抽象的

Simulation of RF-MEMS Bio Implantable Sensor for Orthopedic Application

S.Sasikala, R.Joseph Daniel, N.Bharathi

The ability to telemetrically measure strain is important in many aspects of daily life which brings important scientific and technological challenges in many sectors such as civil engineering, aircraft modeling, etc..,. Another unrealized, application area is human medicine and healthcare. MEMS (Micro Electro- Mechanical System) technology for Radio Frequency applications has emerged in recent years as a valuable solution to fabricate passive components for the above application with remarkable performance, like very high quality factor and wide capacitance tuning ranges. This paper presents a bio-MEMS strain sensor. The sensor is designed and fabricated in a suspended architecture that increases the quality factor of the sensor with increased resonance frequency shift under load using RF-MEMS approach. As load is applied to stainless steel plate it deforms and modifies the operating frequency shift. When the tissues mineralize, strain in the plate gets decreases thus allowing the observation of healing process. IntelliSuite software is a design and verification tool for MEMS. This software can simulate actual steps in a fabrication process to develop a 3-D model of a device that can be used to perform 3-D simulation. The suspended architecture is designed and simulated using this software. The resonance frequency shift is measured and the results is found satisfactory.

免责声明: 此摘要通过人工智能工具翻译,尚未经过审核或验证

索引于

学术钥匙
研究圣经
引用因子
宇宙IF
参考搜索
哈姆达大学
世界科学期刊目录
学者指导
国际创新期刊影响因子(IIJIF)
国际组织研究所 (I2OR)
宇宙

查看更多