Publications

B. Khan, E. Kalita and M. Rahman, "W-band LNA employing current reuse and non-linearity cancellation in 28 nm CMOS for automotive radar and 6G applications", IET Electronic Letters, Dec, 2024 

E. Kalita, B. Khan and M. Rahman, "A mm-wave LNA employing current re-use and non-linearity cancellation in 28 nm CMOS for automotive RADAR and 6G receivers", IET Electronic Letters, June, 2024 

S. Callendar et al., "A Fully Integrated 160Gb/s D-Band Transmitter with 1.1pJ/b Efficiency in 22nm FinFET Technology", IEEE Journal of Solid-State Circuits, Oct, 2022 (invited)

J. Park et al., "A Fully Integrated Cryo-CMOS SoC for State Manipulation, Readout, and High-Speed Gate Pulsing of Spin Qubits," IEEE Journal of Solid-State Circuits, Nov, 2021 (invited)

M. Rahman and R. Harjani, "A 2.4-GHz, Sub-1-V, 2.8-dB NF, 475 μW Dual-Path Noise and Nonlinearity Cancelling LNA for Ultra-Low-Power Radios", IEEE Journal of Solid-State Circuits, Jan, 2018 (invited)

M. Rahman and R. Harjani, "A sub-1V 194μW 31dB FOM 2.3-2.5 GHz Mixer-First Receiver Frontend for WBAN with Mutual Noise Cancellation", IEEE Transactions on Microwave Theory and Techniques, April, 2016 (invited)

 M. Rahman, M. Elbadry and R. Harjani, "An IEEE 802.15.6 Standard Compliant 2.5nJ/bit Multiband WBAN Transmitter using Phase Multiplexing and Injection Locking", IEEE Journal of Solid-State Circuits, May, 2015 (invited)

Non-orthogonal multiple access (NOMA) and multi-finger beamforming for mmWave comms. (filed in July 2018)

Self-interference canceller (filed in Sept 2020)

Radar apparatus, system and method (filed in Sept 2020)

A communication device (filed in Dec 2020)

B. Khan and M. Rahman, "A 100GHz Current Reuse Low Noise Amplifier Employing Gain Control and Non-Linearity Cancellation in 28nm CMOS", TECHCON, Austin, USA, Sept 2023

S. Callender et al., "A Fully Integrated 160Gb/s D-Band Transmitter with 1.1pJ/b Efficiency in 22nm FinFET Technology", IEEE ISSCC 2022

Jongseok Park et al., "A Fully-Integrated Cryo-CMOS SoC for Qubit Control in Quantum Computers Capable of State Manipulation, Readout and High-Speed Gate Pulsing of Spin Qubits in 22nm FinFET Technology", IEEE ISSCC 2021

M. Rahman and R. Harjani, "A 2.4GHz IEEE 802.15.6 Compliant 1.52nJ/bit TX & 1.32nJ/bit RX Multiband Transceiver for Low Power Standards", IEEE ICECS, December, 2018

M. Rahman, and R. Harjani, "A Sub-1V, 2.8dB NF, 475μW Coupled LNA for Internet of Things Employing Dual-Path Noise & Nonlinearity Cancellation", IEEE RFIC, June, 2017

M. Rahman, and R. Harjani, "CMOS Energy Efficient Integrated Radios for Emerging Low Power Standards", IEEE ISOCC, October, 2016 (invited)

M. Rahman, and R. Harjani, "A sub-1V 2.8dB NF 475μW Coupled LNA for Internet of Things Employing Passive Mutual Noise & Non-linearity Cancellation", Techcon, September, 2016 (Best in Session Award)

M. Rahman, and R. Harjani, "A 0.7V 194μW 31dB FOM 2.3-2.5 GHz RX Frontend for WBAN with Mutual Noise Cancellation using Passive Coupling ", IEEE RFIC, May, 2015 (Student Paper Finalist)

M. Rahman, and R. Harjani, "An Ultra Low Power 2.3-2.5 GHz WBAN Receiver Frontend employing Frequency Translated Mutual Noise Cancellation (FTMNC)", Techcon, September, 2015 (Best in Session Award)

M. Rahman, and R. Harjani, "A 2.5nJ/bit Multiband (MBAN & ISM) Transmitter for IEEE 802.15.6 based on a Hybrid Polyphase-MUX/ILO based Modulator ", IEEE RFIC, June, 2014 (Student Paper Finalist)

M. Rahman, and R. Harjani, "An Ultra Low Power Multiband WBAN Transmitter using a Novel ILO Based Modulator", Techcon, September, 2014 (Best in Session Award)

M. Rahman, K.L. Baishnab, F.A. Talukdar, "A novel ROM architecture for reducing bubble and metastability errors in high speed flash ADCs", IEEE IECC, Mexico, Feb, 2010

M. Rahman, K. L. Baishnab, F. A. Talukdar, "A High Speed & High Resolution VLSI Winner-Take-All Circuit", IEEE ISSCS, Romania, July, 2009

M. Rahman, Roy Paily, "Building Blocks of an Implantable Microfluidic Chip to Control Blood Glucose Level by Insulin Delivery", ICMEMS IIT Madras, January, 2009 

M. Rahman, and R. Harjani, "Design of Low Power Integrated Radios for Emerging Standards," Publisher: Springer