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Application of a multiline material characterization method to inkjet printed electronics

机译:多线材料表征方法在喷墨印刷电子学中的应用

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摘要

Material characterization has become increasingly important with the adoption of simulation-based workflow for microwave electronics design. This article focuses on the characterization of printable electronics materials using transmission-line measurements and demonstrates the capability of the multiline characterization method to separate dielectric and conductor losses when line geometry and material properties vary between the lines. The effects of multiline algorithm, number of line standards, and methods for selecting optimal line lengths are demonstrated. Consistent characterization results are obtained from inkjet-printed transmission lines on two different substrate materials. In addition, local conductor thickness variations are demonstrated as an effective way to decrease losses. Finally, the simulation-based procedure for determining the material properties is outlined and applied to printable electronics characterization. © 2013 Wiley Periodicals, Inc. Int J RF and Microwave CAE 24:177–183, 2014.
机译:随着微波电子设计中基于仿真的工作流程的采用,材料表征变得越来越重要。本文重点介绍了使用传输线测量来表征可印刷电子材料的方法,并演示了当线路几何形状和材料特性在线路之间变化时,多线路表征方法能够分离介电损耗和导体损耗的能力。演示了多行算法,行标准数量和选择最佳行长方法的效果。从两种不同基材上的喷墨打印传输线获得一致的表征结果。此外,局部导体厚度的变化被证明是减少损耗的有效方法。最后,概述了用于确定材料特性的基于仿真的过程,并将其应用于可打印的电子特性。 ©2013 Wiley Periodicals,Inc. Int J RF和Microwave CAE 24:177–183,2014年。

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