Communications Principles
(EE320)
First day Course Materials
Assistant Prof. Dr. Anwar Hassan
Lecture objectives
• Course first day materials1. Course Identification and General Information2. Student Learning Outcomes 3. Course Objectives4. Catalog Description5. Course Schedule6. Course Materials7. Course Instructor
Course Identification and General Information
No Title and code Communications Principles, EE 320
1 Program(s) on which the course is given Electrical Engineering
2 Level of programs: Level 5
3 Prerequisite EE 301 (Signal and System Analysis)
4 Credit hours (Theoretical, Tutorial, practical) 3 (3, 1, 0)
5 Course Instructor: Assistant Prof. Dr.Anwar Hassan
Student Learning Outcomes
At the end of the course the student should be able to:1. Explain the basic communication concepts2. Identify and explain the types of modulation
schemes.3. Define the implementation and effect of basic
modulation and demodulation schemes.4. Understand the basic principles of digital
communication.
Course Objectives1. Understanding of the construction, connections, principle of operation and
equivalent circuit of analog modulation techniques.2. Understanding of how to calculate the performance characteristics (spectrum
and power efficiency) of the analog modulation techniques.3. Understanding of the Super-heterodyne transceivers (TRX).4. Understanding of the construction, connections, principle of operation and
equivalent circuit of pulse modulation techniques.5. Ability of how to calculate the performance characteristics (channel
bandwidth) of the multiplexed signal (FDM and TDM) 6. Understanding of Pulse code modulation fundamentals such as quantization
and coding7. Understanding of the Construction, principle of operation and frequency
division multiplexing.8. Ability of calculating the bit rate.9. Ability to determine and analyze the signal to quantization noise ratio.
10. Obtaining the knowledge of how to calculate the maximum # of multiplexed message signals for a given channel BW.
Catalog Description
Basic Elements of a Communication System Basic Modulation Techniques Pulse modulation Techniques Signal Multiplexing Introduction to digital communication
Course Schedule
1st
Introduction: Communication System need of Modulation for Information Transmission.
2nd Amplitude Modulation (AM) & demodulation (Envelop detector)3rd Amplitude modulation: DSB_SC & Quadrature-Carrier Multiplexing4th Applications: Mixer, Super-heterodyne AM radio receiver 5th SSB, Applications: FDM in Telephone Network6th Types of angle modulation: PM & FM 7th NBFM modulation 8th WBFM modulation9th FM Demodulation10th Applications: FM Stereo transmitter and receiver11th Sampling Theory and Types of Pulse Modulations: PAM, PWM &
PPM12th Applications: TDM - PCM Transmitter: Quantization and Coding13th PCM Receiver14th Line Coding & TDM15th Advantages of digital communications: regenerative repeaters
Student Performance Assessment Methods
Method of assessment Percentage of totalAttendance 02 %Quizzes 8 %Assignments, Reports and Presentation 12 %Two Mid Term Exams 2×15 %=30 %Final Exam 50 %
Total(Note: 2% Bonus are given to students who attend more
than 95% of classes)102 %
Text Books and References
Online Discussion forums
This online discussion forum will help you to create external and internal communities where problems, topics, ideas, communication technology will be solved, discussed, shared and exchanged accordingly.
All the topics will be shared in the following web sitehttp://goo.gl/NWZx14
The idea and solutions comes from students for having important conversations in a better environment.
Course InstructorAssistant Prof. Dr. Anwar Hassan Ibrahim [email protected], [email protected] e-mail
0559037329 Ext: 5035 Mobile & ExtLevel 2 – Room No 11 Office http://goo.gl/Qk4xb3 Qassim Universityhttp://goo.gl/JmBEp1 Research Gatehttp://goo.gl/W8fAS2 LinkedIn
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