Jump and Pull-in Instability of a MEMS Gyroscope Vibrating System

Jump and Pull-in Instability of a MEMS Gyroscope Vibrating System

Blog Article

Jump and pull-in instability are common nonlinear dynamic behaviors leading to the loss of the performance reliability and structural safety of electrostatic micro gyroscopes.To achieve a better understanding of these initial-sensitive phenomena, the dynamics of a micro gyroscope system considering the nonlinearities of the stiffness and electrostatic forces are explored from a global perspective.Static and dynamic analyses of the system are performed to estimate the threshold of the detecting voltage for static pull-in, and dynamic responses are analyzed in the driving and detecting modes for the case of primary resonance and 1:1 internal resonance.

The results show that, when the the gel bottle audrey driving voltage frequency is a bit higher than the natural frequency, a high amplitude of the driving AC voltage may induce the coexistence of bistable periodic responses due to saddle-node bifurcation of the periodic solution.Basins of attraction of bistable attractors provide evidence that disturbance of the initial conditions can trigger a jump turbo air m3f24-1 between bistable attractors.Moreover, the Melnikov method is applied to discuss the condition for pull-in instability, which can be ascribed to heteroclinic bifurcation.

The validity of the prediction is verified using the sequences of safe basins and unsafe zones for dynamic pull-in.It follows that pull-in instability can be caused and aggravated by the increase in the amplitude of the driving AC voltage.