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引用次数: 4
摘要
这项工作提出了用于低力范围的LTCC小型化压阻式称重传感器。与以往在该领域的研究相比,我们根据商业产品设计了称重传感器。我们使用了一个独立的车轮结构和共烧压阻电阻作为可变形体,它结合了高灵敏度和抗剪切力的高稳健性。所设计的封装允许对不同范围(2 N, 5 N和10 N)的压缩和拉伸力进行传感,其特点是高度小型化。我们建立了一个分析模型来设计侧轮结构和预测预期的特性。为了提高可重复性和可靠性,我们研究了不同的制造技术,以减少裂纹,分层和下垂。传感器元件在GT 951上采用标准ltcc技术制造。根据相关参数在25°C到80°C之间进行了表征。计算结果与理论计算值吻合较好。
Low temperature cofired ceramics (LTCC)-based miniaturized load cells
This work presents miniaturized piezoresistive load cells in LTCC for low force ranges. Compared to former investigations on this area we designed the load cells according to commercial products. We used a freestanding cartwheel structure with co-fired piezoresistive resistors as deformable bodies which combines both: high sensitivity and a high robustness against shear forces. The designed packaging allows the sensing of compressive and tensile forces for different ranges (2 N, 5 N and 10 N) and is characterized by a high miniaturization. We developed an analytical model to design the cartwheel structures and to predict the expected characteristics. To increase the repeatability and the reliability we studied different fabrication techniques to reduce cracks, delaminations and sagging. The sensor elements were fabricated in the standard LTCC-technology on GT 951. The fabricated load cells were characterized between 25 °C and 80 °C regarding relevant parameters. The results show a good match to the theoretically calculated values.
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