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- Title
Self-Test and Self-Calibration of Digital Closed-Loop Accelerometers.
- Authors
Sun, Zhiyuan; Wang, Miao
- Abstract
For accelerometers targeted in inertial navigation field, the DC bias error is the most destructive system error, affecting the final precision of long-term dead reckoning. This paper proposes a novel self-test and self-calibration technique for canceling out the DC bias error of the digital closed-loop accelerometers. The self-test of system DC bias is realized by injecting a 1-Bit Σ∆ modulated digital excitation and measuring the second-order harmonic distortion. As illustrated, the second-order harmonic distortion is related to the servo position deviation of the MEMS sensing element, which is one of the main causes of system DC bias error. The automatic capacitance compensation is carried out based on the amplitude and phase information of the detected second-order harmonic distortion, which can dynamically calibrate out the DC bias error. Test results show that there exists a near-linearity relationship between the system DC bias error and the second-order harmonic distortion, which is consistent with the proposed theoretical deduction. Based on the proposed method, the system DC bias error is effectively reduced from 150 to 4 mg, and unaffected by external acceleration bias.
- Subjects
ACCELEROMETERS; ELECTRIC capacity
- Publication
Sensors (14248220), 2022, Vol 22, Issue 24, p9933
- ISSN
1424-8220
- Publication type
Article
- DOI
10.3390/s22249933