Instructor:
Assist. Prof. Dr. Alper SISMAN
http://mimoza.marmara.edu.tr/~alper.sisman/courses.html
Room#: MC471
e-mail: alper.sisman@marmara.edu.tr
Couse schedule: Thursday 12:30-15:30 / 15:30-18:30. Office Hours: TBA/ Students can arrange a meeting with the instructor anytime, if
they inform the instructor via e-mail.
Course Overview
This course covers
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In this class, fundamentals of electrical/electronics engineering (EE) will be explored
Fundamental physics laws for EE will be reviewed
Analog and digital electronic circuits will be studied.
Introductory signal processing and filer design will be mentioned
Analysis techniques in EE will be introduced.
Required Background
Knowledge of physics and calculus is enough, prerequisite is not required for this course. However the information about electrostatic,
electromagnetic, electrical circuits and logic circuits will be useful.
Course Goals
To introduce fundamental concepts and analysis techniques in electrical engineering to students across all disciplines.
Textbook
http://www.facstaff.bucknell.edu/mastascu/eLessonsHTML/EEIndex.html
Teaching Methods
Theoretical lectures.
Evaluation Tools
Final Exam 40%
Midterm Exam I 30%
Midterm Exam II %30
Exam Rules: All exams are multiple choice and open notes. The answers must be clearly explained to get partial/full credit. A small box is
placed beside each question for explanations (clear explanation of each answer is the responsibility of the student). All students must
show their own efforts, cheating is strictly forbidden.
Weekly Plan
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Fundamental Laws of Physics and Electrical Engineering: Coulombs law, Gauss law, Ampere’s law.
Fundamental Laws of Physics and Electrical Engineering: Ohms law, Faraday’s law of induction, Kirchoff’s circuit laws
Electric circuits elements: Passive Elements/Active elements/Electromechanical elements. Circuit analysis (Passive components)
Circuit analysis, Transient/steady state
Active elements: Diodes, Transistors. AC characteristics of diode, dynamic resistance
Superposition principle, DC/AC analysis of transistor circuits
Amplifier circuits / Digital circuits
Midterm I
Electromechanical elements: DC/AC motors, Step motors
Power electronics: Rectifiers, Inverters/Converters, Motor drivers
Analog signals, digital signals(ADC,DAC),
Midterm II
Digital Signal processing, Digital filters.
Engineering Ethics