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Summary
Summary
In two editions spanning more than a decade, The Electrical Engineering Handbook stands as the definitive reference to the multidisciplinary field of electrical engineering. Our knowledge continues to grow, and so does the Handbook. For the third edition, it has expanded into a set of six books carefully focused on a specialized area or field of study. Each book represents a concise yet definitive collection of key concepts, models, and equations in its respective domain, thoughtfully gathered for convenient access.
Systems, Controls, Embedded Systems, Energy, and Machines explores in detail the fields of energy devices, machines, and systems as well as control systems. It provides all of the fundamental concepts needed for thorough, in-depth understanding of each area and devotes special attention to the emerging area of embedded systems. Each article includes defining terms, references, and sources of further information.
Encompassing the work of the world's foremost experts in their respective specialties, Systems, Controls, Embedded Systems, Energy, and Machines features the latest developments, the broadest scope of coverage, and new material on human-computer interaction.
Table of Contents
Section I Energy | |
1 Conventional Power Generation | p. 1 |
2 Alternative Power Systems and Devices | |
2.1 Distributed Power | p. 1 |
2.2 Solar Electric Systems | p. 13 |
2.3 Fuel Cells | p. 20 |
3 Transmissions | |
3.1 High-Voltage Direct-Current Transmission | p. 1 |
3.2 Compensation | p. 17 |
3.3 Fault Analysis in Power Systems | p. 27 |
3.4 Protection | p. 44 |
3.5 Transient Operation of Power Systems | p. 53 |
3.6 Planning | p. 61 |
4 Power Quality | p. 1 |
5 Power System Analysis | p. 1 |
6 Power Transformers | p. 1 |
7 Energy Distribution | p. 1 |
8 Electrical Machines | |
8.1 Generators | p. 1 |
8.2 Motors | p. 21 |
8.3 Small Electric Motors | p. 32 |
9 Energy Management | p. 1 |
10 Power System Analysis Software | p. 1 |
Section II Systems | |
11 Control Systems | |
11.1 Models | p. 1 |
11.2 Dynamic Response | p. 8 |
11.3 Frequency Response Methods: Bode Diagram Approach | p. 16 |
11.4 The Root Locus Method | p. 34 |
11.5 Compensation | p. 58 |
11.6 Digital Control Systems | p. 66 |
11.7 Nonlinear Control Systems | p. 72 |
12 Navigation Systems | p. 1 |
13 Environmental Effects | p. 1 |
14 Robotics | |
14.1 Robot Configuration | p. 1 |
14.2 Robot Dynamics and Controls | p. 13 |
14.3 Applications | p. 37 |
15 Aerospace Systems | |
15.1 Avionics Systems | p. 1 |
15.2 Satellite Communications Systems: Applications | p. 9 |
16 Embedded Systems | |
16.1 Embedded Systems - An Overview | p. 1 |
16.2 Real-Time in Embedded Systems | p. 26 |
16.3 Using UML for Embedded Software and System Modeling | p. 58 |
17 Welding and Bonding | p. 1 |
18 Human-Computer Interaction | p. 1 |
19 Decision Diagram Technique | p. 1 |
20 Vehicular Systems | p. 1 |
Section III Mathematics, Symbols, and Physical Constants | |
Introduction | p. 1 |
Greek Alphabet | p. 3 |
International System of Units (SI) | p. 3 |
Conversion Constants and Multipliers | p. 6 |
Physical Constants | p. 8 |
Symbols and Terminology for Physical and Chemical Quantities | p. 9 |
Credits | p. 13 |
Probability for Electrical and Computer Engineers | p. 14 |
Indexes | |
Author Index | p. 1 |
Subject Index | p. 1 |