Communication Engineering (26842)

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Course content

Course Overview
- Syllabus
- Mark Distribution
- Question pattern
- suggestion
  - Final suggestion
Lesson Plan
- Communication Engineering 26842
Reference Book
- Book
Lecture -1:Understand the features of communication network.
- 01.Telecommunication (Basic class) [Lesson- 01]
Lecture -02:Understand the features of modulation.
- The features of modulation.
- What is Modulation ? Why Modulation is Required ? Types of Modulation Explained.
Lecture-03:Drive the equation for the amplitude modulated wave.
- Drive the equation for the amplitude modulated wave.
Lecture-4:Difference between Amplitude and Frequency modulation.
- AMPLITUDE MODULATION in Communication Systems | Amplitude Modulation Derivation
Lecture-5:Derive the equation for frequency modulated wave
- Derive the equation for frequency modulated wave
- Frequency Modulation Basics| Narrow Band FM and Wide Band FM| Analog Communication
Lecture-6:Explain the PPM, PDM and PWM signals and describe its application.
- Quadrature Amplitude Modulation (QAM)/QAM Modulation/QAM Transmitter and Receiver/Block Diagram [HD]
Lecture-7:Explain the principles of FDM and TDM with block diagram.
- Balanced Modulator | FET circuit | Suppression of Carrier | DSB-SC
Lecture-8:Understand the features of Modulator and Demodulator.
- Superhetrodyne Receiver - Modern Electronic Communications - Application of Electronics
Lecture 9:State the basic principles of SSB-SC generation and QAM.
- Single Sideband Modulation (SSB-SC) Explained | Hilbert Transform | Single Sideband Demodulation
Lecture 10:Understand the features of radio Receiver and Transmitter.
- Characteristics of Radio Receiver - Radio Receivers - Communication Engineering
Lecture 16:Describe the quantization and coding principle of PCM.
- Optical Fiber communication
  - optical fiber communication
Lecture 17:Communication switching system.
- Self Make Video Class about Optical Fiber
  - Signal Propagation Through Optical Fiber attuniation ,dispersion
- Self made video class 6th ET
  - Cellular mobile communication
- Class video on Cellular system
  - Cellular system

Derive the equation for frequency modulated wave

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Communication Engineering (26842)

Derive the equation for frequency modulated wave

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