用于MPW芯片封装的QFP塑料腔载体设计

Zhenchao Li, Qian Wang, Yu Chen, Guangjun Cui, Zhao-Lin Liu
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引用次数: 1

摘要

在大规模生产之前,设计好的集成电路将首先使用多项目晶圆(MPW)程序进行验证。如何在短时间内以合理的价格封装MPW芯片是设计公司的共同需求。Quad Flat Package (QFP)空腔载体提供了一个保护芯片的“房子”,被IC设计公司和研究方广泛接受。但通常QFP空腔载体采用陶瓷成型,价格较高。本文介绍了一种采用微电子传递模塑技术,在模具零件上衬里双面薄膜的基于环氧模塑复合材料的QFP腔体载体。阐述了基于电磁兼容的QFP腔体载体的设计,并演示了利用波希曼模具提供的薄膜辅助成型(FAM)技术开发QFP腔体载体。在单元和带材拉深后,利用模流软件对成型过程进行了模拟。仿真结果表明,条带中的所有单元都可以被充分填充,化合物是无空隙的。结合以往QFN (Quad Flat No-lead Package)空腔产品的经验,QFP塑料空腔载体将在可接受的价格和交货时间内成为MPW芯片或测试芯片封装的通用套件。
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QFP plastic cavity carrier design for MPW chip package
Before mass production, designed IC will be firstly verified using a Multi Project Wafer (MPW) procedure. How to package the MPW chips in a short time with a reasonable price is the common need of design houses. The Quad Flat Package (QFP) cavity carrier provides a “house” to protect the chips, and is strongly accepted by IC design companies and research parties. But usually, the QFP cavity carrier is shaped by ceramic in a high price. This article will present an EMC (Epoxy Molding Compound) based QFP cavity carrier which is developed by a microelectronic transfer-molding technology with double side film lining the mold parts. The design of EMC based QFP cavity carrier is elaborated and the development of QFP cavity carrier through by Film Assistant Molding (FAM) technology provided by the Boschman molding tool is demonstrated. After unit and strip drawing, molding process with software of mold flow was simulated. The simulation results showed all of the units in the strip can be fully filled and the compound was void free. Together with previous experience in QFN (Quad Flat No-lead Package) cavity products, it is concluded that QFP plastic cavity carriers will become universal kits for MPW chip or testing chip package in an acceptable price and delivery time.
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