Technical Library | 2024-11-22 06:29:45.0
This article discusses the critical importance of identifying faulty components in Printed Circuit Boards (PCBs). It outlines common signs of defective components--such as physical damage, electrical failures, and overheating--while also exploring detection techniques like visual inspection, multimeter testing, thermal imaging, and X-ray analysis. Emphasizing the significance of choosing a reliable PCB manufacturing partner, the article highlights how proactive detection can ensure greater reliability and longevity in electronic devices. For businesses seeking comprehensive PCB solutions, the article encourages engaging with specialized manufacturers to optimize their PCB projects and enhance product quality.
Technical Library | 2020-11-19 20:35:26.0
Simultaneously with the first complex electronic circuits, the task of creating effective means of diagnosing and repairing them appeared. In previous decades, specialized programmable stands were used for diagnostics of serial electronic products, as well as various testers and probes for troubleshooting during their operation. But the dramatic increase in the density / cost factor, in parallel with the very rapid modification of electronic products, made programmable stands economically ineffective even in mass production. The use of traditional laboratory equipment (oscilloscopes, multimeters, etc.) requires power supply to the defective modules, which is often impossible and unsafe, since it can lead to failure of the working modules of the module. In addition, the use of this equipment requires documentation and highly qualified personnel. More automated and sophisticated signature analysis systems came to the rescue in solving this problem. A feature of these devices is that they allow you to test digital and analog assemblies without dismantling components and without supplying voltage.
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