Scientist at Central Electronics Engineering Research Institute, Pilani, India
Deepak Bansal is a Principal Scientist at the CSIR-Central Electronics Engineering Research Institute (CEERI) in Pilani, Rajasthan. With over a decade of experience in the field of MEMS (Micro-Electro-Mechanical Systems), his work has significantly contributed to the development and advancement of RF MEMS technology. In addition to his role at CEERI, he also serves as an Associate Professor at the Academy of Scientific and Innovative Research (AcSIR), Ghaziabad, where he guides and mentors students in cutting-edge research.
Professional Profile:
Educationπ
Deepak Bansal holds an advanced degree in electronics and telecommunications, which laid the foundation for his expertise in MEMS technology. His academic background provided him with the theoretical knowledge and practical skills necessary to excel in the highly specialized field of RF MEMS design and fabrication. Further details about his education are not provided, but his progression in his professional career indicates a strong educational background.
Professional ExperienceπΌ
Deepak Bansal’s professional journey began as an Adhoc Scientist at CSIR-CEERI in 2010, where he focused on the design and fabrication of MEMS devices. He later advanced to the role of Scientist, working on RF MEMS design, fabrication, and packaging. In 2014, he was promoted to Senior Scientist, where he focused on the characterization and parasitic control of RF MEMS. Since 2018, he has held the position of Principal Scientist at CEERI, where his work encompasses the design, fabrication, characterization, and packaging of MEMS and mass spectrometry devices. In addition to his scientific research, he has guided 14 scholars, including four Ph.D. students, contributing to the academic growth of the field.
Research Interestπ¬
Deepak Bansal’s research interests are centered around MEMS technology, with a specific focus on RF MEMS design, fabrication, and packaging. His work includes developing compact and high-performance RF MEMS switches, which are critical for modern communication systems. Additionally, his research explores the integration of MEMS with mass spectrometry, aiming to enhance the precision and efficiency of analytical devices. His recent work has also delved into the fabrication processes for improving the isolation and performance of RF MEMS switches, especially for 5G applications.
Awards and Honorsπ
Throughout his career, Deepak Bansal has received numerous accolades for his contributions to MEMS technology. In 2020, he was awarded the Excellence in Research Award for his development of high-performance RF MEMS switches. His mentorship has also been recognized through the achievements of his students, including awards like the Dr. (Mrs.) Swaraj Srivastava Memorial Research Encouragement Award for Women and the second-best Ph.D. award from the Institute of Smart Structures and Systems, India. Furthermore, he is an associate member of the Institute of Engineers India (IEI), a fellow member of the Institution of Electronics and Telecommunication Engineers (IETE), and a lifetime member of the Institute of Smart Structures and Systems (ISSS). His professional affiliations and recognitions underscore his standing in the scientific community.
Achievementsπ
- Excellence in Research Award (2020): Received for the development of compact, lightweight, and high-performance RF MEMS switches.
- Mentorship Success: Guided 14 scholars, including 4 Ph.D. students, with notable achievements such as:
- Dr. (Mrs.) Swaraj Srivastava Memorial Research Encouragement Award for Women (2021): Awarded to Ms. Aashudeep Minhas, SRF scholar under his guidance.
- Second Best Ph.D. Award (2022): Awarded to Dr. Anuroop Bajpai by the Institute of Smart Structures and Systems, India.
- Professional Memberships and Roles:
- Associate Member of the Institute of Engineers India (IEI) since 2013.
- Lifetime Member of the Institute of Smart Structures and Systems (ISSS) since 2019.
- Fellow Member of the Institution of Electronics and Telecommunication Engineers (IETE) since 2020.
- Treasurer of CEERI Educational Society since 2017.
- Publications: Authored 80 research papers, with notable publications in high-impact journals such as IEEE Transactions on Electron Devices and Sensors & Actuators: A. Physical.
- Patents: Filed multiple patents, including:
- RF MEMS-based Smart Impedance Tuner Module: Filed in April 2022, published in December 2023.
- Contact-less Terahertz MEMS Switch: Filed in December 2022, published in June 2024.
- Micromachining of Glass Substrate Using Wet Etching Technique for MEMS Acoustic Sensors: Filed in February 2023.
Publications top notedπ
- Design of novel compact anti-stiction and low insertion loss RF MEMS switch
π Authors: D Bansal, A Kumar, A Sharma, P Kumar, KJ Rangra
π
Year: 2014
π Citations: 69
π Journal: Microsystem Technologies 20 (2), 337-340
- Low voltage driven RF MEMS capacitive switch using reinforcement for reduced buckling
π Authors: D Bansal, A Bajpai, P Kumar, M Kaur, A Kumar, A Chandran, K Rangra
π
Year: 2016
π Citations: 34
π Journal: Journal of Micromechanics and Microengineering 27 (2), 024001
- A novel capacitive RF-MEMS switch for multi-frequency operation
π Authors: M Angira, D Bansal, P Kumar, K Mehta, K Rangra
π
Year: 2019
π Citations: 27
π Journal: Superlattices and Microstructures 133, 106204
- Design of compact and wide bandwidth SPDT with anti-stiction torsional RF MEMS series capacitive switch
π Authors: D Bansal, A Kumar, A Sharma, KJ Rangra
π
Year: 2015
π Citations: 26
π Journal: Microsystem Technologies 21 (5), 1047-1052
- Improved design of ohmic RF MEMS switch for reduced fabrication steps
π Authors: D Bansal, A Bajpai, K Mehta, P Kumar, A Kumar
π
Year: 2019
π Citations: 23
π Journal: IEEE Transactions on Electron Devices 66 (10), 4361-4366
- On the investigation of an interdigitated, high capacitance ratio shunt RF-MEMS switch for X-band applications
π Authors: M Angira, GM Sundaram, K Rangra, D Bansal, M Kaur
π
Year: 2013
π Citations: 23
π Journal: Proc. NSTI Nanotechnol 2, 189-192
- Fabrication and analysis of MEMS test structures for residual stress measurement
π Authors: A Sharma, D Bansal, M Kaur, P Kumar, D Kumar, R Sharma, KJ Rangra
π
Year: 2011
π Citations: 21
π Journal: Sensors & Transducers 13, 21-30
- Comparative study of various release methods for gold surface micromachining
π Authors: A Sharma, P Jhanwar, D Bansal, A Kumar, M Kaur, S Pandey, P Kumar
π
Year: 2014
π Citations: 17
π Journal: Journal of Micro/Nanolithography, MEMS, and MOEMS 13 (1), 013005-013005
- Effect of stress on pull-in voltage of RF MEMS SPDT switch
π Authors: D Bansal, A Bajpai, P Kumar, M Kaur, A Kumar
π
Year: 2020
π Citations: 16
π Journal: IEEE Transactions on Electron Devices 67 (5), 2147-2152
- Fabrication and analysis of radiofrequency MEMS series capacitive single-pole double-throw switch
π Authors: D Bansal, A Bajpai, P Kumar, M Kaur, K Rangra
π
Year: 2016
π Citations: 16
π Journal: Journal of Micro/Nanolithography, MEMS, and MOEMS 15 (4), 045001-045001
