用于高密度SIP应用的水溶性7型SAC305锡膏提高55μm焊盘的释出度

B. Senthil Kumar, Zhang Rui Fen, Yam, Lip Huei, Zhang HanWen, Kang Sungsig, Chan Li-san
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引用次数: 1

摘要

超细SAC305焊料具有良好的连接强度、热机械疲劳性能和抗蠕变性能等优点,被广泛应用于先进封装中作为无铅互连焊料。由于模板印刷具有使用经济、易于过程控制、使用灵活以及快速和广泛的过程窗口等优点,因此它仍然是系统级封装(SiP)组装的首选技术。SiP涉及不同组件、铜柱倒装芯片和芯片在一个封装中的高级集成,以在一个系统中实现多种功能。为了适应不断增长的对减小占地面积的需求,该技术需要不断发明一系列直径为55μm的铜柱和更小的组件。许多移动通信SiP在单个封装中包含6个或更多的倒装芯片。传统的倒装芯片附件使用助焊剂和铜柱焊锡帽来形成焊点,因为在70μm以下的精细几何形状上印刷锡膏具有挑战性。锡膏印刷的其他好处有助于消除非湿铜柱缺陷率,提高产量优于传统的助焊剂印刷。贺利氏焊锡膏(AP系列T7)利用超细的球形焊锡粉,在铜柱安装到基板的回流过程中产生牢固的金属凝聚。例如,目前使用的最小的无源元件是008004,铜柱直径为70um,其模板开口分别为125μm和70μm。铜柱倒装芯片直径若进一步减小到55μm,则需要将模板开口进一步减小到55μm,从而测试当前7型浆料的极限。目前的焊膏(AP T7系列)在开口为70μm及以上时,可满足印刷一致性。由于模板开口较小,低至55μm,因此打印性能不如预期。本文介绍了采用改进型助焊剂的7型浆料增强版的模板印刷应用。应用试验采用55μm的模板开口进行。本文将报告该应用测试的结果。
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Enhancing the Paste Release on 55μm pads with Water-Soluble Type 7 SAC305 Solder Paste for High Density SIP Application
The ultra-fine SAC305 solder is widely used as the lead-free solder composition for interconnection in advanced packaging based on its advantages such as good joint strength, thermo-mechanical fatigue behavior and creep resistance. Stencil printing remains the technology of choice for system-in-package (SiP) assembly because of its benefits such as economy of usage, ease of process control, flexibility of usage and fast and wide range of process window. SiP involves the high-level integration of different components, Copper (Cu) pillar flip-chip dies and chips in one package to achieve multiple functions in one system. The need to accommodate ever increasing demand for reduced footprints requires the technology to constantly invent a range of Cu pillar 55μm diameter and smaller components. Many mobile communications SiP consist of 6 or more flip chips in a single package. Conventional flip-chip attach uses flux & Cu pillar solder cap for solder joint formation as it is challenging for solder paste to be printed on fine geometries below 70μm. Additional benefits of solder paste printing help eliminate non-wet Cu pillar defect rates and improve yield over conventional flux printing. Heraeus solder paste (AP series T7) makes use of ultra-fine spherical shape of solder powder to create strong metal coalesce for bonding during reflow process of Cu pillars mounting to substrates. For example, the smallest passive component in use today is 008004 and Cu pillar diameter of 70um, which has a stencil opening of 125μm and 70μm respectively. Further reduction in Cu pillar flip-chip diameter of 55μm will require further reduction in stencil opening to 55μm, thus testing the limits of current type 7 pastes. Current solder pastes (AP series T7) can meet the consistency of printability when the stencil opening is 70μm or more. With smaller stencil opening, down to 55μm, the printing performance is less than desired. In this paper we describe the stencil printing application on the enhanced version of type 7 paste with a reinvented flux. The application tests were carried out using 55μm stencil opening. This paper will report the results of this application test.
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