Segui
Songbin Gong
Songbin Gong
Associate Professor of ECE, Univ of Illinois at Urbana Champaign
Email verificata su illinois.edu - Home page
Titolo
Citata da
Citata da
Anno
Design and analysis of lithium–niobate-based high electromechanical coupling RF-MEMS resonators for wideband filtering
S Gong, G Piazza
IEEE Transactions on Microwave Theory and Techniques 61 (1), 403-414, 2012
3042012
5 GHz lithium niobate MEMS resonators with high FoM of 153
Y Yang, A Gao, R Lu, S Gong
2017 IEEE 30th International Conference on Micro Electro Mechanical Systems …, 2017
2112017
Toward Ka Band Acoustics: Lithium Niobate Asymmetrical Mode Piezoelectric MEMS Resonators
Y Yang, R Lu, T Manzaneque, S Gong
2018 IEEE International Frequency Control Symposium, 2018
2032018
Piezoelectric MEMS resonators
H Bhugra, G Piazza
Springer International Publishing, 2017
2002017
A 60-GHz 2-bit switched-line phase shifter using SP4T RF-MEMS switches
S Gong, H Shen, NS Barker
IEEE Transactions on Microwave Theory and Techniques 59 (4), 894-900, 2011
1232011
Interdigital transducers on a piezoelectric thin-film for signal compression
S Gong, R Lu, TM Garcia
US Patent 11,451,209, 2022
1142022
Surface acoustic wave devices using lithium niobate on silicon carbide
S Zhang, R Lu, H Zhou, S Link, Y Yang, Z Li, K Huang, X Ou, S Gong
IEEE Transactions on Microwave Theory and Techniques 68 (9), 3653-3666, 2020
1022020
High Antisymmetric Mode Lithium Niobate MEMS Resonators With Spurious Mitigation
Y Yang, R Lu, S Gong
Journal of Microelectromechanical Systems 29 (2), 135-143, 2020
1022020
A1 resonators in 128° Y-cut lithium niobate with electromechanical coupling of 46.4%
R Lu, Y Yang, S Link, S Gong
Journal of Microelectromechanical Systems 29 (3), 313-319, 2020
992020
Accurate extraction of large electromechanical coupling in piezoelectric MEMS resonators
R Lu, MH Li, Y Yang, T Manzaneque, S Gong
Journal of Microelectromechanical Systems 28 (2), 209-218, 2019
972019
Figure-of-merit enhancement for laterally vibrating lithium niobate MEMS resonators
S Gong, G Piazza
IEEE transactions on electron devices 60 (11), 3888-3894, 2013
922013
4.5 GHz lithium niobate MEMS filters with 10% fractional bandwidth for 5G front-ends
Y Yang, R Lu, L Gao, S Gong
Journal of Microelectromechanical Systems 28 (4), 575-577, 2019
882019
Microwave acoustic devices: Recent advances and outlook
S Gong, R Lu, Y Yang, L Gao, AE Hassanien
IEEE Journal of Microwaves 1 (2), 601-609, 2021
852021
10–60-GHz electromechanical resonators using thin-film lithium niobate
Y Yang, R Lu, L Gao, S Gong
IEEE Transactions on Microwave Theory and Techniques 68 (12), 5211-5220, 2020
772020
Three-dimensional radio-frequency transformers based on a self-rolled-up membrane platform
W Huang, J Zhou, PJ Froeter, K Walsh, S Liu, MD Kraman, M Li, ...
Nature Electronics 1 (5), 305-313, 2018
752018
Ultra-small, high-frequency and substrate-immune microtube inductors transformed from 2D to 3D
X Yu, W Huang, M Li, TM Comberiate, S Gong, JE Schutt-Aine, X Li
Scientific reports 5 (1), 9661, 2015
672015
A radio frequency nonreciprocal network based on switched acoustic delay lines
R Lu, T Manzaneque, Y Yang, L Gao, A Gao, S Gong
IEEE Transactions on Microwave Theory and Techniques 67 (4), 1516-1530, 2019
592019
Gigahertz low-loss and wideband S0 mode lithium niobate acoustic delay lines
R Lu, T Manzaneque, Y Yang, MH Li, S Gong
IEEE transactions on ultrasonics, ferroelectrics, and frequency control 66 …, 2019
562019
RF acoustic microsystems based on suspended lithium niobate thin films: Advances and outlook
R Lu, S Gong
Journal of Micromechanics and Microengineering 31 (11), 114001, 2021
552021
Analysis and removal of spurious response in SH0 lithium niobate MEMS resonators
YH Song, R Lu, S Gong
IEEE Transactions on Electron Devices 63 (5), 2066-2073, 2016
532016
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