Actuation and sensing integration challenges at the microscale: the Gordian Knot of the resonant bioMEMS realm

2010 IEEE International Frequency Control Symposium Pub Date : 2010-06-01 DOI:10.1109/FREQ.2010.5556369
L. Nicu, T. Alava, F. Mathieu, C. Ayela, C. Soyer, D. Remiens
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引用次数: 1

Abstract

Sensing platforms (5mm*5mm) containing 5 piezoelectric membranes have been fabricated by standard micromachining techniques starting with a Silicon-On-Insulator wafer. Each membrane (circular, with radius varying from 360 microns to 440 microns) could be individually actuated through a PZT 1-micron thick film and sensed either via the same piezoelectric patch or via two terminal piezoresistances (obtained by boron implantation) placed at high-stress location onto the devices. Specific associated electronics (bandwidth of 2 MHz) have been designed and realized so that multiplexed actuation and sensing of all membranes resonant frequencies can be performed either in open-loop or closed-loop mode.
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微尺度下的驱动和传感集成挑战:共振生物机械领域的死结
通过标准的微加工技术,从绝缘体上硅晶圆开始,制造了包含5个压电膜的传感平台(5mm*5mm)。每个膜(圆形,半径从360微米到440微米不等)可以通过1微米厚的PZT膜单独驱动,并通过相同的压电片或通过放置在设备高应力位置的两个终端压电阻(通过硼植入获得)进行感应。已经设计并实现了特定的相关电子器件(带宽为2mhz),以便在开环或闭环模式下执行所有膜谐振频率的多路驱动和传感。
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2010 IEEE International Frequency Control Symposium
2010 IEEE International Frequency Control Symposium
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