EE202 Electrical Circuits II

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Course Code

Course Title

Weekly Hours*

ECTS

Weekly Class Schedule

EE202

Electrical Circuits II

Tu 18:00 - 20:00, Thu 18:00 - 19:00

Prerequisite

ENS203

It is a prerequisite to

EE321

EE322

EE423

Lecturer

Tarik Namas

Office Hours / Room / Phone

Monday:

14:00-15:00

Tuesday:

13:00-14:00 , 14:00-15:00

Wednesday:

12:00-14:00 , 15:00-17:00

A F1.33 - 033 957 204, 033 957 211

E-mail

tnamas@ius.edu.ba

Assistant

Numbero of undergradute assistants and Mrs. Sejla Dzakmic

Assistant E-mail

sdzakmic@ius.edu.ba

Course Objectives

The course aims to introduce students to :
- AC electric circuits and systems with AC power concepts
- The concepts of impedance, phasor and frequency response
- Passive and active analogue filters
- The Laplace transform and its application in electrical circuits

Textbook

Electrical Circuits, Nilsson, Pearson, 2011

Additional Literature

Basic Engineering Circuit Analysis, J. David Irwin, R. Mark Nelms - (2021, Wiley)
Enginerring Circuits Analysis William Hayt, Jack Kemmerly, Steven Durbin. McGraw Hill

Learning Outcomes

After successful completion of the course, the student will be able to:

Use circuit analysis methods to solve electrical circuits problems that involve AC power sources and AC power
Explain frequency response of circuit elements and solve problems involving active and passive filter
Explain and apply Laplace transform for AC circuit analysis
Explain three phase circuits and solve problems involving three phase circuits
Use different software tools for the analysis of AC circuits

Teaching Methods

Class discussions with examples. Active tutorial sessions for engaged learning and continuous feedback on progress. Team assigments. Team projects in form of lab experiments that involve real data, summary, interpretation and reporting in the lab.

Teaching Method Delivery

Face-to-face

Teaching Method Delivery Notes

WEEK

TOPIC

REFERENCE

Week 1

Introduction, and revision of some concepts from circuits 1

Ch 6 - 7

Week 2

Op Amps

Ch 5

Week 3

Second Order Response (RLC circuits)

Ch 8

Week 4

Sinusoidal Steady State Analysis

Ch 9

Week 5

Sinusoidal Steady State Analysis

Ch 9

Week 6

Sinusoidal Steady State Power

Ch 10

Week 7

Sinusoidal Steady State Power

Ch 10

Week 8

MIDTERM EXAM

Week 9

Balanced 3-phase Circuits

Ch 11

Week 10

Laplace Transform for Circuit Analysis

Ch 13

Week 11

Passive Filters

Ch 14

Week 12

Active Filters

Ch 15

Week 13

Fourier Series

Ch 16

Week 14

Fourier Transform

Ch 17

Week 15

General Review

Assessment Methods and Criteria	Evaluation Tool	Quantity	Weight	Alignment with LOs
	Final Exam	1	40	1,2,3,4
	Semester Evaluation Components
	Quizes	5	20	1,2,3,4
	Midterm exam	1	20	1,2,3,4
	Lab and simulation	10	20	1,2,3,4
* ECTS Credit Calculation *

Activity	Hours	Weeks	Student Workload Hours	Activity	Hours	Weeks	Student Workload Hours
Lecture Hours	3	15	45	Laboratory	2	10	20
				Home Study	3	15	45
Mid-term exam study	10	1	10	Final exam study	15	1	15
Reporting	3	5	15
				Total Workload Hours =			150
*T= Teaching, P= Practice				ECTS Credit =			6
Course Academic Quality Assurance: Semester Student Survey						Last Update Date: 09/11/2023

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