A 60 GHz frequency generator based on a 20 GHz oscillator and an implicit multiplier Z Zong, M Babaie, RB Staszewski
IEEE Journal of Solid-State Circuits 51 (5), 1261-1273, 2016
161 2016 A Low-Noise Fractional- Z Zong, P Chen, RB Staszewski
IEEE Journal of Solid-State Circuits 54 (3), 755-767, 2018
82 2018 A 31- P Chen, F Zhang, Z Zong, S Hu, T Siriburanon, RB Staszewski
IEEE Journal of Solid-State Circuits 54 (11), 3075-3085, 2019
48 2019 A 21-to-41-GHz high-gain low noise amplifier with triple-coupled technique for multiband wireless applications Y Yu, J Zhu, Z Zong, P Tang, H Liu, C Zhao, Y Wu, K Kang
IEEE Transactions on Circuits and Systems II: Express Briefs 68 (6), 1857-1861, 2020
37 2020 60 GHz frequency generator incorporating third harmonic boost and extraction Z Zong, M Babaie, RB Staszewski
US Patent 9,385,651, 2016
29 2016 A Supply Pushing Reduction Technique for LC Oscillators Based on Ripple Replication and Cancellation Y Chen, YH Liu, Z Zong, J Dijkhuis, G Dolmans, RB Staszewski, M Babaie
IEEE Journal of Solid-State Circuits 54 (1), 240-252, 2018
18 2018 A 2.6-to-4.1 GHz Fractional-N Digital PLL Based on a Time-Mode Arithmetic Unit Achieving-249.4 dB FoM and-59dBc Fractional Spurs Z Gao, J He, M Fritz, J Gong, Y Shen, Z Zong, P Chen, G Spalink, B Eitel, ...
2022 IEEE International Solid-State Circuits Conference (ISSCC) 65, 380-382, 2022
16 2022 A 60 GHz 25% tuning range frequency generator with implicit divider based on third harmonic extraction with 182 dBc/Hz FoM Z Zong, M Babaie, RB Staszewski
2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 279-282, 2015
15 2015 A 68.5~90 GHz High-Gain Power Amplifier With Capacitive Stability Enhancement Technique in 0.13 μ m SiGe BiCMOS Y Yu, J Cao, Z Zong, P Tang, K Yi, C Zhao, H Liu, Y Wu, WY Yin, K Kang
IEEE Transactions on Microwave Theory and Techniques 68 (12), 5359-5370, 2020
14 2020 A low-spur fractional-N PLL based on a time-mode arithmetic unit Z Gao, J He, M Fritz, J Gong, Y Shen, Z Zong, P Chen, G Spalink, B Eitel, ...
IEEE Journal of Solid-State Circuits 58 (6), 1552-1571, 2022
12 2022 A 15-μW, 103-fs step, 5-bit capacitor-DAC-based constant-slope digital-to-time converter in 28nm CMOS P Chen, F Zhang, Z Zong, H Zheng, T Siriburanon, RB Staszewski
2017 IEEE Asian Solid-State Circuits Conference (A-SSCC), 93-96, 2017
12 2017 Characterization and modeling of multiple coupled inductors based on on-chip four-port measurement K Kang, Z Zong, Z Gao, YL Ban, B Staszewski, WY Yin
IEEE Transactions on Components, Packaging and Manufacturing Technology 4 …, 2014
11 2014 A 77/79-GHz frequency generator in 16-nm CMOS for FMCW radar applications based on a 26-GHz oscillator with co-generated third harmonic FW Kuo, Z Zong, HNR Chen, LC Cho, CP Jou, M Chen, RB Staszewski
ESSCIRC 2019-IEEE 45th European Solid State Circuits Conference (ESSCIRC), 53-56, 2019
8 2019 DS-CIM: A 40nm Asynchronous Dual-Spike Driven, MRAM Compute-In-Memory Macro for Spiking Neural Network H Fu, Y Huang, T Chen, C Fu, H Ren, Y Zhou, S Peng, Z Zong, B Pan, ...
IEEE Transactions on Circuits and Systems I: Regular Papers, 2024
7 2024 Effects of subharmonics in LO generation on RF transceivers Z Zong, RB Staszewski
2018 IEEE MTT-S International Microwave Workshop Series on 5G Hardware and …, 2018
7 2018 Multiple coupling inductors model based on four-port measurement Z Zong, K Kang
2012 IEEE/MTT-S International Microwave Symposium Digest, 1-3, 2012
6 2012 Mm-wave automotive radar: from evolution to revolution K Doris, F Jansen, M Lont, TV Dinh, W Syed, G Carluccio, LF Tiemeijer, ...
2021 IEEE International Electron Devices Meeting (IEDM), 553-556, 2022
4 2022 Bandwidth adjustability in an FMCW PLL system T Saric, P Gibas, Z Zong
US Patent 11,228,318, 2022
3 2022 Phase-adjustable injection-locking T Saric, EJG Janssen, Z Zong, JFO Tamayo
US Patent 11,372,095, 2022
2 2022 An E-Band FMCW Radar Receiver Achieving 38dB Cancellation for Arbitrary-Path Spillover Up to-10dBm and 5.7 dB NF in 65nm CMOS B Chen, Z Zong
2024 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 363-366, 2024
1 2024 
Robert Bogdan StaszewskiUniversity College Dublin (UCD)Adresse e-mail validée de ucd.ie