Analog Communication

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

Communication Theory-Electronics and Communication Engineering-to-Analog Electronic Circuits

Course Contents

Basic Analog Electronic Communication Systems and Communication Affecting Noise Sources, Signal Level Units, Modulation Principles, Frequency and Time Domain Signal Analysis, Amplitude, Frequency and Angle Modulation.Demodulation Techniques, Principles of Continuous Wave Modulation, Analog Communication Standards, Communication Systems, Power Ratio and Signal Level Units.Amplitude Modulation and. Frequency Modulation.

Weekly Schedule

1) Introduction, Communication Systems Basic Concepts, Purpose of Modulation, Kind of Modulation
2) Encountered in communication systems, noise distortion (distortion), attenuation, bandwidth, noise, and explain concepts such as diyafoni
3) Communication systems gain, loss and power levels used in the definition of logarithmic units: 1 Gains and losses from the definition used in logarithmic units, • Bell • Desibell (dB) • Desibell Neper and relative (dBr) 't understand, measure, and is used for system analysis
4) 2. The definition of absolute power, • at a rate watta desibell'i (dBW) at the meter and is used in systems analysis. • at a rate miliwatta desibell'i (dBm) at the meter and is used in systems analysis
5) Any analog signal that represents the sum of the different learning sinusoidal harmonics, periodic signals using Fourier transform to the basic mathematical foundations,
6) By Fourier transformation of a simple square wave, 1st, 3rd, 5th, 7th, .... mathematical sine odd harmonics such that the sum of the base is. Spectrum analyzer for the eyes.
7) 1. Identifies and understands the need for modulation. 2. Base-band signals with carrier frequencies of the relationship between the definitions. 3. Given a waveform diagram of the modulated carrier; • Amplitude is modulated to a carrier, • a carrier frequency modulated definitions.
8) 4. Explain the concept of modulation degree. 5. Given time, depending on the excess of the modulation waveforms are defined as events graphically.
9) 6. Removing a tape of a carrier and a single to left side of the tape with the help of a frequency spectrum chart and explain the benefits of this moment. 7. Examines the concept of amplitude modulation power. Yanband power calculations.
10) 8. Demodulation, modulation process is the inverse moments
11) 9 . For frequency modulation; • Frequency Deviation • Degree of modulation, a statement explains.
12) 10. Yanbandların Bessel functions for obtaining frequency modulation uses a table.
13) 11. Frequency modulated carrier power is equal to the total power moments. 12. Phase modulation of a carrier signal amplitude is proportional to the change, when phase modulation is occurring moments.
14) 1. For amplitude modulation; • DSB (Double yanband) • SSB (Single yanband) Transmitter and receiver block diagram to explain the draw and work. 2. Distortions that may occur during demodulation detector explains. 3. For frequency modulation; • Narrow-band FM • Front and then highlighter highlighter
15) xxx
16) xxx

Recommended or Required Reading

Planned Learning Activities and Teaching Methods

Assessment Methods and Criteria

Contribution of Midterm Examination to Course Grade	35%
Contribution of Final Examination to Course Grade	65%
Total	100%

Language of Instruction

Turkish

Work Placement(s)

Not Required