1. SECOND CYCLE - MASTER'S DEGREE
  2. THE GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES
  3. ELECTRICAL AND ELECTRONICS ENGINEERING DEPARTMENT
General Information Prog. Learning Outcomes Teaching & Learning Methods Course Structure Course & Learning Outcomes LO - NQF-HETR Relation LO - FOE (Academic) LO - FOE (Vocational)

1181 Electrical and Electronics Engineering

GENERAL INFORMATION
The Electrical and Electronics Engineering program is constituted of seven divisions called Electronics, Circuits and Systems, Electromagnetic Fields and Microwave Technique, Communication, Control, Electrical Machines and Electrical Institutions. In this program, in various specialized options, sufficient number of both theoretical and application-specific courses are offered by academic members of Electrical and Electronics Engineering Department for graduate students. In the 2011-2012 education year the Electrical and Electronics Engineering program is active with 1 Professor, 5 Associate Professors, 8 Assistant Professors, 1 expert and 3 research assistants.

Objective
The purpose of the Electrical and Electronics Engineering graduate program is to educate students that are expert at one of the fields such as Electronics, Circuits and Systems, Electromagnetic Fields and Microwave Technique, Communication, Control, Electrical Machines and Electrical Institutions.


Admission Requirements
First cycle degree, acceptable score on centralized graduate entrance exam, placement through local oral/written exam and certificate of English proficiency

Graduation Requirements
A student must complete the required course load (21 PAU credits) with a CGPA of at least 3.00/4.00; present a research seminar and successfully prepare and defend a thesis.

Career Opportunties
Graduated students can find job opportunities in industrial and government institutions such as VESTEL, TUBITAK. Research Assistant/Lecturer/Academician in various universities; continue for a Ph.D. program in a unversity

Qualification Awarded
Electrical And Electronics Engineering

Level of Qualification
Second Cycle (Master's Degree)

Recognition of Prior Learning
Recognition of previous structured lectures in Turkish Higher Education Institutions, transitions in vertical, horizontal and university are realized within the scope of the "Higher Education Regulations", "REGULATION BETWEEN THE BACHELORS AND GRADUATE DEGREE PROGRAMS, ON HIGHER EDUCATION AND TRANSITION BETWEEN DOUBLE MAJOR DALL, SIDE DALL AND CREDIT TRANSFER STANDARDS

Qualification Requirements and Regulations
A student must complete the required course load (21 PAU credits) with a CGPA of at least 3.00/4.00; present a research seminar and successfully prepare and defend a thesis.

Access to Further Studies
May apply to PhD programs

Mode of Study
Full Time

Examination Regulations, Assessment and Grading
Measurement and evaluation methods that is applied for each course, is detailed in "Course Structure&ECTS Credits".

Contact (Programme Director or Equivalent)
PositionName SurnamePhoneFaxE-Mail
HEAD OF THE DEPARTMENT OF INSTITUTEProf. Dr. CEYHUN KARPUZ  ckarpuz@pau.edu.tr


PROGRAM LEARNING OUTCOMES
1Graduates with sufficient fundamental mathematics and scientific knowledge related to electrical and electronics engineering profession, and with application skills for solving electrical and electronics engineering problems using these theoretical and practical backgrounds.
2Graduates with skills in detecting, describing, modeling, analyzing and solving the electrical and electronics engineering problems, and with skills of determining and applying appropriate analytical and modeling methods for these aims.
3Graduates with skills of designing a system, system component or process to serve needs under the realistic restrictions such as economy, environmental problems, feasibility, productivity, ethics, healthiness, safety, social and political aspects, and with skills of applying modern designing methods to fulfill this aim.
4Graduates with the practice of selecting and using appropriate technical and engineering tools necessary for electrical and electronics engineering applications, and with the ability of effective use of information science technologies.
5Graduates with the ability of designing and conducting experiments, data acquisition and analysis and making conclusions for considering electrical and electronics engineering problems.
6Graduates with the ability of participating in disciplinary and inter-disciplinary project groups effectively.
7Graduates with the effective oral and official communication skills in Turkish Language and knowledge at least one foreign language.
8Graduates with motivation to life-long learning and the conscious of sharing information, and with abilities of searching the potential resources for information or knowledge regarding a given engineering issue, using databases and other information resources, pursuing the developments in electrical and electronics engineering profession and updating oneself continuously.
9Graduates with well-structured responsibilities in profession and ethics.
10Graduates with knowledge about applications in business life related to electrical and electronics engineering, and with consciousness about taking initiative, making innovation and feasible development.
11Graduates with consciousness of the results and effects of electrical and electronics engineering solutions and applications on healthiness, environment and safety from the perspective of society and universe, and with knowledge of age’s problems and awareness of the juridical results of engineering solutions.
TEACHING & LEARNING METHODS
NameComments
LecturingLecturing is one of the methods that come first, where the teacher is in the center. It is a method where the teacher actively describes topics and the students are passive listeners. With this method, lesson proceeds in the form of report, description and explanation.
DebateDepending on the situation, debate is a tool that allows all students, or a specific portion of the class to participate in the lesson. In this method, members of the group discuss a topic by addressing the various points of view and discuss alternative opinions about problem-solving.
Problem SolvingThe name given to any doubt or ambiguity that arises is, a problem. Problems which usually have a role in human life, that have preventing or annoying aspects are solved by considering the stages of scientific methods. (a) Problems are determined. (b) The problem is identified. 
Cooperative LearningCooperative Learning is; a kind of learning that is based on the students working together for a common purpose. Children with different skills come together in heterogeneous groups to learn by helping each other. Students gain experiences such as becoming aware of the unity
Questions –AnswersThe different types of Questions used (associative, differential, assessment, requesting information, motivating, and brainstorming) although students get in to more active positions during the process; the method is teacher-centered. If possible Questions, that serve a purpose and
Simulation Expresses situations where in real life learning is dangerous, difficult to reach and expensive and where students work on models which are very similar to the real thing. For example, before airplane pilots and astronauts embark their aircrafts and spacecrafts, they perform applications
ProjectProject-based learning is a learning way which leads students to deal with interesting problems and to create extraordinary products at the end of this. It allows students to use their creativity and it requires them to look at events perceptively.
Observation Although we generally get information related to the nature through observations, the Observation method can also be used for other situations and under other conditions. We try to reach certain generalizations by thinking about our findings which we gather from our observations.
Brainstorming Brainstorming is a group work process that has been regulated to reach solutions for a problem without limitations or evaluation. The purpose of brainstorming is to make it easier for students to express themselves and to generate ideas. This technique is used as a high-level discussion

PO - NQF-HETR Relation
NQF-HETR CategoryNQF-HETR Sub-CategoryNQF-HETRLearning Outcomes
INFORMATION  01
INFORMATION  02
SKILLS  01
SKILLS  02
SKILLS  03
COMPETENCIESCommunication and Social Competence 01
COMPETENCIESCommunication and Social Competence 02
COMPETENCIESCommunication and Social Competence 03
COMPETENCIESCommunication and Social Competence 04
COMPETENCIESCompetence to Work Independently and Take Responsibility 01
COMPETENCIESCompetence to Work Independently and Take Responsibility 02
COMPETENCIESCompetence to Work Independently and Take Responsibility 03
COMPETENCIESField Specific Competencies 01
COMPETENCIESField Specific Competencies 02
COMPETENCIESField Specific Competencies 03
COMPETENCIESLearning Competence 01
    

PO - FOE (Academic)
FOE CategoryFOE Sub-CategoryFOELearning Outcomes
INFORMATION  01
INFORMATION  02
INFORMATION  03
INFORMATION  04
SKILLS  01
SKILLS  02
SKILLS  03
SKILLS  04
COMPETENCIESCommunication and Social Competence 01
COMPETENCIESCommunication and Social Competence 02
COMPETENCIESCommunication and Social Competence 03
COMPETENCIESCommunication and Social Competence 04
COMPETENCIESCommunication and Social Competence 05
COMPETENCIESCommunication and Social Competence 06
COMPETENCIESCommunication and Social Competence 07
COMPETENCIESCommunication and Social Competence 08
COMPETENCIESCompetence to Work Independently and Take Responsibility 01
COMPETENCIESCompetence to Work Independently and Take Responsibility 02
COMPETENCIESCompetence to Work Independently and Take Responsibility 03
COMPETENCIESCompetence to Work Independently and Take Responsibility 04
COMPETENCIESCompetence to Work Independently and Take Responsibility 05
COMPETENCIESCompetence to Work Independently and Take Responsibility 06
COMPETENCIESField Specific Competencies 01
COMPETENCIESField Specific Competencies 02
COMPETENCIESField Specific Competencies 03
COMPETENCIESField Specific Competencies 04
COMPETENCIESLearning Competence 01
COMPETENCIESLearning Competence 02
COMPETENCIESLearning Competence 03
COMPETENCIESLearning Competence 04
    

PO - FOE (Vocational)
FOE CategoryFOE Sub-CategoryFOELearning Outcomes
INFORMATION  01
INFORMATION  02
SKILLS  01
SKILLS  02
SKILLS  03
SKILLS  04
COMPETENCIESCommunication and Social Competence 01
COMPETENCIESCommunication and Social Competence 02
COMPETENCIESCommunication and Social Competence 03
COMPETENCIESCommunication and Social Competence 04
COMPETENCIESCommunication and Social Competence 05
COMPETENCIESCompetence to Work Independently and Take Responsibility 01
COMPETENCIESCompetence to Work Independently and Take Responsibility 02
COMPETENCIESCompetence to Work Independently and Take Responsibility 03
COMPETENCIESCompetence to Work Independently and Take Responsibility 04
COMPETENCIESCompetence to Work Independently and Take Responsibility 05
COMPETENCIESField Specific Competencies 01
COMPETENCIESField Specific Competencies 02
COMPETENCIESField Specific Competencies 03
COMPETENCIESField Specific Competencies 04
COMPETENCIESLearning Competence 01
COMPETENCIESLearning Competence 02
COMPETENCIESLearning Competence 03
COMPETENCIESLearning Competence 04
COMPETENCIESLearning Competence 05
    

COURS STRUCTURE & ECTS CREDITS
Year :
Course Plan

1st Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
ELK 558 LINEAR SYSTEM THEORY 3+0 7,5 Compulsory
FBE 610 METHODS OF RESEARCH AND ETHICS 3+0 7,5 Compulsory
- Electrical and Electronics Engineering Elective-1 4+0 7,5 Elective
- Electrical and Electronics Engineering Elective-1 4+0 7,5 Elective
  Total 30  
1st Semester Elective Groups : Electrical and Electronics Engineering Elective-1

2nd Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
ELK 599 SEMINAR 0+2 7,5 Compulsory
ELK 529 COMPUTER AIDED NUMERICAL ANALYSIS 3+0 7,5 Compulsory
- Electrical and Electronics Engineering Elective-2 3+0 7,5 Elective
- Electrical and Electronics Engineering Elective-2 3+0 7,5 Elective
  Total 30  
2nd Semester Elective Groups : Electrical and Electronics Engineering Elective-2

3rd Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
ELK 500 MASTER'S THESIS 0+0 20 Compulsory
ELK 700 FIELD OF STUDY COURSE 6+0 10 Compulsory
  Total 30  

4th Semester Course Plan
Course CodeCourse TitleL+P HourECTSCourse Type
ELK 500 MASTER'S THESIS 0+0 20 Compulsory
ELK 700 FIELD OF STUDY COURSE 6+0 10 Compulsory
  Total 30  


COURSE & PROGRAM LEARNING OUTCOMES
Year :
Numerical Verbal The Presence of Relationship
Compulsory Courses
Course TitleC/EPO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11
COMPUTER AIDED NUMERICAL ANALYSISC***********
FIELD OF STUDY COURSEC*********  
LINEAR SYSTEM THEORYC*****      
MASTER'S THESISC*********  
METHODS OF RESEARCH AND ETHICSC           
POSTGRADUATE COUNSELINGC           
SEMINARC * * ***   
Click to add elective courses...
Elective Courses
Course TitleC/EPO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11
ACTIVE CIRCUIT SYNTHESISE           
ADAPTIVE CONTROL SYSTEMSE*****      
ADAPTIVE SIGNAL PROCESSINGE           
ADAPTIVE SIGNAL PROCESSING - IE****** *   
ADAPTIVE SIGNAL PROCESSING - IIE****** *   
ADVANCED ACTIVE CIRCUIT DESIGNE****** *  *
ADVANCED APPLIED POWER ELECTRONICSE***********
ADVANCED CIRCUITS AND SYSTEMSE           
ADVANCED CMOS VLSI DESIGNE****** *  *
ADVANCED ENGINEERING MATHEMATICSE***********
ADVANCED FUZZY SYSTEMSE***********
ADVANCED MICROCONTROLLER SYSTEMSE***********
ADVANCED MICROWAVE TECHNIQUEE           
ADVANCED MICROWAVE TECHNIQUESE***********
ADVANCED POWER ELECTRONICSE****** *   
ADVANCED SEMICONDUCTOR POWER TRANSFORMATORSE           
ANALOG FILTER DESIGNE           
ANALYSIS OF DC-DC CONVERTERSE           
ARTIFICIAL NEURAL NETWORKSE*****      
COMPUTATIONAL INTELLIGENCEE*****      
COMPUTER AIDED DESIGN IN MAGNETICS - IE******  ***
COMPUTER AIDED DESIGN IN MAGNETICS - IIE******  ***
COMPUTER AIDED NUMERICAL ANALYSISE***********
COMPUTER NETWORKSE***********
COMPUTER OPERATING SYSTEMS AND UNIXE***********
COMPUTER SIMULATIONS OF SEMICONDUCTOR DEVICESE***********
CONTINUOUS TIME SIGNALS AND SYSTEMSE           
CONTROL OF ROBOT MANIPULATORSE           
CURRENT MODE ANALOG INTEGRATED CIRCUITS IE           
CURRENT MODE ANALOG INTEGRATED CIRCUITS IIE           
CURRENT-MODE ANALOG CIRCUIT DESIGNE****** *  *
DESIGN OF ELECTRICAL MACHINESE******  ***
DESIGN OF PHOTOVOLTAIC SYSTEMSE           
DESIGN OF THE HIGH POWER DENSITY SWITCHED MODE POWER SUPPLIESE           
DESIGN PARAMETERS IN OPTICAL WAVE GUIDES WITH REFRACTION INDEXE           
DESIGNING OPTICAL WAVE GUIDES WITH REFRACTION INDEXE           
DIGITAL CONTROLE*****      
DIGITAL SIGNAL PROCESSORS AND CONTROL APPLICATIONSE***********
DIRECT-CURRENT ENERGY SYSTEMSE           
DISCRETE TIME SIGNALS AND SYSTEMSE********   
ELECTRICAL MACHINES CONTROLE****** *   
ELECTRICAL NETWORKS AND INSTITUTIONSE           
ELECTROMAGNETIC COMPATIBILITYE           
ENERGY PRODUCING SYSTEMSE***********
EXTERNALLY LINEAR INTERNALLY NONLINEAR CIRCUITSE********   
FILTER DESIGN METHODS FOR RF AND MICROWAVE FREQUENCIESE           
FOTOVOLTAIC MATERIALS AND CIRCUITSE           
FUEL CELL SYSTEMSE           
FUZZY CONTROL SYSTEMS DESIGN AND ANALYSISE***********
FUZZY LOGIC APPLICATIONS IN MICROWAVE CIRCUITSE           
GENERALIZED THEORY OF ELECTRICAL MACHINESE******  ***
HIGH DENSITY INTEGRATED DESIGNE****** *  *
INDUCTION HEATING SYSTEMSE****** *   
INTEGRATED CIRCUITS TEST PROBLEMS AND MINIATURIZATIONE******     
INTRODUCTION TO MICROELECTROMECHANICAL SYSTEMSE           
JAVA PROGRAMMING AND APPLICATIONSE           
LABVIEW GRAPHICAL PROGRAMMING LANGUAGEE***********
LABVIEW GRAPHICAL PROGRAMMING LANGUAGE IE***********
LABVIEW GRAPHICAL PROGRAMMING LANGUAGE IIE***********
LASER ELECTRONICSE***********
LASER ELECTRONICS IE           
LASER ELECTRONICS IIE           
LIGHT TECHNOLOGYE           
LINEAR AND NONLINEAR OPTICE           
LINEAR AND NONLINEAR OPTICSE***********
LINEAR SYSTEM THEORYE*****      
LOW VOLTAGE/POWER ANALOG INTEGRATED CIRCUIT DESIGNE           
LOW VOLTAGE/POWER ANALOG INTEGRATED INTEGRATED CIRCUIT DESIGNE****** *  *
MACHINE LEARNINGE*****      
MICROWAVE CIRCUITSE***********
MICROWAVE FILTER DESIGNE***********
MULTI-DIMENSIONAL IMAGE PROCESSING AND APPLICATIONSE****** *   
NEW TYPE POWER SOURCES AND APPLICATIONSE****** *   
NONLINEAR CONTROLE*****      
NONLINEAR DYNAMICS AND CHAOSE*****      
NUMERICAL METHODS IN ELECTROMAGNETICSE           
OPTICAL FIBER COMMUNICATIONSE***********
OPTICAL WAVE GUIDEE***********
OPTIMAL CONTROLE*****      
OPTIMAL CONTROL THEORYE*****      
OPTIMIZATION TECHNIQUESE*****      
PARALLEL (MULTI-PROCESSOR AND -COMPUTERISED) SYSTEMSE           
PATTERN RECOGNITIONE*****      
PHOTONICS- IE           
PHOTONICS-IIE           
POWER QUALITY IN ELECTRICAL SYSTEMSE           
POWER SUPPLIESE****** *   
POWER SYSTEM ANALYSIS AND MODELINGE           
POWER SYSTEM PROTECTIONE           
POWER SYSTEMS DYNAMICS AND CONTROLE****** * * 
PRODUCTION TECHNOLOGIES OF PHOTOVOLTAICSE           
PROGRAMMABLE LOGIC DEVICES - IE***********
PROGRAMMABLE LOGIC DEVICES - IIE***********
PROGRAMMABLE LOGIC DEVICES IE           
PROGRAMMABLE LOGIC DEVICES IIE           
RAILWAY SIGNALING SYSTEMS AND SAFETYE           
RANDOM PROCESSESE           
RELIABILITY IN FAULT TOLERANT COMPUTER CONTROL SYSTEMSE           
RESEARCH PROJECTE   *  **   
ROBOTICS KINEMATICSE*****      
SEMICONDUCTOR PHYSICS AND DEVICESE***********
SEMINARE           
SPECIAL ELECTRICAL MACHINESE****** *   
SPECIAL TOPICS IN ELECTRICAL AND ELECTRONICS ENGINEERINGE           
SPECTRAL ESTIMATIONE           
STATISTICAL DIGITAL SIGNAL PROCESSING AND MODELING - IE********   
STATISTICAL DIGITAL SIGNAL PROCESSING AND MODELING - IIE********   
STATISTICAL SIGNAL PROCESSINGE           
SYSTEM IDENTIFICATIONE*****      
TERM PROJECTE           
THEORY OF FUNCTIONS WITH COMPLEX VARIABLESE***********
THEORY OF LINEAR CIRCUITSE********   
TRANSLINEAR CIRCUITSE           
TWO-DIMENSIONAL IMAGE PROCESSING AND APPLICATIONSE****** *   
VHDL PROGRAMMING OF HIGH DENSITY INTEGRATED CIRCUITSE***********
WIRELESS SENSOR NETWORKS AND APPLICATIONSE***********
L+P: Lecture and Practice
C: Compulsory
E: Elective
PO: Program Learning Outcomes
TH [5]: Too High
H [4]: High
M [3]: Medium
L [2]: Low
TL [1]: Too Low
None [0]: None
FOE [0]: Field of Education
NQF-HETR : National Qualifications Framework For Higher Education in Turkey