Analog Communication: AM, FM, PM, Noise & Receiver Explained
Master the Core Concepts of Analog Communication: Basics, Amplitude Modulation, Angle Modulation, Noise & Receiver
Analog Communication: AM, FM, PM, Noise & Receiver Explained udemy course
Master the Core Concepts of Analog Communication: Basics, Amplitude Modulation, Angle Modulation, Noise & Receiver
Analog communication forms the backbone of early and modern communication systems, enabling the efficient transmission of voice, video, and radio signals. Understanding analog modulation techniques like AM and FM is essential for grasping how real-world signals are processed and transmitted over long distances. It lays a strong foundation for advanced topics like digital and wireless communication.
This course includes videos related to Analogue Communication and covers all the fundamentals of the Subject.
Here, Prof. Hitesh Dholakiya has covered all the topics of Analog Communication with the following outlines:
Chapter 1: Introduction to Analog Communication Systems:
Chapter 2: Amplitude Modulation:
Chapter 3: Angle Modulation:
Chapter 4: Noise in Communication Systems:
Chapter 5: Receivers of Communication Systems:
Chapter-wise detailed syllabus is as follows:
Chapter 1 Introduction to Analog Communication Systems:
Communication System block diagram, Classification of Communication system, Advantages of Frequency domain analysis over time domain analysis, Necessity of Modulation, Baseband signals and Passband signals, Classification of modulation techniques.
Chapter 2 Amplitude Modulation:
Amplitude Modulation, Parameters of Amplitude Modulation, AM Modulator, AM Demodulator, AM Examples, Multitone Amplitude Modulation, DSBSC - Double Side Band Suppressed carrier, DSBSC Modulator, DSBSC Demodulator, Examples on DSBSC, SSBSC - Single Side Band Suppressed Carrier, SSBSC Modulator, SSBSC Demodulator, Examples on SSBSC, VSB - Vestigial Sideband, VSB Modulator, VSB Demodulation, VSB Filter Design, Comparison of DSBFC, DSBSC, SSBSC and VSB.
Chapter 3 Angle Modulation:
Basics of Angle Modulation, Frequency Modulation, Phase Modulation, Frequency deviation & Modulation Index in FM, Spectral components of Angle Modulation, Bandwidth requirements in angle modulation, Average Power requirement for angle modulation, NBFM - Narrow Band Frequency Modulation, WBFM - Wide Band Frequency Modulation, FM Generation, FM Demodulation, Examples on Angle modulation, Examples on Frequency modulation, Examples on phase modulation.
Chapter 4 Noise in Communication Systems:
Sources of noise in communication systems, Classifications of Noise in communication system, SNR - Signal to Noise Ratio, Noise Figure, Noise Temperature in communication system, Equivalent Noise figure and noise temperature of Cascaded System, Examples on thermal noise, Examples on SNR & Noise Figure & Noise Temperature.
Chapter 5 Receivers of Communication Systems:
Parameters of Receiver, Tuned Radio frequency receiver, Super Heterodyne receiver, Parameters of super heterodyne receiver, Selection of local oscillator frequency, Comparison of AM receiver and FM receiver, Examples on super heterodyne receiver.
Thank you.
