B.Tech. in
Electronics Communication Engineering Specialization in
- VLSI Chip Design (Major)
- Artificial Intelligence (Minor)
- Electrical Vehicle (electrical) (Skill)
In Collaboration with
& Powered By
Course Highlights
Introduction
The Bachelor of Technology in Electronics Communication Engineering with a specialization in VLSI Chip Design prepares students for cutting-edge innovation in semiconductor technology.
This program is designed to equip students with comprehensive knowledge in
– VLSI design
– Embedded systems
– Integrated circuits
crucial for modern electronics industries.
The minor specialization in Artificial Intelligence enhances the core engineering skills with AI concepts, enabling students to design intelligent systems and applications across diverse fields.
Additionally, the program offers skill development in Electrical Vehicle technology, addressing the growing demand for sustainable transportation solutions.
This skill specialization prepares students with practical knowledge in electric vehicle design and related electrical systems.
The program is conducted in collaboration with L&T and powered by Intel & ISEA, providing
students access to industry-grade tools, technologies, and real-world project experiences.
Eligibility
Passed 10+2 examination with Physics/ Mathematics/ Chemistry/ Computer Science/ Electronics/ Information Technology/ Biology/ Informatics Practices/ Biotechnology/
Bottom Section: Technical Vocational subject/ Agriculture/ Engineering Graphics/ Business Studies/ Entrepreneurship Obtained at least 45% marks (40% marks in case of candidates belonging to reserved category) in the above subjects taken together.
OR
Passed D.Voc. Stream in the same or allied sector. (The Universities will offer suitable bridge courses such as Mathematics, Physics, Engineering drawing, etc., for the students coming from diverse backgrounds to prepare Level playing field and desired learning outcomes of the Program.
Whereas Physics, Chemistry & Mathematics are mandatory courses at 10+2 Level.
Admission will be done on the basis of merit whic hincludes entrance, screening & PI.
Duration
4 Years Full-Time
Tuition Fees
Rs. 60,000 per Semester
*Fees such as Admission, Caution Money, Examination, Hostel, and Transport fees are extra.
Program Details
VLSI Chip Design
Learn circuit design, simulation, layout, and verification techniques essential for VLSI systems.
Artificial Intelligence Minor
Gain foundational knowledge in AI, machine learning, and data-driven technologies.
Electrical Vehicle Skill
Acquire hands-on experience in electric vehicle systems, battery technologies, and power electronics.
Industry Collaboration
Benefit from L&T’s industrial expertise and Intel & ISEA’s cutting-edge technology support.
State-of-the-Art Labs
Access advanced labs for VLSI design, AI programming, and electric vehicle prototyping.
Placement Opportunities
Graduates can explore roles such as
VLSI Design & Optimization
VLSI Design Engineer
ASIC/FPGA Engineer
Physical Design Engineer
RTL Design Engineer
Verification Engineer
AI-Integrated Electronics
Embedded AI Engineer
AI/ML Engineer (Electronics Focus)
Signal Processing Engineer with AI
Robotics Engineer
Electric Vehicle Systems
EV Systems Engineer
Battery Management System (BMS)
Engineer
Power Electronics Engineer
Charging Infrastructure Engineer
Tech-Forward Careers
Renewable Energy Systems Engineer
Smart Grid Engineer
Sustainable Product Designer
Innovation Consultant in Electronics & AI
Multidisciplinary Engineering Projects
Systems Engineer
Mechatronics Engineer
R&D Engineer
Product Development Engineer
Lab List
1. VLSI Design Lab
Circuit simulation, layout design, and verification using industry-standard
EDA tools.
2. Digital Electronics Lab
Study of logic gates, flip-flops, multiplexers, counters, and other digital circuits.
3. Analog Electronics Lab
Testing and analysis of amplifiers, oscillators, and signal processing
circuits.
4. Embedded Systems Lab
Programming and interfacing microcontrollers and microprocessors.
5. Artificial Intelligence & Machine Learning Lab`
Basics of AI algorithms, machine learning model implementation, and
evaluation.
6. Electrical Vehicle Technology Lab
Practical training on battery management systems, motor control, and EV components.
7. Microprocessor and Microcontroller Lab
Hands-on with 8051, ARM Cortex, and other controllers relevant to
embedded design.
8. Communication Systems Lab
Simulation and testing of modulation, demodulation, and wireless communication systems.
9. Power Electronics Lab
Study of converters, inverters, and controllers used in power management and EVs.
10. PCB Design and Fabrication Lab
Design, fabrication, and testing of printed circuit boards.
11. Signal Processing Lab
Analysis and processing of analog and digital signals.
12. Project / Research Lab
Final year projects and research work involving VLSI design, AI applications, and electric vehicle systems
Where Talent Meets Opportunity:
Our Graduates Are Building Futures with Leading Companies
