Description of Individual Course Units
Course Unit CodeCourse Unit TitleType of Course UnitYear of StudySemesterNumber of ECTS Credits
ELT1082010776ELECTRONIC ICompulsory125
Level of Course Unit
Short Cycle
Objectives of the Course
• to learn chemical structure of the semiconductor as a basic knowledge. • to understand the working principles of diodes and transistors.
Name of Lecturer(s)
Öğr. Gör. Onur DEMİRCİ
Learning Outcomes
1Knows properties of semiconductor
2Knows obtaining n and p type material from semiconductors.
3Knows operating properties of diode, knows operating of rectifier, clamp, limitter and other diode circuits.
4Knows properties and usage of zener, schottky, led, photo diode, varicap, tunnel diode and other diode types
5Knows operating principals of BJT, operating of BJT biasing circuits, principals of FET operating.
Mode of Delivery
Formal Education
Prerequisites and co-requisities
Recommended Optional Programme Components
Week 1 What is a semiconductor? How to obtain? Atomic structure of semiconductor. Week 2 P and N type semi-conductors. Week 3 Examining the p-n junction Week 4 Ideal and non-ideal diodes. Germanium and silicon diodes. Week 5 Full-wave and half wave rectifiers. Week 6 Analyzing zener diodes and resolving sample questions about zeners. Week 7 Diode clamp and clipper cricuits. Week 8 Pin Diodes, Schottky diodes, photo diodes, varikap diodes - Mid-term exam Week 9 Starting of analyzing bi junctional transistors. Week 10 Exam Week 11 Common base, emitter and collector circuits. Week 12 Analyzing working of transistors in active, saturation and cutoff regions. Week 13 Analyzind small signal equivalent model of transistor and resolving sample questions. Week 14 Field effect transistors and their parameters. Week 15 Final exam
Course Contents
• Semi-conductors (N Type P Type) • Ideal and Nonideal Diodes Rectifiers Crop Users Users snap • Voltage multiplexers • Zener and voltage regulators • LED, Photo Diode, Schottky Diode, Tunnel Diode, special purpose diodes like Varikap diode. • BJT and FET characteristics
Weekly Detailed Course Contents
WeekTheoreticalPracticeLaboratory
1What is a semiconductor? How to obtain? Atomic structure of semiconductor.
2P and N type semi-conductors.
3Examining the p-n junction
4Ideal and non-ideal diodes. Germanium and silicon diodes.
5Full-wave and half wave rectifiers.
6Analyzing zener diodes and resolving sample questions about zeners.
7Diode clamp and clipper cricuits.
8Pin Diodes, Schottky diodes, photo diodes, varikap diodes - Mid-term exam
9Starting of analyzing bi junctional transistors.
10Starting of analyzing bi junctional transistors.
11Common base, emitter and collector circuits.
12Analyzing working of transistors in active, saturation and cutoff regions.
13Analyzind small signal equivalent model of transistor and resolving sample questions.
14Field effect transistors and their parameters.
15Final exam
Recommended or Required Reading
Robert BOYLESTAD, Louis NASHELSKY. 2004. Elektronik Elemanlar Ve Devre Teorisi. Hasan Selçuk SELEK, 2008, Analog Elektronik 1
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight
SUM0
End Of Term (or Year) Learning ActivitiesQuantityWeight
SUM0
Yarıyıl (Yıl) İçi Etkinlikleri40
Yarıyıl (Yıl) Sonu Etkinlikleri60
SUM100
Language of Instruction
Turkish
Work Placement(s)
Workload Calculation
ActivitiesNumberTime (hours)Total Work Load (hours)
Midterm Examination111
Final Examination111
Attending Lectures14456
Self Study14570
Individual Study for Mid term Examination11212
Individual Study for Final Examination0100
TOTAL WORKLOAD (hours)140
Contribution of Learning Outcomes to Programme Outcomes
PO
1		PO
2		PO
3		PO
4		PO
5		PO
6		PO
7		PO
8		PO
9		PO
10		PO
11		PO
12		PO
13		PO
14		PO
15		PO
16
LO1  5             
LO2  55            
LO3  55   5        
LO4  55   5        
LO5  55   5        
* Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High
 
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