Fundamentals of electrical engineering
Divided into four parts: circuits, electronics, digital systems, and electromagnetics, this text provides an understanding of the fundamental principles on which modern electrical engineering is based. It is suitable for a variety of electrical engineering courses, and can also be used as a text for...
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| Format: | Book |
| Language: | English |
| Published: |
New York
Oxford University Press
1996
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| Edition: | 2nd ed. |
| Series: | Oxford series in electrical and computer engineering.
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| Subjects: | |
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Table of Contents:
- PART I: CIRCUITS-- 1. Basic Elements and Laws-- 1.1 Voltage Sources, Current Sources, and Resistors-- 1.2 Kirchhoff's Current Law (KCL)-- 1.3 Kirchhoff's Voltage Law (KVL)-- 1.4 Independent and Dependent Souces-- 1.5 Instantaneous Power-- 2. Circuit Analysis Principles-- 2.1 Nodal Analysis-- 2.2 Determinants and Cramer's Rule-- 2.3 Mesh Analysis-- 2.4 Ideal Amplifiers-- 2.5 Thevevnin's and Norton's Theorems-- 2.6 Linearity and Superposition-- 3. Time-Domain Circuit Analysis-- 3.1 Inductors and Capacitors-- 3.2 Integral Relationships for Inductors and Capacitors-- 3.3 First-Order Circuits - The Natural Response-- 3.4 First-Order Circuits - The Complete Response-- 3.5 Second-Order Circuits - The Natural Response-- 3.6 Second-Order Circuits - The Complete Response-- 4. AC Analysis-- 4.1 Time-Domain Analysis-- 4.2 Complex Numbers-- 4.3 Frequency-Domain Analysis-- 4.4 Power-- 4.5 Important Power Concepts-- 4.6 Polyphase Circuits-- 4.7 Three-Phase Loads-- 5. Important Circuit and System Concepts-- 5.1 Frequency Response-- 5.2 Resonance-- 5.3 Complex Frequency-- 5.4 Introduction to Systems-- 5.5 The Laplace Transform-- 5.6 Inverse Laplace Transforms-- 5.7 Application of the Laplace Transform-- PART II: ELECTRONICS-- 6. Diodes-- 6.1 Semiconductors-- 6.2 Doped Semiconductors-- 6.3 The Junction Diode-- 6.4 The Ideal Diode-- 6.5 Nonideal-Diode Models-- 6.6 Zener Diodes-- 6.7 Effects of Capacitance-- 7. Bipolar Junction Transistors (BJTs)-- 7,1 The pnp Transistor-- 7.2 The npn Transistor-- 7.3 Cutoff and Saturation-- 7.4 Applications to Digitial Logic Circuits-- 7.5 DTL Integrated-Circuit (IC) Logic-- 7.6 Transistor-Transistor Logic (TTL)-- 7.7 Other IC Logic Families-- 8. Field-Effect Transistors (FETs)-- 8.1 The Junction Field-Effect Transistor (JFET)-- 8.2 Metal-Oxide-Semiconductor Field-Effect Transistors (MOSFETs)-- 8.3 MOSFET Logic Gates-- 8,4 Complementary MOSFETs (CMOS)-- 9. Transistor Amplifiers-- 9.1 BJT Amplifiers-- 9.2 FET Amplifiers-- 9.3 Frequency Response-- 9.4 Power Amplifiers-- 10. Electronic Circuits and Amplifiers-- 10.1 IC Amplifiers-- 10.2 Operational Amplifiers-- 10.3 Feedback-- 10.4 Sinusoidal Oscillators-- 10.5 Comparators-- 10.6 Introduction to Communication-- PART III: DIGITAL SYSTEMS-- 11. Digital Logic-- 11.1 Binary Numbers-- 11.2 Binary Arithmetic-- 11.3 Digital Logic Circuits-- 11.4 Boolean Algebra-- 11.5 Standard Forms of Boolean Functions-- 11.6 Simplification of Boolean Functions-- 12. Logic Design-- 12.1 Combinatorial Logic-- 12.2 MSI and LSI Design-- 12.3 Sequential Logic-- 13. Digital Devices-- 13.1 Counters-- 13.2 Registers-- 13.3 Memories-- 13.4 Digital Information Processing-- PART IV: ELECTROMAGNETICS-- 14. Electromagnetics-- 14.1 Magnetic Fields-- 14.2 Magnetic Circuits-- 14.3 Transformers-- 14.4 The Ideal Tranformer-- 14.5 Nonideal-Transformer Models-- 15. Machines-- 15.1 Tranducers-- 15.2 Moving-Coil and Moving-Iron Devices-- 15.3 Rotating-Coil Devices-- 15.4 Generators-- 15.5 Motors-- PART V: SPICE-- 16. SPICE-- 16.1 PSPICE-- 16.2 Transient Analysis-- 16.3 AC Analysis-- 16.4 Diodes-- 16.5 Dipolar Junction Transistors (BJTs)-- 16.6 Field-Effect Transistors (FETs)-- 16.7 Transistor Amplifiers-- 16.8 Operational Amplifiers.