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ADMISSIONS OPEN: Admissions are open for the year 2024-25. For more details and prospects contact: +91 9666637234 ,+91 8919323950

Department of ECE

The Department of Electronics and Communication Engineering in Behara College of Engineering and Technology was established in the year 2024 with an objective of developing students for a successful professional career in the respective field to meet the global needs of Industry and Society by inculcating professional ethics. ECE is an engineering branch that includes the production, design, research and testing of electronic devices and technology issues related to telecommunications systems, electronics, computers and related industrial sectors. The Department has focused towards integrating academics with cutting edge technologies in modern world. Currently the Department offers an under-graduate program (B. Tech) in Electronics and Communication Engineering with an intake of 60 students for an academic year 2024-25.

The major driving force for the present day Information Technology revolution is the development in Electronics and Communication Engineering. The Department has the best facilities available in the region in terms of infrastructure including laboratories and faculty. Lectures, seminars, laboratory classes and tutorials form a large part of in-college academic activity. The laboratories consist of all the latest equipment to meet the dynamic changes in the curriculum. The Department faculty members are specialized in Analog Electronics, Digital electronics, Signals and system, Advanced Digital System Design, Electromagnetic theory, Control system, Digital Signal Processing, Digital Image Processing, Microprocessors and Microcontrollers, Embedded system, Nano technology, VLSI technology, Wired and wireless Networking, Radio and Television, Antenna and wave propagation,  Telecommunication, Analog and Digital communication, Linear analog circuits, Instrumentation and Control, Fiber Optical communication, RADAR's, Microwave engineering, Biometrics, Satellite communication, Mobile communication, PCB Design, Computer Architecture, Computer hardware and interfacing, Fuzzy control and Neural Networks, Software tools like Matlab, NS2, Keil, Spice, Circuit maker, Open source software's, etc. The Department imparts quality education to its students, in modern lecture rooms equipped with appropriate teaching aids.

Significance of Electronics and Communication Engineering

Electronics & Communication Engineering is a vast field of study encompassing the design, development, production, testing, maintenance and research of electronic devices and communication systems. It uses various electronic components such as microprocessors, transistors, and integrated circuits to create complex systems. The field also includes studying communication systems such as radio, television, and mobile networks. ECE engineers play a critical role in modern society’s technological advances by creating innovative solutions to various problems. Electronics and Communication Engineering (ECE) applications, the development of wireless communication technologies such as cellular networks, satellites, and Wi-Fi in are widespread and varied, impacting many aspects of everyday life. Furthermore, ECE has made significant contributions to healthcare, enabling advancements in medical technology such as remote monitoring devices and digital imaging equipment. For instance, the development of wireless communication technologies such as cellular networks, satellites, and Wi-Fi has transformed how people connect worldwide. Furthermore, ECE has made significant contributions to healthcare, enabling advancements in medical technology such as remote monitoring devices and digital imaging equipment.

Future Scope and Trends in Electronics and Communication Engineering

The Electrical and Electronics Engineering department strives to be recognized as a center of excellence for outstanding education and research to produce competent and ethical Electrical Engineers capable of finding solutions to problems related to society, environment and industry using innovative technologies.

With such a broad range of applications across various industries, ECE is instrumental in shaping the direction of future technology advancements and has a significant role in improving our daily lives. Therefore, it is one of the most promising engineering branches to pursue electronics and communication engineering.

1. Artificial Intelligence and Machine Learning

With the rise of big data and the need to process and analyze large amounts of information,AI and machine learningare becoming increasingly crucial in the performance and functionality of a wide range of electronic devices, from smartphones and wearable to autonomous vehicles and drones.

2. 5G Technology

5G networks are expected to revolutionize the way we communicate and interact with each other, offering excellent connectivity, lower latency, and faster speeds. ECE engineers will be critical in developing and deploying 5G technology, working on everything from hardware design to software development and network optimization.

3. Internet of Things (IoT)

The IoT is a network of interconnected machines and sensors that are capable of communicating with one another online. ECE engineers will be instrumental in developing the hardware and software necessary to support the IoT and creating new applications and use cases for this technology.

4. Cyber security

Cyber security will be a growing topic of attention for ECE engineers as the world becomes more interconnected and dependent on electronic gadgets. As a result, they will need to develop new strategies and technologies to protect against cyber-attacks and ensure the privacy and security of sensitive data.

5. Renewable Energy

ECE engineers will continue to play a critical role in developing renewable energy technologies, including solar and wind power. They will work on everything from designing more efficient solar cells to developing new energy storage technologies.

Finally saying, pursuing a career in Electronics & Communication Engineering can be financially and intellectually rewarding, as it offers numerous opportunities to work on groundbreaking projects that positively impact society.

Vision:

The Department of Electronics and Communication Engineering endeavors to develop excellence in Technical Education and Research by producing high quality, technically competent and socially responsible engineers.

Mission:

M1:To foster and achieve unmatched excellence in Electronics and Communication Engineering Domain.

M2:To pursue continuous improvement in infrastructure and state-of-the art laboratories.

M3:To establish and set best teaching and learning standards among top grade Engineering Departments across the nation.

M4:To encourage learning, research, creativity, innovation and professional activity by offering ambience and support.

M5:To prepare the students to meet the global needs of Industry and Society by inculcating professional ethics.

By the completion of Electronics & Communication engineering program, the students will be to:

Program Educational Objectives (PEO’S)

PEO STATEMENTS
PEO1 Learn Core Skills, skill to understand, analyze, design, create novel products and implementation of complex systems by applying basic concepts in Electronics & Communication Engineering to Electronics, Communications, Signal processing, VLSI, Embedded Systems. (Core Skills).
PEO2 Problem solving using hardware and software tools & Lifelong learning, Capability to pursue career in industry or higher studies with continuous learning. (Problem-Solving Skills).
PEO3 Entrepreneurship Skills, Leadership qualities, team spirit, multi-disciplinary approach, character moulding, effective communication skills, lifelong learning and sense of responsibility towards society for a successful professional career. (Professional Career).

Program Specific Outcomes (PSO's)

PSO STATEMENTS
PSO1 Design and implementation of complex systems by applying basic concepts in Electronics & Communication Engineering to Electronics, Communications, Signal processing, VLSI, Embedded Systems (Core Skills).
PSO2 Solve complex Electronics and Communication Engineering problems, using hardware and software tools, along with analytical skills to arrive cost effective and appropriate solutions relevant to the society (Problem-Solving Skills).
PSO3 Quality in technical subjects for successful higher studies and employment (Professional Career).

Program Outcomes (PO's)

  1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
  2. 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.
  3. 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.
  4. 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.
  5. 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.
  6. The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities re levant to the professional engineering practice.
  7. 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.
  8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  9. Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  10. 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.
  11. 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.
  12. 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.

Salient Features

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Infrastructure

Objectives Of Electronics Engineering Laboratories:

The laboratories at Behara College of Engineering and Technology are designed to teach about circuits, semiconductor devices, power systems, and control systems and enable students to develop the capabilities to design, simulate, develop, fabricate and test electronic circuits/systems for manufacturability.

The labs do provide enough strength for the maintenance of electronic devices, modules and systems also enable them to understand the construction, identification, characteristics, specifications, merits, limitations and applications of electronic components and materials.

The concepts of Design for manufacturability are also introduced to the students to enable them to have the exposure for the development of International quality products following the International Quality Controls Standards etc. All these are beyond the laboratories specified by the University.

Laboratories

Electronic Devices and Circuits Laboratory

This lab is equipped with adequate number of Function Generators/Audio Oscillators, Dual Trace Cathode Ray Oscilloscopes, Digital Storage Oscilloscopes and Regulated Power Supplies (fixed and variable).

Integrated Circuits Laboratory

The lab is used to study, design and construct electronic circuits using Analog/Digital ICs. The students perform various experiments in mathematical operations, filters, oscillators, data converters, comparators, multiplexers, flip-flops, counters, shift registers, sequence detectors, waveform generators using analog /digital ICs. In order to understand the basic concepts in analog/digital ICs, this lab is equipped with Universal IC tester, IC trainer kits, Function generators-1 MHz, Storage Oscilloscopes -50 MHz, CROs -25 MHz, Storage Oscilloscopes – 50 MHz, Fixed and Variable Power supplies.

Digital Signal Processing Laboratory

DSP lab is well equipped with 40 numbers of high performance intel core i5 & i7 systems with internet connectivity. Software packages such as MATLAB R2018A, Lab VIEW, MultiSim, ORCAD Capture PSpice, Easy PC, Top view simulator, Visual C++ and Code Composer Studio are installed in the systems. Real time signal/image processing studies are carried out using Embedded Target Board TMS320C6711/6713/6416/6748 Processors with state-of-the- art Image Daughter card

Microwave and Communication Laboratory

In this lab AM,FM,PM,ASK,FSK,PSK Modulation kits, TDM kit, sample and hold kit,60MHz, Digital storage Oscilloscopes, X band and J band Microwave Test benches, Fiber Optic analog and digital link kits, Optical fiber connectrorization and splicing accessories and Video Link fiber optic kit with TV are available.

Microprocessor Laboratory

This lab has various types of microprocessor, micro controller trainer kits along with interfacing modules to demonstrate the detailed applications of microprocessors. The facilities in the laboratory enable students to build a firm background in microprocessor hardware as well as software. Students learn about assembly language programming, CPU, memory and I/O design, interfacing of programmable chips and peripherals such as stepper motors, analog-to-digital and digital-to-analog converters etc. They acquire the practical skills sufficient to design and realize basic microprocessor based systems.

Equipments

Microprocessor kit (8085), Microprocessor kit (8086), Microcontroller kit (8051), Interface boards such as PPI, DMA Controller, Interrupt Controller, Timer, ADC, DAC, Serial Communication, Stepper Motor, Traffic Control, Keyboard and display control, PC based interface, Oscilloscopes, Function generator, power supply, RS 232c cable & connector, Universal programmer.

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