Analytical Model for Evaluating the Reliability of Vias and Plated Through-Hole Pads on PCBs

IF 2.1 Q2 ENGINEERING, MULTIDISCIPLINARY

Inventions Pub Date : 2023-05-31 DOI:10.3390/inventions8030077

M. Korobkov, F. Vasilyev, O. Khomutskaya

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Abstract

Currently, there is a need to increase the density of interconnections on printed circuit boards (PCBs). Does this mean that the only option for quality PCB manufacturing is to proportionally increase precision of equipment, or is there another way? One of the main constraints on increasing the density of PCB interconnections is posed by the transition holes. As the number of conductive layers increases, the number of vias increases and they cover a significant space on the PCB. On the other hand, reducing the size of the vias is limited by the capability of spatial alignment of the PCB stack during manufacturing. There are standards that set limits for the design of contact pads on a PCB (IPC-A-600G, IPC-6012B). However, depending on the precision of production, the contact pads may be of poor quality. This raises the issue of determining the reliability of a contact pad with defined parameters at the design stage, taking into account manufacturing capabilities. This research proposes an analytical method for evaluation of reliability of a via or plated through-hole based on calculation of its probability of production in accordance with the current standards. On the basis of the method, a model was developed both for the case of a contact pad without any conductors connected to it (nonfunctional contact pad) and for the real case with a connected conductor. The model estimates the probability of making an acceptable via for a given reliability class depending on parameters such as the conductor width (minimum permissible and usable), drilled hole diameter, and pad diameter, as well as the accuracy of the drilling operation. The analysis of the modeling results showed that for the real case, a reduction in the reliability class would insignificantly affect the probability of making an acceptable via due to the tight limitation on the connection place of the conductor and the contact pad. In conclusion, we propose an algorithm for determining the optimal parameters of teardrops to minimize the negative impact of the conductor on the reliability of the vias.

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评估PCB上过孔和电镀通孔焊盘可靠性的分析模型

目前，需要增加印刷电路板(pcb)的互连密度。这是否意味着高质量PCB制造的唯一选择是按比例增加设备的精度，或者还有其他方法?增加PCB互连密度的主要制约因素之一是过渡孔。随着导电层数量的增加，过孔的数量也会增加，它们会在PCB上占据很大的空间。另一方面，减小过孔的尺寸受到制造过程中PCB堆叠空间对准能力的限制。有一些标准规定了PCB上接触垫的设计限制(IPC-A-600G, IPC-6012B)。但是，根据生产的精度，接触垫可能质量较差。这就提出了在设计阶段确定具有定义参数的接触垫的可靠性的问题，同时考虑到制造能力。本研究提出了一种基于现行标准计算通孔或镀通孔生产概率的可靠性评估分析方法。在此基础上，建立了无导线触点垫(无功能触点垫)和有导线触点垫实际情况的模型。该模型根据导体宽度(最小允许和可用)、钻孔直径、垫块直径以及钻井作业的精度等参数，估算出给定可靠性等级下可接受通孔的概率。对建模结果的分析表明，在实际情况下，由于导体与触点的连接位置有严格的限制，可靠性等级的降低对通过合格通孔的概率影响不大。总之，我们提出了一种确定泪滴最佳参数的算法，以最大限度地减少导体对过孔可靠性的负面影响。

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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