Notice Board
Welcome to the Department of Electronics Engineering.
With a vision to evolve into a globally accredited hub for quality education and transformative learning in electronics, communication, and allied fields, the Department of Electronics Engineering at ISM Dhanbad is committed to serving society through innovation, research, and academic excellence. Our focus is on nurturing enthusiasm among students and equipping them with the knowledge and skills needed to thrive in a rapidly changing technological landscape.
The department began its journey in 1976 as a supporting unit within the institute and emerged as an independent academic department in 1998. Since then, it has offered the B.Tech program in Electronics and Communication Engineering, admitting students through the prestigious IIT JEE examination.
Our department is enriched by a team of highly qualified faculty members and is equipped with state-of-the-art laboratories, advanced computing resources, and ongoing research and development projects. These assets significantly contribute to our mission of academic advancement, impactful research, and career development for our students.
The curriculum is meticulously designed and continuously updated to reflect the latest technological trends and industry needs. We currently offer the following academic programs:
In addition to these, the department also offers a comprehensive Ph.D. program in a wide range of specializations within electronics and communication engineering.
It indeed gives me great satisfaction and pride to be at the helm of affair of vibrant department with dynamic faculty colleagues, talented B.Tech and hardworking M.Tech students, dedicated Research Scholars, and a very efficient supporting staffs. The pool of alumni of our department with their hard work and skills has given the department ample recognition globally in only a matter of few years (1st Batch graduated in year 2002). After establishing in the field of teaching and R&D, the present endeavor of the department is to increase interaction with core and software companies in term of collaborative projects, laboratory upgradation based on the industry standard and student involvement in training and placement. Collaboration with foreign institutes of excellence in the field of Electronics Engineering is also present drive of our department. In this regard, I wish to invite foreign universities/institutes and industries as well as concerned companies to interact with the department and give our students opportunity to show their talent and knowledge by involving them in summer training, on and off campus placement and state of art projects.
Head of the Department
“Patent Grant” titled “Shielded Half-Mode Substrate Integrated Waveguide-Based Self-Diplexing Antenna Array and Method of Manufacturing Thereof”, granted by the Intellectual Property Office, India (Patent No. IN584040 B1), effective from March 2026, developed by the inventors Mr. Amit Kr Pandey, Dr. Kundan Kumar Suman, and Prof. Ravi Kumar Gangwar.
“Patent Grant” titled “Folded Substrate Integrated Waveguide Derived Specially Designed Microwave Rotary Sensor” with grant no. 579630 effective from June 2025, developed by the inventors, Prof. Prashant Kumar Varshney and his research scholar Ms. Rachna Prabha.
This patent discloses a compact circularly polarized (CP) four-port multiple-input multiple-output antenna system developed using a dielectric resonator and integrated with a 3D-printed PLA radome for unmanned aerial vehicle (UAV) video transmission. The design employs open-loop conformal strips with lateral metallic strips to generate CP radiation, while a novel decoupling structure consisting of a cross-stub with a central ring and a labyrinth-shaped defected ground structure significantly enhances inter-port isolation (>16.8 dB). Operating in the 5.7–5.9 GHz band, the antenna achieves a measured gain of about 5.5 dBic with efficiency exceeding 90%, ensuring robust performance against multipath effects. The radome not only protects the antenna in harsh environments but also preserves aerodynamic stability, making the system highly suitable for reliable UAV-based video and communication applications.
The book explores groundbreaking concepts in microwave photonics, bridging microwave engineering and photonics, with applications in high-speed communications, radar, aerospace, defense, biomedical sensing, and signal processing.
A.Dahiya,P.Pal,S.Rani,M.K.Gautam,R.S.Babu,S.Kumar“Two-dimensional layered materials-based energy-efficient optoelectronic memories: A leap towards bionic vision, Materials Science and Engg.R:Reports,vol.168, https://doi.org/10.1016/j.mser.2025.101146
AartiDahiya,S.Rani,S.Kumar,T.Prodromakis, “Low-voltage-Driven Memristor Framework for Efficient Neuromorphic Computation with STDP Functionality”, Frontiers in Nanotechnology Nanoelectronics,vol.7,no.1723433, https://doi.org/10.3389/fnano.2025.1723433
AartiDahiya,S.Kumar,S.Rani,“Exploring Multi-level Current and Impedance Spectroscopy Analysis of Atomic Layer Deposited HfO2/Ta2O5 Memristive Devices”, IEEE Transactions on Electron Devices,vol.72,no.12,pp.110,2025,https:/doi.org/10.1109/TED.2025.3635115
Bootcamp on Electronics for Unmanned Aerial Systems, Sensors, and Communication
18 Jun, 2025
One Week GIAN Course On (in-virtual mode) Memristor and its Applications in Neuromorphic Computations
23 Jun, 2025
Workshop on Fiber Optic Sensors and its Applications
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