# GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
CIRCUIT ANALYSIS-II/EE 202
 Course Title: CIRCUIT ANALYSIS-II Credits 4 ECTS 5 Course Semester 4 Type of The Course Compulsory
COURSE INFORMATION
-- (CATALOG CONTENT)
-- (TEXTBOOK)
-- (SUPPLEMENTARY TEXTBOOK)
-- (PREREQUISITES AND CO-REQUISITES)
-- LANGUAGE OF INSTRUCTION
Turkish
-- COURSE OBJECTIVES
-- COURSE LEARNING OUTCOMES
Express sinusoidally derived alternating current circuits in complex and phasor planes.
Learn continuous state analysis methods of alternating current electrical circuits.
Learn the concepts of average power, complex power in alternating current
Analyze the magnetic circuits and 3-phase circuits
Use Laplace transforms in the solution of the AC circuit problems
Analyze and design of the various passive filter circuits using frequency selective circuit.

-- MODE OF DELIVERY
The mode of delivery of this course is face to face
 --WEEKLY SCHEDULE 1. Week Overview of EE-201 Circuit Analysis-I, Explanations about the teaching methods 2. Week Sinusoidal and Phasors: Sinusoidal sources and their responses, phasor concept and frequency domain equivalents of circuit elements 3. Week Sinusoidal and Phasors: Kirchhoff's Law and Impedance Connections in Frequency Domain 4. Week Sinusoidal Steady State Analysis: Node voltages and mesh currents analysis, superposition theory, source transformation, Thevenin and Norton equivalent circuits 5. Week AC Power Analysis: Instant and average power, effective value. AC circuits max. Power transfer, complex power and calculations in phasor circuits 6. Week Three-phase circuits: Three balanced voltages. Connection types in balanced three-phase systems 7. Week Three-phase circuits: Power in balanced circuits, Unbalanced three-phase circuits 8. Week Magnetic coupled circuits: Common inductance and energy in a magnetic coupled circuit/ Midterm 9. Week Magnetic coupled circuits: Common inductance and energy in a magnetic coupled circuit 10. Week Magnetic coupled circuits: Ideal Transformers 11. Week Laplace Transform and s-plane circuit analysis: Laplace transform, inverse laplace transform and its properties 12. Week Laplace Transform and s-plane circuit analysis: Application of Laplace transform to electric circuits and transfer function 13. Week Frequency Selective Circuits 14. Week Frequency Selective Circuits 15. Week 16. Week
-- TEACHING and LEARNING METHODS
-- ASSESSMENT CRITERIA
 Quantity Total Weighting (%) Midterm Exams 1 40 Assignment 1 5 Application 0 0 Projects 0 0 Practice 0 0 Quiz 4 10 Percent of In-term Studies 60 Percentage of Final Exam to Total Score 40