Ders Planı

ISTANBUL AYDIN UNIVERSITY

CLASS 2

CLASS 3

CLASS 4

Lesson plan / DIRECT CURRENT CIRCUITS

Lesson Information

Course Credit	3.0
Course ECTS Credit	4.0
Teaching Language of Instruction	Türkçe
Level of Course	Associate's Degree, TYYÇ: Level 5, EQF-LLL: Level 5, QF-EHEA: Short Cycle
Type of Course	Compulsory
Mode of Delivery	Face-to-face
Does the course require compulsory or optional work experience?	Z
Course Coordinator	Assist. Prof. Dr. BARAN TANDER
Instructor (s)
Course Assistant

Purpose and Content

The aim of the course	Ability to apply basic concepts and elements in electrical circuits and basic circuit solution methods.
Course Content	Basic concepts, quantities, basic circuit components, simple resistive circuits, circuit analysis techniques, energy storage components and transients.

Learning Outcomes

Has basic, current and practical knowledge about his/her profession,
Have knowledge about occupational health and safety, environmental awareness and quality processes.
Explains the fundamentals of electronic circuits, performs mathematical calculations and necessary measurements.
Define and apply digital and analog electronic techniques.
Designs microcontroller systems and develops programs and applications.
Troubleshoots and fixes malfunctions that may occur in electronic devices.
Follows current developments and practices for his/her profession and uses them effectively.
Uses professional-related information technologies (software, programs, animations, etc.) effectively.
Has the ability to independently evaluate professional problems and issues with an analytical and critical approach and to propose solutions.
Can effectively present thoughts through written and oral communication at the level of knowledge and skills and express them in an understandable manner.
Takes responsibility as a team member to solve unforeseen and complex problems encountered in applications related to his/her field.
Has awareness of career management and lifelong learning.
Has social, scientific, cultural and ethical values in the stages of collecting data related to its field, applying it and announcing the results.
Keeps up with information in his/her field and communicates with colleagues using a foreign language.

Weekly Course Subjects

1	Basic concepts and quantities (charge, current, voltage, power, energy), Kirchoff's laws.
2	Basic circuit components (independent and dependent sources, resistors)
3	Simple resistive circuits (voltage divider, current divider, resistor bridge, Y - delta circuits and transformations),
4	Circuit analysis techniques: Node voltage method,
5	Node voltage method (continued),
6	Mesh currents method,
7	Mesh currents method (continued),
8	Recitation for the midterm exam
9	Midterm Exam
10	Superposition method, source transformations,
11	Thevenin and Norton equivalent circuits, maximum power transfer principle
12	Energy storing components: Inductor and capacitor,
13	Series and parallel RL, RC circuits,
14	Recitation for the final exam

Resources

1-Nilsson: Electric Circuits (10th Ed.)