加速功率循环试验评价IPM分层寿命

2014 International Conference on Electronics, Information and Communications (ICEIC) Pub Date : 2014-10-02 DOI:10.1109/ELINFOCOM.2014.6914451

Sungsoon Choi, Wooyoung Lee, Kwanhoon Lee

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引用次数: 1

摘要

高功率半导体与低功率半导体的主要区别在于工作时的自热。半导体的自热会导致剧烈的热变化。特别是，可再生能源的应用往往是反复的间歇运行。热变化导致衬底、键合材料(焊料)、键合线和芯片材料(Si)之间CTE(热膨胀系数)失配导致机械应力。因此，它引起分层或裂纹(焊料，焊丝粘合)。每种材料应具有良好的导热性，化学稳定性，导电性，CTE应类似于芯片材料，以提高电源循环寿命(或IOL(间歇操作寿命))。在实际应用过程中进行了加速寿命试验，预测了间歇使用寿命。

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Delamination lifetime evaluation of IPM by accelerated power cycle test

Key difference between high-power semiconductor and low-power semiconductor is self heating during operation. Self heating leads to extreme thermal change in semiconductor. Especially, regenerative energy applications tend to repeated intermittent operation. Thermal change leads to mechanical stress by CTE(Coefficient of Thermal Expansion) mismatch between substrate, bonding material(solder), bonding wire and chip material(Si). Consequently, it induces delamination or crack(solder, wire bonding). Each materials should be thermally well conductive, chemically stable, electrically well conductive and CTE should be similar to chip material to enhance power cycle life(or IOL(Intermittent Operating Life)). Accelerated life test was executed to predict intermittent operating life during actual application.

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2014 International Conference on Electronics, Information and Communications (ICEIC)

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