Productivity improvement of stack package line through die bonding process & scheme optimization

Xing Jin, M. Li
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引用次数: 1

Abstract

To conform to the ever-emerging market demand, stacked memory devices have been more widely utilized. The stacking method also reduces the cost of electronical components through the way that stacking could fully utilize currently on-hand equipment without any new investment. While, starting from late 2003, flash memory manufacturers begin experience capacity degradation, specifically with multiple loop-back workflows induced by stack CSP devices. By analyzing the process of stacking, the industrypsilas practice considers the control of assembly cost largely depends on the improvement of overall line productivity, specifically the critical bottle-neck area of die bonding. This presentation intends to critically describe the methodology and procedures used by Intelpsilas stack CSP assembly factory, which finally results innovative projects targeting above said productivity improvements. The authors use TRIZ, an inventive problem solving theory and application tool, to analyze and abstract the major contradictions and then sketch out possible solutions. As a result of the applications, the overall stack CSP assembly factorypsilas productivity increased to a record-high of 340%, far above the industry average, and supports Intelpsilas stack CSP assembly factory more efficient than benchmarking world-class companies ever since. The authors of this paper wishes the methodology on productivity and design flexibility at Intelpsilas stack CSP assembly factory could possibly be proliferated, so as to help achieve productivity and capability maximum output throughout the industry.
通过模具粘接工艺提高堆叠封装生产线的生产效率及方案优化
为了适应不断涌现的市场需求,堆叠存储器件得到了更广泛的应用。这种叠层方法还降低了电子元件的成本,因为叠层可以充分利用现有的设备,而不需要任何新的投资。然而,从2003年底开始,闪存制造商开始经历容量下降,特别是由堆栈CSP设备引起的多个环路工作流程。通过对堆垛过程的分析,工业界的实践认为,控制装配成本在很大程度上取决于整体生产线生产率的提高,特别是模具粘接的关键瓶颈区域。本演讲旨在批判性地描述Intelpsilas堆栈CSP装配厂使用的方法和程序,最终导致针对上述生产率提高的创新项目。作者运用TRIZ这一创造性的问题解决理论和应用工具,对主要矛盾进行了分析和抽象,并勾勒出可能的解决方案。由于这些应用程序,整个堆栈CSP组装工厂的生产率提高到创纪录的340%,远高于行业平均水平,并且支持Intelpsilas堆栈CSP组装工厂比世界一流公司更高效。本文的作者希望Intelpsilas堆栈CSP装配厂的生产率和设计灵活性的方法能够得到推广,从而帮助整个行业实现生产率和能力的最大产出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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