High throughput R2R printing, testing and assembly processing of flexible RGB LED displays

K. Keränen, P. Korhonen, T. Happonen, Mikko Paakkolanvaara, Jouni Kangas, K. Rönkä
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引用次数: 4

Abstract

This paper introduces high throughput processing of hybrid flexible RGB LED displays. Processing consists of conductive tracks printing on PET substrate, verification of printed substrate quality by specific characterization equipment and assembly of individually addressable RGB LEDs on substrate using adhesive bonding process. High throughput in manufacturing of flexible displays is achieved utilizing roll-to-roll processes in all steps of the manufacturing process. Utilization of seamless printing tool doubled printing process throughput compared to traditional printing process requiring two printing tools and steps. Implemented roll-to-roll automated electrical test equipment enabled high throughput testing and verification of printed substrate web functionality. Testing was a very important step to verify that printed wiring on the web fulfilled quality requirements for the assembly process. Required SMD components electrically bonded on substrate with R2R assembly machine by utilizing Isotropic Conductive Adhesive (ICA). In addition, Non-Conductive Adhesive (NCA) utilized to provide mechanical support of component, when flexible system bended to smaller than 20 mm radius. Dispensing process noticed to be the most time consuming process in flexible LED display manufacturing, when numerous adhesive dots applied on the substrate. In order to increase throughput in manufacturing, decrease of time used in dispensing process needed. Throughput increase by a factor of ten was possible to achieve by utilizing high speed dispensing process. Increase of more dispenser units in the dispensing process furthermore increase achievable throughput in the manufacturing process. Two meter long flexible display system demonstrator was designed, manufactured and tested based on processed flexible display element.
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柔性RGB LED显示屏的高通量R2R打印,测试和组装加工
介绍了混合柔性RGB LED显示屏的高吞吐量处理方法。加工过程包括在PET基板上印刷导电轨迹,通过特定的表征设备验证印刷基板的质量,以及使用粘合剂粘合工艺在基板上组装可单独寻址的RGB led。柔性显示器制造的高吞吐量是在制造过程的所有步骤中利用卷对卷工艺实现的。与需要两个印刷工具和步骤的传统印刷过程相比,无缝印刷工具的利用使印刷过程的吞吐量增加了一倍。实现卷对卷自动化电气测试设备,可实现印刷基板卷筒纸功能的高通量测试和验证。测试是一个非常重要的步骤,以验证在网上印刷布线满足装配过程的质量要求。所需的SMD组件通过各向同性导电胶(ICA)在R2R组装机上电粘合在基板上。此外,当柔性系统弯曲半径小于20mm时,使用非导电胶粘剂(NCA)提供组件的机械支撑。点胶过程是柔性LED显示屏制造中最耗时的过程,在基材上应用了大量的胶点。为了提高生产的吞吐量,需要减少在点胶过程中使用的时间。通过利用高速点胶工艺,可以实现吞吐量增加十倍。在点胶过程中增加更多的点胶机单元,进一步增加了制造过程中的可实现吞吐量。基于加工后的柔性显示元件,设计、制造和测试了两米长的柔性显示系统演示器。
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