Circuit analysis theory and practice
Written for electronics engineering technology students taking their first course in circuit theory, this exceptional book has been hailed by users and reviewers alike as one of the best on the market. The 4th Edition provides updated coverage of standard circuit analysis topics in a remarkably easy...
Saved in:
| Main Authors: | , |
|---|---|
| Format: | Book |
| Language: | English |
| Published: |
Australia
Delmar Cengage Learning
2007
|
| Edition: | Fourth edition |
| Subjects: | |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
Table of Contents:
- Part I. Foundation dc concepts.
- 1. Introduction.
- 2. Voltage and current.
- 3. Resistance.
- 4. Ohm's Law, power, and energy.
- Part 2. Basic dc analysis.
- 5. Series circuits.
- 6. Parallel circuits.
- 7. Series-parallel circuits.
- 8. Methods of analysis.
- 9. Network theorems
- Part 3. 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 4. Foundation AC concepts.
- 15. AC Fundamentals.
- 16. R, L, and C elements and the impedance concept.
- 17. Power in AC circuits.
- Part 5. 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. Transformers and coupled circuits.
- 24. Three-phase systems.
- 25. Nonsinusoidal waveforms.
- Appendix A. PSpice and multiSIM.
- Appendix B. Solution of simultaneous linear equations.
- Appendix C. Maximum power transfer theorem.
- Appendix D. Answers to odd-numbered problems.