压缩成型SiP条翘曲

E. Ouyang, Yonghyuk Jeong, JaeMyong Kim, Jaepil Kim, O. Kwon, M. Liu, Susan Lin, Jenn An Wang, Anthony Yang, Eric Yang
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引用次数: 3

摘要

系统级封装(SiP)技术已广泛应用于各种电子设备,但由于复杂的制造参数和工艺,封装的翘曲行为难以控制和预测[1],[2]。以往对带钢翘曲的研究主要集中在SiP模块单元上,而将带钢翘曲作为制造工艺的一个函数进行理论和实验研究的研究较少。本文通过实验和数值方法研究了制造工艺,主要是压缩成型工艺对翘曲的影响。为了更好地了解压缩成型的优点,我们还将使用计算机模拟比较压缩成型与传递成型。本文将指出这两种不同制造工艺的优缺点。
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Warpage of Compression Molded SiP Strips
System-in-Package (SiP) technology has been used for a wide range of electronic devices, but the warpage behavior of the package can be difficult to control and predict due to complex manufacturing parameters and processes [1], [2]. Previous research on the warpage primarily focused only on the SiP module unit, while the consideration of strip warpage as a function of manufacturing processes has not typically been studied theoretically and experimentally. In this paper, the impact of manufacturing processes, mainly the compression molding process, on the warpage is investigated experimentally and numerically. To better understand the advantages of compression molding, we will also compare compression molding with transfer molding using a computer simulation. The paper will point out the pros and cons of these two different manufacturing processes.
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Magnetically Actuated Test Method for Interfacial Fracture Reliability Assessment nSiP(System in Package) Platform for various module packaging applications IEEE 71st Electronic Components and Technology Conference [Title page] Evaluation of Low-k Integration Integrity Using Shear Testing on Sub-30 Micron Micro-Cu Pillars CoW Package Solution for Improving Thermal Characteristic of TSV-SiP for AI-Inference
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