Towards a Smart Wireless Integrated Module (SWIM) on flexible organic substrates using inkjet printing technology for wireless sensor networks

S. Palacios, A. Rida, Sangkil Kim, S. Nikolaou, Samuel Elia, M. Tentzeris
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引用次数: 10

Abstract

Wireless sensor networks (WSNs) have potential military, industrial, biomedical, environmental, and residential applications. However, implementing sensor networks and realizing their potential faces various challenges. Sensors nodes should be small in size, ultra-low-power, and WSNs should be comprised of large quantities of sensor nodes [1][2]. These challenges emphasize the need for low-cost and eco-friendly substrates suitable for mass production of wireless sensor nodes. Organic substrates is one of the leading solutions to realize ultra-low cost and eco-friendly sensor networks [3]. This paper presents the first IEEE 802.14.4 and ZigBee complaint wireless sensor node on organic substrates. The wireless node is a System-on-Package (SoP) solution operating at 2.4GHz with a printed Planar Inverted-F Antenna (PIFA) on organic substrates using inkjet printing technology. A prototype is realized on FR-4 substrate and used to compare traditional manufacturing techniques with an inkjet-printing solution on paper, which is promising in the large scale manufacturing of ultra-low-cost eco-friendly “green” wireless sensor networks.
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在柔性有机基板上使用无线传感器网络喷墨打印技术的智能无线集成模块(SWIM)
无线传感器网络(WSNs)具有潜在的军事、工业、生物医学、环境和住宅应用。然而,实现传感器网络并发挥其潜力面临着各种挑战。传感器节点应该体积小,超低功耗,wsn应该由大量的传感器节点组成[1][2]。这些挑战强调需要适合大规模生产无线传感器节点的低成本和环保基板。有机衬底是实现超低成本和环保传感器网络的主要解决方案之一[3]。本文首次在有机基板上实现了IEEE 802.14.4和ZigBee无线传感器节点。无线节点是一个系统级封装(SoP)解决方案,工作频率为2.4GHz,采用喷墨打印技术在有机基板上印刷平面倒角f天线(PIFA)。在FR-4基板上实现了原型,并将传统制造技术与纸上喷墨打印解决方案进行了比较,这在大规模制造超低成本的环保“绿色”无线传感器网络中很有前景。
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