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Syllabus ( ELEC 228 )

   Basic information
Course title: Electric Circuits Laboratory II
Course code: ELEC 228
Lecturer: Assist. Prof. Atilla UYGUR
ECTS credits: 1
GTU credits: 1 ()
Year, Semester: 2, Spring
Level of course: First Cycle (Undergraduate)
Type of course: Compulsory
Language of instruction: English
Mode of delivery:  , Lab work
Pre- and co-requisites: The term in which ELEC 227 is first registered it is also required to register for this course. ELEC 226, succeeding in ELEC 227, or being registered for both ELEC 227 in the same term is necessary.
Professional practice: No
Purpose of the course: Introduction to basic circuit theory and ability to solve electric circuits.
   Learning outcomes Up

Upon successful completion of this course, students will be able to:

  1. Analyse AC circuits

    Contribution to Program Outcomes

    1. Obtain basic knowledge of Electronics Engineering.
    2. Apply the mathematical, scientific and engineering knowledge for real life problems
    3. Find out new methods to improve his/her knowledge
    4. Demonstrate professional and ethical responsibility

    Method of assessment

    1. Laboratory exercise/exam
  2. Tell fundamental concepts of electrical circuits

    Contribution to Program Outcomes

    1. Obtain basic knowledge of Electronics Engineering.
    2. Perform systems design, maintenance and development
    3. Find out new methods to improve his/her knowledge
    4. Demonstrate professional and ethical responsibility

    Method of assessment

    1. Laboratory exercise/exam
  3. Analyse ac circuits with energy storage elements

    Contribution to Program Outcomes

    1. Apply the mathematical, scientific and engineering knowledge for real life problems
    2. Find out new methods to improve his/her knowledge
    3. Demonstrate professional and ethical responsibility

    Method of assessment

    1. Laboratory exercise/exam
   Contents Up
Week 1: Introduction to lab
Week 2: Experiment 1: Examination of Capacitors Characteristics
Week 3: Experiment 2: Examination of inductors Characteristics
Week 4: Problem solving and evaluation
Week 5: Experiment 3: Series and Parallel Impedances
Week 6: Problem solving and evaluation
Week 7: Experiment 4: Power in Alternating Current Circuits
Week 8: Problem solving and evaluation
Week 9: Experiment 5: Frequency Response and Bode Plots
Week 10: Problem solving and evaluation
Week 11: Experiment 6: Transformers and mutual inductances
Week 12: Problem solving and evaluation
Week 13: Experiment 7: Two Port Circuits
Week 14: Problem solving and evaluation
Week 15*: .
Week 16*: Final exam
Textbooks and materials: 1. Introduction to Electric Circuits, R. C. Dorf, J. A. Svoboda, Wiley, 9. Baskı, ISBN: 0-471-38689-8
2. Lab Notes.
Recommended readings: 1) Fundamentals of Electric Circuits, C. K. Alexander, M. N. O. Sadıku, McGraw Hill, 2000, ISBN: 0-07-116042-6
2) Electrical Engineering: Principles and Applications, A. R. Hambley, Prentice Hall, 1997, ISBN: 0-02-349331-3
  * Between 15th and 16th weeks is there a free week for students to prepare for final exam.
Assessment Up
Method of assessment Week number Weight (%)
Mid-terms: 0
Other in-term studies: 3, 5, 6, 7, 8, 10,12 30
Project: 13 15
Homework: 8, 14 25
Quiz: 0
Final exam: 16 30
  Total weight:
(%)
   Workload Up
Activity Duration (Hours per week) Total number of weeks Total hours in term
Courses (Face-to-face teaching): 1 14
Own studies outside class: 1 7
Practice, Recitation: 0 0
Homework: 1 7
Term project: 2 1
Term project presentation: 0 0
Quiz: 0 0
Own study for mid-term exam: 0 0
Mid-term: 0 0
Personal studies for final exam: 0 0
Final exam: 0 0
    Total workload:
    Total ECTS credits:
*
  * ECTS credit is calculated by dividing total workload by 25.
(1 ECTS = 25 work hours)
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