Use of Rotary Ultrasonic Plastic Welding as a Continuous Interconnection Technology for Large-Area e-Textiles

C. Dils, Sebastian Hohner, M. Schneider-Ramelow
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引用次数: 1

Abstract

For textile-based electronic systems with multiple contacts distributed over a large area, it is very complex to create reliable electrical and mechanical interconnections. In this work, we report for the first time on the use of rotating ultrasonic polymer welding for the continuous integration and interconnection of highly conductive ribbons with textile-integrated conductive tracks. For this purpose, the conductive ribbons are prelaminated on the bottom side with a thermoplastic film, which serves as an adhesion agent to the textile carrier, and another thermoplastic film is laminated on the top side, which serves as an electrical insulation layer. Experimental tests are used to investigate the optimum welding process parameters for each material combination. The interconnects are initially electrically measured and then tested by thermal cycling, moisture aging, buckling and washing tests, followed by electrical and optical analyses. The interconnects obtained are very low ohmic across the materials tested, with resulting contact resistances between 1 and 5 mOhm. Material-dependent results were observed in the reliability tests, with climatic and mechanical tests performing better than the wash tests for all materials. In addition, the development of a heated functional prototype demonstrates a first industrial application.
旋转超声塑料焊接作为大面积电子纺织品连续互连技术的应用
对于具有大面积分布的多个触点的基于纺织品的电子系统,创建可靠的电气和机械互连是非常复杂的。在这项工作中,我们首次报道了使用旋转超声聚合物焊接将高导电带与纺织集成导电轨道连续集成和互连。为此,在导电带的底部预先层压热塑性薄膜,热塑性薄膜作为纺织品载体的粘合剂,在顶部层压另一热塑性薄膜,作为电绝缘层。通过试验研究了各种材料组合的最佳焊接工艺参数。首先对互连进行电气测量,然后通过热循环、水分老化、屈曲和洗涤测试进行测试,然后进行电气和光学分析。所获得的互连在测试材料上的欧姆非常低,所产生的接触电阻在1到5 mOhm之间。在可靠性测试中观察到与材料相关的结果,气候和机械测试的表现优于所有材料的洗涤测试。此外,加热功能原型的开发展示了第一个工业应用。
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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