Course Information Semester Course Code Course Title T+P+L Credit ECTS 3 05130302 Electronic Devices 3+0+2 4 6 Course Details Language : Turkish Level : Bachelor's Degree Department / Program : Electrical and Electronics Engineering Mode of Delivery : Face to Face Type : Compulsory Objectives : Upon successful completion of this course, students will be able to understand the basic electronic components such as diodes, resistors, LEDs, BJT and FET transistors etc rom their physical structures up to usage in some specific circuits like diode rectifiers, diode AND, or gates, transistor amplifiers, DC biasing circuits etc. They will also design and implement basic analog circuits using various diodes and transistors. Besides students will be ready for taking higher level courses such as “Electronic Circuits” to become an electrical engineer. Content : Diodes, Diode applications, Zener Diodes and its applications, Bipolar Junction Transistor, BJT applications, OPAMPs and its applications. Basic single-stage transistor amplifiers and frequency responses. Feedback in amplifiers. Power amplifiers. Power supplies and regulators. Methods & Techniques : Prerequisites and co-requisities : None Course Coordinator : Associate Prof.Dr. Hulusi AÇIKGÖZ Name of Lecturers : Asist Prof. Abdülkadir Özcan Assistants : None Work Placement(s) : No Recommended or Required Reading Resources : R.L.Boylestad, L.Nashelsky, “Electronic Devices and Circuit Theory”, Prentice Hall, 9th Ed., (2007)J.J. Brophy (McGraw-Hill, “Basic Electronics for scientists”, 5th edition) Semester : JJ Brophy (McGraw-Hill, “Bilim Adamları için Temel Elektronikler”, 5. Baskı) Course Category Engineering 50% Engineering Design 50% In-Term Study Informations In-Term Studies Quantity Percentage Mid-terms 1 25% Assignment 1 10% Attendance 1 10% Practice 1 15% Final examination 1 40% Total 5 100% Activity Informations Activities Quantity Duration Total Work Load Course Duration 14 3 42 Hours for off-the-c.r.stud 14 4 56 Assignments 1 10 10 Mid-terms 1 20 20 Laboratory 14 2 28 Final examination 1 20 20 Total Work Load ECTS: 6 176 Course Learning Outcomes Upon the successful completion of this course, students will be able to: No Learning Outcomes 1 Know the fundamentals of electronics and design electronics circuits 2 Know the characteristics of signals in electronics systems 3 Know the fundamentals of biomedical devices 4 Know the characteristics of electronic components 5 Know the manufacturing process of basic electrical-electronics (computer simulation, bread-board design, choosing circuit component, soldering, etc…) and gain the experience in applications. Weekly Detailed Course Contents Week Topics 1 Overview of materials, periodic table, the H atom, energy and momentum quamtization. 2 Semiconductor materials: Si, Ge, compound materials:GaAs, the diamond crystal, electrical properties of semiconductor materials, effect of heat. I 3 Semiconductor pn junction, electrical characteristics of pn junctions: depletion region, thickness equation of depletion region, temperature dependency of junction characteristics 4 Semiconductor diodes: equation of diode, diode V/I plot, ideal and approximate diode equivalent circuits, errors in approximations 5 Zener, LED, photodiodes. 6 DC diode circuits: Load line analysis, series, paralel diode configurations, exact and approximate solutions, diode AND/OR Gates, AC diode circuits: half, full wave rectifiers, clippers, clampers, Zener diode applications. MIDTERM EXAM 7 BJT transistors: Physical structure and electrical characteristics, BJT ce, cb, cc circuits, transistor testing 8 DC biasing techniques: fixed, self, emitter, voltage divider biasing circuits, examples of biasing circuits. 9 Transistor operating regions,: active inv. active saturation and cut off transistor equivalent replacement circuits, related equations. 10 BJT circuit examples, power considerations 11 AC analysis: BJT re model, and h model, equations, approximations 12 AC circuits: CE fixed bias, voltage divider bias circuits AC analysis. Voltage and current gain calculations 13 CB and CC AC analysis input, output AC resistance calculations, gain calculations. 14 Two-port systems, cascade cascode and Darlington connections. Contribution of Learning Outcomes to Programme Outcomes P1P2P3P4P5P6P7P8P9P10P11 All 1 C1 5 C2 3 C3 5 C4 5 bbb
