基于多层结构应力平衡控制的屈曲膜片灵敏度增强超声微传感器

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688389

K. Yamashita, Hikaru Tanaka, Yi Yang, M. Noda

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引用次数: 8

摘要

通过一种膜片向上屈曲比向下屈曲灵敏度更高的新型屈曲控制技术，提高了压电超声微传感器的灵敏度。膜片具有压缩和拉伸应力层，并且开发了一种制造工艺来优化应力平衡，以产生向上的屈曲力矩。在晶圆上196个传感器中，92%的传感器产生了向上弯曲的膜片，并且将灵敏度提高到平均6.7倍。

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Sensitivity-enhanced ultrasonic microsensors on buckled diaphragms through stress balance control of multilayered structure

Sensitivity of piezoelectric ultrasonic microsensors has been improved through a novel buckling control technique of the diaphragms of which upward buckling yields higher sensitivity than downward one. The diaphragms have compressive-and tensile-stressed layers, and a fabrication process has been developed to optimize the stress balance to generate an upward buckling moment. The fabricated sensors have yielded upward-buckled diaphragms in 92% of 196 ones on a wafer and an improved sensitivity to 6.7 times on average.

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2013 IEEE SENSORS

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