Ultrapure water equipment escorts water for the semiconductor industry
Many people do not understand what ultrapure water is? Its concept refers to water with a resistivity of 18mΩ*cm. This water has almost no impurities, bacteria, viruses and other organic substances, and most of them can be used as semiconductors, electronic industry information and other fields. The production process of ultrapure water is relatively strict, and it is difficult for traditional process water to reach the standard. The semiconductor industry needs a certain amount of ultrapure water in the process of processing and production. If the water quality is not up to standard, the impurities in the water are likely to affect the resistivity of the semiconductor and the effect of the finished product. Compared with the traditional process, the Rightleder ultrapure water equipment uses membrane technology to prepare ultrapure water, which has the advantages of low operating cost and reliable operation. Ultrapure water standard GBT1446.1-1997EW-I standard.
The advantages of ultrapure water equipment used in water use in the semiconductor industry:
1. EDI is a pure water manufacturing technology that combines ion exchange membrane technology and ion electromigration technology. It does not require acid-base regeneration and is a new desalination method. Moreover, the ultrapure water equipment has low operating cost, high degree of system automation, continuous operation, good and stable effluent quality, and effluent resistance ≥15mΩ·CM.
2. The ultra-pure water equipment adopts curve micro-conductivity technology, and applies Dow imported polishing resin and Rightleder boron removal special resin to effectively improve the water quality of the system and at the same time ensure the high recovery rate of the system.
3. The ultrapure water equipment has a high degree of automation, and it will stop immediately in case of failure, with automatic protection function, low energy consumption and high water utilization rate.
Rightleder ultrapure water equipment is popular in many semiconductor industries due to its compact design and small footprint, and can be widely used in electronic chips, integrated circuits, packaging, photovoltaics, wafers, scientific research, aerospace, semiconductor and other fields .