Conductive ink for through hole application

2000 Proceedings. 50th Electronic Components and Technology Conference (Cat. No.00CH37070) Pub Date : 2000-05-21 DOI:10.1109/ECTC.2000.853268

A. Xiao, Q. Tong, A. Savoca, R. Frentzel, M. C. Rendle, H. Van Oosten

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引用次数: 15

Abstract

Silver Through Hole (STH) technology describes a method of creating an electrical interconnect between the top and bottom sides of a printed circuit board. STH production has gained and continues to rapidly gain acceptance worldwide due to its low-cost, reliable and environmental friendly process. The detailed process for through hole connection is described in this paper. Even though the technology necessary to produce STH boards is mature, the performance of current through hole ink relies on different printed circuit board (PCB). The stability of electrical conductivity on exposure to solder baths or to thermal cycling is a predominant issue. This problem is associated with different metal fillers, resin systems and PCB types. For example, the electrical resistance of the ink on FR2 substrate gradually increases after each solder bath dip. Fundamental study has been conducted on the root cause of the hole resistance drifts after solder bath. TMA and DMA have been used to characterize CTE and curing performance of the ink and PCB substrates. The failure mechanism has been proposed and confirmed by designed experiments. Experimental results demonstrated that a hole resistance drift on FR2 substrate is caused by several factors. First, the higher thermal expansion of the substrate itself stretches the coating layer. Secondly, the continued curing makes the resin matrix fixed at higher temperature. The final factor is the CTE mismatch between the conductive ink and PCB substrate.

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通孔用导电油墨

银通孔(STH)技术描述了一种在印刷电路板的上下两侧之间建立电气互连的方法。由于其低成本、可靠和环保的工艺，STH生产已经并将继续在全球范围内迅速获得认可。本文详细介绍了通孔连接的工艺过程。尽管生产STH板所需的技术已经成熟，但电流通孔油墨的性能取决于不同的印刷电路板(PCB)。电导率的稳定性暴露于焊锡浴或热循环是一个主要问题。这个问题与不同的金属填料、树脂系统和PCB类型有关。例如，每次浸锡浴后，FR2基板上油墨的电阻逐渐增加。对锡浴后孔电阻漂移的根本原因进行了基础研究。TMA和DMA已被用来表征CTE和固化性能的油墨和PCB基板。通过设计试验，提出并验证了其破坏机理。实验结果表明，FR2衬底上的空穴电阻漂移是由多种因素引起的。首先，基材本身较高的热膨胀会拉伸涂层。其次，持续固化使树脂基体在较高温度下固定。最后一个因素是导电油墨和PCB基板之间的CTE不匹配。

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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来源期刊

2000 Proceedings. 50th Electronic Components and Technology Conference (Cat. No.00CH37070)

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