Dept. of Electronics & Communication Engineering

“Electronics is a way of sensing, feeling, connecting the spectacular, the immense, the minute beautiful, thrilling interwoven whole”.

Electronics and Communication Engineering is the field of Science and Engineering concerned with study, control and conduction of electrical energy in the forms of electrons. It includes traditional Engineering subjects like electrical circuits, motors, electromagnetic & communication devices like telephone, radio, television through the dramatic development of modern technologies such as radar, sonar, wireless communication such as 5G and modern weapon systems.

Electronics and Communication engineering covers area like electronic materials, devices and circuits, integrated circuits and computer systems, microwave systems, mobile telephony, computer networking, increasingly sophisticated information and communication technologies, optical fibers and opto-electronic devices, photonics and nanotechnologies, power, control systems, nonlinear systems, microelectronics, medical and bio-engineering, information theory, signal processing, mechatronics, robotics, telecommunications, data communications, defense electronics, sound engineering, communication systems and nanotechnology.

Today there is increasing interest in power system control, including satellite control and communication systems, Control systems engineering monitors and models control and designs system controllers using signal processors and programmable logic controllers (PLCs). Control engineering applications include industrial automation, aircraft and automobile control systems and battery charge regulating technology for solar photovoltaic systems.

The design and testing of electronic circuits is a significant part of electronic engineering and involves the properties of individual components: resistors, capacitors, inductors, diodes and transistors, for particular purposes. Microelectronics and integrated circuits allow this at the micro- and nano-electric scale, enabling modern microelectronic devices. Microelectronics is at the microscopic scale and requires knowledge of chemistry, materials science and quantum mechanics.

Signal processing relates increasingly to digital systems and is rapidly expanding to include applications in most areas of electronics – in communications, control, power systems and biomedical engineering. Integrated circuits are now found in almost all electronic systems and devices, including radio, audio and TV systems, mobile communication, recording and playback devices, automobile control systems, weapons systems and all types of information processing systems. Signal processing is also related to instrumentation and control engineering.

Electronics is contributing in the development of Mechatronics where electromechanical systems have increasingly diverse applications in such areas as robotics and automation, heating and cooling systems, aircraft, automobile and similar control systems. Such systems are working on an increasingly miniature scale, such as the micro-electromechanical systems (MEMS) that control vehicle airbags, photocopiers and printers. In biomedical engineering, for example, mechatronics is enabling the development of better and more mobile medical technology, and MEMS, the development of implantable medical devices such as cochlear implants, pacemakers and artificial hearts.

Electronics engineering has profound depth and intensity in the product development but is challenged by the increasing level of support knowledge and technology that may be required.

An Electronics and Communication Engineer can efficiently contribute in the field like:

Vision & Mission Program Outcomes Programme Specific Objectives Program Educational Objectives

The department is equipped with the following Labs :

  • Radio frequency & Microwave Engineering: Satellite control & Aero-Space Communication System, Design of Antenna, Filter and
  • Wireless Communication: 5G, 4G, LTE, Mobile Telephony, WSN etc.
  • Consumer Electronics: Television, Radio, Video and Sound Engineering
  • Navigational Electronics: RADAR, SONAR, Global Positioning System, Avionics
  • High Speed Digital Electronics: High speed processor design, Computer hardware design
  • Micro-electronics: Integrated circuit, Embedded system, Micro-controller.
  • Opto-electronics: Optical fiber communication, Digital optical communication.
  • Control Electronics: Industrial automation and control, PLC.
  • Defense Electronics: Modern weapon system, Design of aircraft and drone.
  • Medical and Bio-electronics: To design medical instruments and control system.
  • Computer Networking: Bluetooth, Wi-Fi, Wireless Sensor Network.

Top Company that hires Electronics and Communication Engineers:

An electronic engineer can find a job in Consumer electronics manufacturing organization , Telecommunication & IT industries, Health care equipment manufacturing , Mobile communication(2G,3G,4G,5G), Internet technologies, Power Electronics, and other industries like steel, petroleum and chemical industry, directing control and testing production process.

  • Core Company: Texas Instruments, Qualcomm, Cosmic Circuits, C-Dot, Free scale, ARM, Nvidia, Synopsis(EDA), Mentor Graphics(EDA), Bechtel, Siemens, Samsung, Sony, LG, Bose, Philips, Hitachi, Panasonic, Honeywell, Mitsubishi, Nokia, Boeing, Airbus and many more.
  • Software Company: InMobi, Cisco, Infibeam, Pitney Bowes, American Express, Goldaman Sachs, Amadeus Software Labs, Interview Street, CVent, InfoEdge, Accolite, Naggaro Software, Nucleus Software, Q3 Technologies, EvalueServe, Wipro Technologies, Gwynniebee, Aspiring Minds, Sapient, Adobe, Microsoft, Google, Directi, Flipkart, Walmart Labs, HCL, Infosys and many more.
  • Govt and Public Sector: ISRO, HAL, DRDO, BSNL, MTNL, BBNL, RAILTEL, IRCON, AAI, BHEL, IOCL, ONGC, HPCL, NTPC, PGCIL, NLC, Indian Air Force/Army/Navy, and many more.
  • Non Technology Based Company: Bain Capability Centre, Deloitte, JP Morgan, KPMG, Nomura Consulting, BCG, BlackRock, Ernest & young, MuSigma, Barclays, ZS Associates, RBS, Axtria, PwC, S&P and many others.

The Department of Electronics and Communication Engineering at Shri Ram Murti Smarak College of Engineering & Technology, Bareilly established in 1996 and offers B. Tech and M. Tech. program. Programs are regularly updated to cope with the ever-changing technology and demands of the industry.

USP’S

  • The department of ECE provides an excellent academic environment for creative and productive work both for faculty as well as students.
  • The department has adopted a project based learning system where budding engineer can explore and innovate.
  • The department has State-of-the-Art infrastructure and labs.
  • The students and faculties push the boundaries of possibilities in these labs which creates a constant buzz in the part of campus where new knowledge is created.
  • Centre of Excellence in Internet of things, Antenna designing and simulation, Electromagnetic interference and electromagnetic compatibility.
  • MoU with several core Industries for placement and onsite training during curriculum.
  • Incentives to all faculties and students for publication in peer reviewed journals, travel grant for international conference, seminars, expert lecture etc.
  • Highly qualifies faculties with extensive research and industry experience in the areas such as photonics, aviation, defense communication, microwave and high speed communication, RADAR and maritime communication, medical electronics.

Laboratory associated with the Dept. of ECE

  • Integrated Circuits Lab
  • Microprocessors & Microcontrollers Lab
  • Communication Engineering Lab
  • Microwave, Optical Communication & Networking Lab
  • Project lab
  • Electronics Circuit Design Lab
  • Digital electronics lab
  • Electronics Workshop & PCB Design Lab
  • Electronic Devices and Circuits Lab
  • Electronic Measurement & Instrumentation Lab


Tinkering Lab

As we gradually enter into the era of technological wonders, SRMS TRUST has taken a great initiative to organize & sponsor high-quality research trails to contribute more & more for the advancement & encouragement of techno-enthusiastic researchers. The mission of the Tinkering Lab under Innovation & Incubation Cell is to develop a national level platform for the continuous flow & exchange of knowledge between intellects to change the whole paradigm of research for the welfare of our society. This will help promote the work of researchers, scientists, engineers, students & faculties across the nation.

To make the process user friendly , simplex & hassle-free, a portal has been created where innovative project ideas can be put up for approval, and if the idea gets accepted, one can use the Tinkering Lab for its necessary equipments & will also get required fund for completing their projects. The total grant approved for Tinkering Lab is 50 Lakh.

Thus Tinkering Lab aims to provide a national level platform without boundaries & SRMS TRUST invites all the techno-crazy people to participate & encourage this universal exchange of knowledge.

Facilities Available

SRMS TRUST established Tinkering Lab contains world class & all the modern research equipments like 3D printer, PLC, Digital Storage Oscilloscope (DSO) etc. for ultra-precision analysis & development of next generation technologies. We aim to promote projects in the following research areas:

  • Green computing
  • Eco-friendly design
  • Low power VLSI
  • Energy Efficient Architecture
  • Arithmetic circuits for energy precision
  • Green computing
  • Eco-friendly design
  • Low power VLSI
  • Energy Efficient Architecture
  • Arithmetic circuits for energy precision

  • Artificial intelligence
  • Cloud computing
  • 5G
  • IOT enabled design
  • Laser technology



With all the major facilities available in innovation lab, faculties as well as students of SRMS Institutions are surely going to be benefitted and give their research work an edge over others. The grant to be provided for selected projects will surely enhance the level of work they aim to do.

  • Vision

    • To evolve the department as a center of excellence in Electronics and Communication Engineering education in the country.
    • Develop high quality, technically competent, confident and socially responsible engineers.
    • To train students in contemporary technologies to meet the needs of global industry.
    • To create the platform for industrial consultancy.

    Mission

    • Ensuring effecting teaching learning process to provide in depth knowledge of principles and its applications pertaining to electronics and communication engineering and interdisciplinary areas.
    • Provide ethical and value education by promoting activities addressing the social needs.
    • To inculcate creative thinking through innovative and group work exercises which enhances the entrepreneur skills and research capabilities.
    • To carry out research through constant interaction with research organization and industry.
    • To equip the students with strong foundations to enable them for continuing education.


  • Programme Outcomes (POs)

    PO1 Engineering Knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
    PO2 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.
    PO3 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.
    PO4 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.

    PO5 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.
    PO6 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 ME professional engineering practice.
    PO7 Environment and Sustainability: 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.

    PO8 Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
    PO9 Individual and Team Work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

    PO10 Communication: 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.

    PO11 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.
    PO12 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.

  • Programme Specific Objectives (PSO’s)

    PSO1

    An ability to understand the concepts of basic Electronics & Communication Engineering and to apply them to various areas like Signal processing, VLSI, Embedded systems, Communication Systems, Digital & Analog Devices etc.

    PSO2 An ability to solve complex Electronics and Communication Engineering problems, using latest hardware and software tools, along with analytical skills to arrive cost effective and appropriate solutions.

    PSO3 Wisdom of social and environmental awareness along with ethical responsibility to have a successful career and to sustain passion and zeal for real-world applications using optimal resources as an Entrepreneur.

  • Program Educational Objectives (PEO’s)

    The Program Educational Objectives (PEOs) are designed keeping mission of the institute and department into consideration.

    PEO1

    Building fundamental Knowledge and Technical Proficiency so that graduates can develop technical skills in Electronics and Communication engineering or in closely related fields.

    PEO2

    Developing Professional growth of graduates and exercise their capabilities for life-long learning to enhance their technical and nontechnical skills.

    PEO3

    Enhancing Management Skills in graduates and refine their knowledge and skills for management and communication.

    PEO4

    To equip graduates with integrity and ethical values so that they become responsible Engineers.

    PEO5

    To enhance technical skills of laboratory staff, provision to train the lab staff, encouraging staff to improve qualifications offering incentives.