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Nirmoy Modak
Nirmoy Modak
Assistant Professor, Department of ETCE, Jadavpur University
Verified email at jadavpuruniversity.in
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27.3 EM and power SCA-resilient AES-256 in 65nm cmos through> 350× current-domain signature attenuation
D Das, J Danial, A Golder, N Modak, S Maity, B Chatterjee, D Seo, ...
2020 IEEE International Solid-State Circuits Conference-(ISSCC), 424-426, 2020
442020
EM and power SCA-resilient AES-256 through> 350× current-domain signature attenuation and local lower metal routing
D Das, J Danial, A Golder, N Modak, S Maity, B Chatterjee, DH Seo, ...
IEEE Journal of Solid-State Circuits 56 (1), 136-150, 2020
392020
Sub-μWRComm: 415-nW 1–10-kb/s Physically and Mathematically Secure Electro-Quasi-Static HBC Node for Authentication and Medical Applications
S Maity, N Modak, D Yang, M Nath, S Avlani, D Das, J Danial, P Mehrotra, ...
IEEE Journal of Solid-State Circuits 56 (3), 788-802, 2021
212021
A 1.15μW 5.54mm3 Implant with a Bidirectional Neural Sensor and Stimulator SoC utilizing Bi-Phasic Quasi-static Brain Communication achieving 6kbps-10Mbps …
B Chatterjee, G Kumar, M Nath, S Xiao, N Modak, D Das, J Krishna, S Sen
2021 Symposium on VLSI Circuits, 1-2, 2021
202021
Bio-Physical Modeling of Galvanic Human Body Communication in Electro-Quasistatic Regime
N Modak, M Nath, B Chatterjee, S Maity, S Sen
IEEE Transactions on Biomedical Engineering 69 (12), 3717-3727, 2022
192022
A 415 nw physically and mathematically secure electro-quasistatic hbc node in 65nm cmos for authentication and medical applications
S Maity, N Modak, D Yang, S Avlani, M Nath, J Danial, D Das, P Mehrotra, ...
2020 IEEE Custom Integrated Circuits Conference (CICC), 1-4, 2020
182020
A sub-1 V, 120 nW, PVT-variation tolerant, tunable, and scalable voltage reference with 60-dB PSNA
B Chatterjee, N Modak, A Amaravati, D Mistry, DM Das, MS Baghini
IEEE Transactions on Nanotechnology 16 (3), 406-410, 2017
152017
EQS Res-HBC: A 65-nm Electro-Quasistatic Resonant 5–240 μW Human Whole-Body Powering and 2.19 μW Communication SoC With Automatic Maximum …
N Modak, D Das, M Nath, B Chatterjee, G Kumar, S Maity, S Sen
IEEE Journal of Solid-State Circuits 57 (3), 831-844, 2022
142022
A 65nm resonant electro-quasistatic 5-240uw human whole-body powering and 2.19 uw communication soc with automatic maximum resonant power tracking
N Modak, D Das, M Nath, B Chatterjee, KG Kumar, S Maity, S Sen
2021 IEEE Custom Integrated Circuits Conference (CICC), 1-2, 2021
102021
A 65nm 63.3 µW 15Mbps Transceiver with Switched-Capacitor Adiabatic Signaling and Combinatorial-Pulse-Position Modulation for Body-Worn Video-Sensing AR Nodes
B Chatterjee, A Datta, M Nath, G Kumar, N Modak, S Sen
2022 IEEE International Solid-State Circuits Conference (ISSCC) 65, 276-278, 2022
82022
Channel modeling for physically secure electro-quasistatic in-body to out-of-body communication with galvanic Tx and multimodal Rx
A Datta, M Nath, B Chatterjee, N Modak, S Sen
2021 IEEE MTT-S International Microwave Symposium (IMS), 116-119, 2021
72021
27.3 EM and power SCA-r AES-256 in 65nm CMOS through> 350◦ current-domain signature attenuation. In 2020 IEEE International Solid-State Circuits Conference (ISSCC). 424–426
D Das, J Danial, A Golder, N Modak, S Maity, B Chatterjee, D Seo, ...
62020
A 120 nW, tunable, PVT invariant voltage reference with 80 dB supply noise rejection
N Modak, B Chatterjee, A Anvesha, MS Baghini
2015 IEEE International Symposium on Nanoelectronic and Information Systems …, 2015
62015
ISSCC 2022/SESSION 16/EMERGING DOMAIN-SPECIFIC DIGITAL CIRCUITS AND SYSTEMS/16.6
B Chatterjee, A Datta, M Nath, G Kumar, N Modak, S Sen
ISSCC 2020/SESSION 27/IoT & SECURITY/27.3
D Das, J Danial, A Golder, N Modak, S Maity, B Chatterjee, D Seo, ...
A Temperature, Supply Invariant and Process Tolerant Current Reference Circuit
Nirmoy Modak, Maryam Shojaei
IN Patent App. 4309/MUM/2,015, 0
Tunable reference voltage generating circuit and method thereof
Nirmoy Modak, Baibhab Chatterjee, Maryam Shojaei
IN Patent App. 2464/MUM/2,015, 0
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