Amos / James Principles of Transistor Circuits

Introduction to the Design of Amplifiers, Receivers and Digital Circuits
8. Auflage 2013
ISBN: 978-1-4832-9390-5
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark

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E-Book, Englisch, 384 Seiten, Web PDF

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Introduction to the Design of Amplifiers, Receivers and Digital Circuits

E-Book, Englisch, 384 Seiten, Web PDF

ISBN: 978-1-4832-9390-5
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark

Häufig gestellte Fragen zu E-Books

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For over thirty years, Stan Amos has provided students and practitioners with a text they could rely on to keep them at the forefront of transistor circuit design. This seminal work has now been presented in a clear new format and completely updated to include the latest equipment such as laser diodes, Trapatt diodes, optocouplers and GaAs transistors, and the most recent line output stages and switch-mode power supplies.Although integrated circuits have widespread application, the role of discrete transistors is undiminished, both as important building blocks which students must understand and as practical solutions to design problems, especially where appreciable power output or high voltage is required. New circuit techniques covered for the first time in this edition include current-dumping amplifiers, bridge output stages, dielectric resonator oscillators, crowbar protection circuits, thyristor field timebases, low-noise blocks and SHF amplifiers in satellite receivers, video clamps, picture enhancement circuits, motor drive circuits in video recorders and camcorders, and UHF modulators. The plan of the book remains the same: semiconductor physics is introduced, followed by details of the design of transistors, amplifiers, receivers, oscillators and generators. Appendices provide information on transistor manufacture and parameters, and a new appendix on transistor letter symbols has been included.

Stan Amos, formerly head of Technical Publications Section Engineering Training Department BBC, has been writing about electronics since the 1950s.

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Autoren/Hrsg.

Amos, S W

James, Mike

Weitere Infos & Material

Inhaltsverzeichnis

1;Front Cover;1
2;Principles of Transistor Circuits;4
3;Copyright Page;5
4;Table of Contents;6
5;Preface to the Eighth Edition;7
6;Chapter 1. Semiconductors and Junction Diodes;8
6.1;INTRODUCTION;8
6.2;MECHANISM OF SEMICONDUCTION;9
6.3;COMPOUND SEMICONDUCTORS;16
6.4;PN JUNCTIONS;17
6.5;JUNCTION DIODES;21
7;Chapter 2. Basic Principles of Transistors;30
7.1;BIPOLAR TRANSISTORS;30
7.2;FIELD-EFFECT TRANSISTORS;44
7.3;H.E.M.T.;52
8;Chapter 3. Common-base and Common-gate Amplifiers;60
8.1;COMMON-BASE AMPLIFIERS;60
8.2;COMMON-GATE AMPLIFIERS;69
9;Chapter 4. Common-emitter and Common-source Amplifiers;72
9.1;COMMON-EMITTER AMPLIFIERS;72
9.2;COMMON-SOURCE AMPLIFIERS;82
10;Chapter 5. Common-collector and Common-drain Amplifiers (Emitter and Source Followers);84
10.1;COMMON-COLLECTOR AMPLIFIERS;84
10.2;COMPARISON OF BIPOLAR TRANSISTOR A MPLI FIERS;92
10.3;COMMON-DRAIN AMPLIFIERS;93
10.4;COMPARISON OF FIELD-EFFECT TRANSISTOR AMPLIFIERS;94
11;Chapter 6. Bias and D.C. Stabilisation;96
11.1;BIPOLAR TRANSISTORS;96
11.2;FIELD - EFFECT TRANSISTORS;111
12;Chapter 7. Small-signal A.F. Amplifiers;116
12.1;DEFINITION OF SMALL - SIGNAL AMPLIFIER;116
12.2;DISTINC TIONBETWEEN VOLTAGE AND CURRENT AMPLIFIERS;116
12.3;SINGLE-TRANSISTOR STAGES;118
12.4;TWO - STAGE AMPLIFIE RS;121
12.5;USE OF NEGATIVE FEEDBACK;122
12.6;TWO-STAGE AMPLIFIERS;126
12.7;COMPLEMENTARY AMPLIFIERS;132
12.8;EMITTER FOLLOWER;132
12.9;DARLINGTON CIRCUIT;134
12.10;CIRCUITS EMPLOYING F.E.T. AND BIPOLAR TRANSISTORS;136
13;Chapter 8. Large-signal A.F. Amplifiers;137
13.1;DEFINITION OF A LARGE-SIGNAL AMPLIFIER;137
13.2;TRANSISTOR PARAMETERS IN LARGE-SIGNAL AMPLIFIERS;137
13.3;CLASS-B AMPLIFIERS;141
13.4;SYMMETRICAL CLASS-B AMPLIFIER;147
13.5;ASYMMETRICAL CLASS-B AMPLIFIER;149
13.6;COMPLEMENTARY CLASS-B AMPLIFIER;150
13.7;CURRENT-DUMPING AMPLIFIERS;154
13.8;BRIDGE OUTPUT STAGE;154
13.9;INTEGRATED-CIRCUIT A.F. POWER AMPLIFIER;155
13.10;HEAT SINKS;157
13.11;DARLINGTON POWER TRANSISTORS;160
14;Chapter 9. D.C. and Pulse Amplifiers;161
14.1;INTRODUCTION;161
14.2;D.C. AMPLIFIERS;161
14.3;OPERATIONAL AMPLIFIERS;165
14.4;VOLTAGE PULSE AMPLIFIERS;173
14.5;COMPLEMENTARY EMITTER FOLLOWER;175
14.6;VIDEO AMPLIFIER FOR TELEVISION RECEIVER;176
15;Chapter 10. R.F. and LF. Amplifiers;183
15.1;INTRODUCTION;183
15.2;CLASS-C OPERATION;183
15.3;COMMON-EMITTER R.F. AMPLIFIERS;185
15.4;COMMON-BASE R.F. AMPLIFIER;186
15.5;I. F. AMPLIFIERS;192
15.6;DECOUPLING;204
15.7;USE OF INTEGRATED CIRCUITS;205
16;Chapter 11. Sinusoidal Oscillators;208
16.1;INTRODUCTION;208
16.2;POSITIVE-FEEDBACK OSCILLATORS;209
16.3;PHASE-SHIFT OSCILLATORS;214
16.4;NEGATIVE-RESISTANCE OSCILLATORS;221
17;Chapter 12. Modulators, Demodulators, Mixers and Receivers;226
17.1;INTRODUCTION;226
17.2;AMPLITUDE MODULATORS;226
17.3;FREQUENCY MODULATORS;227
17.4;A.M. DETECTORS;229
17.5;F.M. DETECTORS;237
17.6;MIXERS;241
17.7;SATELLITE LOW NOISE BLOCK;246
17.8;COMPLETE RECEIVERS;252
18;Chapter 13. Pulse Generators;254
18.1;INTRODUCTION: THE TRANSISTOR AS A SWITCH;254
18.2;MULTIVIBRATOR: BISTABLE;256
18.3;MULTIVIBRATOR: MONOSTABLE;261
18.4;MULTIVIBRATOR: ASTABLE;268
18.5;SYNCHRONISING OF MULTIVIBRATORS;270
18.6;EMITTER-COUPLED MULTIVIBRATOR;271
18.7;BLOCKING OSCILLATOR;273
19;Chapter 14. Sawtooth Generators;279
19.1;INTRODUCTION;279
19.2;SIMPLE DISCHARGER CIRCUIT;280
19.3;MILLER-INTEGRATOR CIRCUIT;283
19.4;CONSTANT-CURRENT CHARGER;285
19.5;LINE OUTPUT STAGE FOR TELEVISION RECEIVER;285
20;Chapter 15. Digital Circuits;292
20.1;INTRODUCTION;292
20.2;LOGIC LEVELS;292
20.3;BINARY SCALE;293
20.4;LOGIC GATES;294
20.5;BISTABLES;305
20.6;DIGITAL REPRESENTATION OF INFORMATION;320
20.7;STORES;321
21;Chapter 16. Further Applications of Transistors and other Semiconductor Devices;328
21.1;INTRODUCTION;328
21.2;SUPPLY-VOLTAGE STABILISING CIRCUITS;328
21.3;D. C. TO D. C. CONVERTERS;340
21.4;PHOTO-DIODE;342
21.5;PHOTO-TRANSISTORS;343
21.6;OPTOCOUPLERS;345
21.7;LASER DIODE IN A CD PLAYER;345
21.8;UNIJUNCTION TRANSISTOR (DOUBLE-BASE DIODE);346
21.9;INVERTER USING THYRISTORS;348
21.10;TRIAC CONTROL OF A. C. ENERGY;353
21.11;RESISTANCE-TO-VOLTAGE CONVERTER;353
21.12;MOTOR-DRIVE CIRCUITS;353
21.13;TELEVISION PICTURE ENHANCEMENT;356
21.14;HYBRID PARAMETERS;383
21.15;TELEVISION PICTURE ENHANCEMENT;356
21.16;RECORDING HEAD DRIVE;356
21.17;TRANSISTORS AS SWITCHES;359
21.18;VIDEO CL359
21.19;U. H. F. MODULATOR;359
21.20;CAPACITANCE-DIODE A. F. C. CIRCUIT;363
21.21;ATTENUATOR USING AN F.E.T.;365
21.22;BIAS/ERASE OSCILLATOR;366
22;Appendix A: The Manufacture of Transistors and Integrated Circuits;368
22.1;PREPARATION OF GERMANIUM FOR TRANSISTOR MANUFACTURE;368
22.2;PREPARATION OF SILICON FOR TRANSISTOR MANUFACTURE;369
22.3;GROWN TRANSISTORS;369
22.4;ALLOY JUNCTION TRANSISTORS;370
22.5;SURFACE-BARRIER TRANSISTOR;372
22.6;DRIFT TRANSISTORS;373
22.7;DIFFUSED TRANSISTORS;373
22.8;EPITAXIAL DIFFUSED TRANSISTORS;375
22.9;PLANAR TRANSISTORS;376
23;Appendix B: Transistor Parameters;381
23.1;INTRODUCTION;381
23.2;Z PARAMETERS;381
23.3;HYBRID PARAMETERS;383
23.4;RELATIONSHIP BETWEEN HYBRID PARAMETERS AND THE T-SECTION EQUIVALENT CIRCUIT;385
24;Appendix C: The Stability of a Transistor Tuned Amplifier;387
25;Appendix D: Semiconductor Letter Symbols;390
26;Index;396

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