TYPE OF COURSE UNIT	Compulsory Course
LEVEL OF COURSE UNIT	Bachelor's Degree
YEAR OF STUDY	2
SEMESTER	Fourth Term (Spring)
NUMBER OF ECTS CREDITS ALLOCATED	6
NAME OF LECTURER(S)	Instructor Oğul Göçmen
LEARNING OUTCOMES OF THE COURSE UNIT	At the end of this course, the students; 1) Be able to learn the basics of electronic circuits, apply and solve engineering problems. 2) Have embedded system programming techniques to run electronic projects and programming knowledge to control them. 3) Have the ability to set up the experimental setup of an electronic circuit and/or problem given to them, and to perform measurements and analyzes on their own. 4) Have the ability to design and implement a complex electronics project as a group that is used to solve real world problems. 5) Learn how to search the literature and prepare a project report and have the experience of presenting their group projects in front of the community.
MODE OF DELIVERY	Face to face
PRE-REQUISITES OF THE COURSE	Yes(FİZ110)
RECOMMENDED OPTIONAL PROGRAMME COMPONENT	Before enrolling in this course, students are expected to have completed at least one of the courses ?BİL101 Computer Programming I? or ?BİL122 Advanced Programming?. It is thought that this information will benefit them in order to understand the techniques that will be explained during the embedded system programming week.
COURSE DEFINITION	Circuit Variables. Circuit elements and methods of analysis of resistive networks. Circuit theorems and equivalent models. Analysis of RL, RC and RLC circuits. Dynamic Circuits Analysis and solution methods. AC circuits and steady-state power analysis.
COURSE CONTENTS	WEEK TOPICS 1st Week Introduction, Presentation and Distribution of Project Topics 2nd Week Basic concepts 3rd Week Semiconductor Diodes 4th Week Diode Applications 5th Week Analysis of Various Circuits 6th Week Introduction to Bipolar Transistors 7th Week DC Biasing ? BJT,Introduction to Electronic Development Boards 8th Week Midterm Exam Week 9th Week Introduction to Field Effect Transistors-FET Embedded System Programming - Processing 10th Week DC Biasing-FET Electronic Sensors, Wireless Data Transmission Modules 11th Week Analysis of Various Field Effect Transistor Circuits 12th Week FET- Question Solutions Electronic Circuit Design and Printed Circuit Preparation with Fritzing 13th Week Analysis of Complex Circuits (BJT+JFET), Examples, Control of Development Boards with Mobile Devices 14th Week Evaluation of Projects ? Presentation Week 15th Week
RECOMENDED OR REQUIRED READING	1. Electronic Devices and Circuit Theory, Boylestad & Nashelsky, 10th Edition, Prentice Hall. 2. Electric Circuits, Nilsson & Riedel, 10th Edition, Prentice Hall. 3. Other Resources: Lecture Notes
PLANNED LEARNING ACTIVITIES AND TEACHING METHODS	Lecture,Questions/Answers,Presentation,Report Preparation,Project,Experiment,Problem Solving,Practice
ASSESSMENT METHODS AND CRITERIA	Quantity Percentage(%) Mid-term 1 20 Quiz 5 15 Practice 7 17 Project 1 17 Attendance 1 1 Total(%) 70 Contribution of In-term Studies to Overall Grade(%) 70 Contribution of Final Examination to Overall Grade(%) 30 Total(%) 100
ECTS WORKLOAD	Activities Number Hours Workload Midterm exam 1 1,5 1,5 Preparation for Quiz Individual or group work Preparation for Final exam 1 42 42 Course hours 14 3 42 Preparation for Midterm exam 1 24 24 Laboratory (including preparation) 14 2 28 Final exam 1 1,5 1,5 Homework Project 1 50 50 Quiz 5 1 5 Total Workload 194 Total Workload / 30 6,46 ECTS Credits of the Course 6
LANGUAGE OF INSTRUCTION	Turkish
WORK PLACEMENT(S)	No