Electronics and Communication Engineering
About the Department
The Department of Electronics and Communication Engineering was established in 2001 with an intake of 60 students. It offers a comprehensive curriculum combining theory and practical knowledge in core ECE domains. The program equips students with skills in design, development, and research across modern technologies. The department has well-equipped laboratories to enhance hands-on learning and innovation. Smart TVs are installed in classrooms to support advanced and interactive teaching. Classrooms are spacious, well-lit, and ventilated, providing a comfortable learning environment. Experienced and dedicated faculty members guide students toward academic and professional excellence. Students are encouraged to participate in projects, workshops, and research activities. The department continuously updates its curriculum to meet industry and global standards. It aims to produce competent, innovative, and ethical engineers ready to serve the nation and the world.
Department Details
Vision
"To produce disciplined, knowledgeable and well-equipped Engineers to architect the future world of Electronics and Communication."
Mission
Department of Electronics and Communication Engineering is committed to,
- M1: To achieve global eminence in the field of Electronics and Communication Engineering.
- M2: To nurture students in a multidisciplinary approach, relating engineering issues to the broader social context.
- M3: To provide essential knowledge & skill to the students and enhance their employable potential and entrepreneurial capabilities.
Program Educational Objectives (PEO)
- PEO 1: Apply their Technical skills in software and Hardware domains to solve complex electronics and communication engineering problems.
- PEO 2: To use their skills in ethical and professional manner to raise the satisfaction level of the stakeholders.
- PEO 3: To promote student awareness on the life-long learning in accordance with technological advancement.
Key Highlights
Established in 2001, offering a strong curriculum that integrates theory, practical learning, and research.
Equipped with modern laboratories and smart classrooms to promote innovation and hands-on experience.
Guided by experienced faculty and supported by active industry collaborations for internships and placements.
Department Details
| Category | Details |
|---|---|
| NBA accreditation | 2018 |
| Best Industry linked department award | — |
| Research centre | — |
| Faculty members awards and fellowships from | — |
| Sponsored research projects | — |
| Publications by faculty in national and international journals | — |
| Students awards from | — |
| student's projects in association with | — |
| MoU | BSNL |
| International certification course | — |
Milestones
| Year | Milestone |
|---|---|
| 2024 | 38 students completed Internal Auditor Certification Courses (Quality Austria Central Asia). FoSTaC (National level) |
Laboratory Facilities
Linear Integrated Circuits Laboratory
This lab focuses on the analysis and design of analog electronic circuits used in communication and signal processing systems. Students study feedback amplifiers, oscillators such as RC phase shift, Wien bridge, Hartley, and Colpitts, and analyze their frequency response and stability. The lab also covers Op-Amp applications including integrators, differentiators, instrumentation amplifiers, and active filters. Additionally, students explore waveform shaping circuits like clippers and clampers. Concepts of phase-locked loops (PLL) and digital-to-analog conversion using R-2R ladder networks are also introduced.
Electronic Devices and Circuits Laboratory
This lab focuses on understanding the characteristics and applications of semiconductor devices and amplifiers. Students analyze PN junction and Zener diodes, along with rectifier circuits and voltage regulators. The lab includes studying transistor configurations such as CE, CB, and CC, and evaluating their input-output and frequency responses. It also covers MOSFET characteristics and advanced amplifier circuits like cascode and differential amplifiers. Additionally, students explore power amplifiers and measure parameters like CMRR. The objective is to build a strong foundation in electronic circuit analysis and design.
VLSI Laboratory
This lab focuses on the design and implementation of digital and VLSI circuits using Hardware Description Language (HDL). Students learn to develop combinational and sequential circuits, including adders, multipliers, shift registers, and counters, and simulate them using tools like Xilinx and Altera Quartus. The lab also emphasizes the design of finite state machines and memory elements, followed by FPGA implementation. Additionally, students explore CMOS circuit design, including logic gates, amplifiers, and differential amplifiers with layout generation. The objective is to build strong skills in digital design, simulation, and VLSI system development.
Digital Signal Processing Laboratory
This lab focuses on fundamental concepts of Digital Signal Processing (DSP) and their practical implementation. Students learn to generate discrete-time signals and perform operations like convolution, correlation, and frequency analysis using DFT. The lab emphasizes the design and implementation of FIR and IIR filters, including Butterworth and Chebyshev filters for various applications. It also covers DSP processor architecture and operations like MAC using different addressing modes. Additionally, students explore signal generation, noise analysis, and sampling techniques such as up-sampling and down-sampling.
Networks and Security Laboratory
This lab focuses on the implementation of core concepts in computer networks and data communication. Students learn framing techniques, error detection and correction methods such as LRC, CRC, and Hamming code. The lab also covers flow control protocols including Stop-and-Wait, Sliding Window, Go-Back-N, and Selective Repeat. Routing algorithms like Distance Vector (Bellman-Ford) and Link State (Dijkstra's) are implemented for network path optimization. Additionally, students explore data encryption techniques using DES and RSA, along with client-server communication using the FTP protocol.
Content Coming Soon
Faculty details will be updated shortly.
Department Library
The ECE department has a separate department library to cater to the specific needs of the engineering students. Our well-stocked library provides students with a vast collection of books across various disciplines, fostering a culture of learning and research. With resources covering engineering, management, computer science, and more, students have access to the best academic materials. Our serene reading environment ensures an enriching study experience, helping students excel in their fields. Come and explore the knowledge hub of our institution.
| Category | Details |
|---|---|
| Number of Books | 750 |
| Number of Video Cassettes | 15 |
| Number of Charts | 40 |
| Number of Newspapers Subscribed | 3 |
| Number of International Journals | 25 |
| Number of National Journals | 15 |
Content Coming Soon
Patent details will be updated shortly.
Content Coming Soon
Testing and consultancy details will be updated shortly.
Content Coming Soon
R&D academic details will be updated shortly.
Content Coming Soon
R&D activities details will be updated shortly.
About the Department
The Department of Electronics and Communication Engineering was established in 2001 with an intake of 60 students. It offers a comprehensive curriculum combining theory and practical knowledge in core ECE domains. The program equips students with skills in design, development, and research across modern technologies. The department has well-equipped laboratories to enhance hands-on learning and innovation. Smart TVs are installed in classrooms to support advanced and interactive teaching. Classrooms are spacious, well-lit, and ventilated, providing a comfortable learning environment. Experienced and dedicated faculty members guide students toward academic and professional excellence. Students are encouraged to participate in projects, workshops, and research activities. The department continuously updates its curriculum to meet industry and global standards. It aims to produce competent, innovative, and ethical engineers ready to serve the nation and the world.
Department Details
Vision
"To produce disciplined, knowledgeable and well-equipped Engineers to architect the future world of Electronics and Communication."
Mission
Department of Electronics and Communication Engineering is committed to,
- M1: To achieve global eminence in the field of Electronics and Communication Engineering.
- M2: To nurture students in a multidisciplinary approach, relating engineering issues to the broader social context.
- M3: To provide essential knowledge & skill to the students and enhance their employable potential and entrepreneurial capabilities.
Program Educational Objectives (PEO)
- PEO 1: Apply their Technical skills in software and Hardware domains to solve complex electronics and communication engineering problems.
- PEO 2: To use their skills in ethical and professional manner to raise the satisfaction level of the stakeholders.
- PEO 3: To promote student awareness on the life-long learning in accordance with technological advancement.
Key Highlights
Established in 2001, offering a strong curriculum that integrates theory, practical learning, and research.
Equipped with modern laboratories and smart classrooms to promote innovation and hands-on experience.
Guided by experienced faculty and supported by active industry collaborations for internships and placements.
Department Details
Milestones
FoSTaC (National level)
Laboratory Facilities
Linear Integrated Circuits Laboratory
This lab focuses on the analysis and design of analog electronic circuits used in communication and signal processing systems. Students study feedback amplifiers, oscillators such as RC phase shift, Wien bridge, Hartley, and Colpitts, and analyze their frequency response and stability. The lab also covers Op-Amp applications including integrators, differentiators, instrumentation amplifiers, and active filters. Additionally, students explore waveform shaping circuits like clippers and clampers. Concepts of phase-locked loops (PLL) and digital-to-analog conversion using R-2R ladder networks are also introduced.
Electronic Devices and Circuits Laboratory
This lab focuses on understanding the characteristics and applications of semiconductor devices and amplifiers. Students analyze PN junction and Zener diodes, along with rectifier circuits and voltage regulators. The lab includes studying transistor configurations such as CE, CB, and CC, and evaluating their input-output and frequency responses. It also covers MOSFET characteristics and advanced amplifier circuits like cascode and differential amplifiers. Additionally, students explore power amplifiers and measure parameters like CMRR. The objective is to build a strong foundation in electronic circuit analysis and design.
VLSI Laboratory
This lab focuses on the design and implementation of digital and VLSI circuits using Hardware Description Language (HDL). Students learn to develop combinational and sequential circuits, including adders, multipliers, shift registers, and counters, and simulate them using tools like Xilinx and Altera Quartus. The lab also emphasizes the design of finite state machines and memory elements, followed by FPGA implementation. Additionally, students explore CMOS circuit design, including logic gates, amplifiers, and differential amplifiers with layout generation. The objective is to build strong skills in digital design, simulation, and VLSI system development.
Digital Signal Processing Laboratory
This lab focuses on fundamental concepts of Digital Signal Processing (DSP) and their practical implementation. Students learn to generate discrete-time signals and perform operations like convolution, correlation, and frequency analysis using DFT. The lab emphasizes the design and implementation of FIR and IIR filters, including Butterworth and Chebyshev filters for various applications. It also covers DSP processor architecture and operations like MAC using different addressing modes. Additionally, students explore signal generation, noise analysis, and sampling techniques such as up-sampling and down-sampling.
Networks and Security Laboratory
This lab focuses on the implementation of core concepts in computer networks and data communication. Students learn framing techniques, error detection and correction methods such as LRC, CRC, and Hamming code. The lab also covers flow control protocols including Stop-and-Wait, Sliding Window, Go-Back-N, and Selective Repeat. Routing algorithms like Distance Vector (Bellman-Ford) and Link State (Dijkstra's) are implemented for network path optimization. Additionally, students explore data encryption techniques using DES and RSA, along with client-server communication using the FTP protocol.
Content Coming Soon
Faculty details will be updated shortly.
Department Library
The ECE department has a separate department library to cater to the specific needs of the engineering students. Our well-stocked library provides students with a vast collection of books across various disciplines, fostering a culture of learning and research. With resources covering engineering, management, computer science, and more, students have access to the best academic materials. Our serene reading environment ensures an enriching study experience, helping students excel in their fields. Come and explore the knowledge hub of our institution.
Content Coming Soon
Patent details will be updated shortly.
Content Coming Soon
Testing and consultancy details will be updated shortly.
Content Coming Soon
R&D academic details will be updated shortly.
Content Coming Soon
R&D activities details will be updated shortly.