Synopses & Reviews
Designed to provide readers with a thorough introduction to Alternating Current electrical characteristics and circuit construction, AC THEORY, 3rd edition explores the complexities of this more advanced circuit theory by building on the basics established in direct current theory. The book begins with an overview of the primary components of AC circuits, such as resistors, inductors, and capacitors, and then gradually introduces new, more complicated topics like applying AC principles in power generation and generators, parallel and combination circuits, troubleshooting and evaluation of circuit conditions, and more. With the same reader-friendly approach and practical examples that made previous editions so successful, this updated 3rd edition uses the most current technologies and trends to provide an ideal resource for anyone seeking a fundamental knowledge of AC theory. Check out our app, DEWALT Mobile Pro™. This free app is a construction calculator with integrated reference materials and access to hundreds of additional calculations as add-ons. To learn more, visit dewalt.com/mobilepro.
Synopsis
This fundamental alternating current (AC) theory book, now in its second edition, offers a user-friendly approach and practical examples to keep industry professionals up-to-date. Designed to provide a thorough introduction to AC theory from its production, to its uses and circuitry; AC Theory, 2E uses the basics of direct current theory to explain the various facets of AC theory. The book begins by covering the primary components of AC circuits, such as resistors, inductors, and capacitors. The chapters that follow build upon the basic principles learned in these chapters, gradually introducing increasingly complex topics such as applying AC principles in power generation and generators, parallel and combination circuits, and more. With updated sidebars that provide a real-world context for the topics covered, users will develop strong connections between theory and applications, preparing them for work in the electrical field.
About the Author
NJATC develops and standardizes training for National Electrical Contractors Association and the International Brotherhood of Electrical Workers, which represents more than 780,000 members working in a wide variety of fields around North America. Jeff Keljik is a graduate of Dunwoody College of Technology and holds a Bachelor's degree from Metropolitan State University. He previously served as head of the electrical department at Dunwoody College of Technology and played an integral part in developing their Electrical Design and Management program. The recipient of both the 1993 Kraemer Fellowship Award for new technology education and an award for International Technical Teacher Education, Mr. Keljik also holds a Master Class A license and a Journeyman's Class A license, both from the State of Minnesota. He is an Executive Board Member for the North Central Electrical League and serves on the Education Committee for the Minnesota Electrical Association.
Table of Contents
Chapter 1 Introduction to Alternating Chapter 2 Production of the AC Sine Wave Chapter 3 Inductors, Self-Induction, Inductive Reactance, and Impedance Chapter 4 Resistors and Inductors in Series Chapter 5 Capacitors, Capacitance, and Capacitive Reactance Chapter 6 Capacitors and Resistors in Series Chapter 7 Series RLC Circuits Chapter 8 Parallel RL Circuits Chapter 9 Parallel RC Circuits Chapter 10 Parallel RLC Circuits Chapter 11 Combination RLC Circuits Chapter 12 AC Filter Circuits Chapter 13 Generators Chapter 14 AC Motors Chapter 15 Transformers Appendix A Mathematics: Using Vectors Effectively Glossary Index