A Surface Micromachined Accelerometer with Integrated CMOS Detection Circuitry

Yun, Weijie

doi:10.1007/978-3-642-18293-8_18

Cited by 7 publications

(5 citation statements)

References 42 publications

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“…In the expression, L coil is the length of coil winding; L is arm of ampere force. Both L coil and L are the function of the coefficient of linear expansion, and the actual expression of is stated in equation (11).…”

Section: ) the First Module: K Damentioning

confidence: 99%

The Estimation and Compensation of the Loop-Parameter-Drifting in the Digital Close-Loop Quartz Flexible Accelerometers

et al. 2020

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There have been increasing demands for the long-term performance retention of the Quartz Flexible Accelerometers (QFA), extensively employed in the Inertial Navigation System (INS). Considering the convenience of conducting the parameter identification and control algorithm, the Digital Close-Loop QFA (Digital-QFA) is established to improve the long-term performance. Based on the model of the entire close-loop system, the interfering factors relating to time are analyzed in detail, both in the forward channel and the feedback channel. Two schedules are proposed to estimate the gain variation, utilizing the modulating signal and the feedback signal separately. According to the reference gain settings in ideal conditions, the forward and the feedback gain drifting of the system are calibrated online through the adjustment of the digital controller and the reference voltage of the DA-chip, separately. The simulation experiments show that about 90.26% of the gain-drifting could be estimated and about 87.56% of the output error of the accelerate could be restrained. Consequently, the proposed schedules could promote the long-term stability of the Digital-QFA significantly. INDEX TERMS Digital close-loop quartz flexible accelerometers, drifting over time, estimation and compensation, long-term performance, loop-parameters.

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Section: ) the First Module: K Damentioning

confidence: 99%

The Estimation and Compensation of the Loop-Parameter-Drifting in the Digital Close-Loop Quartz Flexible Accelerometers

et al. 2020

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“…From equation (3), the calculated vertical spring constant for the crab-leg spring (k crab-leg ) to accomplish the desired pull-in voltage of 35 V is around 2300 N/m (vertical spring constant of the comb-drive actuator suspension is roughly 9.6 N/m), and the corresponding values of l s , l c , w s , and t s are determined accordingly [30], as shown in Table I.…”

Section: A Lateral Actuationmentioning

confidence: 99%

A Highly Reliable Two-Axis MEMS Relay Demonstrating a Novel Contact Refresh Method

Song

Yoon

2015

J. Microelectromech. Syst.

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This paper reports on a two-axis actuated microelectromechanical systems (MEMS) relay to realize a unique contact-refresh concept. In comparison with all other conventional MEMS relays utilizing only several designated contact spots during their whole lifetime, the proposed concept can change the real contact spots (asperities) by altering the lateral position of contact asperities, thus providing highly reliable contact endurance. In addition, it can enhance lifetime of the switches that fail by contact resistance increase, and potentially even for switches that fail by contact stiction if the contact position is changed before a critical number of switching cycles is reached; however, the device inevitably has a relatively large device area and additional control circuitry in this stage of development. The fabricated relays showed vertical actuation voltages under 40 V, a switching delay of 190 µs, and a maximum lateral displacement of 10 µm. Owing to the suggested contact-refresh scheme, the total contact endurance in one switching device was dramatically increased, and the sum of dozens of lifetimes measured at the selected lateral positions reached 6 × 10 7 cycles at 100 mA in hot switching conditions (Au-to-Au contact), which is nearly 50 times higher than the average value of the measured lifetimes in a designated contact spot.[2014-0225]

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“…However, while Σ∆ modulators gain accuracy when utilized in precision analog circuits, implementation is difficult. Furthermore, proper implementation requires a small signal bandwidth [26], [27]. Nowadays, low-cost and small footprint gas chemical sensor with low noise, low offset, high resolution, and low power consumption are required in a vast number of applications ranging from portable apparatus for hazardous gases in automobiles.…”

Section: Nested-chopper Modulationmentioning

confidence: 99%

CMOS Analog Front-End IC for Gas Sensors

Kim

Bakkaloglu²

2011

Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT)

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This thesis presents a gas sensor readout IC for amperometric and conductometric electrochemical sensors. The Analog Front-End (AFE) readout circuit enables tracking long term exposure to hazardous gas fumes in diesel and gasoline equipments, which may be correlated to diseases. Thus, the detection and discrimination of gases using microelectronic gas sensor system is required. This thesis describes the research, development, implementation and test of a small and portable based prototype platform for chemical gas sensors to enable a low-power and low noise gas detection system. The AFE reads out the outputs of eight conductometric sensor array and eight amperometric sensor arrays. The IC consists of a low noise potentiostat, and associated 9bit current-steering DAC for sensor stimulus, followed by the first order nested chopped Σ∆ ADC. The conductometric sensor uses a current driven approach for extracting conductance of the sensor depending on gas concentration. The amperometric sensor uses a potentiostat to apply constant voltage to the sensors and an I/V converter to measure current out of the sensor. The core area for the AFE is 2.65x0.95 mm 2 .The proposed system achieves 91 dB SNR at 1.32 mW quiescent power consumption per channel. With digital offset storage and nested chopping, the readout chain achieves 500 µV input referred offset.iii ACKNOWLEDGEMENTS

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A Surface Micromachined Accelerometer with Integrated CMOS Detection Circuitry

Cited by 7 publications

References 42 publications

The Estimation and Compensation of the Loop-Parameter-Drifting in the Digital Close-Loop Quartz Flexible Accelerometers

The Estimation and Compensation of the Loop-Parameter-Drifting in the Digital Close-Loop Quartz Flexible Accelerometers

A Highly Reliable Two-Axis MEMS Relay Demonstrating a Novel Contact Refresh Method

CMOS Analog Front-End IC for Gas Sensors

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