织物
数码产品
柔性电子器件
材料科学
复合数
电子线路
电子元件
导电体
电气工程
光电子学
工程类
复合材料
作者
Matija Varga,Niko Münzenrieder,Christian Vogt,Gerhard Tröster
标识
DOI:10.1109/ectc.2015.7159665
摘要
Due to the desirable mechanical properties (e.g. bendability) of flexible electronics and sensors, there has been an increased effort to bring them in the fields of flexible displays and smart textiles. The challenge of developing an integration principle for flexible electronic systems with multiple sensors and circuits still remains. In this paper, we show a novel integration approach that creates a composite of flexible electronics and woven textile with conductive fibers (etextile). The goal is to develop a programmable textile that can be used to configure a flexible system, e.g. turn on/off sensors or dynamically route signals. The main components of the programmable textile (SRAM cells and multiplexers) are fabricated on a 50 μm thick freestanding polyimide foil using amorphous-Indium-Gallium-Zinc-Oxide as a semiconductor and packaged in 7 mm × 7 mm encapsulated electronic components. These components are then interconnected using two layers of e-textile that form a grid of orthogonal 280 μm thick Ag/Cu fibers with a pitch of 750 μm. A simulation is used to verify the circuit design and simulate the working principle of the programmable textile (a look-up table).
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