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•           Information on Degree Programmes

COURSE INFORMATON
Course Title Code Semester L+P Hour Credits ECTS
Antennas and Microwave Technology ELH   220 4 2 2 3

 Prerequisites and co-requisites Recommended Optional Programme Components None

Language of Instruction Turkish
Course Level Short Cycle Programmes (Associate's Degree)
Course Type
Course Coordinator Asst.Prof.Dr. Mehmet ESEN
Instructors
 Dr. Öğr. Üyesi MEHMET ESEN Uzaktan Öğretim Grup:A

Assistants
Goals
Have knowledge about microwave transmission bases, recognize the types of antennas, have knowledge about calculations about transmission devices
Content
Microwave transmission lines, Impedance, standing wave ratio, Reflection coefficient, beamwidth, Types of antennas, Wave guides, Transmission losses

Learning Outcomes
1) Balanced, unbalanced transmission line types
2) Characteristic impedance calculation for coaxial and parallel transmisiion lines
3) Calculation of standing wave ratio
4) Calculation of standing wave ratio for reflection rates
5) Quarter wave transducer, wave speed factor, Beamwidth and transmission angle
6) Types of antennas; Dipole antenna and markoni antenna(monopol antenna) calculations
7) Types of antennas; YAGI-UDA antenna calculations
8) Dipole antenna traps and calculations
9) Types of antennas; j-pole, AWX antenna calculations
10) Types of antennas; Square planar antenna calculations, polarization types in square and circular antennas
11) Types of antennas; Parabolic antennas and planar fractal antennas
12) Types of antennas; Horn antennas and transmission lines gain calculation
13) Antenna station design; fading, weather conditions, the obliquity of earth
14) Microwave satellite communication
15) Satellite communication network, delay, earth station, satellite orbits

Course's Contribution To Program
NoProgram Learning OutcomesContribution
12345
1
1.Program graduates have sufficient knowledge in mathematics, science and the implementation of the telecommunication issues in these areas
2
2.Program graduates have knowledge regarding available materials and their selection in telecommunication sector.
X
3
3. Program graduates have knowledge of planning and organizing ateliers and operating plants in telecommunication sector.
4
4. Program graduates have ability to follow developing technologies with his/her acquired knowledge.
X
5
5. Program graduates have ability to design and draw the professional plans and projects by using a computer drawing or simulation program in his/her filed.
6
6.Program graduate carry out a basic level study on his/her own, collect, analyze and interpret the data and prepare the final report in order to examine a problem regarding telecommunication technologies.
X
7
7. Program graduates take responsibility as a team member in order to solve the problems encountered in the applications of telecommunication area; he/she who has the conscious of the necessity of lifelong learning renews his/herself continuously to acces
X
8
8. Program graduates have ability to use at least one computer programming language and a foreign language in the extent required by the profession.
9
9. Program graduates use one computer software required by the field at least and information and communication technologies in a basic level.
10
10. Program graduates inculcate to be a patient individual with responsibility consciousness and moral values required by the profession.
11
12.Program graduates act according to professional ethics to provide the occupational health and safety in the field

Course Content
WeekTopicsStudy Materials _ocw_rs_drs_yontem
1 Balanced, unbalanced transmission line types searching and reading the subject on internet and other knowledge base Lecture
Discussion
2 Characteristic impedance calculation for coaxial and parallel transmisiion lines searching and reading the subject on internet and other knowledge base Lecture
Discussion
3 Calculation of standing wave ratio searching and reading the subject on internet and other knowledge base Lecture
Discussion
4 Calculation of standing wave ratio(SWR) for reflection rates searching and reading the subject on internet and other knowledge base Lecture
Discussion
5 Quarter wave transducer, wave speed factor, Beamwidth and transmission angle searching and reading the subject on internet and other knowledge base Lecture
Discussion
6 Types of antennas; Dipole antenna and markoni antenna(monopol antenna) calculations searching and reading the subject on internet and other knowledge base Lecture
Discussion
7 Types of antennas; YAGI-UDA antenna calculations searching and reading the subject on internet and other knowledge base Lecture
Discussion
8 Mid-Term Exam searching and reading the subject on internet and other knowledge base Lecture
Discussion
9 Types of antennas; j-pole, AWX antenna calculations searching and reading the subject on internet and other knowledge base Lecture
Discussion
10 Types of antennas; Square planar antenna calculations, polarization types in square and circular antennas searching and reading the subject on internet and other knowledge base Lecture
Discussion
11 Types of antennas; Parabolic antennas and planar fractal antennas searching and reading the subject on internet and other knowledge base Lecture
Discussion
12 Types of antennas; Horn antennas and transmission lines gain calculation searching and reading the subject on internet and other knowledge base Lecture
Discussion
13 Antenna station design; fading, weather conditions, the obliquity of earth searching and reading the subject on internet and other knowledge base Lecture