Electronics & Communication Engineering (VLSI)
Electronics and Communication Engineering (VLSI)
The Electronics and Communication Engineering department sparks innovation by blending the Internet of Things, embedded systems, cutting-edge communication technologies, and signal processing, shaping students to lead in the dynamic world of modern technology.
Dr. Amrita Rai
Head-ECE Deptt.
Dr. Amrita Rai, with over 21 years of extensive experience, holds B.Tech, M.Tech, and PhD degrees, specializing in signal processing and power electronics. She heads the ECE & EEE departments at Lloyd Institute of Engineering & Technology, focusing on cutting-edge areas like IoT and VLSI. A prolific researcher and author, she has published numerous papers, patents, and books, and is an active, senior member of the IEEE, delivering expert lectures and chairing prestigious international conferences.
About the Department
The B.Tech. in Electronics Engineering, (VLSI design and technology) undergraduate program design to equip students with a comprehensive understanding of microelectronic devices, VLSI circuits, and systems. This expertise is essential for the electronics chip design and VLSI Domain Industries. The curriculum places a strong emphasis on the fundamentals of designing and developing hardware and software for VLSI applications. The program enriches the students with fundamental knowledge of electronics engineering with an additional focus on VLSI system design, verification, device modeling, RF circuit design, chip packaging, VLSI signal processing, testing and diagnosis of VLSI circuits, SOC-based design and verification along with the practical knowledge of top EDA (Electronic Design & Automation) tools. Applications for the evergreen VLSI domain can be found in the fields of signal processing, image processing, networks and communication applications, space applications, IC design, Quantum computing and automation industry. The curriculum are designed on the needs of the industries and is based on feedback from alumni and the industry.
SOME HIGHLIGHTS OF THE DEPARTMENT
- New program launched in compliance with India Semiconductor Mission (ISM)
- Highest paying, in-demand profession in the semiconductor chip Industries.
- The program includes hands-on experience on EDA (Software) tools.
- Association of VLSI Industry/Industries with this program
- Flexible Scheme as per National Education Policy 2020
SOME HIGHLIGHTS OF THE DEPARTMENT
- Highly Qualified, Research-Oriented Faculty
dedicated to academic excellence and innovation.
- Industry Professional
with leading companies to enhance practical learning experiences.
- Industry-Focused Learning
through specialized Technology Groups, aligning with current market trends.
- State-of-the-Art Infrastructure & Computing Facilities
to support advanced learning and research.
- Exceptional Placement Records
with graduates securing roles in top global MNCs like IBM, Microsoft, Facebook, SAP, Oracle, etc.
- Strong Alumni Network & Industry Interaction,
providing valuable career insights and opportunities.
- Comprehensive Orientation Programs
for 1st & 2nd-year students, aiding a smooth transition to college life.
- National & International Engineering Activities,
offering exposure to global engineering advancements.
- Continuous Placement Preparation & Assessment,
focusing on enhancing employability skills.
Our Vision
“To excel in Electronics Engineering (VLSI Design and Technology) through cutting-edge research, industry engagement, and multidisciplinary teaching and develop globally and ethical technocrats.”
Mission of the Department
M 1:
To prepare students to become skilled and innovative electronics engineers through quality education and training, while fostering strong partnerships with semiconductor industries by conducting pioneering research.
M 2:
To establish an atmosphere that encourages entrepreneurship and invention so that students can resolve the real world.
M 3:
To create adaptable, socially conscious, ethnically motivated electronics engineers who are passionate about lifelong learning.
Program Outcomes (POs)
PO1:
Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems in Electronics and communication engineering field.
PO2:
Identify, formulate, research literature, and analyses complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
PO3:
Design system components that meet the requirement of public safety and offer solutions to the societal and environmental concerns.
PO4:
Apply research-based knowledge and research methods including design of experiments, analysis and interpretation of data pertaining to Electronics and communication problems and synthesis of the information to provide valid conclusions.
PO5:
Construct, choose and apply appropriate techniques, resources, and modern engineering tools required for Electronics and communication engineering applications.
PO6:
Apply the contextual knowledge to assess societal, health, safety and cultural issues and endure the consequent responsibilities relevant to the professional engineering practice.
PO7:
Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of need for sustainable development.
PO8:
Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO9:
Function effectively as an individual and as a member or leader in diverse teams.
PO10:
Communicate effectively the engineering activities to engineering society for presentation and Documentation.
PO11:
Demonstrate knowledge and understanding of the engineering and management principles and apply these principles as a member and leader in a team as well as to manage projects in multidisciplinary environments.
PO12:
Have the preparation and ability to engage in independent and lifelong learning in the broadest context of technological change.
Program Educational Objectives (PEOs)
PEO1:
To cater the need of domain specific industries through In-depth Knowledge.
PEO2:
To adapt Multidisciplinary technologies and leadership qualities for better Employability, higher Education and Entrepreneurship in Communication and VLSI domain.
PEO3:
To sustain with ever changing global technologies through the Life Long Learning.
PEO4:
To be socially responsible professional with ethics, eager to develop solution for the real Life problem.
PROGRAM SPECIFIC OUTCOMES (PSOs)
PSO-1:
Acquire competency in area of VLSI, Integrated Circuits & electronic systems to development focusing on application.
PSO-2:
Integrate multiple sub system and environment-conscious technologies to develop system on Chip for sustain human life.
PSO-3:
Analyze and Design various elements of communication systems and signal processing.
Syllabus Course
Faculty
| S No. | Faculty & Lab tech. Name | Department | Designation | Mob. No. | E - Mail.ID |
| 1 | Dr. Amrita Rai | ECE | Professor | 9873957794 | amrita.rai@liet.in |
| 2 | Dr. Ravi Kant Prasad | ECE | A.P | 7905892031 | ravikant.prasad@lloydcollege.in |
| 3 | Mrs. Karabi Kalita | ECE | A.P | 9999887649 | karabi.kalita@lloydcollege.in |
| 4 | Mr. Manoj Kumar Vishwakarma | ECE | A.P | 8210273805 | manoj.km.vishwakarma@lloydcollege.in |
| 5 | Dr. Ridhima | ECE | A.P | 8595120325 | ridhima@liet.in |
| 6 | Dr. Kirti Tripathi | ECE | Research Associate | 9417737800 | kirti@liet.in |
| 7 | Mr. Amit | ECE | A.P | 9873367636 | amit_kumar@liet.in |
| 8 | Ms. Richa Kumari | ECE | A.P | 9716828976 | richa.kumari@liet.in |
| 9 | Dr. Ashwini Kumar | EEE | A.P | 9971891423 | ashwini.kumar@lloydcollege.in |
| 10 | Mr. Pramod kumar | EEE | A.P | 9654857774 | pramod.kumar@lloydcollege.in |
| 11 | Mr. Vivek Kumar | EEE | A.P | 9899616031 | vivek.kumar@liet.in |
| 12 | Ms. Kriti Mishra | EEE | A.P | 7348652585 | kriti.mishra@liet.in |
| 13 | Mr. Bhishm Pratap Singh | EEE | A.P | 8178858332 | bhishm.pratap@liet.in |
| 14 | Mr. Ankit Sharma | EEE | Lab Assistant | 7830542561 | ankitsharmaji339@gmail.com |
Activities
| S .No | Activities | Proposed Date |
| 1 | Industry visit I- ST Micro electronics | 25/02/2025 |
| 2 | Pitch Cypher- An Idea Pitching Contest | 16/04/2025 |
| 3 | Hands-on Workshop | 13/05/2025 |
| 4 | Seminar/Expert Talk Session-I | 12/08/2025 |
| 5 | Industry Visit II | 18/09/2025 |
Specialized Labs
- Electronic Device, Analog Circuit Lab
- Electronics Project Lab
- Electronics Measurement Lab
- Communication 1 & 2 ofc Lab
- Digital Electronics Lab
- Electronics Lab. 1
- Microprocessor Lab
- Cad for VLSI
Career Opportunities after EE/EC Engineering
On successful completion of the course, graduates are recruited in VLSI fabrication and Semiconductor Industries. The starting salary in a VLSI company and core multinational companies are very lucrative. List of the major career options after pursuing engineering in ECE (VLSI)
- Design Engineer
- Verification Engineer
- CAD Engineer
- Application Engineer
- Application Engineer
- Research & Development Engineer
The various schemes and policies are framed by Govt. of India to encourage start-ups, MSMEs, industries and large business houses. Also, Chips to Startup (C2S) programme of Ministry of Electronics and Information Technology, Govt. of India is aiming to train 85,000 Engineers (Bachelors, Masters and PhDs) in ESDM over the period of 5 years.
Data Analytics and AI Initiative LAB
| Course | Duration | Eligibility Criteria | Fee Structure |
| Bachelor of Technology (Electronics and Communication Engineering) | 4 Years | 10+2/Intermediate with Physics & Mathematics as Compulsory Subjects; securing minimum 45% marks (40% for SC/ST) in aggregate | 1,10,000/Year 10,000 Security (Refundable) 20,000/Year CO-OP 10,000 Academic Collaboration |
| Bachelor of Technology (Electronics and Communication Engineering) (LATERAL ENTRY TO 2nd YEAR) | 3 Years | Diploma in Engineering with minimum 45% marks (40% for SC/ST) or B.Sc. Graduates with Mathematics as one of the subject at XII standard; securing minimum 45% marks (40% for SC/ST) in aggregate | 1,10,000/Year 10,000 Security (Refundable) 20,000/Year CO-OP 10,000 Academic Collaboration |
Technical Club:
The Techtronix Club is the official student-led innovation and technology club of the Electronics and Communication Engineering (ECE) Department at LIET. It was established in 2023 with a vision to bridge the gap between academic learning and industry expectations, the club aims to inspire and nurture the next generation of engineers, innovators, and technocrats.
The main objective of the club is to encourage innovation and hands-on learning through technical events and workshops, provide exposure to the latest trends in electronics, communication systems, robotics, IoT, and embedded technologies, foster teamwork and leadership through collaborative projects and peer learning and bridge the gap between theoretical knowledge and real-world applications.
The club is focused to organize activities like technical workshops and training sessions, hackathons, ideations and project expos ,guest lectures and seminars by industry professionals, interdepartmental tech competitions and research and development support for mini and major projects.
- Faculty Co-Ordinator
Ms. Karabi Kalita
- Student Coordinator
- Narayan Sudhir
- Aadi Jain
- Ansh Rathore
- Nitin Sharma