modeling and simulation of piezoresistive pressure sensor for … · 2016-11-18 · modeling and...

Modeling and simulation of piezoresistive pressure sensor for 2bar application Maliheh Ramezani 1 , Mohamed Reda Amin El Barkouky 1 1. Melexis, Transportstraat 1, Tessenderlo 3980, Belgium Introduction: Pressure sensors have the largest share in the global market of MEMS- based sensors. This work summarizes the modeling of a piezoresistive pressure sensor with COMSOL. Computational Methods: In piezoresistor, the strain induces change of the material’s band structure, leading to variation in carrier mobility and number density. The relation between the electric field, E, and the current, J, within a piezoresistor is: where ρ is the resistivity, ∆ρ is the induced change in the resistivity and Π is the piezoresistance tensor (Pa -1 Ωm). The thickness of silicon membrane, H, is 15μm and the length of membrane, L, was varied from 500μm to 1500μm. The supply voltage of 5V is applied to the bridge and the differential output voltage of the bridge was calculated over a pressure range of 0bar to 2bar. Results: We investigate the impact of the membrane shape and size on the sensor performance using the COMSOL model. Nonlinearity and sensitivity as the most important parameters of sensor were extracted. Conclusions: It was shown that the sensitivity and nonlinearity of the square shape membranes are larger than circular ones. Therefore depending on the application, either round or square shape can be chosen for the sensor membrane and COMSOL modeling can help us to make a wiser choice for both the shape and the size of the membrane. References: [1] GK. Anthasuresh, KJ. Vinoy, S. Gopalakrishnan, KN. Bhat, VK. Aatre, Micro and smart systems: Technology & modeling, Wiley (2012). [2] KN. Bhat, Silicon micromachined pressure sensors. J Ind Inst Sci 87:11, (2007). Figure 2. (a) Comsol 3D plot of surface stress of round sensors (b) Stress profile of square and round shape pressure sensors when a 2bar pressure is applied. Figure 3. FEM analysis results for sensitivity of sensor Figure 4. Nonlinearity of pressure sensor Figure 1. Comsol model of MEMS piezoresistive pressure sensor with round and square membrane (a) (b) Excerpt from the Proceedings of the 2016 COMSOL Conference in Munich

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Page 1: Modeling and simulation of piezoresistive pressure sensor for … · 2016-11-18 · Modeling and simulation of piezoresistive pressure sensor for 2bar application Maliheh Ramezani1,

Modeling and simulation of piezoresistive pressure sensor for 2bar application

Maliheh Ramezani1, Mohamed Reda Amin El Barkouky1

1. Melexis, Transportstraat 1, Tessenderlo 3980, Belgium

Introduction: Pressure sensors have thelargest share in the global market of MEMS-based sensors. This work summarizes themodeling of a piezoresistive pressuresensor with COMSOL.

Computational Methods: In piezoresistor,the strain induces change of the material’sband structure, leading to variation in carriermobility and number density. The relationbetween the electric field, E, and thecurrent, J, within a piezoresistor is:

where ρ is the resistivity, ∆ρ is the inducedchange in the resistivity and Π is thepiezoresistance tensor (Pa-1Ωm).The thickness of silicon membrane, H, is15µm and the length of membrane, L, wasvaried from 500µm to 1500µm. The supplyvoltage of 5V is applied to the bridge andthe differential output voltage of the bridgewas calculated over a pressure range of0bar to 2bar.

Results: We investigate the impact ofthe membrane shape and size on thesensor performance using theCOMSOL model. Nonlinearity andsensitivity as the most importantparameters of sensor were extracted.

Conclusions: It was shown that the

sensitivity and nonlinearity of the

square shape membranes are larger

than circular ones. Therefore

depending on the application, either

round or square shape can be chosen

for the sensor membrane and

COMSOL modeling can help us to

make a wiser choice for both the shape

and the size of the membrane.

References:[1] GK. Anthasuresh, KJ. Vinoy, S. Gopalakrishnan, KN. Bhat, VK. Aatre, Micro and smartsystems: Technology & modeling, Wiley (2012).[2] KN. Bhat, Silicon micromachinedpressure sensors. J Ind Inst Sci 87:11, (2007).

Figure 2. (a) Comsol 3D plot of surface stress of round sensors (b) Stress profile of square and round shape pressure sensors when a 2bar pressure is applied.

Figure 3. FEM analysis results for sensitivity of sensor

Figure 4. Nonlinearity of pressure sensor

Figure 1. Comsol model of MEMS piezoresistive pressure sensor with round and square membrane

(a) (b)

Excerpt from the Proceedings of the 2016 COMSOL Conference in Munich

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