High-resolution sensing sheet for structural-health monitoring via scalable interfacing of flexible electronics with high-performance ICs

2012 Symposium on VLSI Circuits (VLSIC) Pub Date : 2012-06-13 DOI:10.1109/VLSIC.2012.6243819

Yingzhe Hu, W. Rieutort-Louis, J. Sanz-Robinson, K. Song, J. Sturm, S. Wagner, N. Verma

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引用次数: 11

Abstract

Early-stage damage detection for buildings and bridges requires continuously sensing and assessing strain over large surfaces, yet with centimeter-scale resolution. To achieve this, we present a sensing sheet that combines high-performance ICs with flexible electronics, allowing bonding to such surfaces. The flexible electronics integrates thin-film strain gauges and amorphous-silicon control circuits, patterned on a polyimide sheet that can potentially span large areas. Non-contact links couple digital and analog signals to the ICs, allowing many ICs to be introduced via low-cost sheet lamination for energy-efficient readout and computation over a large number of sensors. Communication between distributed ICs is achieved by transceivers that exploit low-loss interconnects patterned on the polyimide sheet; the transceivers self-calibrate to the interconnect impedance to maximize transmit SNR. The system achieves multi-channel strain readout with sensitivity of 18μStrainRMS at an energy per measurement of 270nJ, while the communication energy is 12.8pJ/3.3pJ per bit (Tx/Rx) over 7.5m.

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通过柔性电子器件与高性能集成电路的可扩展接口，用于结构健康监测的高分辨率传感片

建筑物和桥梁的早期损伤检测需要连续地感知和评估大型表面上的应变，但具有厘米级的分辨率。为了实现这一目标，我们提出了一种结合高性能集成电路和柔性电子器件的传感片，允许在这些表面上进行键合。这种柔性电子设备将薄膜应变计和非晶硅控制电路集成在聚酰亚胺片上，可以覆盖大面积。非接触式链路将数字和模拟信号耦合到ic上，允许通过低成本片层压引入许多ic，从而在大量传感器上实现节能读出和计算。分布式集成电路之间的通信由利用聚酰亚胺片上图案的低损耗互连的收发器实现;收发器自校准到互连阻抗，以最大限度地提高发射信噪比。该系统在每次测量能量为270nJ的情况下实现了灵敏度为18μStrainRMS的多通道应变读出，而通信能量为12.8pJ/3.3pJ / bit (Tx/Rx)，传输距离为7.5m。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 Symposium on VLSI Circuits (VLSIC)

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