考虑流固耦合的PBGA封装优化响应面法

2016 2nd International Conference of Industrial, Mechanical, Electrical, and Chemical Engineering (ICIMECE) Pub Date : 1900-01-01 DOI:10.1109/ICIMECE.2016.7910464

D. Ramdan, Darianto, C. Khor

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引用次数: 0

摘要

介绍了塑料球栅阵列封装在封装过程中的优化问题。对PBGA封装进行了优化设计，提高了封装工艺，减小了导线上的应力和变形。采用中心复合设计(CCD)，通过响应面法优化物理和工艺参数(即入口压力、线材直径、排气孔高度和充模时间)，以最大限度地减少封装过程中线材应力、线材扫描、充模时间和封装空隙。从流固耦合(FSI)方面对PBGA封装进行了优化。对优选的经验模型进行了验证，并与仿真结果进行了比较。对PBGA封装(30 mm × 30 mm)的物理和工艺参数进行了优化设计，在进口条件为10 MPa时，达到了8个线键、0.25 mm的排气厚度、4.46 s的填充时间和2.52%的空隙率。

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Optimization of PBGA encapsulation considering fluid/structure interaction using response surface methodology

This paper presents the optimization of the Plastic Ball Grid Array (PBGA) package during the encapsulation process. Optimized design of the PBGA package enhances the encapsulation process and minimizes the stress and deformation on the wires. The physical and process parameters (i.e., pressure inlet, diameter of wire, vent height, and mould filled time) were optimized via response surface methodology using central composite design (CCD) to minimize the stress of wire, wire sweep, filling time and void in package during the encapsulation process. The optimization of the PBGA encapsulation was carried out by considering the fluid/structure interaction (FSI) aspects. The optimum empirical models were examined and well confirmed with the simulation results. The optimum design of the PBGA package (30 mm × 30 mm) for both physical and process parameters was characterized by 8 wire bonds, 0.25 mm of vent thickness, 4.46 s of filling time and 2.52 % of void at the inlet condition of 10 MPa.

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2016 2nd International Conference of Industrial, Mechanical, Electrical, and Chemical Engineering (ICIMECE)

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