Four characteristics of static damage to electronic products

                                       Four characteristics of static damage to electronic products

        Static electricity is always present everywhere. As the density of integrated circuits increases, on the one hand, the thickness of the silicon dioxide film becomes thinner (micron to nanometer), and the electrostatic voltage it receives is getting lower and lower. The use of materials that generate and accumulate static electricity, such as plastics, rubber, etc., makes electrostatic discharge damage more and more ubiquitous.

        In the production process, if the components are completely destroyed, the anti-static wrist strap manufacturers will be able to be detected and eliminated in the production and quality control, with less impact. If the component is slightly damaged, it is not easy to find under normal test. In this case, it is often found that the damage is not caused by the multi-layer processing or even when it is used, and the loss is difficult to predict. It takes a lot of manpower and financial resources to find out all the problems, and if you detect the failure when you use it, the loss can be huge.

  Four characteristics of static damage to electronic products:

       1. Concealment

       The human body cannot directly sense static electricity unless electrostatic discharge occurs, but the human body may not have the feeling of electric shock when it is electrostatically discharged. This is because the static electricity perceived by the human body is concealed.

        2. Potential

        Some electronic components have not significantly reduced the performance after being damaged by static electricity, but multiple accumulated discharges may cause internal injuries to components and cause hidden dangers. Therefore, the damage of static electricity to the device is potential.

        3, randomness

       Under what circumstances will electronic components be subject to electrostatic damage? It can be said that all processes are threatened by static electricity from the time a component is produced until it is damaged, and the generation of such static electricity is random.

        4, complexity

        The failure analysis of electrostatic discharge damage is time-consuming, labor-intensive, and costly due to the fine, fine, and small structural features of electronic products. High-tech is required and high-precision instruments such as scanning electron microscopes are often required. Even so, some electrostatic damage is difficult to be treated as other failures due to damage caused by other causes. This is often attributed to early failure or unclear failure before the electrostatic discharge damage is not fully understood, thereby unconsciously masking the true cause of the failure. Therefore, the analysis of damage to electronic devices by static electricity is complicated.