Four-Terminal Square Piezoresistive Sensors for MEMS Pressure Sensing

Hossain, Awlad; Mian, Ahsan

doi:10.1155/2017/6954875

Cited by 6 publications

(3 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This approach is considered enough for simulating phenomena of interest through finite element analysis (FEA), associated to contact, potential, and dynamics [31]. Moreover, the use FEA tools for MEMS devices such as FSR has been a helpful for plenty of research tasks [32][33][34]. Figure 5 shows four versions of this model, which is very similar to the one shown in Figure 1.…”

Section: Simplified "Four-particle Model" For Finite Element Analysismentioning

confidence: 99%

A Finite Element Analysis Approach to Explain Sensitivity Degradation in Force Sensing Resistors Based on Conductive Polymer Composites

et al. 2022

View full text Add to dashboard Cite

Force sensing resistors (FSR) based in conductive polymer composites (CPC) are a cost-effective alternative to load cells for force measurement. Nevertheless, their physical characteristics related to rheological features provoke some drawbacks such as hysteresis, drift, low repeatability, and sensitivity degradation (SD), which is a concerning issue when final application involves periodic loading. Although it is already known that SD is a voltage-related phenomenon and practical considerations to avoid it have been published, a more theoretical approach was yet missing. This study provides a set of finite element analysis (FEA) simplified models to shed light on the situations that favor degradation based in a time-dependent mechanical study considering rheological parameters and how they influence interparticle tunneling conduction. Also, a stationary electrostatic analysis with special scope in contact resistance and its influence in equipotential surfaces arousal. Simulation results show how the effect of contact resistance bends equipotential surfaces favoring conduction through time-increasing interparticle gaps, which is a direct consequence of the low Poisson ratio of considered polymers.

show abstract

Section: Simplified "Four-particle Model" For Finite Element Analysismentioning

confidence: 99%

A Finite Element Analysis Approach to Explain Sensitivity Degradation in Force Sensing Resistors Based on Conductive Polymer Composites

et al. 2022

View full text Add to dashboard Cite

show abstract

“…Faced with the increasingly serious underwater security situation, it urgently needs to adopt new technologies and methods to meet the requirements of engineering application. MEMS technology, due to the characteristic of 3 M (miniaturization, multiplicity and microelectronics), shows great vitality [7][8][9][10]. To this end, scholars expect to resolve current problems of large volume, poor consistency, and high cost through MEMS technology.…”

Section: Introductionmentioning

confidence: 99%

Research on “Cylinder‐Four‐Beam” Microstructure Improvement of MEMS Bionic Vector Hydrophone

et al. 2021

View full text Add to dashboard Cite

The existing MEMS bionic vector hydrophone has the problems of low-sensitivity and narrow-working band, and the sensitivity and working bandwidth cannot be improved simultaneously by changing the single microstructural parameter. In this paper, the MEMS bionic vector hydrophone microstructural parameters (length, width and height of cantilever, side length of the center block, height and radius of the rigid cylinder) have been optimized simultaneously to obtain a higher sensitivity at the almost same working bandwidth. Firstly, through the mechanical analysis of the microstructure, the objective function and feasible region are established to optimize the parameters of the microstructure, and a set of optimized parameters is obtained. Secondly, the optimized structure is verified by ANSYS simulation, and then, the optimized four-beam structure is fabricated by the MEMS manufacturing technology. Finally, these two kinds of hydrophones (the previous one and the optimized one) are produced, and their performance tests are carried out. The testing results show that the performances of the optimized hydrophone have been greatly improved, exhibiting a receiving sensitivity of −181.2 dB@1 kHz (increasing by 6.5 dB, 0 dB reference 1 V/μ Pa), the frequency response ranging from 20 Hz to 1 kHz which is the same working bandwidth as before, and a good dipole directivity. The optimization researches in this paper provide a method and idea for the performance improvement of the following MEMS vector hydrophone.

show abstract

“…Although the VDP method has been widely used for measuring the electrical resistivity or sheet resistance of different thin film samples [37][38][39], its use for characterizing and evaluating piezoresistive behavior has not been commonly adopted. Few works have reported on designing highly sensitive square-shaped silicon based MEMS sensors by adopting a VDP configuration [40,41]. However, there is a lack of systematic study on using VDP configuration for evaluating and characterizing the newly emerged different types of nanomaterials, e.g.…”

Section: Introductionmentioning

confidence: 99%

Two-probe versus van der Pauw method in studying the piezoresistivity of single-wall carbon nanotube thin films

et al. 2017

View full text Add to dashboard Cite

The use of the van der Pauw (VDP) method for characterizing and evaluating the piezoresistive behavior of carbon nanomaterial enabled piezoresistive sensors have not been systematically studied. By using single-wall carbon nanotube (SWCNT) thin films as a model system, herein we report a coupled electrical-mechanical experimental study in conjunction with a multiphysics finite element simulation as well as an analytic analysis to compare the two-probe and VDP testing configuration in evaluating the piezoresistive behavior of carbon nanomaterial enabled piezoresistive sensors. The key features regarding the sample aspect ratio dependent piezoresistive sensitivity or gauge factor were identified for the VDP testing configuration. It was found that the VDP test configuration offers consistently higher piezoresistive sensitivity than the two-probe testing method.

show abstract

Four-Terminal Square Piezoresistive Sensors for MEMS Pressure Sensing

Cited by 6 publications

References 6 publications

A Finite Element Analysis Approach to Explain Sensitivity Degradation in Force Sensing Resistors Based on Conductive Polymer Composites

A Finite Element Analysis Approach to Explain Sensitivity Degradation in Force Sensing Resistors Based on Conductive Polymer Composites

Research on “Cylinder‐Four‐Beam” Microstructure Improvement of MEMS Bionic Vector Hydrophone

Two-probe versus van der Pauw method in studying the piezoresistivity of single-wall carbon nanotube thin films

Contact Info

Product

Resources

About