AC circuit analysis techniques and applications, designed for a deep understanding of electrical circuit concepts.
AC circuit analysis techniques and applications, designed for a deep understanding of electrical circuit concepts.
This course, offered by Georgia Tech, builds upon the fundamentals of DC circuit analysis to explore alternating current (AC) circuits. Students will learn to analyze circuits with sinusoidal inputs, covering essential concepts such as phasors, impedance, and transfer functions. The curriculum extends to frequency response analysis, filter design, AC power calculations, and transformer theory. Through a combination of theoretical lectures, practical examples, and laboratory demonstrations, students will develop a strong foundation in AC circuit analysis. The course emphasizes both analytical and experimental approaches, preparing students for advanced topics in electrical engineering and practical applications in circuit design.
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English
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What you'll learn
Analyze AC circuits using phasor representations and complex impedances
Develop and interpret transfer functions for AC circuits
Construct and analyze Bode plots for frequency response characterization
Design and analyze various types of filters including lowpass, highpass, bandpass, and notch filters
Calculate AC power, including real, reactive, and complex power
Understand and apply power factor correction techniques
Skills you'll gain
This course includes:
4.95 Hours PreRecorded video
45 quizzes
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FullTime access
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There are 5 modules in this course
This course provides a comprehensive introduction to alternating current (AC) circuit analysis, building upon the foundations of DC circuit theory. The curriculum is structured into five modules, covering essential topics in AC circuit analysis and their practical applications. Students begin by learning about sinusoidal signals and phasor representations, then progress to analyzing circuits using complex impedances and transfer functions. The course delves into frequency response analysis, including Bode plots and filter design. AC power concepts, including power factor and complex power, are thoroughly explored. The final module introduces transformer theory and applications. Throughout the course, students engage with numerous problem-solving exercises and quizzes to reinforce their understanding. Laboratory demonstrations, such as guitar string filtering, provide practical context to the theoretical concepts. This course aims to equip students with the analytical skills necessary for advanced electrical engineering studies and real-world circuit design challenges.
AC Circuit Analysis
Module 1 · 12 Hours to complete
Frequency Response
Module 2 · 4 Hours to complete
Filters
Module 3 · 3 Hours to complete
Power
Module 4 · 5 Hours to complete
Transformers
Module 5 · 2 Hours to complete
Fee Structure
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Instructors
Professor and Associate Chair for Undergraduate Affairs in Electrical and Computer Engineering
Dr. Bonnie H. Ferri is a Professor and the Associate Chair for Undergraduate Affairs at Georgia Tech's School of Electrical and Computer Engineering. She earned her B.S. in Electrical Engineering from the University of Notre Dame in 1981, followed by an M.S. in Mechanical and Aerospace Engineering from Princeton University in 1984, and a Ph.D. in Electrical Engineering from Georgia Tech in 1988.
Director of the Engineering for Social Innovation Center and Faculty Member in Electrical and Computer Engineering
Dr. Joy Harris serves as the Director of the Engineering for Social Innovation Center at the Georgia Institute of Technology (GA Tech) in Atlanta, GA, where she is also a faculty member in the School of Electrical and Computer Engineering. In her role, she not only teaches electrical engineering courses but also facilitates opportunities for students across various engineering disciplines to leverage their technical skills for social good.
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4.7 course rating
747 ratings
Frequently asked questions
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