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Susnata Mondal
Susnata Mondal
Research Scientist at Intel Labs, Carnegie Mellon University
Verified email at intel.com
Title
Cited by
Cited by
Year
A 25–30 GHz Fully-Connected Hybrid Beamforming Receiver for MIMO Communication
S Mondal, R Singh, AI Hussein, J Paramesh
IEEE Journal of Solid-State Circuits, JSSC 2018, 53 (5), 1275-1287, 2018
1232018
A Reconfigurable 28-/37-GHz MMSE-Adaptive Hybrid-Beamforming Receiver for Carrier Aggregation and Multi-Standard MIMO Communication
S Mondal, J Paramesh
IEEE Journal of Solid-State Circuits, JSSC 2019, 54 (5), 1391-1406, 2019
862019
21.3 A reconfigurable bidirectional 28/37/39GHz front-end supporting MIMO-TDD, carrier aggregation TDD and FDD/Full-duplex with self-interference cancellation in digital and …
S Mondal, R Singh, J Paramesh
IEEE International Solid-State Circuits Conference, ISSCC 2019, Paper 21.3, 2019
422019
A reconfigurable 28/37GHz hybrid-beamforming MIMO receiver with inter-band carrier aggregation and RF-domain LMS weight adaptation
S Mondal, R Singh, J Paramesh
IEEE International Solid-State Circuits Conference, ISSCC 2018, Paper 4.5, 2018
402018
Power-Efficient Design Techniques for mm-Wave Hybrid/Digital FDD/Full-Duplex MIMO Transceivers
S Mondal, J Paramesh
IEEE Journal of Solid-State Circuits, JSSC 2020, 55 (8), 2011-2026, 2020
392020
A 25-30 GHz 8-antenna 2-stream hybrid beamforming receiver for MIMO communication
S Mondal, R Singh, AI Hussein, J Paramesh
IEEE Radio Frequency Integrated Circuits Symposium, RFIC 2017, 112-115, 2017
332017
A 28/37 GHz Scalable, Reconfigurable Multi-Layer Hybrid/Digital MIMO Transceiver for TDD/FDD and Full-Duplex Communication
S Mondal, R Carley, J Paramesh
IEEE International Solid-State Circuits Conference, ISSCC 2020, Paper 4.4, 2020
322020
A Millimeter-wave Receiver Using a Wideband Low-Noise Amplifier With One-Port Coupled Resonator Loads
R Singh, S Mondal, J Paramesh
IEEE Transactions on Microwave Theory and Techniques, TMTT 2020, 2020
322020
Millimeter-Wave Full Duplex Radios
V Singh, S Mondal, A Gadre, M Srivastava, J Paramesh, S Kumar
MobiCom: The 26th Annual International Conference on Mobile Computing and …, 2020
312020
Dual-band, two-layer millimeter-wave transceiver for hybrid MIMO systems
S Mondal, LR Carley, J Paramesh
IEEE Journal of Solid-State Circuits, JSSC 2022, 57 (2), 339-355, 2022
252022
A Compact Digitally-Assisted Merged LNA Vector Modulator Using Coupled Resonators for Integrated Beamforming Transceivers
R Singh, S Mondal, J Paramesh
IEEE Transactions on Microwave Theory and Techniques, TMTT 2019, 2019
182019
A 25.1-27.6 GHz Tunable-Narrowband Digitally-Calibrated Merged LNA-Vector Modulator for 5G Phased Arrays
R Singh, S Mondal, J Paramesh
IEEE Radio Frequency Integrated Circuits Symposium, RFIC 2018, 4-7, 2018
62018
Scalable, multi-Layer MIMO transceiver
J Paramesh, S Mondal, RL Carley
US Patent 11,569,897, 2023
22023
Reconfigurable fully-connected bidirectional hybrid beamforming transceiver
J Paramesh, S Mondal
US Patent 10,951,295, 2021
22021
Reconfigurable hybrid beamforming MIMO receiver with inter-band carrier aggregation and RF-domain LMS weight adaptation
J Paramesh, S Mondal
US Patent 11,251,859, 2022
12022
A 4x50Gb/s NRZ 1.5pJ/b Co-Packaged and Fiber-Terminated 4-Channel Optical RX
S Krishnamurthy, S Mondal, J Qiu, J Kennedy, S Bose, T Acikalin, ...
IEEE Symposium on VLSI Technology & Circuits, VLSI 2024, 2024
2024
A 4x64Gb/s NRZ 1.3 pJ/b Co-Packaged and Fiber-Terminated 4-Ch VCSEL-Based Optical Transmitter
S Mondal, J Qiu, S Krishnamurthy, J Kennedy, S Bose, T Acikalin, ...
IEEE International Solid-State Circuits Conference, ISSCC 2024, Paper 18.2, 2024
2024
Resonant clocking employing resonance at fundamental and harmonic frequencies
S Mondal, M Mansuri
US Patent App. 17/556,706, 2023
2023
Transmission-line-based resonant quadrature clock distribution with harmonic filtering
S Mondal, M Mansuri
US Patent App. 17/481,956, 2023
2023
Reconfigurable, bi-directional, multi-band front end for a hybrid beamforming transceiver
J Paramesh, S Mondal
US Patent 11,533,096, 2022
2022
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