Post Graduate in Electronics and Communication
Course Description:
The Post Graduate in Electronics and Communication (PGE&C) program at ISTM is designed to provide students with an in-depth understanding of modern electronics, communication systems, and embedded technologies. The curriculum covers areas such as digital signal processing, wireless communication, VLSI design, embedded systems, and microwave technology. This program aims to develop professionals who can design and implement advanced electronic systems and communication networks, contributing to industries such as telecommunications, defense, healthcare, and automation. Students engage in practical projects and research that enhance their ability to innovate in the fast-paced world of electronics and communication.
At ISTM, the PGE&C program is focused on combining theory with practical skills, preparing graduates to lead in roles where advanced electronics and communication expertise are required. With access to cutting-edge labs and experienced faculty, students work on projects that push the boundaries of modern communication technology, from 5G networks to IoT devices. The program also fosters critical thinking and problem-solving, enabling students to stay ahead in a rapidly evolving industry.
Educational Goals:
- Advanced Communication Systems: Gain deep knowledge of modern communication technologies such as 5G, fiber optics, and wireless networks.
- Embedded Systems and VLSI Design: Master the principles of embedded systems and Very-Large-Scale Integration (VLSI) to create efficient hardware solutions.
- Digital Signal Processing: Learn to process digital signals for applications in communications, audio, and image processing.
- IoT and Smart Technologies: Explore the design and development of IoT devices for smart homes, cities, and industrial applications.
- RF and Microwave Engineering: Understand the principles of RF and microwave communication systems for applications in defense and space technologies.
- Innovation in Electronics: Conduct research in emerging areas such as quantum electronics, nanotechnology, and robotics.
Professional Paths:
- Telecommunications Engineer: Design and maintain communication networks, including mobile and satellite systems.
- Embedded Systems Engineer: Develop embedded hardware and software solutions for applications in automotive, healthcare, and consumer electronics.
- VLSI Design Engineer: Create efficient microchips and semiconductor devices for use in electronics and communication devices.
- RF Engineer: Design and test radio frequency systems used in wireless communication, radar, and satellite systems.
- IoT Solutions Architect: Design IoT networks and devices, ensuring seamless communication between sensors, devices, and platforms.
- Research Scientist: Conduct research in advanced electronics and communication fields, contributing to innovation and technological advancements.
Semester 1:
- Digital Communication
- Advanced Digital Signal Processing
- Semiconductor Devices
- VLSI Design
- Elective: Antenna Theory
- Lab: Digital Communication Systems (using MATLAB, Simulink)
Semester 2:
- Microwave Engineering
- Embedded Systems
- Wireless Communication
- Control Systems
- Elective: Nanoelectronics
- Lab: Embedded System Design (using Arduino, TinkerCAD for simulation)
Semester 3:
- Optical Communication
- Mobile Computing
- RF Circuit Design
- Satellite Communication
- Elective: Radar Engineering
- Lab: RF Circuit Design (using online tools like CircuitLab, LTSpice)
Semester 4:
- Internet of Things (IoT)
- Advanced Communication Networks
- Elective: Robotics
- Dissertation/Thesis
- Lab: IoT Applications (using Cisco Packet Tracer, or online IoT platforms)