Syllabus

1. Design an AM transmitter and receiver using discrete components/Simulink.
2. Design a FM transmitter using available discrete components and ICs and receive the transmitted signal using a commercial FM receiver.
3. Design and Implementation of a Pulse Code Modulation (PCM) system.
4. Design a Delta Modulator for voice signal transmission.
5. Design and Implementation of a Baseband Transceiver
6. Design and Implementation of a Time Division Multiplexing (TDM) system
7. Design and Implementation of a BPSK Modem
8. Design and Implementation of FSK Modem
9. Design and Implementation of a QPSK Modem
10. Design and Implementation of a Carrier Recovery System
11. Design and Implementation of a Clock Recovery System

Design of different modulators and demodulators using discrete components.

Design of different modulators and demodulators using Simulink software.

Design of Carrier and Clock synchronization.

Design and Implementation of different modems.

CO1: Learning the design of an AM transmitter and receiver using both hardware and software.
CO2: Design of a FM transmitter using available discrete components and ICs and receive the transmitted signal using a commercial FM receiver.
CO3: Design and Implementation of a Pulse Code Modulation (PCM) system.
CO4: Design of a Delta Modulator for voice signal transmission using both hardware and software.
CO5: Design and Implementation of a Time Division Multiplexing (TDM) system

H. Taub, D. L Schilling, G. Saha, Principles of Communication System, Tata McGraw Hill, India

B.P. Lathi, Modern Analog and Digital communication Systems, Oxford