CIRCUIT ANALYSIS: THEORY AND PRACTICE, Fifth Edition, provides a thorough, engaging introduction to the theory, design, and analysis of electrical circuits. Comprehensive without being overwhelming, this reader-friendly book combines a detailed exploration of key electrical principles with an innovative, practical approach to the tools and techniques of modern circuit analysis. Coverage includes topics such as direct and alternating current, capacitance, inductance, magnetism, simple transients, transformers, Fourier series, methods of analysis, and more. Conceptual material is supported by abundant illustrations and diagrams throughout the book, as well as hundreds of step-by-step examples, thought-provoking exercises, and hands-on activities, making it easy to master and apply even complex material. Now thoroughly updated with new and revised content, illustrations, examples, and activities, the Fifth Edition also features powerful new interactive learning resources. Nearly 200 files for use in MultiSim 11 allow you to learn in a full-featured virtual workshop, complete with switches, multimeters, oscilloscopes, signal generators, and more. Designed to provide the knowledge, skills, critical thinking ability, and hands-on experience you need to confidently analyze and optimize circuits, this proven book provides ideal preparation for career success in electricity, electronics, or engineering fields
Author(s): Allan Robbins
Series: Electrotecnia con formato tipo Tipler, parece GENIAL
Edition: 2Ed
Publisher: DELMAR/ORDER FROM ITP
Year: 2000
Language: English
Pages: 1103
Content: Part I: FOUNDATION DC CONCEPTS. 1. Introduction. 2. Voltage And Current. 3. Resistance. 4. Ohm's Law, Power, and Energy. Part II: BASIC DC ANALYSIS. 5. Series Circuits. 6. Parallel Circuits. 7. Series-Parallel Circuits. 8. Methods of Analysis. 9. Network Theorems. Part III: CAPACITORS AND INDUCTANCE. 10. Capacitors and Capacitance. 11. Capacitor Charging, Discharging, and Simple Waveshaping Circuits. 12. Magnetism and Magnetic Circuits. 13. Inductance and Inductors. 14. Inductive Transients. Part IV: FOUNDATION AC CONCEPTS. 15. AC Fundamentals. 16. R, L, and C Elements and the Impedance Concept. 17. Power in AC Circuits. Part V: IMPEDANCE NETWORKS. 18. AC Series-Parallel Circuits. 19. Methods of AC Analysis. 20. AC Network Theorems. 21. Resonance. 22. Filters and the Bode Plot. 23. Three-Phase Systems. 24. Transformers and Coupled Circuits. 25. Nonsinusoidal Waveforms. Appendix A: PSpice And MultiSim. Appendix B: Mathematics in Circuit Analysis: A Brief Tutorial. Appendix C: Maximum Power Transfer Theorem Derivation. Appendix D: Answers To Odd-Numbered Problems. Glossary. Index.
