System and method of measuring quasi-static force with a piezoelectric sensor
First Claim
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1. A method of measuring quasi-static force with a piezoelectric sensor, comprising:
- obtaining a first signal corresponding to the charge produced by said piezoelectric sensor;
sampling said first signal and converting the samples to digital values; and
calculating force based on said digital values, said calculation including bias estimation using different time constants for different conditions, drift compensation based on said bias estimation, and digital integration of compensated sensor values;
wherein said sampling and converting are performed prior to said integration.
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Abstract
A system and method employing a piezoelectric sensor for quasi-static force measurement substantially free of drift and with improved low-frequency response. The output signal from the sensor is sampled and integrated using digital techniques that include a drift compensation algorithm. The algorithm continually monitors the sensor output and estimates bias errors that will cause the output to drift.
10 Citations
14 Claims
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1. A method of measuring quasi-static force with a piezoelectric sensor, comprising:
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obtaining a first signal corresponding to the charge produced by said piezoelectric sensor; sampling said first signal and converting the samples to digital values; and calculating force based on said digital values, said calculation including bias estimation using different time constants for different conditions, drift compensation based on said bias estimation, and digital integration of compensated sensor values; wherein said sampling and converting are performed prior to said integration. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of measuring quasi-static force with a piezoelectric sensor, comprising:
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generating a first signal with said piezoelectric sensor; converting samples of said first signal to digital values; and calculating force based on said digital values, said calculating including generating drift-compensated sensor values and integrating said compensated sensor values; wherein said converting is performed prior to said integration; wherein said first signal is obtained using a shunt resistor in parallel with said piezoelectric sensor, said shunt resistor having resistance several orders of magnitude smaller than that of said piezoelectric sensor and producing an analog voltage corresponding to the short-circuit current through said piezoelectric sensor; wherein said converting is performed with an analog-to-digital converter (ADC) coupled to said shunt resistor so as to convert said analog voltage to a digital signal having digital values corresponding to respective instantaneous values of said analog voltage; and wherein said calculating force is performed using a processor responsive to said ADC and configured to perform numerical integration of a digital signal derived therefrom.
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10. A method of measuring quasi-static force with a piezoelectric sensor, comprising:
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generating an analog signal with said piezoelectric sensor; converting samples of said analog signal to digital values with an analog-to-digital converter (ADC), said digital values corresponding to respective instantaneous values of said analog signal; and calculating force based on said digital values, said calculating including generating drift-compensated sensor values and integrating said compensated sensor values; wherein said converting is performed prior to said integration; wherein said calculating force is performed using a processor responsive to said ADC and configured to perform numerical integration of a digital signal derived therefrom; and wherein said drift-compensated sensor values are generated with a drift compensation algorithm which includes a switched bias estimator having a low-pass filter with a plurality of dynamically selectable time constants, said low-pass filter generating a bias value, said drift compensation algorithm further including means for selecting one of said time constants based on transient conditions of applied force, and means for subtracting said bias value from the output of said ADC. - View Dependent Claims (11, 12, 13, 14)
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Specification