偏置下热循环测量底端元件电化学可靠性的制造与试验设计

Mark McMeen, M. Bixenman
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引用次数: 0

摘要

造成电子器件电化学失效的因素有很多,包括节距、电场、离子污染和环境条件。这些因素都取决于安装位置,暴露在不同的温度和湿度下。所有这些因素的相互作用是相当复杂的,能够预测潜在的电化学失效是具有挑战性的。从焊膏的鉴定到生产中控制材料的离子污染水平,需要一系列的检测和预防措施。本研究的目的是通过不同的湿度和温度条件来表征这个问题。湿热模拟在高湿度水平和循环温度条件下被测部件的热负荷。冷凝试验验证了设计、材料和剩余电子电路残留物的防潮性。本研究使用的测试方法将使测试卡经受湿热和霜冻条件下的循环温度。恶劣环境模拟包括霜循环在内的热负荷,通过高湿条件下的循环温度变化诱导低露点条件。潮湿的环境对不清洁的电子设备和在设计验证测试的各个点检测电化学稳健性的基础提出了挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design for Manufacture and Test Using Thermal Cycling Under Bias to Measure Electrochemical Reliability on Bottom Terminated Components
There are many factors contributing to electrochemical failures on electronic devices including pitch, electrical field, ionic contamination and environmental conditions. Each of these factors is dependent on the installation location, with exposure to varying temperatures and humidity. The interactions of all these factors are quite complex, and being able to predict potential electrochemical failures is challenging. A series of detection and preventive measures from the qualification of solder pastes to controlling the ionic contamination levels of the materials in production is needed. The purpose of this research is to characterize this problem by varying humidity and temperature conditions. Humid heat simulates the thermal load of the components under test at high humidity levels with cyclic temperature conditions. Condensation tests verify the design, materials, and remaining electronic circuit residues' resistance to moisture. The test methodology used for this research study will subject the test cards to humid heat and cyclic temperatures with frost conditions. The harsh environment simulates the thermal load including frost cycling to induce low dewing point conditions through cyclic temperature changes at high humidity. Humid environments challenge no-clean electronics and the basis for detecting electrochemical robustness at various points during the design validation testing.
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