EEE483 Analog Communication Systems

5 ECTS - 3-2 Duration (T+A)- 7. Semester- 4 National Credit
Information About Course

Information
Goal, Content & Resources
Course Learning Outcomes
Relation with Program Learning Outcome
Week Plan
Assessment
Student Workload - ECTS

Information

Unit FACULTY OF ENGINEERING
ELECTRICAL-ELECTRONIC ENGINEERING PR. (ENGLISH)
Code EEE483
Name Analog Communication Systems
Term 2018-2019 Academic Year
Semester 7. Semester
Duration (T+A) 3-2 (T-A) (17 Week)
ECTS 5 ECTS
National Credit 4 National Credit
Teaching Language İngilizce
Level Lisans Dersi
Type Normal
Label E Elective
Mode of study Yüz Yüze Öğretim
Catalog Information Coordinator Prof. Dr. SAMİ ARICA
Course Instructor Prof. Dr. SAMİ ARICA (Güz) (A Group) (Ins. in Charge)


Course Goal / Objective

Introduce analog modulation and demodulation techniques. Understand and find solutions for a distortion caused by imperfections of the communication channel and an additive noise.

Course Content

Hilbert Transform. Pre-envolope. Complex Envelope. Band Pass Signals and Systems. Frequency Translation. Amplitude Modulation. Frequency Modulation. FM Stereo. Phase Locked Loop. Frequency Division Multiplexing. Superheterodyne Receiver. Noise in AM and FM systems. Performance comparision of AM and FM systems.

Course Precondition

Resources

Notes

Electronic Communication Techniques. Paul H. Young. 2004. Prentice Hall.


Course Learning Outcomes

Order Course Learning Outcomes
LO01 Explain the main concepts of analogue communication systems.
LO02 Analyze and design an AM and FM modulator/demodulator;
LO03 Develop the ability to compare and contrast the strengths and weaknesses of various communication systems.
LO04 Knows and applies pulse amplitude, width and position modulations. Understands and performs sampling theory.


Relation with Program Learning Outcome

Order Type Program Learning Outcomes Level
PLO01 - Has capability in those fields of mathematics and physics that form the foundations of engineering. 0
PLO02 - Grasps the main knowledge in the basic topics of electrical and electronic engineering. 0
PLO03 - Comprehends the functional integrity of the knowledge gathered in the fields of basic engineering and electrical-electronics engineering. 4
PLO04 - Identifies problems and analyzes the identified problems based on the gathered professional knowledge. 0
PLO05 - Formulates and solves a given theoretical problem using the knowledge of basic engineering. 4
PLO06 - Has aptitude for computer and information technologies 0
PLO07 - Knows English at a level adequate to comprehend the main points of a scientific text, either general or about his profession, written in English. 3
PLO08 - Has the ability to apply the knowledge of electrical-electronic engineering to profession-specific tools and devices. 0
PLO09 - Has the ability to write a computer code towards a specific purpose using a familiar programming language. 0
PLO10 - Has the ability to work either through a purpose oriented program or in union within a group where responsibilities are shared. 2
PLO11 - Has the aptitude to identify proper sources of information, reaches them and uses them efficiently. 3
PLO12 - Becomes able to communicate with other people with a proper style and uses an appropriate language. 0
PLO13 - Internalizes the ethical values prescribed by his profession in particular and by the professional life in general. 0
PLO14 - Has consciousness about the scientific, social, historical, economical and political facts of the society, world and age lived in. 1


Week Plan

Week Topic Preparation Methods
1 Background and Preview. Overview of Matlab and Spice. Textbook reading.
2 Representation of signals and systems. Matlab application. Textbook reading/Problem solving/Computer application.
3 Representation of signals and systems (cont.). Matlab application. Textbook reading/Problem solving/Computer application.
4 Random process. Matlab application. Textbook reading/Problem solving/Computer application.
5 Amplitude modulation. Matlab and spice application. Textbook reading/Problem solving/Computer application.
6 Double-Sideband suppressed carrier modulation. Matlab and spice application. Textbook reading/Problem solving/Computer application.
7 Single-sideband modulation. Matlab and spice application. Textbook reading/Problem solving/Computer application.
8 Midterm exam. Textbook reading/Problem solving.
9 Frequency division multiplexing. Frequency and phase modulations. Matlab application. Textbook reading/Problem solving/Computer application.
10 Phase-locked loop. Matlab application. Textbook reading/Problem solving/Computer application.
11 Non-linear effects in FM systems. Superheterodyne receiver. Matlab application. Textbook reading/Problem solving/Computer application.
12 Noise in DSB-SC receivers. Matlab application. Textbook reading/Problem solving/Computer application.
13 Noise in SSB receivers. Matlab application. Textbook reading/Problem solving/Computer application.
14 Noise in AM receivers. Matlab application. Textbook reading/Problem solving/Computer application.
15 Noise in FM receivers. Pre-emphasis and De-emphasis in FM. Matlab application. Textbook reading/Problem solving/Computer application.
16 Final exam. Textbook reading/Problem solving.
17 Final exam. Textbook reading/Problem solving.


Assessment (Exam) Methods and Criteria

Assessment Type Midterm / Year Impact End of Term / End of Year Impact
1. Midterm Exam 100 40
General Assessment
Midterm / Year Total 100 40
1. Final Exam - 60
Grand Total - 100


Student Workload - ECTS

Works Number Time (Hour) Workload (Hour)
Course Related Works
Class Time (Exam weeks are excluded) 14 3 42
Out of Class Study (Preliminary Work, Practice) 14 3 42
Assesment Related Works
Homeworks, Projects, Others 7 4 28
Mid-term Exams (Written, Oral, etc.) 1 2 2
Final Exam 1 2 2
Total Workload (Hour) 116
Total Workload / 25 (h) 4,64
ECTS 5 ECTS

Update Time: 13.05.2024 10:43