Flexible electronic assemblies for space applications

2010 IEEE Aerospace Conference Pub Date : 2010-03-06 DOI:10.1109/AERO.2010.5446717
L. Del Castillo, A. Moussessian, R. McPherson, Tan Zhang, Z. Hou, R. Dean, R. Johnson
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引用次数: 1

Abstract

This work describes the development and evaluation of advanced technologies for the integration of electronic devices within membrane polymers.123 Specifically, investigators thinned silicon die, electrically connecting them with circuits on flexible (liquid crystal polymer (LCP) and polyimide (PI)) circuits, using gold thermo-compression flip chip bonding, and embedding them within the material. The influence of temperature and flexure on the electrical behavior of active embedded assemblies was evaluated. In addition, the long term thermal cycle resistance of the passive daisy chain assemblies was determined within the Mil Std (−55 to +125°C), extreme low #1 (−125 to +85°C), and extreme low #2 (−125 to +125°C) temperature ranges. The results of these evaluations will be discussed, along with the application of this technology for future NASA missions.
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用于空间应用的柔性电子组件
这项工作描述了在膜聚合物中集成电子器件的先进技术的发展和评估具体来说,研究人员将硅晶片变薄,将它们与柔性(液晶聚合物(LCP)和聚酰亚胺(PI))电路上的电路电连接起来,使用金热压缩倒装芯片键合,并将它们嵌入材料中。评估了温度和挠度对主动嵌入式组件电气性能的影响。此外,被动式菊花链组件的长期热循环电阻在Mil Std(- 55至+125°C),极低#1(- 125至+85°C)和极低#2(- 125至+125°C)温度范围内确定。将讨论这些评估的结果,以及这项技术在未来NASA任务中的应用。
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2010 IEEE Aerospace Conference
2010 IEEE Aerospace Conference
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