B.Tech Electronics & Communication Engineering ( Lateral Entry )

  • Course Level

    Course Level

  • Course Fee

    Course Fee
    INR 1,82,500

  • Duration

    2 Years

  • Scholarship

Department Of Electronics and Communication Engineering
Department Of Electronics and Communication Engineering
Department Of Electronics and Communication Engineering

The Department of Electronics & Communication Engineering (ECE) was established in 1997 with a focus on imparting fundamental concepts both theoretically and practically. It focuses on the study, design, development, and application of electronic devices, communication systems, and related technologies. ECE plays a crucial role in the advancement of modern technology, particularly in the fields of telecommunications, information technology, and electronics. Keeping in view the growth in industry and increasing demand, the department also offers some industry associated courses.

To meet the needs of industry and R&D organizations, the course curriculum has been carefully customized to meet the rising global outlook and focuses on forthcoming innovations in the field of Electronics and Communication Engineering. Graduates with a degree in Electronics and Communication Engineering can pursue careers in a wide range of industries, including telecommunications, electronics manufacturing, information technology, research and development, and more.

They can work as electronics engineers, communication engineers, network engineers, embedded systems developers, and research scientists, among other roles. The field of ECE is dynamic and constantly evolving, contributing to advancements in technology that impact various aspects of modern life. The B.Tech (ECE) programme offered by the Department has been accredited thrice by the National Board of Accreditation (NBA) in 2004, 2007 and 2018.







Criteria for Preparation of Merit list

Merit preparation / short listing of candidates shall be on the basis of score in Pearson/ JEE Mains 2023/ SAT / MRNAT 2023 /XII Qualifying Examination.

Eligibility Criteria

Pass in 10+2 examination with at least 45% marks in aggregate in 5 subjects and eligibility shall be determined on the basis of percentage of aggregate marks in

  • English, Physics & Mathematics and
  • One subject out of the Computer Science/Electronics/Information Technology/ Biology/Information practices/ Biotechnology/Technical vocational subject/ Agriculture/Engg. Graphics/Business Studies/ Entrepreneurship
  • One subject with the highest score out of the remaining subjects

Programme Highlights

1000+ students graduated, 15+ students completed M. Tech and 23+ Ph.D.

AICTE model curriculum and industry-oriented choice-based courses

Curriculum designed by industry experts and reputed academicians

Skill-based training for enhancing employability skills through MOUs

E-learning through MOOC, NPTEL, Coursera

Special student grooming for placement drives

Having 200+ research papers international and international refereed journals

Provision of patents/copyrights/funded projects/consultancy/student start-ups

Provision of conferences/short-term training programs/workshops/webinars/online coding competitions/project competitions/industry internships

Placement with over 90% in companies namely Infosys, TCS, Cognizant, Texas Instruments, ST Microelectronics, Cadence, Mentor Graphics, Microchip, Samsung, Motorola, etc.

State-of-the-art labs with the latest equipment and software (MATLAB, LabVIEW, Xilinx, TCAD, Tanner, Hyper-lynx, 3D Printer, DSP Kits, etc.)

Continuing excellence in Research & Development at the Innovation Centre, which is open 24*7 for students to work and convert their ideas into projects and products

The curriculum designed caters to local & global needs with options of interdisciplinary subjects & flexibility to re-design

Opportunity to work in DRDO, ISRO, ONGC, NIC, BSNL, Armed Forces, IES, Civil Services, Banking, Healthcare Sector, etc.

Opportunities for higher studies/research in India/abroad

Provision of up to 100% scholarship


Career Path

Electronics and Communication Engineering (ECE) graduates have a wide array of career opportunities across various industries due to the following reasons:

  • As technology continues to evolve, ECE graduates have the chance to work on cutting-edge projects, contributing to advancements in areas such as wireless communication, IoT, artificial intelligence, and more.
  • Electronics are an integral part of our daily lives, from smartphones and laptops to smart appliances and medical devices. This widespread use ensures a constant demand for skilled ECE professionals in various industries.
  • ECE plays a pivotal role in connecting people and devices around the world. This interconnectedness creates opportunities for ECE graduates to work on projects with a global reach, spanning industries and geographic locations.
  • ECE knowledge and skills are applicable across multiple industries, including telecommunications, healthcare, automotive, aerospace, energy, consumer electronics, and more. This versatility provides ECE graduates with a wide array of job options.
  • ECE encourages innovation and creative problem-solving. Graduates have the chance to design and develop novel solutions, devices, and systems that address real-world challenges and drive technological progress.
  • The rise of Industry 4.0 and the Internet of Things (IoT) has led to increased demand for ECE professionals who can design and implement smart systems, sensors, and connectivity solutions for industrial automation and smart cities.
  • Many ECE graduates are drawn to entrepreneurship and have the skills to start their own tech companies or contribute to startup ventures. This entrepreneurial spirit can lead to fulfilling and innovative career paths.

This article will describe the possible job profiles for a B.Tech ECE graduate and discuss the top 10=3 job profiles.

Job after B.tech ECE

A B.Tech ECE graduate can start his career in industry in any of the following roles and can attain senior levels. Career opportunities are available in Public sector companies like BEL, BSNL, BHEL, NHPC, NTPC, DMRC, C-Dot, HAL, Airport Authority, BARC, ISRO, DoS, DST, NPL etc. Other sectors which offer job opportunities are DRDO, Armed Forces, Railways, Technical Universities and State Electricity Boards.

Large MNCs and IT companies namely Infosys, TCS, Wipro, L&T Infotech, HCL, Hewitt, Satyam, Tata Telecom, NIIT, Siemens, Huawei, Ericsson, Ceasefire, Capital IQ etc. Top 13 job profiles which are in emerging state and the niche technology area using cutting edge technology are the following:

  • Senior Electronics Engineer
  • Telecommunications Specialist
  • Network Architect
  • Embedded Systems Developer
  • VLSI Design Engineer (ASIC/FPGA)
  • Control Systems Engineer
  • Data Scientist/Analyst
  • RF Engineer
  • Technical Project Manager
  • Test and Quality Assurance Manager
  • Research and Development Engineer
  • Product Manager
  • Technical Sales Engineer/Manager

Programme Outcomes (PO’s)


Engineering knowledge

Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.


Problem Analysis

Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.


Design/development of Solutions

Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.


Conduct Investigations Of Complex Problems

Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.


Modern Tool Usage

Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.


The Engineer and Society

Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.


Environment and Sustainability

Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.



Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.


Individual and Team Work

Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.



Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.


Project Management and Finance

Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.


Life-long learning

Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.


Program Specific Outcomes (PSO’s)


Connect learning from Core and Disciplinary/Interdisciplinary elective courses of Electronics and Communication Engineering to assimilate technological advancements in the field for analyzing and designing subsystem processes to arrive at the solution to real world problems.


Acquire hardware and software skills pertinent to research and industry practices in the field of Electronics & Communications while acquiring soft skills like persistence, proper judgment through projects and industrial interactions.


Ability to identify indigenous processes and components for producing high quality, compact, energy efficient and eco-friendly solutions at affordable prices for existing and new applications directly and indirectly related to Electronics & Communication industry.


Focus on acquiring right blend of aptitude and attitude so as to be the candidate of first choice for placements and higher education or to become a successful Entrepreneur and a worthy global citizen.



  • NBA Accreditation in 2004, 2007, 2018
  • Outcome-Based Education
  • Industry-Centric Course Curriculum
  • Offers choice-based elective baskets with a multidisciplinary approach
  • Continuous guidance and mentorship through Industry Leaders
  • Unparalleled unification of experienced faculty regularly trained by industry experts to deliver the curriculum
  • Hands-on Lab in the domain of Embedded Systems, Analog Electronics, Power Systems, IOT, and Sensor Technologies
  • Focus on developing projects for real-world applications
  • Interdisciplinary Projects, Electives, Internships
  • Industry Associations with Intel Corporation, Microchip, Texas Instruments, Cogenda, etc.
  • LinkedIn learning license and GitHub account to accelerate innovation and collaboration
  • Alumni Connect with a vision to recognize the power of networking and sharing interests, experiences, and placements
  • Project and experiential-based learning
  • Association with professional bodies like IEEE, CSI, etc.
  • Design Thinking & Innovation, Research & Innovation Catalyst


Studying Electronics and Communication Engineering (ECE) can offer a wide range of benefits and opportunities. Here are some of the key benefits of pursuing a degree in ECE:

  • Diverse Career Opportunities: ECE graduates are in high demand across various industries, including telecommunications, electronics manufacturing, information technology, automotive, aerospace, healthcare, and more. The skills acquired in ECE are transferable and can lead to diverse career paths.
  • Technological Advancements: ECE is at the forefront of technological innovation. Studying ECE allows you to be part of designing and developing cutting-edge technologies that shape the future, such as wireless communication systems, smartphones, robotics, and IoT devices.
  • Problem-Solving Skills: ECE education emphasizes critical thinking and problem-solving. As an ECE professional, you'll learn how to analyze complex systems, troubleshoot issues, and develop creative solutions to engineering challenges.
  • Global Relevance:Electronics and communication technologies have a global impact. ECE professionals have the opportunity to work on projects that have worldwide significance, contributing to advancements in global connectivity and communication.
  • Job Stability and High Demand: With the increasing reliance on technology, there's a consistent demand for skilled ECE professionals. This demand can lead to job stability and competitive salaries in the job market.
  • Innovation and Creativity: ECE encourages innovative thinking and allows you to explore your creative side. Designing new electronic devices, circuits, and communication systems requires a blend of technical skills and creativity.
  • Versatile Skill Set: ECE education equips you with a versatile skill set that can be applied in various industries and roles. Whether you're interested in hardware design, software development, signal processing, or system integration, ECE provides a foundation for multiple career paths.
  • Contribution to Society: Many ECE projects and technologies have a direct positive impact on society. For instance, advancements in medical devices, renewable energy systems, and assistive technologies are all driven by ECE innovations.
  • Continuous Learning: Technology evolves rapidly, and ECE professionals are constantly learning and adapting to new developments. This field offers lifelong learning opportunities and the chance to stay at the forefront of emerging technologies.
  • Entrepreneurship Opportunities: ECE graduates often have the skills to start their own tech companies or contribute to startup ventures. With a solid understanding of electronics and communication, you can develop and market innovative products and solutions.
  • Collaboration and Networking: ECE professionals often work in teams on complex projects. This collaborative environment fosters networking and provides opportunities to learn from experts in various fields.
  • Global Connectivity: ECE plays a pivotal role in connecting people and devices around the world. This interconnectedness allows ECE professionals to work on projects with a global reach, connecting cultures and economies.
    Overall, studying Electronics and Communication Engineering offers a combination of technical expertise, career prospects, and the chance to contribute to technological advancements that shape the way we live and communicate. It's a field that continues to evolve, making it an exciting and rewarding choice for those passionate about technology and innovation.



Electronics is the profession of applying scientific principles to the design and development, fabrication, repair & maintenance of Electrical/Electronic Machines, Instruments and Communication systems. Prior knowledge of Electronics is required in all domains of engineering like Chemical, Aeronautical, Electrical, Mechanical, Computer, Civil, Automobile sectors etc.

  • PM Modi’s ‘Make in India’ concept is a push to manufacturing sector and has opened plethora of jobs for Electronics Engineers.
  • Several Electronics manufacturing hubs and electronics manufacturing clusters have been developed across the country to reduce imports.
  • PMs ‘Digital India’ vision is to integrate villages with National Optical Fibre Network.
  • As per the National Policy on Electronics: To make India a globally competitive destination for Electronics System Design and Manufacturing.

In present era the field of Electronics & Communication plays an important role in almost every sphere of our life.

Some of the Present and Emerging Technologies are: Wireless Communication; Direct To Home; Remote Sensing; Earthquake Monitoring; Microwave Communication; Speaker Recognition; Radar; Robotics; MEMS; Fiber Optics; GPRS; Electronics Cooling System; Thin Film Technology; Brain Computer Interfaces; Advanced Optical Networks; Display Technology; Electrocardiograph (ECG); Optical Computing; Wireless Sensor Networks; Embedded System; Teleconferencing; Nanotechnology; Internet Telephony; Satellite Communication; Smart Technology; Space Engineering.

Following are the various courses in the field of Electronics & Communication:

  • B.Tech ECE (Normal /Lateral)
  • B.Tech ECE with specialization in AI and IoT with Intel Corporation
  • B.Tech ECE with specialization in Communication System / VLSI Design & Embedded Systems
  • M. Tech (Electronics & Communication Engineering with specialization in Communication System / VLSI Design & Embedded Systems)
  • Doctor of Philosophy (Ph.D.)

An Electronics engineer can work at the frontier of high technology and is involved in research, creation of new ideas, design and development of new products and technologies, manufacturing and marketing activities.

Electronics & Communication Engineering offers career scope in DRDO (Defence Research and Development Organization); ISRO (Indian Space Research Organization); Public and Private Sectors; Defence Services and Engineering services. Electronics and Communication Engineers get equal opportunity to explore and build a career in IT sector.

The department has state of the art, modern and well-equipped Laboratories and smart class rooms with adequate facilities. One separate laboratory course is associated with each core course in the undergraduate program.

Some of the prominent Labs are Intel Intelligent Systems Lab, Embedded Systems Lab, Digital IC design Lab, MATLAB, LabVIEW, ORCAD Lab, Advanced Communication Lab, Microwave Lab, Advanced Digital System Design Lab, Microcontroller & Application Lab etc.

Over the last few years, the Department has seen excellent placements, with over 90% of its students getting placed in Public and Private sectors. This includes students who have opted for higher studies.

The students have been placed in various public and private sector organizations including:

  • Public Sector: DRDO, ISRO, BEL, BHEL, BSNL,MTNL, SAIL, NTPC, Indian Railways, ONGC, GAIL
  • Defence Services: Indian Air-force, Indian Navy and Indian Army
  • Private Sectors: Capital IQ, TCS, HCL, Wipro, Hilti, L&T, Infosys, WIPRO, TATA Telecom, Siemens, AIRTEL, Reliance Communication, Catalyst Business Solution, NSN, Ericsson to name a few.

We organize regular workshops and conduct seminars on the latest topics like Embedded Systems, Wireless Communication Systems, Artificial Intelligence, Internet of Things, Robotics etc for value addition of the students.

Regular programmes for overall personality & career skill development are organized with the help of expert trainers. Regular Industrial visits are also organized to give the students about the feel of work culture in the industry.

Latest equipment and software are available in the Department to promote research. Moreover the students can access e-Journals (IEEE & Springer etc), to explore latest development in the field of Electronics and Communication Engineering.

The core faculty in the Department comprises of distinguished academicians from the best institutions and leading professionals from the corporate world with rich industry experience. The faculty lays great emphasis on continuous evaluation by means of well-designed tutorials and practical experiments. Every effort is made to reinforce the concepts taught in the classroom.

Apart from teaching, the faculty members have been vigorously pursuing research and have been regularly publishing research papers in various National and International Journals of repute as well as in prestigious Conferences.

Contact Us

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Sector – 43, Aravalli Hills, Delhi – Surajkund Road, Faridabad – 121004, (Haryana), India