Electrics (E.P.) Associate Degree Program

Academic Unit Presenting the ProgramElectrics (E.P.)
Program Director.
Program TypeAssociate Degree Program
Level of Degree Earned Associate Degree
Degree Earned When there are graduated with a degree in Electrics. Is the title of Technician.
Education Type  Tam Zamanlı
Registration Acceptance ConditionsThose who have successfully completed their secondary education are eligible.
Recognition of Prior LearningThe process of recognition of prior education by Turkish higher education institutions is still in its incipient stage. Likewise, the recognition of prior education has neither been started nor implemented by all departments at Namik Kemal University. However, a proficiency exam is held at the beginning of each academic year regarding the compulsory Foreign Language Course which is to be offered in the curriculum of all departments. The students who have embarked on a self-learning period or acquired necessary skills in the course are eligible to enter this exam. Those who have successfully passed the exam are eligible not to take the course.
Degree Requirements and Rules The students studying in this undergraduate program are required to have a Cumulative Grade Points Average (Cum.GPA) of not less than 2.00/4.00 and have completed all the courses with at least a letter grade of DD/S in the program in order to graduate. The minimum number of ECTS credits required for graduation is 120. It is also mandatory for the students to complete their compulsory internship in a specified duration and quality.
Program Profile
Occupational Profiles of Graduates
Access To Upper Degree
Exams, Assessment and Grading

Students will take a minimum of one midterm examination. In addition to midterms, they will be assigned projects and homeworks whose deadlines will be specified at the beginning of the semester. At the end of each semester, the students are required to take a final examination. The course content, the requirements (midterm, project, assignment and final examination) and their contribution to the final grade is specified on the website. Student regulations and the final examination dates are determined by the university and final examinations take place as announced. The students are graded according to their midterm, project, assignment and final examination results.

The passing grade at Namık Kemal University is 60 out of 100. However, the grade of the final examination or the retake should be a minimum of 50. Exams are evaluated on a scale of 100. The final grade of a course is the sum total of %30 of the midterm grade and %70 of the final or the retake examination grades. However, the calculation of the final grade of a course can be determined and announced as mentioned in the syllabus at the beginning of the semester by the Faculty/College Council as the sum total of ranging between %30 – %50 of the midterm examination and %50 – %70 of the final examination as long as the addition equals to a scale of 100. As a result of the calculation, if the value after the decimal is less than five, the grade is finalized by lowering it to the decimal value; if more than five, upgrading it to the next decimal value.

 

Final and retake grades are submitted to the Student Affairs along with the evaluation criteria. The grades are announced on the student information system.

 

 

 Grades

 

The grading system to evaluate the student performance is signified by the values in the chart below. For each course students are graded by letters. Letter grades, coefficients and ratios are as follows:

 

Grade

Letter Grade

Coefficient

Status

90-100

AA

4.00

Pass

80-89

BA

3.50

Pass

70-79

BB

3.00

Pass

65-69

CB

2.50

Pass

60-64

CC

2.00

Pass

50-59

DD

1.50

Fail

30-49

FD

1.00

Fail

0-29

FF

0.00

Fail
 

Students are required to retake the courses from which they received DD, FD or FF during the first oncoming semester in which these courses are offered.

Successful Students

Students who complete their associate or undergraduate degree with a grade point average of 3.00 – 3.49 graduate as honor students; 3.50 and above as high honor students. 

Graduation Requirements
Teaching Methods

Teaching methods are determined so as to improve skills, such as teaching-learning strategies, self-discipline, life-long learning, observation, sharing knowledge, presentation, critical thinking, teamwork, effective use of informatics.

Moreover, the choice of teaching methods pays heed to supporting students with different skills. The teaching methods used in the program are listed below*: 

TEACHING METHODS*

LEARNING ACTIVITIES

MEANS

Course

Listening and interpretation

Standard classroom technologies, multimedia devices, projector, computer, overhead projector

Discussion Course

Listening and interpretation, observation/situation handling, critical thinking, question development

Standard classroom technologies, multimedia devices, projector, computer, overhead projector

Special Support / Structural Examples

Special skills planned beforehand

 

Playing a Role / Drama

Special skills planned beforehand

Standard classroom technologies, special equipment

Problem Solving

Special skills planned beforehand

 

Case Study

Special skills planned beforehand

 

Brainstorming

Listening and interpretation, observation/situation handling, critical thinking, question development, team work

Standard classroom technologies, multimedia devices, projector, computer, overhead projector

Small Group Discussion

Listening and interpretation, observation/situation handling, critical thinking, question development

Standard classroom technologies, multimedia devices, projector, computer, overhead projector

Presentation

Listening and interpretation, observation/situation handling

Real or virtual environment suitable for observation

Simulation

Listening and interpretation, observation/situation handling, informatics skills

Real or virtual environment suitable for observation

Seminar

Research – lifelong learning, writing, reading, informatics, listening and interpretation, management skills

Standard classroom technologies, multimedia devices, projector, computer, overhead projector, special equipment

Group Study

Research – lifelong learning, writing, reading, informatics, critical thinking, question development, management skills, team work

 

Field / Land Study

Observation / situation handling, research – lifelong learning, writing, reading

 

Laboratory

Observation/situation handling, informatics, management skills, team work

Special equipment

Homework

Research – lifelong learning, writing, reading, Informatics

Internet database, library database, e-mail

Oral Exam

 

 

Survey and Questionnaire Study

Research – lifelong learning, writing, reading

 

Panel

Listening and interpretation, observation/situation handling

Standard classroom technologies, multimedia devices, projector, computer, overhead projector, special equipment

Guest Speaker

Listening and interpretation, observation/situation handling

Standard classroom technologies, multimedia devices, projector, computer, overhead projector, special equipment

Student Club Activity / Projects

Observation/situation handling, critical thinking, question development, team work, research – lifelong learning, writing, reading, management skills, special skills planned beforehand

 

*One or more of the listed methods can be used depending on the specificity of the course. 

Program Outcomes

1-To have knowledge of low voltage network and its components
2-To have the knowledge of the working principles and usage of analog and digital electrical measuring instruments
3-To be an individual who has knowledge of principles and revolutions of Ataturk
4-To design electronic and electrical circuits with the help of drawing and simulation programs
5-To recognize the circuit elements used in AC and DC and make and circuit solutions
6-To have the knowledge of electric power generation and to recognize the elements used in transmission and distribution networks
7-To be able to do the maintenance, repair and installation Works of electrical devices and systems
8-To have knowledge of the structure, working principle, winding patterns and connections to the circuit of electrical machinery
9-To use Turkish effectively in daily life and Professional field
10-To have knowledge of Operating system, basic office programs and general hardware of computers
11-To have adequate mathematical knowledge to do analysis in his/her own profession field
12-To have the knowledge of the basic principles and elements of automatic control systems. To be able to program PLC Systems
13-To have the knowledge of the structure and operation of basic electronic elements. To recognize the components and features of power electronics.17. To have the knowledge of the basics of logic circuits and the ability to design digital curcuits
14-To have knowledge of basic physics concepts and basic electrical circuits solutions
15-To have basic knowledge of foreign languages
16-To have knowledge of low current, high current, lightning, fire and security systems to be be able to draw plans for electrical installations, and to understand and do the contract and exploration Works for electrical installations

Curriculum

Electrics (E.P.)
1st Class

2023-2024 Fall Semester
Course Code Course Name Browse T A ECTS
DAD005 Direct Current Circuit Analysis 3 1 4
DAD005 Direct Current Circuit Analysis 3 1 4
TÖÇT001 Electricity Measurement Technique 3 1 4
YDİ101 Foreign Language I (English) 2 0 2
TGOS105 Information and Communication Technology 2 1 4
ELP102 Introduction to Installation 3 1 4
TMAT001 Mathematics I 3 0 3
ATİ101 Principles of Atatürk and History of Turkish Revolution I 2 0 2
TDİ101 Turkish Language I 2 0 2
Elective 1.SINIF GÜZ DÖNEMİ() 5
FİZ002 Physics 2 0 3
İGÜ002 Work Safety 2 0 2
Total ECTS: 34

2023-2024 Spring Term
Course Code Course Name Browse T A ECTS
ADA004 Alternative Current Circuit Analysis 3 1 4
TET001 Basic Electronics 3 1 5
YDİ102 Foreign Language II (English) 2 0 2
TMAT002 Mathematics II 3 0 3
ATİ102 Principles of Atatürk and History of Turkish Revolution II 2 0 2
ELP202 Transformer and Direct Current Machines 3 1 4
TDİ102 Turkish Language II 2 0 2
Elective 1.SINIF BAHAR DÖNEMİ() 8
ELP206 Electronic Circuits Design 1 1 2
TMST001 Occupational Technology 2 0 3
TSNT001 Sensors and Transducers 1 1 3
Total ECTS: 30
Total ECTS(Year): 64
2nd Class

2023-2024 Fall Semester
Course Code Course Name Browse T A ECTS
TELP301 Asynchronous and Synchronous Machines 3 1 4
TELP302 Electric Power Generation, Transmission and Distribution 3 1 4
TELP303 Electromechanical Control Systems 3 1 4
ÇEV002 Environment Protection 2 0 3
GET001 Power Electronics 3 1 4
ELP304 Trouble Analysis 2 1 3
Elective 2.SINIF GÜZ DÖNEMİ() 11
SET001 Digital Electronics 3 1 4
SCS002 Scada Systems 2 1 4
ÜSD213 University Elective Course 2 0 3
Total ECTS: 33

2023-2024 Spring Term
Course Code Course Name Browse T A ECTS
MYOSTJ01 Internship 0 2 5
Elective 2.SINIF BAHAR DÖNEMİ() 25
TELP401 Computer Aided Project 3 1 4
ELP405 Contract Exploration Planning 2 1 4
ELP404 Design and Installation of Power Panel 2 1 4
TEND101 Industry 4.0 and Digital Transformation 2 0 3
TPDN002 Programmable Controllers 3 1 4
TELP402 Special Installation Technique 3 1 4
SAT001 System Analysis and Design 1 1 2
MYOİU01 Workplace Application 3 0 15
MYOİE01 Workplace Training 2 0 10
Total ECTS: 30
Total ECTS(Year): 63

Matrix of Course - Program Outcomes

DAD005 Direct Current Circuit Analysis
#
3111511121411511
3111511121411511
3111511121411511
3111511121411511
3111511121411511
3111511121411511
DAD005 Direct Current Circuit Analysis
#
3111511121411511
3111511121411511
3111511121411511
3111511121411511
3111511121411511
3111511121411511
TÖÇT001 Electricity Measurement Technique
#
2552213221212112
2552213221212112
YDİ101 Foreign Language I (English)
#
1111111111111131
1111111111111131
1111111111111131
1111111111111131
1111111111111131
1111111111111131
TGOS105 Information and Communication Technology
#
0000000001000000
0000000002000000
0000000002000000
1000000002000000
ELP102 Introduction to Installation
#
5323434322233324
5323434322233324
5323434322233324
ATİ101 Principles of Atatürk and History of Turkish Revolution I
#
1141111111111111
1141111111111111
1141111111111111
1141111111111111
1141111111111111
1141111111111111
1141111111111111
1141111111111111
1141111111111111
1141111111111111
TDİ101 Turkish Language I
#
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
1111111141111111
FİZ002 Physics
#
1111311111111511
1111311111111511
1111311111111511
1111311111111511
1111311111111511
1111311111111511
1111311111111511
1111311111111511
İGÜ002 Work Safety
#
3211232311122112
3211232311122112
ADA004 Alternative Current Circuit Analysis
#
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
4211431111322522
YDİ102 Foreign Language II (English)
#
1111111111111131
TMAT002 Mathematics II
#
1111111111511111
1111111111511111
1111111111511111
1111111111511111
1111111111511111
ATİ102 Principles of Atatürk and History of Turkish Revolution II
#
0050000010000000
0050000010000000
0050000010000000
0050000010000000
0050000010000000
0050000010000000
ELP202 Transformer and Direct Current Machines
#
1111133511111111
TDİ102 Turkish Language II
#
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
4441141454111351
TMST001 Occupational Technology
#
1111111131111114
1111111131111114
TSNT001 Sensors and Transducers
#
1111112132121212
1111112132121212
1111112132121212
TELP301 Asynchronous and Synchronous Machines
#
2111234511121111
TELP303 Electromechanical Control Systems
#
3313314232343423
3313314232343423
3313314232343423
3313314232343423
3313314232343423
3313314232343423
GET001 Power Electronics
#
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
3111111111111111
ELP304 Trouble Analysis
#
1111225211112111
SET001 Digital Electronics
#
1212111131234221
1212111131234221
1212111131234221
1212111131234221
1212111131234221
1212111131234221
1212111131234221
1212111131234221
1212111131234221
1212111131234221
SCS002 Scada Systems
#
1115111111155111
1115111111155111
1115111111155111
MYOSTJ01 Internship
#
5433555554455435
5433555554455435
5433555554455435
TELP401 Computer Aided Project
#
3213221325222225
3213221325222225
ELP405 Contract Exploration Planning
#
3213232223222225
3213232223222225
3213232223222225
ELP404 Design and Installation of Power Panel
#
1112115111111111
TEND101 Industry 4.0 and Digital Transformation
#
1111111114113211
1111111114113211
1111111114113211
TPDN002 Programmable Controllers
#
1304214314153211
1304214314153211
1304214314153211
1304214314153211
1304214314153211
1304214314153211
1304214314153211
1304214314153211
TELP402 Special Installation Technique
#
1112112111112115
SAT001 System Analysis and Design
#
4415323424244523
4415323424244523
4415323424244523
MYOİU01 Workplace Application
#
4403344423244324
4403344423244324
MYOİE01 Workplace Training
#
3404555412154325