Türkçe English Curriculum Key Learning Outcomes
Electric-Electronic Engineering
General Description
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Brief History
The history of the Electrical and Electronics Engineering Department dates back to 1975 when the Bursa Electrical Faculty was founded. In 1982 the Electrical Faculty was structured as the Engineering Faculty comprising Electronic and newly established Mechanical and Textile Engineering Departments by the authority of the Institute of Higher Education. The Electronics Engineering Department had its first graduates in 1979 after completing the 4 years Bachelor of Science in Electronic Engineering program. In 2000-2001, the department began to serve evening education which follows the same curriculum of formal education. The name change (Electrical and Electronics Engineering) application of our department to YOK was examined and accepted at the General Assembly of YOK dated 01.03.2013.
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Qualification Awarded
This department is subject to first stage degree system for 240 ECTS credits in Electrical and Electronics Engineering area in the higher education. When the program was completed successfully and program qualifications are provided, an undergraduate degree in Electrical and Electronics Engineering area can be taken.
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Level of Qualification
First Cycle
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Specific Admission Requirements
Electrical and Electronics Engineering Department admits students for I. and II. formal education programs through a central exam administered by the National Student Selection and Placement Center (ÖSYM). The quotas of programs are 93 students for formal education; 82 students for evening education in 2022-2023 academic year. Additionally, students can be admitted from other associate and undergraduate programs and schools in a specific quota approved by the Department Administrative Board and the Higher Education Council (YÖK).
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Specific arrangements for the recognition of prior learning
The provisions in “Regulation on Transfer among Associate and Undergraduate Degree Programs, Double Major, and Subspecialty and the Principals of Credit Transfer among Institutions in Higher Education Institutions” are applied.
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Qualification Requirements and Regulations
In order to acquire the undergraduate degree in the Electrical and Electronics Engineering area it is necessary to complete all compulsory and elective courses successfully (for a total of 240 ECTS), and to achieve at least 2.0 over 4.0 of Grade Point Average (GAP).
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Profile of The Programme
Educational Goals;
Graduates of Electrical and Electronics Engineering,
- Can solve technical and professional problems, take place in teamworks, organize and present information including inter-diciplinary subjects, explain their thoughts effectivelly both in oral and written form, have succesfull cariers in national and international companies working in the fields of engineering, research and development, business and management.
- Have necessary prerequisites for a successful post-graduation employment and life-long learning, and make pioneer scientific researchs nationally or internationally in Electrical and Electronics Engineering or related inter-disciplinary areas, complete master and doctorate programmes and improve themselves academically.
- Can develop new technologies within the framework of ethical principles as innovators and entrepreneurs with a global vision by using up-to-date researches and technologies, make contribution to aim of national technological leadership, establish national or international companies in Electrical and Electronics Engineering and related inter-disciplinary areas.
Curriciulum;
The first year of the curriculum includes basic sciences, computer programming and introduction to Electrical and Electronics Engineering courses. The second and the third years are focused on the courses in Electrical-Electronics Engineering area. The fourth year includes technical elective courses and a graduation project. Additionally, there are social selective courses in the third and the fourth years. Detailed curriculum can be found on ee.uludag.edu.tr.
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Key Learning Outcomes & Classified & Comparative
1. Gain sufficient knowledge on mathematics, science, and engineering fields; the ability to model and solve engineering problems using theoratical and practical knowledge.
2. Gain the ability to identify, model, and solve complex engineering problems; the ability to select and apply appropriate analysis and modelling methods for these problems.
3. Gain the ability to design partly or fully a complex system, process, device or a product meeting specific requirements under realistic constraints and conditions; the ability to apply modern design methods in this context.
4. Gain the ability to develop, select, and use modern techniques and tools necessary for engineering applications; the ability to use information technologies in an efficient way.
5. Gain the ability to design and conduct complex experiments and to collect, analyze and interpret data for engineering problems
6. Gain the ability to conduct individual and team works.
7. Gain the ability to effectively communicate by oral and/or written form.
8. Gain the ability to learn and use at least one foreign language.
9. Recognize the need for an ability to engage in life-long learning and follow recent advances in science and technology. Gain the ability of self developement.
10. Recognize and understand professional and ethical responsibility
11. Understand project management (leadership, organization, risk and time management, quality consciousness, productivity, etc.)
12. Understand the importance of innovation and entrepreneurship for sustainable economic development. Understand impact of engineering solutions in a global and societal context, including environment.
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Occupational Profiles of Graduates With Examples
Graduates of Electrical-Electronics Engineering can work as academicians, researchers and experts in national or international universities, research centers and corporations, such as; Alcatel-Lucent, Arçelik, Bogazici University, Cankaya University, Gazikent University, Dogus Media Group, Durmazlar, Garanti Technologies, Turkish Air Forces, Henkel, Hewlett-Packard, Intouch Solutions Inc., USA, Ministry of Interior, Maltepe University, Netas, Oyak-Renault, Quad-Plus, USA, Robert Bosch, Roketsan, Technische Universität Darmstadt, TEDAS, TOFAS, Turkcell, TUBİTAK, Turk Telekom, University of Kansas, USA, Syracuse University, Vestel, Vodafone.
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Access to Further Studies
Candidates completing the undergraduate education successfully can study in postgraduate programs under circumstances they pass ALES exam, have sufficent knowledge on a foreign language and are successful in the postgraduate exam.
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Examination Regulations, Assessment and Grading
All students have to register for courses at the beginning of the semester and attend to classwork for at least 70% and to laboratory work for at least 80% in order to be allowed to take the final exam. Students are subjected to at least one midterm and one final exam for each course. The evaluation criteria for each course were announced by the relevant faculty member/staff at the beginning of the semester. The contribution of the final and midterm exam to the grade point is 40% and %60 respectively (the points obtained from the assessment instruments, such as homeworks, projects, quizzes etc., may also participate the evaluation as the midterm exam). All exams are evaluated over 100 points. In the final exam at least 50 points have to be taken. Students having one of AA, BA, BB, CB and CC letter grades from any course are considered to besuccesfull in that course. DC and DD points refer to conditional success. The condition for having been successful in a particular course with DC or DD grades is to get at least 2.0 points GPA. FF and FD grades are considered unsuccessful.
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Graduation Requirements
Completing the program successfully requires to pass all of the courses in the program (with 240 ECTS credits), to get at least 2.00 GPA over 4.00, and to complete internship programs in two different groups. Students have to get at least DD point for each course and have at least 2.00/4.00 GPA for graduation. Two design projects and a graduation study have to be completed to graduate from Electrical-Electronic Engineering. Graduation study is assessed as a course in the eighth midterm. The students completing the program and fulfilling the requirements of the internship are eligible for undergraduate degree in case of having GPA higher than 2.00/4.00.
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Mode of Study
Full-Time
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Address and Contact Details
Bölüm Başkanı
Prof. Dr. Enes YİĞİT
Posta Adresi : Bursa Uludağ Üniversitesi Mühendislik Fakültesi Elektrik-Elektronik Mühendisliği Bölümü
16059 Görükle/BURSA
Tel. : 0224 294 20 18
e-posta : enesyigit@uludag.edu.tr
Bölüm Başkan Yardımcısı
Doç. Dr. Şekip Esat HAYBER
Posta Adresi : Bursa Uludağ Üniversitesi Mühendislik Fakültesi Elektrik-Elektronik Mühendisliği Bölümü
16059 Görükle/BURSA
Tel. : 0224 294 21 03
e-posta : sehayber@uludag.edu.tr
Bölüm Başkan Yardımcısı
Dr. Öğr. Üyesi Mustafa DEMİRTAŞ
Posta Adresi : Bursa Uludağ Üniversitesi Mühendislik Fakültesi Elektrik-Elektronik Mühendisliği Bölümü
16059 Görükle/BURSA
Tel. : 0224 295 52 55
e-posta : mustafademirtas@uludag.edu.tr
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Facilities
The department has 8 classes for undergraduate courses and 13 laboratories used for education and research activities.
These laboratories are listed below:
Computer Laboratory,
Electrical-Electronics Laboratory I and II,
PCB Laboratory,
Project Development Lab.,
Biomedical Signal Processing Lab.,
Embedded Systems Lab.,
Image Processing Lab.,
Microwave and Telecommunications Lab.., Optical Fiber Communications Lab.,
Optics Lab.,
PLC and Automation Lab.
1. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM1001 CAREER PLANNING Compulsory 1 0 0 1
EEM1301 INTRODUCTION TO ELECTRICAL-ELECTRONICS ENGINEERING Compulsory 2 0 1 3
FZK1071 BASIC PHYSICS I Compulsory 3 0 2 6
KIM1077 GENERAL CHEMISTRY Compulsory 3 0 1 6
MAT1089 DIFFERENTIAL AND INTEGRAL CALCULUS I Compulsory 4 2 0 6
ATA101 ATATURK'S PRINCIPALS AND HISTORY OF REVOLUTIONS I Compulsory 2 0 0 2
TUD101 TURKISH LANGUAGE I Compulsory 2 0 0 2
YAD101 FOREIGN LANGUAGE I Compulsory 2 0 0 2
Click to choose optional courses. 2
Total 30
2. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM1002 ALGORITHM AND PROGRAMMING Compulsory 3 1 0 4
EEM1004 ENGINEERING MATHEMATICS Compulsory 4 0 0 5
FZK1072 BASIC PHYSICS II Compulsory 3 0 2 6
MAT1090 DIFFERENTIAL AND INTEGRAL CALCULUS II Compulsory 4 2 0 6
ATA102 ATATURK'S PRINCIPLES AND HISTORY OF REVOLUTIONS II Compulsory 2 0 0 2
TUD102 TURKISH LANGUAGE II Compulsory 2 0 0 2
YAD102 FOREIGN LANGUAGE II Compulsory 2 0 0 2
Total 27
3. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM2101 CIRCUIT ANALYSIS I Compulsory 3 0 0 4
EEM2105 LOGIC CIRCUITS Compulsory 3 0 0 4
EEM2107 LOGIC CIRCUITS LABORATORY Compulsory 0 0 2 2
EEM2201 ELECTROMAGNETIC FIELD THEORY Compulsory 3 0 0 4
EEM2301 ELECTRONIC MATERIALS AND APPLICATIONS Compulsory 2 0 2 4
EEM2401 SIGNALS AND SYSTEMS I Compulsory 3 0 0 4
ISG201 OCCUPATIONAL HEALTH AND SAFETY I Compulsory 2 0 0 2
MAK2083 CALCULUS III (DIFFERENTIAL EQUATIONS) Compulsory 3 2 0 6
Total 30
4. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM2002 SOFTWARE SUPPORTED ENGINEERING Compulsory 3 1 0 5
EEM2102 CIRCUIT ANALYSIS II Compulsory 3 0 0 4
EEM2104 CIRCUIT ANALYSIS LABORATORY Compulsory 0 0 3 3
EEM2202 ELECTROMAGNETIC WAVE THEORY Compulsory 3 0 0 4
EEM2204 NUMERICAL ANALYSIS Compulsory 3 0 0 4
EEM2302 ELECTRONICS I Compulsory 3 0 0 4
EEM2402 SIGNALS AND SYSTEMS II Compulsory 3 0 0 4
ISG202 OCCUPATIONAL HEALTH AND SAFETY II Compulsory 2 0 0 2
Total 30
5. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM3301 ELECTRONICS II Compulsory 3 0 0 4
EEM3303 ELECTRONICS LABORATORY Compulsory 0 0 3 3
EEM3401 PROBABILTY AND STATISTICS Compulsory 2 2 0 4
EEM3501 ELECTRICAL INSTALLATIONS Compulsory 3 0 0 4
EEM3601 AUTOMATIC CONTROL Compulsory 3 0 0 4
Click to choose optional courses. 11
Total 30
6. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM3302 ELECTRONICS III Compulsory 3 0 1 4
EEM3402 COMMUNICATION SYSTEMS Compulsory 4 0 0 4
EEM3512 ELECTRICAL MACHINES Compulsory 3 0 0 4
EEM3514 ELECTRICAL MACHINES LABORATORY Compulsory 0 0 2 3
EEM3602 MICROPROCESSORS Compulsory 2 2 0 4
Click to choose optional courses. 11
Total 30
7. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM4001 FINAL PROJECT PREPARATION Compulsory 0 2 0 9
EEM4003 SEMINAR I Compulsory 0 1 0 1
EEM4005 SUMMER PRACTICE-I Compulsory 0 0 0 5
EEM4021 ENGINEERING ETHICS Compulsory 2 0 0 3
EEM4301 POWER ELECTRONICS Compulsory 3 0 0 4
Click to choose optional courses. 8
Total 30
8. Semester
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM4002 FINAL PROJECT Compulsory 0 2 0 9
EEM4004 SEMINAR II Compulsory 0 1 0 1
EEM4006 SUMMER PRACTICE-II Compulsory 0 0 0 5
EEM4022 LABOR LAW AND EXPERT WITNESS Compulsory 2 0 0 3
EEM4502 HIGH VOLTAGE TECHNIQUES Compulsory 3 0 0 4
Click to choose optional courses. 8
Total 30
1. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
CEV3073 PERSONAL DEVELOPMENT AND ACTIVE LIFE Optional 2 0 0 3
2. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
5. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
PRJ3001 PROJECT CULTURE Optional 1 0 0 1
EEM3701 READING AND WRITING IN FOREIGN LANGUAGE Optional 2 0 0 3
EEM3702 VOCATIONAL FOREIGN LANGUAGE I Optional 2 0 0 3
EEM3001 VISUAL PROGRAMMING Optional 3 0 0 4
EEM3101 NATURE-INSPIRED OPTIMIZATION ALGORITHMS Optional 3 0 0 4
EEM3103 OPTIMIZATION METHODS Optional 3 0 0 4
EEM3201 MICROWAVE Optional 3 0 0 4
EEM3305 INTRODUCTION TO NANOTECHNOLOGY Optional 3 0 0 4
6. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM4701 VOCATIONAL FOREIGN LANGUAGE II Optional 2 0 0 3
EEM3002 COMPUTER AIDED MODELING AND ANALYSIS Optional 3 0 0 4
EEM3102 ARTIFICIAL NEURAL NETWORKS Optional 3 0 0 4
EEM3202 MICROWAVE ELECTRONICS Optional 3 0 0 4
EEM3306 INTRODUCTION TO QUANTUM PHYSICS Optional 3 0 0 4
EEM3308 ELECTRONIC MEASURING AND INSTRUMENTATION Optional 3 0 0 4
EEM3310 DIGITAL ELECTRONIC CIRCUITS Optional 3 0 0 4
7. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM4007 ADVANCED PROGRAMMING Optional 3 0 0 4
EEM4101 DISCRETE-TIME CONTROL SYSTEMS Optional 3 0 0 4
EEM4103 NETWORK SYNTHESIS Optional 3 0 0 4
EEM4201 ANTENNAS Optional 3 0 0 4
EEM4203 RADAR TECHNIQUES Optional 3 0 0 4
EEM4205 RADIOWAVE PROPAGATION Optional 3 0 0 4
EEM4207 FUNDAMENTALS OF OPTICS AND PHONICS Optional 3 0 0 4
EEM4303 INTRODUCTION TO BIOSENSING Optional 3 0 0 4
EEM4305 OPERATIONAL AMPLIFIERS AND THEIR APPLICATIONS Optional 3 0 0 4
EEM4307 FUNDAMENTALS OF MICROELECTROMECHANICAL DEVICES Optional 3 0 0 4
EEM4309 INTRODUCTION TO MICROELECTROMECHANICAL SYSTEMS Optional 3 0 0 4
EEM4311 OPTOELECTRONICS Optional 3 0 0 4
EEM4313 SIGNAL INTEGRITY Optional 3 0 0 4
EEM4401 INTRODUCTION TO MULTIMEDIA Optional 3 0 0 4
EEM4403 INTRODUCTION TO ERROR CORRECTION CODING Optional 3 0 0 4
EEM4405 SIGNALING AND SWITCHING SYSTEMS Optional 3 0 0 4
EEM4407 DIGITAL COMMUNICATION Optional 3 0 0 4
EEM4409 DIGITAL SIGNAL PROCESSING Optional 3 0 0 4
EEM4411 INTEGRATED COMMUNICATION NETWORKS Optional 3 0 0 4
EEM4413 DATA COMMUNICATIONS Optional 3 0 0 4
EEM4501 RENEWABLE ENERGY SOURCES Optional 3 0 0 4
EEM4601 INDUSTRIAL AUTOMATION Optional 3 0 0 4
8. Semester Optional Courses
Course Code Course Title Type of Course T1 U2 L3 ECTS
EEM4008 MOBILE PROGRAMMING Optional 3 0 0 4
EEM4202 COMPUTER AIDED ANTENNA DESIGN Optional 2 0 2 4
EEM4204 BIOELECTROMAGNETICS Optional 3 0 0 4
EEM4206 ELECTROMAGNETIC COMPATIBILITY Optional 3 0 0 4
EEM4208 RADAR IMAGING BASICS Optional 3 0 0 4
EEM4210 NUMERICAL ELECTROMAGNETICS Optional 3 0 0 4
EEM4302 INDUSTRIAL ELECTRONIC APPLICATIONS Optional 3 0 0 4
EEM4304 INTRODUCTION TO PHOTONIC SENSING Optional 3 0 0 4
EEM4306 PHOTONIC CIRCUIT COMPONENTS Optional 3 0 0 4
EEM4308 EMBEDDED SYSTEMS Optional 3 0 0 4
EEM4310 COMMUNICATION ELECTRONICS Optional 3 0 0 4
EEM4312 OPTICAL DESIGN Optional 3 0 0 4
EEM4314 DESIGN WITH INTEGRATED CIRCUITS Optional 3 0 0 4
EEM4402 BIOMEDICAL SIGNAL AND IMAGE PROCESSING Optional 3 0 0 4
EEM4404 MOBILE COMMUNICATION SYSTEMS Optional 3 0 0 4
EEM4406 COMMUNICATION NETWORKS Optional 3 0 0 4
EEM4408 WIRELESS NETWORKS Optional 3 0 0 4
EEM4410 SPEECH AND AUDIO PROCESSING Optional 3 0 0 4
EEM4412 OPTICAL FIBER COMMUNICATION SYSTEMS Optional 3 0 0 4
EEM4414 RANDOM SIGNALS Optional 3 0 0 4
EEM4416 SATELLITE COMMUNICATION SYSTEMS Optional 3 0 0 4
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