Novel Evolutionary Design Method Optimizes Performance of MEMS Pressure Sensor
October 31, 2023
A research team led by Prof. WANG Junbo from the State Key Laboratory of Transducer Technology with the Aerospace Information Research Institute (AIR), Chinese Academy of Sciences (CAS) introduced a novel simulation-based evolutionary method for the design of parameter-free MEMS (Micro-Electro-Mechanical Systems) structures. This innovative approach aims to maximize the degrees of freedom in MEMS design, opening the door to more efficient and adaptable microscale structures.
The new design methodology enables semi-automatic structure evolution by meticulously assessing the attributes of each segment of the structure. Through a series of iterations, it produces an optimal design that promises significant improvements in MEMS performance.
To demonstrate the method's capabilities, the researchers applied it to the optimization of a pressure-sensitive diaphragm used in a piezoresistive pressure sensor (PPS).
Finite Element Method (FEM) simulations were conducted to evaluate the results. Compared to traditional diaphragms lacking islands and those with square islands, the optimized diaphragm exhibited remarkable enhancements. It increased stress levels by 10% and 16%, while simultaneously reducing nonlinearity by 57% and 77%, respectively.
These improvements underscore the advantages of the newly introduced design method. By tailoring MEMS structures to maximize their performance, researchers can potentially boost a wide range of applications, from medical devices to automotive sensors.
Furthermore, the researchers characterized the fabricated PPS and found that it boasted a high sensitivity of 8.8 mV/V/MPa and a remarkably low nonlinearity of just 0.058% Full Scale (FS) at 20°C. This points to an exceptional level of sensor performance, indicating the potential for this technology to be adopted in critical fields where precision and reliability are paramount.
This design method “makes it possible for the MEMS engineering to create microscale structures with excellent performance and adaptability”, said Prof. Wang.
Research News
Novel Evolutionary Design Method Optimizes Performance of MEMS Pressure Sensor