Self-test and calibration methods for micro electro-mechanical systems

Ahmed, Anwer Sabah; Al-Gayem, Qais

doi:10.12928/telkomnika.v21i1.24251

Cited by 2 publications

(3 citation statements)

References 33 publications

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“…As a result, important system attributes such as sensitivity, linearity, and dynamic range are significantly affected. When a voltage drop (V) is applied to both sensor plates, an electrostatic force of attraction is formed between them, which is given by ( 7) [4],…”

Section: Feedback Forcementioning

confidence: 99%

“…Additionally, this system (closed loop) did not achieve sub-g equivalent resolution during testing. This continuous-time capacitive accelerometer interfacing using a high-Q mechanical element was disclosed in [4], [12] with sub-g comparable resolutions. An incredibly low-noise accelerometer, but still no thorough circuit design method, is presented in [13], [14] proposes a low-frequency impedance-based approach for identifying damaged array components, which is supported by actual electrode array readings for drug testing on cardiac and neuronal tissue.…”

Section: Introductionmentioning

confidence: 99%

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A sigma-delta interface built-in self-test and calibration for microelectromechanical system accelerometer's utilizing interpolation method

Ahmed

Al-Gayem

2023

IJECE

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This work presents the capacitive micromechanical accelerometer with a completely differential high-order switched capacitor sigma-delta modulator interface. Such modulation interface circuit generates one-bit output data using a third sigma-delta modulator low-noise front-end, doing away with the requirement for a second enhanced converter of resolution to encode the feedback route analog signal. A capacitive micromechanical sensor unit with just a greater quality factor has been specifically employed to give greater resolution. The closed-loop and electrical correction control are used to dampen the high-Q values to get the system's stability with high-order. This microelectromechanical system (MEMS) capacitive accelerometer was calibrated using a lookup table and Akima interpolation to find manufacturing flaws by recalculating voltage levels for the test electrodes. To determine the proper electrode voltages for fault compensation, COMSOL software simulates a number of defects upon that spring as well as the fingers of the sensor system. When it comes time for the feedback phase of a proof mass displacement correction, these values are subsequently placed in the lookup table.

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Section: Feedback Forcementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A sigma-delta interface built-in self-test and calibration for microelectromechanical system accelerometer's utilizing interpolation method

Ahmed

Al-Gayem

2023

IJECE

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“…Tese sensors found usage in a wide range of applications, including navigation and positioning systems, educational software, medical electronics, and more [1][2][3]. Researchers have also recently examined the usage of MEMS devices in user interfaces [4][5][6]. Despite the benefts mentioned above, MEMS sensors' measurements are less precise than those from tactical-grade sensors because of biases, noise, scalability errors, nonlinearity, thermal changes, and misalignment errors.…”

Section: Introductionmentioning

confidence: 99%

Three-Axes Mems Calibration Using Kalman Filter and Delaunay Triangulation Algorithm

Ahmed,

Al-Gayem

2023

Applied Computational Intelligence and Soft Computing

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MEMS-IMUs are widely used in research, industry, and commerce. A proper calibration technique must reduce their innate errors. In this study, a turntable-based IMU calibration approach was presented. Parameters such as the bias, lever arm, and scale factor, in addition to misalignment, are included in the general nonlinear model of the IMU output. Accelerometer error parameters were estimated using the transformed unscented Kalman filter (TUKF) with triangulation algorithm is suggested for calibrating inertial measurement unit (MPU6050) three-axes accelerometer. In contrast to the present methods, the suggested method uses the gravitational signal as a constant reference and necessitates no external equipment. The technique requires that the sensor be positioned in a rough orientation and that basic rotations be adopted. This technology also offers a quicker and easier calibration. Comparing the experimental findings with other works, Allan deviation shows significant improvements for the bias instability, where a bias instability of (0.116 μg) is achieved at temperatures between (−15°C) and (80°C).

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Self-test and calibration methods for micro electro-mechanical systems

Cited by 2 publications

References 33 publications

A sigma-delta interface built-in self-test and calibration for microelectromechanical system accelerometer's utilizing interpolation method

A sigma-delta interface built-in self-test and calibration for microelectromechanical system accelerometer's utilizing interpolation method

Three-Axes Mems Calibration Using Kalman Filter and Delaunay Triangulation Algorithm

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