Zhan Shi

TL;DR: In this paper , the dynamics of two mechanically coupled micro-resonators with frequency ratio approximately 1:3 for tuning driving strength is investigated experimentally and analytically, and the amplitude relationship of two resonators for each stage is also obtained.

TL;DR: This study investigates mode localization in coupled MEMS resonators, revealing that softening Duffing nonlinearity enhances sensitivity, and proposes a nonlinear charge sensing scheme that outperforms its linear counterpart with a 5-fold increase in resolution.

TL;DR: By determining controller parameters that ensure similar droop characteristics at steady state, the dominant modes of linearized virtual oscillator and droop controlled models are shown to have similar distributions, even though mode numbers and sensitivities of the small-signal models are different, indicates that the single-inverter systems can be made to havesimilar transient responses.

TL;DR: Researchers develop an electric-thermal adjusted arch beam micro-resonator that achieves simultaneous amplitude and frequency bandwidth amplification through dual-jump effect, enabling novel sensing and filtering applications in small-scale MEMS systems.