ENGR 202- Electrical Fundamentals II
Catalog Data: Sinusoidal steady-state analysis and phasors. Application
of circuit analysis techniques to solve single-phase and three-phase circuits
including powers; mutual inductance, transformers and passive filters.
Prerequisites:
By course: ENGR 201.
Courses that require this as a prerequisite: ECE 317
Credits: 3 Terms Offered: Winter/Spring annually
Instructors:
Primary: A. von Jouanne
Secondary: J. Eggerton
Textbooks: Fundamentals of Electric Circuits, Alexander and Sadiku,
McGraw-Hill, 2000. ISBN
Laboratory packet available from the bookstore
Course Learning Objectives:
Students must demonstrate the ability to:
- Apply circuit analysis techniques to single-phase AC circuits using phasors
to calculate real power, reactive power and apparent power. (ABET Outcomes
a, k)
- Apply circuit analysis techniques to three-phase circuits to calculate line-
and phase-voltages and currents, and real, reactive and apparent power. (ABET
Outcomes a, k)
- Apply the principles of frequency dependence of inductive and capacitive
components for the analysis of passive filters. (ABET Outcomes a, c, k)
- Perform laboratory experiments utilizing the above concepts. (ABET Outcomes
a, b)
Topics
- Review of Sinusoidal AC Circuits and Phasors (Chs. 9-10)
- AC Power Analysis (Single-Phase) (Ch. 11)
- Three-Phase AC Circuits (Ch. 12)
- Magnetically Coupled Circuits and Transformers (Ch. 13)
- Passive Filters (Ch. 14)
Laboratory Experiments
- Introduction/Review
- Series-Parallel AC Circuits
- Introduction to Power Circuits
- Maximum Power Transfer
- Power Factor Correction
- Three-Phase Power Circuits
- Mutual Inductance I
- Mutual Inductance II
Structure: Two 50 minute lectures and one 2 hour lab per week.
Original: 1/01-4/01
Revised: