Design and optimization of differential capacitive micro accelerometer for vibration measurement

Gomathi, K.; Balaji, Arunachalam; Mrunalini, Thangaraj

doi:10.1515/jmbm-2021-0003

Cited by 8 publications

(3 citation statements)

References 11 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In Equation 5, it is seen that the total force acting on the system is directly proportional to the product of the mass of the object and its acceleration [37].…”

Section: Capacitive Mems Accelerometersmentioning

confidence: 99%

MEMS capacitive accelerometer: A review

AKBABA,

TANRIKULU

2023

Artıbilim: Adana Alparslan Türkeş Bilim Ve Teknoloji Üniversitesi Fen Bilimleri Dergisi

View full text Add to dashboard Cite

Micro-electro-mechanical systems sensors are integrated systems used in many fields such as consumer electronics, the automobile industry, and biomedical, and their dimensions change between micrometers and millimeters. MEMS capacitive accelerometers are the most widely used sensor type among MEMS accelerometer sensors. As a result of the external force applied to the capacitive accelerometer sensor, the proof mass inside the sensor moves, and the capacitive change is measured as an electrical signal using reading circuits. In this review paper, general information about MEMS sensors is given, and a comprehensive review is made of MEMS capacitive accelerometers. In the study, the dynamic circuit of the MEMS capacitive accelerometer is given, and the calculation of the important values for the mechanical and electronic structure during the design of the capacitive MEMS accelerometer is explained. In addition, information about the readout circuits used to convert the capacitive change to voltage is given. Finally, the fabrication processes used to produce the final product are explained, and the studies on sample fabrication processes found in the literature are mentioned.

show abstract

“…In Equation 5, it is seen that the total force acting on the system is directly proportional to the product of the mass of the object and its acceleration [37].…”

Section: Capacitive Mems Accelerometersmentioning

confidence: 99%

MEMS capacitive accelerometer: A review

AKBABA,

TANRIKULU

2023

Artıbilim: Adana Alparslan Türkeş Bilim Ve Teknoloji Üniversitesi Fen Bilimleri Dergisi

View full text Add to dashboard Cite

show abstract

“…Two common features for capacitive accelerometer sensing are the MEMS (11) and differential capacitive bridge. (12) When acceleration is applied to the device, the movable electrode undergoes displacement due to the effect of acceleration, thereby altering the capacitance. In this study, we primarily focused on investigating how structural variations affect the characteristics of a differential capacitive bridge accelerometer.…”

Section: Introductionmentioning

confidence: 99%

Using COMSOL to Simulate the Effects of Different Parameters on the Sense Characteristics of Capacitive Single-axis Accelerometers

Ye,

Luo,

Shi

et al. 2024

Sensors and Materials

View full text Add to dashboard Cite

“…The Pareto front for their optimization shows the minimum noise for each surface area. Gomathi et al [66] designed a capacitive accelerometer with a fixed proof mass at the center and suspended by two folded beams. They increased sensitivity by changing the dimension of beams and proof mass.…”

Section: Suspension Systems and Optimized Designs In The Literaturementioning

confidence: 99%

Design of surface micro-machined inertial MEMS sensor with meta-heuristic topology optimization.

Najafabadi¹

View full text Add to dashboard Cite

Os sistemas microeletromecânicos (MEMS) estão se tornando populares para uma variedade de aplicações devido ao seu pequeno tamanho, baixo custo e bom desempenho. Os dispositivos MEMS são projetados combinando formas simples com base na experiência de casos anteriores. O uso de métodos de projeto matemático, como a Otimização de Topologia (TO), ajuda a encontrar o melhor projeto possível para um aplicativo específico. Em uma aplicação de monitoramento de deslizamentos de terra, acelerômetros MEMS de alta sensibilidade são necessários para prever com precisão a ocorrência de deslizamentos de terra. Mas os métodos TO disponíveis são incapazes de encontrar um projeto com sensibilidade máxima, condição de carregamento variável e sujeito a várias restrições. As restrições são devidas aos limites de fabricação na fabricação de MEMS e aos limites de desempenho do problema físico. O objetivo desta tese é desenvolver um método TO meta-heurístico usando Simulated Annealing (SA) para resolver problemas TO não convexos e multi-restrições sem informação de gradiente. Este TO utiliza fatores de cristalização para melhorar a convergência e reduzir os custos computacionais no TO. O método proposto é validado com problemas de referência na literatura e é usado com sucesso para os acelerômetros TO MEMS. A análise dos parâmetros de otimização neste projeto fornece algumas informações úteis sobre convergência e exclusividade da solução ótima. Os designs otimizados são então comparados aos designs disponíveis para vários parâmetros de desempenho. Além disso, alguns métodos de filtragem e pós-processamento são desenvolvidos para aplicar os limites de fabricação no processo de litografia.

show abstract

Design and optimization of differential capacitive micro accelerometer for vibration measurement

Cited by 8 publications

References 11 publications

MEMS capacitive accelerometer: A review

MEMS capacitive accelerometer: A review

Using COMSOL to Simulate the Effects of Different Parameters on the Sense Characteristics of Capacitive Single-axis Accelerometers

Design of surface micro-machined inertial MEMS sensor with meta-heuristic topology optimization.

Contact Info

Product

Resources

About