Segui
Hemin Zhang (张和民)
Hemin Zhang (张和民)
Email verificata su nwpu.edu.cn - Home page
Titolo
Citata da
Citata da
Anno
An acceleration sensing method based on the mode localization of weakly coupled resonators
H Zhang, B Li, W Yuan, M Kraft, H Chang
Journal of microelectromechanical systems 25 (2), 286-296, 2016
1722016
A handheld inertial pedestrian navigation system with accurate step modes and device poses recognition
H Zhang, W Yuan, Q Shen, T Li, H Chang
IEEE Sensors Journal 15 (3), 1421-1429, 2014
1452014
Progressive contact-separate triboelectric nanogenerator based on conductive polyurethane foam regulated with a Bennet doubler conditioning circuit
H Zhang, Y Lu, A Ghaffarinejad, P Basset
Nano energy 51, 10-18, 2018
1092018
A high-sensitivity micromechanical electrometer based on mode localization of two degree-of-freedom weakly coupled resonators
H Zhang, J Huang, W Yuan, H Chang
Journal of Microelectromechanical Systems 25 (5), 937-946, 2016
1072016
A conditioning circuit with exponential enhancement of output energy for triboelectric nanogenerator
A Ghaffarinejad, JY Hasani, R Hinchet, Y Lu, H Zhang, A Karami, ...
Nano Energy 51, 173-184, 2018
972018
Employing a MEMS plasma switch for conditioning high-voltage kinetic energy harvesters
H Zhang, F Marty, X Xia, Y Zi, T Bourouina, D Galayko, P Basset
Nature communications 11 (1), 3221, 2020
902020
Characterization of forced localization of disordered weakly coupled micromechanical resonators
H Zhang, H Chang, W Yuan
Microsystems & nanoengineering 3 (1), 1-9, 2017
582017
Ambient pressure drift rejection of mode-localized resonant sensors
H Zhang, J Zhong, W Yuan, J Yang, H Chang
2017 IEEE 30th International Conference on Micro Electro Mechanical Systems …, 2017
572017
A novel resonant accelerometer based on mode localization of weakly coupled resonators
HM Zhang, WZ Yuan, BY Li, YC Hao, M Kraft, HL Chang
2015 Transducers-2015 18th International Conference on Solid-State Sensors …, 2015
412015
Influences of the feedthrough capacitance on the frequency synchronization of the weakly coupled resonators
H Zhang, W Yuan, Y Hao, H Chang
IEEE Sensors Journal 15 (11), 6081-6088, 2015
402015
Linear sensing for mode-localized sensors
H Zhang, J Yang, W Yuan, H Chang
Sensors and Actuators A: Physical 277, 35-42, 2018
392018
Roadmap on nanogenerators and piezotronics
P Basset, SP Beeby, C Bowen, ZJ Chew, A Delbani, RD Dharmasena, ...
APL materials 10 (10), 2022
362022
A review on coupled bulk acoustic wave MEMS resonators
L Wang, C Wang, Y Wang, A Quan, M Keshavarz, BP Madeira, H Zhang, ...
Sensors 22 (10), 3857, 2022
312022
A High-Performance Mode-localized Accelerometer Employing a Quasi-Rigid Coupler
H Zhang, G Sobreviela, D Chen, M Pandit, J Sun, C Zhao, A Seshia
IEEE Electron Device Letters 41 (10), 1560, 2020
312020
A mode localization based resonant MEMS tilt sensor with a linear measurement range of 360°
B Li, H Zhang, J Zhong, H Chang
2016 IEEE 29th international conference on micro electro mechanical systems …, 2016
312016
Mode-localized accelerometer in the nonlinear Duffing regime with 75 ng bias instability and 95 ng/√ Hz noise floor
H Zhang, M Pandit, G Sobreviela, M Parajuli, D Chen, J Sun, C Zhao, ...
Microsystems & nanoengineering 8 (1), 17, 2022
272022
A mode-localized accelerometer based on three degree-of-freedom weakly coupled resonator
H Kang, J Yang, J Zhong, H Zhang, H Chang
2017 IEEE SENSORS, 1-3, 2017
222017
A low-noise high-order mode-localized MEMS accelerometer
H Zhang, G Sobreviela, M Pandit, D Chen, J Sun, M Parajuli, C Zhao, ...
Journal of Microelectromechanical Systems 30 (2), 178-180, 2021
202021
On Weakly Coupled Resonant MEMS Transducers Operating in the Modal Overlap Regime
H Zhang, M Pandit, J Sun, D Chen, G Sobreviela, C Zhao, A Seshia
IEEE transactions on ultrasonics, ferroelectrics, and frequency control, 2020
192020
Ultrasensitive resonant electrometry utilizing micromechanical oscillators
D Chen, H Zhang, J Sun, M Pandit, G Sobreviela, Y Wang, Q Zhang, ...
Physical Review Applied 14 (1), 014001, 2020
182020
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
Articoli 1–20