热循环试验下FCGBA封装微碰撞互连的平均开裂时间模型

19th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC) Pub Date : 1900-01-01 DOI:10.1109/THERMINIC.2013.6675215

Chien-Chang Chen, Wei-Chen Wu, Ching-Yu Chin, Hung-Ming Chen, V. Lin, E. Chen

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引用次数: 0

摘要

利用热循环条件下倒装球栅阵列(FCBGA)封装焊点蠕变变形机理的物理特性，建立了平均开裂时间(MTTC)预测的解析模型。在考虑时间相关热测试函数的情况下，利用所提出的MTTC模型从理论上研究了常规共晶锡/铅微焊料的单周期Nabarro-Herring蠕变速率和Coble蠕变速率及其相应的损伤累积函数。为了对MTTC模型进行实验验证，在-40°C~125°C的周期为1小时的1000次热循环测试中，对一批在FCGBA封装中填充树脂的器件进行了测试。MTTC模型表明，在循环测试环境下，FCGBA内的焊料凸起可以存活约0.53年。在室温下，该装置在连续操作下甚至可以存活约2.45年。

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Mean-time-to-crack model of microbump interconnect in FCGBA package under thermal cyclic test

By employing the physical characteristics of creep deformation mechanisms for solder joints in a flip-chip ball grid array (FCBGA) package under a thermal cyclic condition, an analytical model for the prediction of mean-time-to-crack (MTTC) is presented in the paper. With the consideration of time-dependent thermal testing functionals, the basic co-analyses of one-cycle Nabarro-Herring and Coble creep rates and the corresponding damage accumulation functionals for the conventional eutectic Sn/Pb micro-solder material are studied using the proposed MTTC model theoretically. For experimentally validation of the MTTC model, a batch of devices filled with resin in FCGBA package had been tested under a -40°C~125°C thermal cyclic test with a period of 1-hour 1000 times. The MTTC model reveals that the solder bumps within the FCGBA can survive about 0.53 year under the cyclic testing circumstance. Under the room temperature, the device even can survive about 2.45 years under continuously operations.

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19th International Workshop on Thermal Investigations of ICs and Systems (THERMINIC)

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