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Interface for MEMS inertial sensors

7 years 5 days ago

Description

In a high-performance interface circuit for micro-electromechanical (MEMS) inertial sensors, an excitation signal (used to detect capacitance variation) is used to control the value of an actuation signal bit stream to allow the dynamic range of both actuation and detection paths to be maximized and to prevent folding of high frequency components of the actuation bit stream due to mixing with the excitation signal. In another aspect, the effects of coupling between actuation signals and detection signals may be overcome by performing a disable/reset of at least one of and preferably both of the detection circuitry and the MEMS detection electrodes during actuation signal transitions. In a still further aspect, to get a demodulated signal to have a low DC component, fine phase adjustment may be achieved by configuring filters within the sense and drive paths to have slightly different center frequencies and hence slightly different delays.

Aspects

This patent disclosure describes an ASIC or other circuit to interface with MEMS inertial sensors such as vibratory MEMS gyroscopes and accelerometers, including in closed loop configurations. Closed loop configuration provides best performance in harsh environments. Techniques to improve the sensor interface performance are described, including techniques that allow for extending dynamic range of the MEMS actuation and detection signals, canceling coupling between electrodes in the MEMS module, and achieving fine phase tuning between sense and drive loops for improved demodulation.

Patenting Status

Patent Granted

Status

Patented

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