.2.4 Differential amplifiers 3.2.5 Oscillators 3.2.6 3.2.7 3.2.8 Source followers FETs as variable resistors FET gate current 3.3 A closer look at JFETs 3.3.1 Drain current versus gate voltage 3.3.2 Drain current versus 3.3.3 3.3.4 drain-source voltage: output conductance Transconductance versus drain current Transconductance versus drain voltage JFET capacitance 3.3.5 3.3.6 Why JFET (versus MOSFET) 3.4 amplifiers? FET switches 3.4.1 3.4.2 3.4.3 FET analog switches Limitations of FET switches Some FET analog switch examples 3.5 3.4.4 MOSFET logic switches Power MOSFETs 3.5.1 High impedance, thermal 3.5.2 stability Power MOSFET switching parameters 123 123 123 124 126 131 131 131 134 136 137 138 140 141 141 142 146 152 155 156 161 163 165 165 166 168 170 170 170 171 171 174 182 184 187 187 192
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