Since its inception in 2011, the department of Electronics & Communications Engineering has been offering best learning environment for imparting scientific knowledge to develop practical design engineers. Keeping pace with latest technological trends and expectations of society, the department has adapted itself with continuous involvement of its stakeholders. The faculty at ECE always motivate and nurture students’ inclination towards research and development with access to sophisticated PCB prototyping machine and latest software for publications in conferences and Journals of repute.
ECE students enjoy wide choice of career options to pursue their interest in hardware as well as software industries in telecommunication, semiconductor, optical and embedded systems. The ECE graduates have been spread successfully in software as well as hardware industry.
Global leadership and excellence in academics and research in electronics and communication engineering.
IndustryCollaborations
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Unext
Capgemini
Celebal Technology
Ericsson- Digital Role
Verzeo
Mahindra and Mahindra
Wabtec
Ericsson- Digital Role
SmartServ
Technovert-Pre Sales
Secure Meters
Secure Meters
Secure Meters
Deloitte
This lab provides an overview of the basic Communication based experiments where students would learn how transmitter and receiver system works. The student would have an opportunity to make projects sample as well.
This lab also houses CST MICROWAVE STUDIO which is a specialist tool for the 3D EM simulation of high frequency components. CST promotes Complete Technology for 3D EM and enables the fast and accurate analysis of high frequency (HF) devices such as antennas, filters, couplers, planar and multi-layer structures and SI and EMC effects. CST MWS quickly gives you an insight into the EM behaviour of your high frequency designs and offers further solver modules for specific applications.
This Lab provides competency areas in VLSI Design & Embedded Systems including IC designing concepts & Embedded system designing concepts to analyze and design complex systems containing hardware and software components.
The Simulation lab emphasizes mainly on simulation of systems such as Neural networks, Control systems etc with MATLAB software.
The Semiconductor Device Fabrication Lab is engaged in the basic research and technology development of silicon and organic based materials and devices.
This Laboratory Course is offered by Dept. of Electrical Engineering, targeting students to pursue research & development in industries or higher studies in field of Electrical Engineering, including Economic Load Dispatch, semiconductor Flow Management and semiconductor System Protection. The Lab course familiarizes students with skills required for power system analysis in software environment. It deals with the practical understanding of various protection schemes required for motor, transformer and generator protection. Students are expected to have background knowledge on semiconductor Systems Analysis and switch gear & protection for a better learning.
FlexiMEMS Research Centre (FMRC) focuses on fundamental research in the area of Flexible Biosensors and advanced energy storage device technology. FMRC is available for research and internship for all interested researchers from UG/PG and Ph.D. Scholars from MUJ and outside MUJ.
This is a first-level laboratory that aims to familiarize the student with working and characteristics of electronic devices and analog integrated circuits for providing the foundation for Integrated Electronics. Students are made familiar with and their intended use in various applications. The students are encouraged to design the circuits, analyze outputs and learns to report data.
Experiments of digital lab are implemented at Hardware as well as software level. List of experiments include study of implementation of combinational and arithmetic circuits using logic gates and MSI chips, designing of sequential circuits and implementation of FSMs for their applications. Also, students are introduced to Computer Architecture, Microprocessor and Assembly language programming with experiments to be performed using 80x86 / Arm / OpenSPARC.
MUJ provides a conducive environment for growth and learning and inspires its student to incessantly stive for excellence in every fieldThe state-of-the-art VLSI Labs and knowledgeable faculty made me pursue the VLSI field.
I was introduced to VLSI, the semiconductor world at MUJ. The faculties provide guidance, constant support and encouragement to students to grow in interested field.
The problem-solving and learner-centric environment at MUJ has provided me a perfect platform to shape my career in VLSI.
Constant experimental learning and classroom learning gave me a foundation to pursue a career in VLSI with a research publication in undergraduate studies.
Support and guidance provided by faculty helped me develop a strong foundation in the field and ultimately led to my success as a Hardware Engineer.
MUJ has helped me build my career in the stream which I have always looked forward to. Professors here are the best in their domain.
I can vouch that MUJ provided us a strong foundation in electronics that enabled us to excel in our field of work which industry requires.
Department of ECE motivated me to work hard with their highly industry-relevant curriculum and well-established laboratories offering plethora of opportunities to students interested in research
ECE department in MUJ provided a strong academic foundation and valuable opportunities for learning and growth. With well-equipped labs, good resources, and research facilities, it created a supportive environment for academic and technical development. The guidance from faculty and focus on practical learning greatly contributed to my overall journey.
The strong foundation in VLSI and digital design at Manipal University Jaipur, along with hands-on exposure to advanced VLSI tools, has been invaluable in building my concepts and adapting to industry practices. MUJ's industry-oriented curriculum and practical learning approach have played a crucial role in shaping my career, and I am grateful for the guidance of my professors and the resources provided.
Dr Dinesh Yadav bags 6G research project proposal titled “Design and Development of Fluid Antenna for 6G Wireless Communication” (Proposal ID: TTDF/6G/533), with a total budget of Rs. 40.00 Lakhs, under the Telecom Technology Development Fund (TTDF) scheme by the Department of Telecommunication (DoT), Government of India. This project will be carried out through Telecom Centres of Excellence (TCOE) India.
Dr Dinesh Yadav has published 3 Patents titled SMART WATER IRRIGATION SYSTEM FOR HOME KITCHEN GARDEN TO CONTROL OVER/UNDER WATERING (202311073185 A); A FLEXIBLE PLANNER ANTENNA WITH DEFECTED GROUND STRUCTURE FOR SMART WEARABLE IOT DEVICES (202411068935A); ANTENNA STRUCTURE FOR SUB-SIXTH GENERATION BAND ENHANCED FOR MILLIMETER-WAVE COMMUNICATION (202441064691A)
Dr Dinesh Yadav is recognized as Fellow IETE
Dr Vishal Das, Dr Chusen Duari and Prof Manish Tiwari, Dr Ankur Saharia bags two projects under MRB scheme
Research grant of Rs. 52.3801 lakhs by Directorate of Extramural Research & Intellectual Property Rights, Defence Research & Development Organization, India for research project to Dr Prashant Povel Dwivedi (PI) and Dr Himanshu Chaudhary (Co-PI)
Research grant of INR 8,38,000.00 by DST, India for Research Project to Dr. Tarun Kumar Dubey(PI), Dr. Rohit Mathur (Co-PI).
Research grant of INR 6,71,500.00 by DST, India for Research Project under Prof. Manish Tiwari.
Ongoing seed grant project For INR 1,90,000 by Dr Ankur Saharia.
Seed Money project worth INR 5,84,400.00 completed by Department faculties.
Patent granted to Dr. Amit Rathi and Dr. Amit Kumar Singh
Patent Title: REDSHIFT IN STRAINED TYPE-II ALINAS/ALASSB HETEROSTRUCTURE (201911048281)
Faculties have provided consultancy to industry for 1.38 Lakhs
The areas of research include:
• VLSI • Optics • Embedded System • Antennas • Photonics • Materials and Devices