Software compensation technology of the piezoelectric fluidic angular rate sensor

The software compensation technology of the piezoelectric fluidic gyroscope based on DSP digital processing is designed in the paper. Using the DSP, the zero-temperature compensation, sensitivity-temperature compensation and nonlinearity compensation could be solved by combining method with the data interpolation and the second table look-up. The experiment results are as follow: after the software compensation, the zero-temperature drift declines from <= 1.5mV/degrees C to <= 0.2 mV/degrees C, the sensitivity coefficient declines from <= 2mV/degrees/s/degrees C to <= 0.2mV/degrees/s/degrees C, the nonlinearity declines from <= 5% to <= 1.2%, in the measurement range of -60 degrees/s similar to+ 60 degrees/s, working temperature range is extended to -40 degrees C similar to+ 60 degrees C. such compensation technology, simple. It has practical value to improve the performance of fluidic Gyroscope temperature and linearity, expand the field of the use of fluidic Gyroscope.