Semiconductor
• Application scenarios:
• Wafer manufacturing: In semiconductor manufacturing, magnetic gate technology is used for precise positioning during wafer handling, photolithography, etching, and other processes to ensure high-precision execution at every stage.
• Specific application: In lithography machines, magnetic grid technology ensures the positional accuracy of wafers, ensures the precise transfer of each lithography pattern, and avoids deviations in production.
• Example: During the photolithography process, the magnetic grid feedback system adjusts the position of the wafer in real-time to ensure precise engraving of nanoscale patterns.
• Semiconductor automation testing: Magnetic gate technology is applied in automated testing systems to precisely control the position of testing equipment, ensuring that the testing process of each chip is error free.
• Specific application: In semiconductor chip testing, the magnetic grid provides accurate position feedback, ensuring precise contact between the test needle and the chip, and improving the reliability of testing.
• Example: During the chip burning and testing process, automated equipment controls the position of probes through a magnetic grid system to ensure accurate contact at each testing point.
• Technical features:
• Ultra high precision: Provides nanometer level precision to meet the strict requirements of semiconductor manufacturing.
• High temperature resistance and anti-interference ability: In the semiconductor manufacturing environment, magnetic gates can withstand environmental factors such as high temperature and radiation, and maintain efficient operation.
• Stability and Consistency: In semiconductor production, magnetic gates provide consistency and reliability, ensuring the accuracy and quality of each wafer.