Technical Library | 2025-11-11 19:37:14.0
Facing inefficiencies and quality control challenges during pre-production, Microboard turned to ScanCAD to improve circuit card assembly inspections. Traditional reliance on Gerber data from board shops resulted in delayed feedback, rework, and scrap--adding as much as 10% to pre-production costs. Manual inspections further slowed the process and left subtle defects undetected. ScanCAD empowered Microboard to perform automated, in-house inspections, identifying issues such as board stretch, over-etching, and component misalignments before they disrupted production. The technology also created digital records for enhanced traceability and quality assurance, a critical feature for regulatory compliance. Since implementing ScanCAD, Microboard has achieved: 40% reduction in pre-production cycle time 40% reduction in line shutdowns due to pre-production errors 20% reduction in pre-production process costs The Executive Director of Technology calls the tool indispensable, particularly for projects involving smaller components and high-complexity assemblies.
Technical Library | 2020-07-02 01:14:44.0
Head-in-Pillow (HIP) defects are a growing concern in the electronics industry. These defects are usually believed to be the result of several factors, individually or in combination. Some of the major contributing factors include: surface quality of the BGA spheres, activity of the paste flux, improper placement / misalignment of the components, a non-optimal reflow profile, and warpage of the components. To understand the role of each of these factors in producing head-in-pillow defects and to find ways to mitigate them, we have developed two in-house tests.
Technical Library | 2013-03-12 13:25:18.0
High density and miniaturized circuit assemblies challenge the solder paste printing process. The use of small components such as 0201, 01005 and μBGA devices require good paste release to prevent solder paste bridging and misalignment. When placing these miniaturized components, taller paste deposits are often required. To improve solder paste deposition, a nano-coating is applied to laser cut stencils to improve transfer efficiency. One concern is the compatibility of the nano-coating with cleaning agents used in understencil wipe and stencil cleaning. The purpose of this research is to test the chemical compatibility of common cleaning agents used in understencil wipe and stencil cleaning processes.Compatibility of Cleaning Agents With Nano-Coated Stencils
Technical Library | 2008-10-29 18:45:53.0
Growing demand for compact, multi-function electronics products has accelerated component miniaturization and high-density placement, creating new challenges for the electronics manufacturing industry. It is no longer adequate to simply place parts accurately per a pre-defined CAD assembly program because solder paste alignment errors are increasing for numerous reasons. The solution to this problem is a system in which the placement machine can automatically detect and compensate for misalignment of the solder paste to produce high-quality boards regardless of the process errors beforehand.
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