The Electrical Engineering Handbook,Second EditionRichard C. Dorf In 1993, the first edition of The Electrical Engineering Handbook set a new standard for breadth and depth of coverage in an engineering reference work. Now, this classic has been substantially revised and updated to include the latest information on all the important topics in electrical engineering today. Every electrical engineer should have an opportunity to expand his expertise with this definitive guide. In a single volume, this handbook provides a complete reference to answer the questions encountered by practicing engineers in industry, government, or academia. This well-organized book is divided into 12 major sections that encompass the entire field of electrical engineering, including circuits, signal processing, electronics, electromagnetics, electrical effects and devices, and energy, and the emerging trends in the fields of communications, digital devices, computer engineering, systems, and biomedical engineering. A compendium of physical, chemical, material, and mathematical data completes this comprehensive resource. Every major topic is thoroughly covered and every important concept is defined, described, and illustrated. Conceptually challenging but carefully explained articles are equally valuable to the practicing engineer, researchers, and students. A distinguished advisory board and contributors including many of the leading authors, professors, and researchers in the field today assist noted author and professor Richard Dorf in offering complete coverage of this rapidly expanding field. No other single volume available today offers this combination of broad coverage and depth of exploration of the topics. The Electrical Engineering Handbook will be an invaluable resource for electrical engineers for years to come. |
Contents
Introduction ShuPark Chan | 2 |
State Equations in Normal Form The Concept of State and State Variables and Normal | 8 |
Voltage and Current Sources | 45 |
Node and Mesh Analysis | 62 |
Auburn University | 69 |
Norman Balabanian | 80 |
University of Florida | 88 |
6 | 92 |
Analysis of linear circuits rests on two fundamental physical laws that describe how the voltages and currents | 1430 |
Energy Distribution George G Karady | 1435 |
Energy Management K Neil Stanton Jay C Giri and Anjan Bose | 1475 |
Power System Analysis Software C P Arnold and N R Watson | 1485 |
Communications | 1498 |
Broadcasting | 1505 |
Digital Communication | 1555 |
Optical Communication | 1575 |
International Technological | 110 |
California State Polytechnic | 121 |
Introduction John W Steadman 497 | 140 |
Passive Signal Processing William J Kerwin | 154 |
The zTransform Richard C Dorf and Zhen Wan | 191 |
TII Equivalent Networks Zhen Wan and Richard C Dorf | 199 |
Transfer Functions of Filters Richard C Dorf and Zhen Wan | 205 |
Frequency Response Paul Neudorfer | 213 |
Stability Analysis Ferenc Szidarovsky and A Terry Bahill | 223 |
Computer Software for Circuit Analysis and Design | 239 |
Signal Processing | 268 |
121 | 327 |
147 | 335 |
Speech Signal Processing | 339 |
159 | 347 |
Spectral Estimation and Modeling | 381 |
Multidimensional Signal Processing | 391 |
VLSI for Signal Processing | 427 |
Acoustic Signal Processing | 451 |
Artificial Neural Networks Jose C Principe | 473 |
Computing Environments for Digital Signal Processing Delores M Etter | 487 |
Semiconductor Manufacturing | 541 |
Transistors | 595 |
Integrated Circuits | 649 |
Surface Mount Technology Glenn R Blackwell | 683 |
Operational Amplifiers | 705 |
Amplifiers | 721 |
Active Filters | 741 |
Power Electronics | 763 |
Optoelectronics | 807 |
Thermal Management of Electronics Avram BarCohen | 879 |
Electromagnetics | 887 |
Magnetism and Magnetic Fields | 899 |
Wave Propagation | 925 |
Antennas | 945 |
1 | 979 |
Compatibility | 1003 |
168 | 1006 |
Radar | 1044 |
Lightwave | 1083 |
Solid State Circuits I J Bahl | 1097 |
ThreeDimensional Analysis C W Trowbridge | 1111 |
Computational Electromagnetics_E K Miller | 1143 |
Ultrasound Gerald W Farnell | 1169 |
Electrostriction V Sundar and R E Newnham | 1193 |
The Hall Effect Alexander C Ehrlich | 1211 |
Pyroelectric Materials and Devices Roger W Whatmore | 1229 |
Sensors Rosemary L Smith | 1255 |
Smart Materials P S Neelakanta | 1277 |
Introduction William H Kersting | 1294 |
Distributed Power Generation R Ramakumar | 1309 |
Power Quality Jos Arrillaga | 1397 |
Power Transformers Charles A Gross | 1421 |
Networks | 1597 |
Information Theory | 1633 |
Satellites and Aerospace Daniel F DiFonzo | 1691 |
Personal and Office | 1707 |
PhaseLocked Loop Steven L Maddy | 1727 |
ComputerAided Design and Analysis of Communication Systems | 1757 |
Digital Devices | 1767 |
of time must be consistent with Kirchhoffs voltage and current laws These two laws govern even the most | 1781 |
Memory Devices | 1805 |
by CRC Press | 1849 |
Logical Devices | 1861 |
Microprocessors | 1899 |
Displays | 1915 |
Data Acquisition Dhammika Kurumbalaptitiya and S Ratnajeevan H Hoole | 1951 |
Testing | 1959 |
Computer Engineering | 1987 |
Programming | 2024 |
87 | 2031 |
88 | 2053 |
Memory Systems Doug Burger James R Goodman and Gurindar S Sohi | 2091 |
Software Engineering | 2127 |
Computer Graphcis Evelyn P Rozanski | 2146 |
91 | 2155 |
92 | 2165 |
93 | 2171 |
94 | 2183 |
95 | 2203 |
96 | 2210 |
98 | 2235 |
The Internet and Its Role in the Future Gary L Hawke | 2245 |
Introduction R Lal Tummala | 2256 |
Aerospace Systems | 2365 |
Command Control and Communications C³ | 2399 |
Industrial Systems | 2405 |
ManMachine Systems Duane McRuer | 2429 |
Vehicular Systems Linda Sue Boehmer | 2439 |
Industrial Illuminating Systems Kao Chen | 2447 |
Instruments John L Schmalzel | 2469 |
Navigation Systems Myron Kayton | 2477 |
Reliability Engineering R Rama Kumar | 2489 |
Environmental Effects Karen Blades and Braden Allenby | 2505 |
ComputerAided Control Systems Design | 2515 |
Biomedical Systems | 2535 |
Biomedical Sensors Michael R Neuman | 2583 |
Bioelectronics and Instruments | 2593 |
Biocomputing | 2629 |
Mathematics Symbols and Physical Constants | 2643 |
Indexes | 2663 |
2665 | |
2679 | |
2694 | |
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Common terms and phrases
A/D converters acoustic algorithm amplifier analog analysis antenna applications array capacitance capacitor cells characteristics coders coefficient components constant converter defined density device dielectric digital filter Digital Signal Processing diode electrical electronic elements emitter energy equations equivalent circuit estimate example FIGURE filter Fourier transform frequency gate given graph IEEE impedance increase inductance inductor input integrated circuit interconnections inverter JFET Laplace transform layer linear load low-pass low-pass filter magnetic field matrix microstrip microstrip antenna modulation MOSFET node noise nonlinear obtained operation operational amplifier optical output oxide package parameters phase propagation quantization R₁ R₂ region resistance resistor sample semiconductor sequence shown in Fig Signal Processing silicon simulation sinusoidal small-signal solder spectral speech substrate switching techniques temperature theorem thermal thyristor transfer function transistor typically V₁ V₂ variables vector VLSI wave waveform waveguide zero