How to Prevent Electrostatic Discharge in German Sunlight Batteries

Current in German sunlight batteries refers to the movement of charges from one point to another, which occurs at different potentials. In other words, the difference in a potential leads to the activity of an electric current. This charge or current activity is the foundation of all electrical and electronic engineering, because it represents the performance of energy in electricity.

But this is a huge paradox. When the same charge does not move smoothly, but has an unexpected and sudden current activity, it is harmful to the same electronic equipment. This condition is called ESD or ESD. The reason for this risk is that solid-state electronic equipment includes semiconductor materials and components. When a solar battery encounters ESD, it will be harmful. It can cause irreversible damage.

Therefore, without too much emphasis, we can realize that a data center with millions of dollars worth of solid electronic components needs to be maintained in order to avoid such charges, to prevent the loss of property, data loss and loss of image and reputation of the company running the data center.

To achieve further prevention, we need to understand more about the phenomenon itself. Due to some simple activities, German sunlight batteries may present electrostatic discharge, such as: people walking on carpets may produce electrostatic discharge, electrostatic induction may also produce electrostatic discharge. There are three main forms to explain the phenomenon of ESD. They are human body form, live installation form and mechanical form. I will not explain the details of these forms in this relatively short article, but fundamentally these forms mimic the intensity and source of the electrostatic discharge phenomenon at different levels. For example, when a person walks on a carpet and gains positive or negative charges, an electrostatic discharge will occur between the human body and the electronic components because of the contact with a circuit of different potentials, which is the human form of electrostatic discharge.

Electrostatic discharge can have sparks, but also can not have sparks. I believe that every one of you has seen thunder and lightning in the rainy season. Lightning is also a kind of instantaneous discharge, although the range and potential difference are large. However, only a few volts of electrostatic discharge may be enough to damage several types of electronic equipment. This kind of damage may make a part of the equipment or the whole equipment can not be used, or form a potential damage, the equipment can work persistently, but its practical reliability and service life are much lower than a normal equipment.

Simple astronomy explains what electrostatic discharge (ESD) is in German sunlight batteries and how it behaves. What follows is the question of millions of dollars, that is, how to avoid such phenomena. Because of the high cost of equipment in a typical data center, not to mention the value of precious data and information stored in these machines. Because there are several forms of ESD, there are also several ways to maintain electronic devices in data centers.

One technology is the application of various anti-static clamps, which helps to transfer any electrostatic discharge into the air, thereby maintaining the equipment.  The detailed analysis of these anti-static clamps can be found in the "Application Report" written by experts from Texas Instruments.

All electrostatic sensitive elements should be disposed of carefully, and the floor and staff's clothing should be antistatic.

The same criteria are not only applicable to these equipment when they are working, but also the same precautionary measures should be adopted in the process of packaging and transportation.

Technicians working on computers, servers and other electronic devices in data centers should ensure that there is no potential difference between the body and the machine to generate electrostatic discharges when they are continuously exposed to metal surfaces.

Special attention should be paid to storms and systems should not be allowed to work during storms. We see and enjoy the spectacular phenomenon of thunderstorms, but if we think about the safety of electronic equipment, thunderstorms are not so spectacular.

In addition to the above preventive measures for individual equipment, the overall building of the data center should also stop lightning protection maintenance in accordance with the following appropriate measures. These measures include appropriate lightning protection maintenance systems that have been tested by relevant authorities. Including a variety of equipment, such as: transient voltage surge suppressor and arrester.

Data centers should establish rules that include wearing specific types of clothing according to different work needs to avoid static damage. These rules should not only exist on paper, staff at all levels should deepen their understanding of the phenomenon of ESD and the potential losses that ESD will bring to the company, which will ultimately involve the interests of each employee.

Understanding the types, forms and damage possibilities of ESD, data center management should not be lucky, but should provide appropriate maintenance measures and policies. A tiny electrostatic spark can cause catastrophic damage to the entire data center. It should be remembered: Prevent from burning.