Launch your career with our B.Tech program. Experienced faculty, hands-on learning, and industry connections.
1. Comprehensive Curriculum: The curriculum of a B.Tech Electronics and Communication Engineering program is designed to provide a strong foundation in both electronics and communication engineering. The program starts with basic courses in mathematics, physics, and computer programming. In the later semesters, students learn about electronic devices, digital and analog circuits, communication systems, signals and systems, electromagnetic fields, and digital signal processing. The curriculum also includes practical courses such as laboratory sessions, workshops, and industry projects. Students learn to design and analyze communication networks, embedded systems, and microcontrollers. The program emphasizes the development of practical skills and provides exposure to the latest technologies in the field through internships and industry collaborations. The curriculum is regularly updated to reflect the changing industry demands and technological advancements in the field.
2. Practical Training: Students get hands-on experience through laboratory sessions, workshops, and industry projects to develop practical skills that are necessary for the field.
3. Industry Exposure: Students get exposure to the industry through internships and industry collaborations, which helps them understand the latest technologies and trends in the field.
4. Faculty: The program is taught by experienced faculty members who have a deep understanding of the subject and industry experience.
5. Research Opportunities: Students get opportunities to participate in research projects and work on cutting-edge technologies under the guidance of faculty members.
Graduates with a B.Tech Electronics and Communication Engineering degree can pursue a variety of job roles in different sectors. Some of the job roles include:
Electronics Engineer: Engineers of Electronics develop electronic systems and devices such as mobile phones, computers, and medical equipment. They work with electronic components such as resistors, capacitors, and transistors to create functional circuits that perform specific tasks.
Communication Engineer: Communication engineers design and develop communication systems such as wireless networks, satellite communication systems, and fiber-optic networks. They work with devices such as modems, routers, and switches to transmit and receive data and signals.
Network Engineer: Network engineers design, implement, and maintain computer networks for organizations. They configure and troubleshoot network devices such as routers, switches, and firewalls to ensure the smooth functioning of the network.
Telecommunications Engineer: Telecommunications engineers design and develop telecommunication systems such as telephone networks, mobile networks, and internet services. They work with devices such as cell towers, modems, and routers to transmit and receive signals and data.
Signal Processing Engineer: Signal processing engineers design and develop algorithms and techniques to process signals such as audio and video signals. They work with devices such as microcontrollers, digital signal processors, and software tools to analyze and manipulate signals for various applications.
RF Engineer: RF (Radio Frequency) engineers design and develop wireless communication systems such as radio, television, and cellular networks. They work with devices such as antennas, transmitters, and receivers to transmit and receive signals in various frequency ranges. RF engineers also work on electromagnetic compatibility and interference issues that can arise in wireless communication systems.
The application process at Graphic Era is strictly based on the Merit of the qualifying examination with the entire Admission Process available for completion online