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•           Information on Degree Programmes

COURSE INFORMATON
Course Title Code Semester L+P Hour Credits ECTS
Electrical And Electronics Eng. Fund. ME   255 3 3 3 5

 Prerequisites and co-requisites Recommended Optional Programme Components None

Language of Instruction English
Course Level First Cycle Programmes (Bachelor's Degree)
Course Type
Course Coordinator Asst.Prof.Dr. Ercan AVŞAR
Instructors
 Prof. Dr. HAKAN YAVUZ 1. Öğretim Grup:A Prof. Dr. HAKAN YAVUZ 2. Öğretim Grup:A

Assistants
Goals
To provide information about basic electrical and electronic systems.
Content
Electrical Current, DC and AC Sources, Kirchoffs Current Law (KCL), Voltage, Electrical Power, Mechanical Energy vs Electrical Energy, Resistance, Insulator, Admittance, Ohm Law: V-I Characteristics and Nonlinear V-I Characteristics, Kirchoffs Voltage Law (KVL), Voltage Division Principle, Current Division Principle, Wheatstone Bridge, Thevenin Theorem, Analysis Calculation of Thevenin Equivalent of a Circuit, Direct Current (DC) and Alternating Current (AC) , Voltage Waveform, Capacitance, Capacitors: Basic Relation, Charge Stored in a Capacitor and , Meaning of the Time Constant, Inductance, R-L Circuits, Circuit Analysis in software, Micro-conrollers, Embedded software for Micro-conrollers, Transistor, Relay, DC Motor, Switching Applications for various loads, LCD Screens, Temperature Sensing, DC motor Speed and Direction Control

Learning Outcomes
1) Basic concepts. Definition of voltage, current, energy, power and sample problem solutions.
2) Circuit law and solution methods of DC circuits: Series-parallel circuit connections and their properties
3) Reduction of complex circuits to equivalent. Star-Triangle transformations
4) Circuit analysis, nodal point potentials and sample problems.
5) Superposition theorem, Thevenin theorem. Norton theorem and sample problems.
6) Maximum power transfer theory Millman theorem and sample problems.
7) Energy storage circuit components: Capacitor, Inductance.
8) Production of Alternating Current. Period, frequency and phase difference concepts.
9) Alternative Current values. Resistance, capacitance and inductance.
10) Microprocessors and their applications
11) Embedded software
12) Microprocessor based applications
13) Temperature control
14) DC motor speed and direction control
15) Brief Review of the Course

Course's Contribution To Program
NoProgram Learning OutcomesContribution
12345
1
Student become equipped with the basic knowledge of math, science and engineering
X
2
Students gain a command of basic concepts, theories and principles in mechanical engineering
X
3
Students are able to design and carry out experiments in the basic fields of mechanical engineering, and interpret the results and the data obtained from the experiments
X
4
Students become equipped with a variety of skills and knowledge regarding engineering techniques
X
5
Students are able to design a system, component or process in order to meet the needs of various engineering problems within technical, economic, environmental, manufacturability, and sustainability limits.
X
6
Students independently review and learn the applications in an enterprise, make a critical assessment of the problems faced with, formulate problems and propose solutions by selecting the proper technique
X
7
Students take initiative in identification, design, development and use of a product or production process.
X
8
Students become aware of the necessity of lifelong learning and continuously self-renew
X
9
Students use English effectively for technical or non-technical topics orally or in wirtten form.
X
10
Students become effective in using computer, computer-aided drafting, design, analysis, and presentation
X
11
Students have good communicatino skills with a tendency to work in teams, and are able to work effectively as a member of an interdisciplinary team
X
12
Students become aware of the technical and ethical responsibilities, as well as being inquisitive and innovative
X

Course Content
WeekTopicsStudy Materials _ocw_rs_drs_yontem
1 Electrical Current, DC and AC Sources, Kirchoffs Current Law (KCL) Reviewing of lecture notes and reference books Lecture
Discussion
2 Voltage, Electrical Power, Mechanical Energy vs Electrical Energy, Resistance, Insulator, Admittance Reviewing of lecture notes and reference books Lecture
Discussion
3 Ohm Law: V-I Characteristics and Nonlinear V-I Characteristics, Kirchoffs Voltage Law (KVL) Reviewing of lecture notes and reference books Lecture
Discussion
4 Voltage Division Principle, Current Division Principle Reviewing of lecture notes and reference books Lecture
Discussion
5 Wheatstone Bridge, Thevenin Theorem Reviewing of lecture notes and reference books Lecture
Discussion
6 Analysis Calculation of Thevenin Equivalent of a Circuit, Direct Current (DC) and Alternating Current (AC), Voltage Waveform Reviewing of lecture notes and reference books Lecture
Discussion
7 Capacitance, Capacitors, Basic Relation Charge Stored in a Capacitor and Meaning of the Time Constant Reviewing of lecture notes and reference books Lecture
Discussion
8 Written Exam Preparation for exam Question-Answer
Testing
9 Inductance, R-L Circuits, Circuit Analysis in software Reviewing of lecture notes and reference books Lecture
Discussion
10 Micro-controllers, Embedded software for Micro-controllers Reviewing of lecture notes and reference books Lecture
Discussion
11 Transistor, Relay, DC Motor Reviewing of lecture notes and reference books Lecture
Discussion
12 Switching Applications for various loads, LCD Screens Reviewing of lecture notes and reference books Lecture
Discussion
13 Temperature Sensing, DC motor Speed and Direction Control Reviewing of lecture notes and reference books Lecture
Discussion
14 Brief Review of the Course Reviewing of lecture notes and reference books Lecture
Discussion
15 Brief Review of the Course Reviewing of lecture notes and reference books Lecture
Discussion
16-17 Written Exam Preparation for exam Question-Answer
Testing