Investigations of Nd:YAG laser formed connections and disconnections of standard CMOS double level metallizations

1990 Proceedings. International Conference on Wafer Scale Integration Pub Date : 1990-01-23 DOI:10.1109/ICWSI.1990.63913

H.-D. Hartmann, T. Hillmann-Ruge

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引用次数: 6

Abstract

Nd:YAG laser processing of vertical links and cutting of interconnections in both metallization levels have been investigated. Main emphasis was on examination of the statistics of laser processing and the reliability of the processed antifuses. For this purpose, a special test chip has been designed and fabricated in a standard double level CMOS process. Laser cutting of interconnections is possible with one pulse in both metallization levels without passivation opening. For laser linking with the pulsed Nd:YAG, simply expanded interconnections turned out to be best suitable. Structures which are passivated prior to laser processing showed a significantly higher yield than depassivated combined with improved reproducibility of laser processing. Best yield of 99.4% with contact resistances <0.3 Omega has been achieved with expansions of 20*20 mu m/sup 2/. However, expansions of 14*14 mu m/sup 2/ are the best choice as yield is only slightly below that of the larger structures and consumption of area is much less. Accelerated life time tests with current densities up to 1*10/sup 6/ A/cm/sup 2/ and temperatures up to 270 degrees C were carried out. Materials were analysed with EDX, AES, and SIMS.<>

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Nd:YAG激光形成标准CMOS双能级金属化连接和断开的研究

研究了Nd:YAG激光加工垂直连接和金属化两层互连的切割。主要重点是检查激光加工的统计数据和加工的抗引信的可靠性。为此，采用标准的双能级CMOS工艺设计并制作了专用测试芯片。激光切割的互连是可能的，一个脉冲在两个金属化水平没有钝化开口。对于激光与脉冲Nd:YAG的连接，简单的扩展互连被证明是最合适的。在激光加工之前进行钝化处理的结构显示出明显高于去钝化的结构，并改善了激光加工的再现性。接触电阻>的最佳收率为99.4%

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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1990 Proceedings. International Conference on Wafer Scale Integration

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