Electrical Electronic Circuits

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

Not Required

Course Contents

Quantities and Units, Electric circuit variables (Voltage, Current and Resistance), Circuit elements, Circuit theorems, Resistive circuits, Series Circuits, Parallel Circuits, Series-Parallel Circuits, Methods of analysis of resistive circuits, Magnetism and Electromagnetism, Introduction to Alternating Current and Voltage, Capacitors, Inductors, RL and RC Circuits, The complete response of RL and RC circuit,Semiconductor Technology, Semiconductor Circuit Elements, Diodes, Transistors and its appliations.

Weekly Schedule

1) Circuit Elements and Symbols, Quantities and Units. Engineering Notation, Test and Measurement Equipment, Electrical circuit variables (Voltage, Current and Resistance)
2) Conductor, Insulator and Semiconductor Concept, Resistor, Resistor Types, Resistor Tolerance, Resistor Color Codes, Battery and Battery Types, Ohm's Law, Current and Voltage Relationship, Current and Resistance Relationship,
3) Resistor circuits, Series Circuits, Parallel Circuits, Series-Parallel Circuits, Kirchhoff's Voltage (KVL) and Current Laws (KCL), Analysis methods in resistor circuits, Power and Energy Relationship, Watt's Law
4) Series and Parallel Resistance Connections, Equivalent resistance calculation, Y-? (Star-Delta) Transformations, Series Parallel Circuits, Effect of load resistance, Ideal and practical measuring instruments, Loading effect of Voltmeter, Wheatstone bridge, Wheatstone bridge circuit applications
5) Source and Load Analysis, Ideal and practical sources of voltage and current, Conversion between sources, Circuit theorems, Thevenin's theorem, Thevenin voltage (ETH), Thevenin resistance (RTH), Maximum Power Transfer Theorem, Norton's theorem, Norton current (IN), Norton resistance (RN), Superposition Theorem
6) Nodal Analysis (Node-Voltage Method, NVM), Mesh Analysis (Mesh-Current Method, MCM)
7) Current and Magnetism, Self-Inductance, Lenz's Law, Inductance, Coil, Capacitor, Coil and Capacitor Series/parallel connections
8) Midterm Exam
9) Intorduction to Alternating current, Alternating Current (AC), Frequency, Period, Alternance, Peak, Peak to Peak Value, Instantaneous Value, Average Value, RMS Value
10) Semiconductor Theory, Atomic Structure, Conductor/Insulator/Semiconductor Concepts, N-Type P-Type Semiconductor, PN Structure (Diode), Diode, Ideal - Practical Diode, Diode I / V Characteristics, Diode Circuits, Robustness Check
11) Special Type Diodes, (Zener Diode, LED (Light Emitting Diode), Laser, Photo, Varicap, Shotkky, PIN, Optocoupler, Power Diodes)
12) Diode Connections and Applications, Diode Load Line, Logic Gates (or/and gates), Rectifiers (Half Wave and Full Wave Rectifier Circuits)
13) Diode Connections and Applications, Power Supplies, Clippers, Clamps
14) Transistors, Structure and Symbol, Polarization, Transistor Connections, Operating Points and Usage Types (Switching, Amplifier, Inverter)
15) OPAMPS (Operational Amplifiers)
16) Final Exam

Recommended or Required Reading

1- H. Demirel, “Temel Elektrik-Elektronik”, Birsen Yayınevi
2- Charles K. Alexander, Matthew N. O. Sadiku “Fundamentals of Electric Circuits,”, McGraw Hill
3- T. L. Floyd, David L. Buchla “Electronics Fundamentals Circuits, Devices and Applications”, Pearson.

Planned Learning Activities and Teaching Methods

1) Lecture
2) Question-Answer
3) Discussion
4) Drill and Practice
5) Demonstration
6) Simulation
7) Brain Storming
8) Lab / Workshop
9) Self Study
10) Problem Solving

Assessment Methods and Criteria

Contribution of Semester Studies to Course Grade	50%
Number Percentage Semester Studies Midterm Examination 1 50% Laboratory 1 50%
Contribution of Final Examination to Course Grade	50%
Total	100%

Language of Instruction

Turkish

Work Placement(s)

Not Required