微芯片水雾大规模并行装配的混合微装配

2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2012-08-01 DOI:10.1109/3M-NANO.2012.6472937

Bo Chang, A. Virta, Quan Zhou

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引用次数: 6

摘要

提出了一种用于200μm × 200μm × 30μm SU-8芯片大规模并行装配的混合微装配技术。混合微组装技术结合了机器人拾取技术和水雾诱导自组装技术。利用机器人搬运工具快速将微芯片大致放置在相同尺寸的芯片上，然后输送由微滴组成的水雾，实现高精度、大规模平行对准。结果表明，混合装配技术在微芯片装配中具有广阔的应用前景。将200μm × 200μm × 70μm的SU-8芯片组装在相同尺寸的SU-8芯片上;其中，在x和y方向偏差高达130μm时，成功率可达80%。我们已经证明了该技术可以组装30个200μm × 200μm SU-8芯片的矩阵。结果表明，对准精度可达亚微米级。

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Hybrid microassembly for massively parallel assembly of microchips with water mist

This paper proposes a hybrid microassembly technique for massively parallel assembly of 200μm × 200μm × 30μm SU-8 chips. The hybrid microassembly technique combines the robotic pick-and-place technique and water mist induced self-assembly technique. The robotic handling tool is used to place microchips roughly on chips of the same size at a fast speed, and then water mist composed of microscopic droplets is delivered to achieve high accuracy and massively parallel alignments. The results indicate the hybrid assembly technique is promising for assembly of microchips. A 200μm × 200μm × 70μm SU-8 chip is assembled on the top of another SU-8 chip of the same size; where the success rate can reach 80% with bias as high as 130μm in x- and y directions. We have demonstrated that the proposed technique in assembly a matrix of 30 200μm × 200μm SU-8 chips. The results also show that alignment can reach sub micrometer accuracy.

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来源期刊

2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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