Abstract
The process of printed circuit board assembly (PCBA) involves several machines, such as a stencil printer, placement machine and reflow oven, to solder and assemble electronic components onto printed circuit boards (PCBs). In the production flow, some failure prevention mechanisms are deployed to ensure the designated quality of PCBA, including solder paste inspection (SPI), automated optical inspection (AOI) and in-circuit testing (ICT). However, such methods to locate the failures are reactive in nature, which may create waste and require additional effort to be spent re-manufacturing and inspecting the PCBs. Worse still, the process performance of the assembly process cannot be guaranteed at a high level. Therefore, there is a need to improve the performance of the PCBA process. To address the aforementioned challenges in the PCBA process, an intelligent assembly process improvement system (IAPIS) is proposed, which integrates the k-means clustering method and multi-response Taguchi method to formulate a pro-active approach to investigate and manage the process performance. The critical process parameters are first identified by means of k-means clustering and the selected parameters are then used to formulate a set of experimental studies by using the multi-response Taguchi method to optimize the performance of the assembly process. To validate the proposed system, a case study of an electronics manufacturer in the solder paste printing process was conducted. The contributions of this study are two-fold: (i) pressure, blade angle and speed are identified as the critical factors in the solder paste printing process; and (ii) a significant improvement in the yield performance of PCBA can be achieved as a component in the smart manufacturing.
Highlights
In recent years, due to the rapid growth of electronic products, the quality and productivity requirements of electronics manufacturing have become strict and complicated
The adoption of the proposed system, intelligent assembly process improvement system (IAPIS), in the printed circuit board assembly (PCBA) process can achieve a positive process performance impact, there are some differences in operations when applying the proposed system
The industrial practice of using a 60 blade angle is widely adopted worldwide, this study explored a new research area to further improve the process performance in the PCBA process
Summary
Due to the rapid growth of electronic products, the quality and productivity requirements of electronics manufacturing have become strict and complicated. The product engineering team requests that the printed circuit boards (PCBs) be designed using small and precise electronic components. End consumers have higher product quality and stability requirements throughout the entire product life cycle. For the mass production of electronic products, printed circuit board assembly (PCBA) is critical to the manufacture of the designed PCBs by means of surface mount technology (SMT). The effective adoption of SMT is essential to the yield performance and product quality of the finished PCBs, in relation to handling the small component package size, such as 0201.
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