What are the moisture sensitivity levels and static electricity levels of network transformers? What important impact do these two indicators have on network transformers?
Today we will introduce to you what the moisture sensitivity level and electrostatic level of network transformers are? How to choose when buying a network transformer? How to judge the merits of these two standards?
First, we need to understand the relationship between these two indicators and the network transformer.
Network transformer is a common electronic component. The main function of a network transformer is to convert and isolate network signals. The moisture sensitivity level and electrostatic level of network transformers are two important indicators. These two important indicators have an important impact on the performance and reliability of network transformers.
Next, we will introduce what are these two important indicators? Why are these two indicators important?

What is moisture sensitivity level?
Moisture sensitivity level refers to the maximum voltage that a network transformer can withstand in a humid environment. A humid environment will cause moisture to accumulate on the surface of electronic components, causing circuit short circuits or leakage. A humid environment will affect the normal operation of network transformers.
Therefore, the higher the moisture sensitivity level, the higher the reliability of the network transformer in humid environments.
Generally speaking, the moisture sensitivity level of network transformers is Level 2 or Level 3.
Network transformers with level 3 moisture sensitivity can work normally in an environment with a relative humidity of 95%.
When purchasing a network transformer, you can consider the usage environment. If there is a higher demand for this moisture sensitivity level. You can choose to purchase a more appropriate grade of network transformer based on the supplier's recommendations.
What is static electricity level?
The electrostatic level refers to the maximum electrostatic discharge energy that the network transformer can withstand.
Electrostatic discharge refers to the phenomenon of charge release due to the accumulation of static electricity. This phenomenon can cause damage to electronic components. The higher the electrostatic level, the higher the reliability of the network transformer in an electrostatic environment.
Generally speaking, the electrostatic level of network transformers is 2KV or 4KV. 4KV static level network transformers can withstand higher electrostatic discharge energy.
When purchasing a network transformer, you can consider the usage environment. If there is a higher demand for this electrostatic level. You can choose to purchase a more appropriate grade of network transformer based on the supplier's recommendations.
In our daily practical application of network transformers. Moisture sensitivity level and static electricity level are important factors to consider in the design of network transformers.
How to effectively improve the reliability and stability of network transformers? Designers need to choose appropriate moisture sensitivity and static electricity levels. And designers also need to take corresponding protective measures. For example, install moisture-proof covers, electrostatic protection circuits and other protective measures.
At the same time, we also need to pay attention to avoiding moisture and static electricity when using network transformers. The purpose of what we do is to ensure the normal operation of the network transformer.
The above is the entire introduction to the two important indicators of network transformers. If you don’t know much about these two indicators before reading this article. Hopefully at this point you have a better understanding of these two important indicators.