Nevşehir Hacı Bektaş Veli University Course Catalogue

Information Of Programmes

FACULTY OF ENGINEERING & ARCHITECTURE / EEM-213 - ELECTRICAL AND ELECTRONICS ENGINEERING

Code: EEM-213 Course Title: ANALOGUE ELECTRONICS-1 Theoretical+Practice: 3+1 ECTS: 5
Year/Semester of Study 2 / Fall Semester
Level of Course 1st Cycle Degree Programme
Type of Course Compulsory
Department ELECTRICAL AND ELECTRONICS ENGINEERING
Pre-requisities and Co-requisites None
Mode of Delivery Face to Face
Teaching Period 14 Weeks
Name of Lecturer GÖKSEL GÖKKUŞ (gokselgokkus@nevsehir.edu.tr)
Name of Lecturer(s)
Language of Instruction Turkish
Work Placement(s) None
Objectives of the Course
To have basic knowledge of the main elements used in electronics (Diode, transistor and semiconductors).

Learning Outcomes PO MME
The students who succeeded in this course:
LO-1 Can investigate of p-type semiconductor, n-type semiconductor, p-n joint (1,2). PO-1 Mathematics, science and engineering information to gain the practical skills.
PO-2 Ability to identify engineering problems, modelling, formulate and improve the ability to solve.
 		Examination
LO-2 Can make analysis of Semiconductor diodes, voltage-current self-curves, dependence of self-curves on temperature, diode resistors, diode capacitances, load line, linear diode equivalent, diode switching times, zener diode voltage regulator, trimming circuits, rectifiers, other diode circuits , small signal PO-3 In such a way that those who want to design a system or process.
PO-4 Individual and/or in groups to gain the ability to work.
 		Examination
PO: Programme Outcomes
MME:Method of measurement & Evaluation

Course Contents
p and n type semiconductors, Examination of p-n joint,Voltage-current self-curves of a semiconductor diode, Zener diodes and zener diode voltage regulators. Experiment-1 Zener diode voltage regulator, Clipper circuits, rectifiers, small signal analysis. Experiment-2 Full-wave and half-wave rectifiers, Introduction to BJT and transistor structure. Experiment-3 Test of the transistors, Biasing of common based, common emitter and common collector circuits. Experiment-4 Common base transistor, Transistor switching times. Experiment-5 Common emitter transistors, Analysis of transistor operating point and thermal stability. Experiment-6 Common collector transistors, Field effect transistors. Experiment-7 Field effect transistors and their biasing, Analysis of voltage-current self-curves in Fet's. Experiment-8 Applications with selected FET, Analysis of Enhancement MOSFET and examination of working points. Experiment-9 E-MOS applications, Analysis of the depletion MOSFET and examination of the working points. Experiment-10 D-MOS applications, Analysis of Cmos and removal of working points. Experiment-11 C-MOS applications.
Weekly Course Content
Week Subject Learning Activities and Teaching Methods
1 P and N type semiconductors, Switching Elements Lecture, question and answer, simulation, online application
2 Semiconductor diode and properties. Lecture, question and answer, simulation, online application
3 Diode Types and Properties. Experiment-1 Zener diode voltage regulator. Lecture, question and answer, simulation, online application
4 Diode Applications: Clipper circuits, rectifiers, small signal analysis. Experiment-2 Full-wave and half-wave rectifiers Lecture, question and answer, simulation, online application
5 Introduction to BJT and Transistor Structure. Experiment-3 Test of transistors. Lecture, question and answer, simulation, online application
6 BJT DC Bias Circuits. Experiment-4 Bias Circuits Lecture, question and answer, simulation, online application
7 BJT DC Bias Circuits, Working Point Analysis. Experiment-5 Bias Circuits Lecture, question and answer, simulation, online application
8 mid-term exam
9 Field Effect Transistors (FET), JFET MOSFET Lecture, question and answer, simulation, online application
10 FET DC Bias Circuits, examination of voltage-current curves in Fet's. Experiment-6 Field effect transistors and biasing Lecture, question and answer, simulation, online application
11 FET DC Bias Circuits. Experiment-7 Applications with selected FET. Lecture, question and answer, simulation, online application
12 Analysis of Enhancement MOSFET and examination of working points. Experiment-8 E-MOS applications. Lecture, question and answer, simulation, online application
13 Analysis of the depletion MOSFET and examination of the working points. Experiment-9 D-MOS applications. Lecture, question and answer, simulation, online application
14 Operational Amplifiers Lecture, question and answer, simulation, online application
15 Operational Amplifier Application Circuits Lecture, question and answer, simulation, online application
16 final exam
Recommend Course Book / Supplementary Book/Reading
1 MICROELECTRONICS: Digital and Analog Circuits and Systems, Jacob MILLMAN, McGraw-Hill.
2 Electronic Devices and Circuit Theory, Prentice Hall,
Required Course instruments and materials
Course book, Computer, NI Circuit Design Suite Education

Assessment Methods
Type of Assessment Week Hours Weight(%)
mid-term exam 8 2 40
Other assessment methods
1.Oral Examination
2.Quiz
3.Laboratory exam
4.Presentation
5.Report
6.Workshop
7.Performance Project
8.Term Paper
9.Project
final exam 16 2 60

Student Work Load
Type of Work Weekly Hours Number of Weeks Work Load
Weekly Course Hours (Theoretical+Practice) 4 14 56
Outside Class
       a) Reading 0
       b) Search in internet/Library 0
       c) Performance Project 2 10 20
       d) Prepare a workshop/Presentation/Report 0
       e) Term paper/Project 2 10 20
Oral Examination 0
Quiz 0
Laboratory exam 3 10 30
Own study for mid-term exam 5 2 10
mid-term exam 2 1 2
Own study for final exam 5 2 10
final exam 2 1 2
0
0
Total work load; 150