Electronice & Communication (E&C)

B.Tech. ECE Course: Details, Eligibility, Fees, Syllabus, Placements

The Department of Electronics and Communication Engineering (ECE) at Roorkee school of engineering fully recognises the essential nature of the field needed to prepare students for the world of work. Being one among the Best Electronics & Communication Engineering Colleges in India. The ECE curriculum provides a wide perspective of the field of electronics and allows the student to decide his future directions. This course helps in addressing the modern communication systems and their related challenges. Application of technologies such as robotics, artificial intelligence, GIS, satellite communication and Embedded systems have revolutionized the modern electronics and communication sector.

Best Electronics and Communication Engineering College in Uttarakhand, India

B.Tech. ECE

A Bachelor of Technology (B.Tech) in Electronics and Communication Engineering (ECE) is a comprehensive four-year undergraduate program that delves into the principles and applications of electronics and communication technologies. The curriculum is designed to cover a wide range of topics, including basic and advanced electronics, digital and analog communication, signal processing, microelectronics, and control systems. Students gain a robust foundation through theoretical knowledge and practical skills, working extensively in laboratories on circuit design, microcontroller programming, and communication systems. The program also emphasizes the development of problem-solving abilities, analytical thinking, and research skills, preparing graduates for diverse career opportunities in telecommunications, electronics manufacturing, IT, and R&D sectors. With hands-on experience and exposure to industry-standard tools, B.Tech ECE graduates are well-equipped to innovate and excel in the rapidly evolving field of electronics and communication technology. Students develop various skills throughout the program, including:

Throughout the program, students develop various skills, including:

  • Technical Skills: Proficiency in electronic circuit design, signal processing, microcontroller programming, and communication technologies.
  • Problem-Solving: Analytical and critical thinking skills to solve complex engineering problems.
  • Practical Skills: Hands-on experience with industry-standard software tools and hardware kits.
  • Research Skills: Conducting experiments and research projects, often leading to innovative solutions.
  • Soft Skills: Communication, teamwork, and project management skills.

Why Choose B.Tech-ECE Course?

Choosing a B.Tech in Electronics and Communication Engineering (ECE) offers numerous benefits and opportunities, making it a highly attractive option for students interested in the field of technology and engineering. Here are some key reasons to choose a B.Tech-ECE course:

  • ECE is at the forefront of technological innovation, offering exciting opportunities to shape the future.
  • Electronics and Communication principles, ECE provides a versatile skill set applicable across various industries.
  • The curriculum emphasizes practical learning through projects, internships, and laboratory work, providing invaluable real-world experience.
  • ECE graduates enjoy robust employability prospects globally, with opportunities ranging from tech giants to startups.
  • ECE fosters a culture of innovation and entrepreneurship, empowering graduates to drive change and create impactful solutions.

Powered by L&T

Larsen & Toubro Limited (L&T) is one of India's largest and most prestigious conglomerates, globally recognized for its diverse operations in engineering, construction, technology, and financial services. Renowned for landmark infrastructure projects, L&T excels in EPC services, heavy engineering, and electrical & automation solutions. Through subsidiaries L&T Infotech (LTI) and L&T Technology Services (LTTS), it offers advanced IT and engineering services, focusing on analytics, big data, Machine learning, and IoT.

Key Features of B.Tech-ECE with L&T Industry Collaboration

  1. Industry-Relevant Curriculum:
    • The curriculum is co-developed with L&T experts to ensure it aligns with current industry standards and practices.
    • Courses focus on cutting-edge technologies and methodologies used in the electronics and communication sectors.
  2. Hands-On Training:
    • Extensive laboratory work and practical sessions using industry-grade equipment and tools.
    • Workshops and training modules led by L&T professionals to provide real-world experience.
  3. Internships and Industrial Projects:
    • Mandatory internships at L&T or associated companies, providing students with valuable on-the-job experience.
    • Opportunity to work on live projects and industrial case studies, fostering practical problem-solving skills.
  4. Expert Lectures and Seminars:
    • Regular guest lectures and seminars by L&T engineers and executives, offering insights into industry trends and innovations.
    • Networking opportunities with industry professionals.
  5. Skill Development Programs:
    • Specialized training in soft skills, project management, and leadership, essential for career advancement.
    • Workshops on emerging technologies like IoT, AI, Machine Learning, and VLSI design.
  6. Research and Development:
    • Access to L&T's R&D facilities for conducting advanced research projects.
    • Collaboration on innovative projects that address real-world challenges, often leading to publications and patents.
  7. Placement Support:
    • Enhanced placement opportunities within L&T and its partner companies.
    • Dedicated placement cell with support for resume building, interview preparation, and career counseling.
  8. Mentorship Programs:
    • Mentorship by experienced L&T professionals, guiding students through their academic and professional development.
    • Regular feedback and performance reviews to help students stay on track with their career goals.
  9. Certification and Credentials:
    • Additional certifications from L&T for specialized courses and training modules completed during the program.
    • Recognition of industry-specific skills and competencies, enhancing employability.

Job Profiles after B.Tech-ECE

  • Intel
  • Qualcomm
  • Texas Instruments
  • Samsung
  • Siemens
  • Ericsson
  • Cisco Systems
  • Tata Consultancy Services (TCS)
  • Infosys
  • Wipro

Curriculum

Subject Code Subject Name Credits
BAST-101/ BEET-101 Engineering Physics/Basic Electrical & Electronics Engineering 5
BAST-102 Engineering Maths-I 4
BCST-101 Computer Fundamental & C Programming 5
BMET-101/ BAST-103 Basic Mechanical Engineering /English Communication 5
BCET-101/ BAST-104 Energy & Environmental Engineering/Human Value & Ethics 3
BMEP-102/ BHUT-101 Manufacturing Practice Lab (Workshop) / Hunar Skill Developmet or Tinkering Lab 2
*SYNT-101 Sports/Yoga/NCC 2
Subject Code Subject Name Credits
BEET-101 / BAST-101 Basic Electrical & Electronics Engineering/ Engineering Physics 5
BCET-201 Engineering Maths-II 4
BAST-103 /BMET-101 English Communication/Basic Mechanical Engineering 5
BCST-201 Python Programming 5
BAST-104 / BCET-101 Human Value & Ethics / Energy & Environmental Engineering 3
BMEP-102/ BHUT-101 Manufacturing Practice Lab (Workshop) / Hunar Skill Developmet or Tinkering Lab 2
*SYNT201 Sports/Yoga/NCC 2

USP's

  • Experienced faculty members to enrich comprehensive knowledge.
  • Value added courses
  • L & T Powered Programmes.
  • Guaranteed Campus Internship and Placement Drive.
  • Nasscom foundation industry oriented courses
  • IBM, TCS advanced technologies program
Industrial Collaboration
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Fee Structure

YearFee
First Year₹ 1,27,000
Second Year₹ 1,10,000
Third Year₹ 1,10,000
Fourth Year₹ 1,10,000

Admission Criteria

Passed 10+2 examination with Physics, Chemistry and Mathematics as compulsory subjects with at least 60% marks from recognized board

Industrial Visit

Industrial visits are an essential part of the academic curriculum in most of the Graduate and Post-graduate courses. Being a part of interactive learning, such educational visits give students a major exposure to real working environments along with a practical perspective of a theoretical concept relevant to their domain. In addition to that, industrial visits bridge the widening gap between theoretical learning and practical exposure by giving students the first-hand exposure to identify the inputs and outputs for different business operations and processes performed at the workplace.

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