Bachelors Program in Electronics and Communications
The Bachelor's Program in Electronics and Communications focuses on the design, development, and application of electronic systems and communication technologies. The curriculum encompasses a wide range of topics, including circuit design, signal processing, telecommunications, and embedded systems. Students engage in practical labs and projects that enhance their technical skills, enabling them to build and troubleshoot electronic devices and communication networks. The program emphasizes both theoretical foundations and hands-on experience, preparing graduates for various roles in the electronics and communications industry.
Through exposure to current technologies and industry practices, students gain insights into advancements such as wireless communication, Internet of Things (IoT), and microelectronics. The Bachelor's Program in Electronics and Communications aims to develop innovative engineers who can contribute to the design and implementation of cutting-edge electronic systems that improve communication and connectivity in everyday life.
- Understand Electronic Principles: Provide a strong foundation in the principles of electronics and circuit design.
- Develop Technical Skills: Equip students with hands-on experience in building and testing electronic devices and systems.
- Enhance Communication System Knowledge: Instill understanding of various communication technologies and protocols.
- Promote Signal Processing Abilities: Foster skills in analyzing and processing signals for effective communication.
- Cultivate Problem-Solving Skills: Encourage innovative solutions to complex electronic and communication challenges.
- Encourage Collaboration: Develop teamwork skills through group projects and interdisciplinary collaboration.
- Electronics Engineer: Design and develop electronic systems and components for various applications.
- Telecommunications Engineer: Work on the design and implementation of communication networks and systems.
- Embedded Systems Engineer: Develop embedded systems for consumer electronics, automotive, and industrial applications.
- Signal Processing Engineer: Analyze and process signals for communication and multimedia applications.
- Field Service Engineer: Provide technical support and maintenance for electronic and communication systems.
- RF Engineer: Design and optimize radio frequency systems for wireless communication.
Semester 1:
- Engineering Mathematics
- Basic Electronics
- Digital Systems Design
- Programming in C
- Lab: Digital Systems (using Proteus, CircuitVerse)
Semester 2:
- Microprocessor Architecture
- Analog Electronics
- Signals and Systems
- Communication Systems
- Lab: Analog Electronics (using Multisim, TinkerCAD)
Semester 3:
- Digital Communication
- Embedded Systems
- Control Systems
- Elective: Microwave Engineering
- Lab: Embedded Systems (Arduino simulation)
Semester 4:
- VLSI Design
- Optical Communication
- Wireless Networks
- Lab: VLSI Simulation (Tanner EDA, Cadence tools)
Semester 5:
- Satellite Communication
- RF Circuit Design
- Antennas and Wave Propagation
- Lab: RF Design (using ADS, LTSpice)
Semester 6:
- IoT and Embedded Systems
- AI for Electronics
- Final Year Project
- Lab: IoT Projects (Cisco Packet Tracer)