This paper deals with the design of a digital sensing interface for a MEMS gyroscope. In such devices, the information regarding the angular rate Omegaz(t) experienced by the sensor is contained in a suppressed carrier-dual side band (SC-DSB) signal, which has Omegaz (t) as modulating component. Hence, a demodulation must be carried out in order to retrieve a measurement of the angular rate. The demodulation process presented in the paper consists of a quantization stage of the SC-DSB signal, which is performed with a three-level band-pass DeltaSigma converter, followed by a digital demodulation of the DeltaSigma bit-stream with a given digital sequence. Several simulation results are reported to evaluate system performances
A Demodulation Technique for the Sensing Circuit of a MEMS Gyroscope
OBOE, ROBERTO;
2006
Abstract
This paper deals with the design of a digital sensing interface for a MEMS gyroscope. In such devices, the information regarding the angular rate Omegaz(t) experienced by the sensor is contained in a suppressed carrier-dual side band (SC-DSB) signal, which has Omegaz (t) as modulating component. Hence, a demodulation must be carried out in order to retrieve a measurement of the angular rate. The demodulation process presented in the paper consists of a quantization stage of the SC-DSB signal, which is performed with a three-level band-pass DeltaSigma converter, followed by a digital demodulation of the DeltaSigma bit-stream with a given digital sequence. Several simulation results are reported to evaluate system performancesPubblicazioni consigliate
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