Traceability of digital 3-axis MEMS accelerometer: simultaneous determination of main and transverse sensitivities in the frequency domain

Prato, Andrea; Mazzoleni, Fabrizio; Schiavi, Alessandro

doi:10.1088/1681-7575/ab79be

Cited by 36 publications

(34 citation statements)

References 17 publications

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“…Standard uncertainties associated to the amplitude of the spurious components, u(ax',syst), u(ay',syst), u(az',syst), are considered as type B uncertainty contributions with an average error of 0.0025 m s -2 , from three repeated measurements, and a uniform rectangular distribution. Standard uncertainties associated to the phase difference due to the spurious components, u(φx',syst), u(φy',syst), u(φz',syst), are considered as type A uncertainty contributions with a maximum standard deviation of 2° from five repeated measurements, as shown in [14].…”

Section: Resultsmentioning

confidence: 99%

“…Traceability of digital 3-axis MEMS accelerometer: simultaneous determination of main and transverse sensitivities in the frequency domain. Metrologia, 57(3), 035013" [14], which shows the detailed extension of the determination of the systematic effects of the calibration system.…”

Section: Notementioning

confidence: 99%

“…Traceable calibration methods for digital sensors, and smart sensors, in metrological terms [11 -13], including sensitivity parameter and an appropriate uncertainty evaluation, are necessary in order to consider low-cost and low-power consuming accelerometers as actual measurement devices in frequency domain [14].…”

Section: Description Of the Workmentioning

confidence: 99%

“…The calibration system, developed at INRiM, allows to simultaneous evaluate the main and the transverse sensitivity, in frequency domain, of 3-axis accelerometers, by means of a single-axis vibration excitation, by using inclined planes rigidly fixed to the vibrating table [14,15]. The calibration procedure is based on the comparison to a reference transducer (in analogy to ISO 16063-21 [16]).…”

Section: Description Of the Workmentioning

confidence: 99%

See 3 more Smart Citations

Evaluation and correction of systematic effects in a simultaneous 3-axis vibration calibration system

2020

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This paper presents a calibration method, recently realized at INRIM, suitable for the calibration of 3-axis accelerometers in frequency domain. The procedure, allows to simultaneously evaluate the main and transverse sensitivities on three axes by means of a single-axis vibration excitation of inclined planes. Nevertheless, the excitation system is subjected to spurious motions mainly due to the vibrational modes of the inclined planes and to the horizontal motions of the shaker. In order to provide the proper sensitivities to the 3-axis sensors, the evaluation of systematic effects is experimentally carried out and the related correction is proposed.

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Section: Resultsmentioning

confidence: 99%

Section: Notementioning

confidence: 99%

Section: Description Of the Workmentioning

confidence: 99%

Section: Description Of the Workmentioning

confidence: 99%

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Evaluation and correction of systematic effects in a simultaneous 3-axis vibration calibration system

2020

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“…The output signals range ±(2 16 À1) = ±32768 Decimal 16-bit-signed , where the digit unit is a signed 16-bit sequence converted into a decimal number. Then, the sensitivity of the digital MEMS accelerometer is expressed in linear units of Decimal 16bit-signed /(m s À2 ) [20,21].…”

Section: Methodsmentioning

confidence: 99%

Use of MEMS sensors for condition monitoring of devices: discussion about the accuracy of features for diagnosis

D’Emilia

Natale

2021

Int. J. Metrol. Qual. Eng.

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This paper analyses the effect of the variability of metrological characteristics of a set of low-cost Micro Electro-Mechanical Systems (MEMS) for the acceleration measurement, on the calculation of typical features used for condition monitoring (CM) of automatic production lines. The knowledge of the contribution of the variability of metrological characteristics to the final accuracy of features is an aspect of interest when networks of low-cost sensors are used, in particular in case the variability of their characteristics is high. In fact, due to a mass production, the calibration is not carried out sensor by sensor, but the characteristics are determined on a sample basis and assigned to the entire batch. Neglecting the variability between sensors can lead to effects on the results of data analysis, which are not easily predictable. In this paper, the real variability of the sensor's characteristics, experimentally evaluated through the calibration of a set of 25 low-cost MEMS accelerometers, has been taken into account. Digital sensitivity, signal-to-noise ratio and data rate variability of each device have been considered for the analysis. The analysis has been carried out with reference to two different test cases of industrial interest, by modifying the real outputs of high performance piezoelectric accelerometers used for CM, in order to simulate the effect of the metrological characteristics of MEMS sensors. The results show which features, among those typically used for CM, are more affected and which characteristics of MEMS are more influencing the features themselves, with reference to the specific considered applications.

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Theoretical insights on the influence of the experimental plan in the calibration of multicomponent force and moment transducers

Prato

Borgiattino

Mazzoleni

et al. 2021

Measurement: Sensors

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Traceability of digital 3-axis MEMS accelerometer: simultaneous determination of main and transverse sensitivities in the frequency domain

Cited by 36 publications

References 17 publications

Evaluation and correction of systematic effects in a simultaneous 3-axis vibration calibration system

Evaluation and correction of systematic effects in a simultaneous 3-axis vibration calibration system

Use of MEMS sensors for condition monitoring of devices: discussion about the accuracy of features for diagnosis

Theoretical insights on the influence of the experimental plan in the calibration of multicomponent force and moment transducers

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