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Anoop Narayan Bhat
Anoop Narayan Bhat
Researcher, imec, Eindhoven
Verified email at imec.be
Title
Cited by
Cited by
Year
A baseband-matching-resistor noise-canceling receiver architecture to increase in-band linearity achieving 175MHz TIA bandwidth with a 3-stage inverter-only OpAmp
AN Bhat, R van der Zee, S Finocchiaro, F Dantoni, B Nauta
2019 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 155-158, 2019
222019
Periodic bandwidth widening for inductive coupled communications
S Mukherjee, A Bhat, KA Shrivastava
US Patent 9,634,736, 2017
192017
25.4 A 500Mb/s 200pJ/b die-to-die bidirectional link with 24kV surge isolation and 50kV/µs CMR using resonant inductive coupling in 0.18 µm CMOS
S Mukherjee, AN Bhat, KA Shrivastava, M Bonu, B Sutton, V Gopinathan, ...
2017 IEEE International Solid-State Circuits Conference (ISSCC), 434-435, 2017
192017
Periodic bandwidth widening for inductive coupled communications
S Mukherjee, A Bhat, KA Shrivastava
US Patent 9,385,790, 2016
192016
A baseband-matching-resistor noise-canceling receiver with a three-stage inverter-only Opamp for high in-band IIp3 and wide IF applications
AN Bhat, RAR van Der Zee, B Nauta
IEEE journal of solid-state circuits 56 (7), 1994-2006, 2020
162020
A 22-nm FDSOI CMOS Low-Noise Active Balun Achieving < −44-dBc HD3 Up To 1.5-Vp-p Output Swing Over 0.01–5.4-GHz for Direct RF Sampling Applications
AN Bhat, RAR van der Zee, B Nauta
IEEE journal of solid-state circuits 57 (5), 1432-1445, 2021
72021
Maximizing the data rate of an inductively coupled chip-to-chip link by resetting the channel state variables
N Krishnapura, AN Bhat, S Mukherjee, KA Shrivastava, M Bonu
IEEE Transactions on Circuits and Systems I: Regular Papers 66 (9), 3531-3543, 2019
52019
Fast current-based envelope detector
S Mukherjee, AN Bhat
US Patent 10,627,430, 2020
42020
An 8.7 mW/TX, 21 mW/RX 6-to-9GHz IEEE 802.15. 4a/4z compliant IR-UWB transceiver with pulse pre-emphasis achieving 14mm ranging precision
M Song, E Allebes, C Marshall, AN Bhat, E Bechthum, J Dijkhuis, ...
2023 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and …, 2023
22023
23.5 A 7.6 mW IR-UWB Receiver Achieving-13dBm Blocker Resilience with a Linear RF Front-End
AN Bhat, P Mateman, Z Xu, P Vis, P Detterer, GK Ramachandra, Y Baykal, ...
2024 IEEE International Solid-State Circuits Conference (ISSCC) 67, 408-410, 2024
2024
A Low-Power 6–9-GHz IEEE 802.15. 4a/4z Compliant IR-UWB Transceiver With Pulse Pre-Emphasis Achieving High ToA Precision
M Song, E Allebes, C Marshall, AN Bhat, E Bechthum, J Dijkhuis, ...
IEEE Solid-State Circuits Letters 6, 297-300, 2023
2023
Wide band linearization techniques for RF receiver front-ends
AN Bhat
2022
A 22-nm FDSOI CMOS Low Noise xxxxxxx
AN Bhat, RAR van der Zee, B Nauta
IEEE journal of solid-state circuits, 2021
2021
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