Course ID:
Course Code & Number
EE 309
Course Title
Fund. of Electrical and Electronics Eng.
Level
BS
Credit Hours/ ECTS Credits
(2+0+2) 3 TEDU Credits, 6 ECTS Credits
Year of Study:
Junior
Semester:
Fall
Type of Course:
Compulsory
Mode of Delivery:
Face-to-face
Language of Instruction:
English
Pre-requisite / Co-requisite:
Pre-requisites: NONE
Co-requisites: NONE
Catalog Description
Basic electrical and electronic components and circuits. Circuit analysis. Analysis of first-order circuits. Phasors. Steady-state alternating current analysis. Fundamentals of electromechanical energy conversion. Alternating current power. Three-phase power. Transformers. (Offered for non-EE students.)
Course Objectives
This course provides non-EE students with essential Electrical and Electronics (EE) Engineering knowledge. The course covers EE fundamentals like circuits, sinusoidal analysis, power, and electromechanical conversion. The course equips non-EE students with the expertise to tackle electrical engineering challenges in their respective fields.
Software Usage
MATLAB and LTspice®
Course Learning Outcomes
Upon successful completion of the course, students will be able to:
- Recognize the relevant electric circuit elements used in Kirchhoff's and Ohm's laws,
- Express alternating current (AC) circuits and sinusoidal steady-state analysis,
- Apply knowledge of magnetically coupled circuits for solving practical problems,
- Analyze first-order circuits and power calculations in AC circuits,
- Evaluate electromechanical energy conversion principles in magnetic circuits,
- Demonstrate resistive and first-order circuits using laboratory instruments in collaboration with peers.
Learning Activities and Teaching Methods:
Telling/Explaining
Discussion/Debate
Questioning
Reading
Demonstrating
Problem Solving
Inquiry
Collaborating
Case Study/Scenarion Analysis
Brainstorming
Hands-on Activities
Web Searching
Experiments
Assessment Methods and Criteria:
Test / Exam
Lab Assignment
Assessment Methods and Criteria Others:
Active Learning Exercises
Design Content
Recommended Reading
Required Reading
Grading
Learning Activities and Teaching Methods Others:
Course Coordinator:
Serkan Şahin
Student Workload:
| Workload | Hrs |
|---|---|
| Lectures | 28 |
| Course Readings | 42 |
| Lab Applications | 28 |
| Exams/Quizzes | 42 |
| Report on a Topic | 28 |
| Other(s): Active Learning Exercises | 12 |
Course & Program Learning Outcome Matching: