A Galvo Scanning Mirror uses galvanometer-driven motors to precisely control mirror angles, enabling rapid and accurate laser beam positioning for imaging, engraving, and medical applications.
The main features of Galvo scanning mirrors include high speed, high precision, compact size, and cost-effectiveness. They are used in laser marking equipment and high-end applications like nuclear fusion. With millisecond-level scanning speed and angular positioning accuracy of about 2 arc seconds, they are ideal for small space integration. The working principle involves an X-Y optical scanning head and electronic drive amplifiers controlled by computer signals to deflect the laser beam in the X-Y plane, achieving 2D scanning. Widely used in laser marking, industrial 3D printing, high-speed microscopic imaging, and ophthalmology, Galvo scanning mirrors excel due to their speed, precision, and compactness, meeting complex and precise requirements.
Galvo scanning mirrors are high-speed, high-precision laser scanning devices widely used in various fields. They consist of an X-Y optical scanning head, electronic drive amplifiers, and optical mirrors, controlled by computer signals to deflect the laser beam in the X-Y plane. This enhances laser positioning accuracy and system reliability over long periods.
Key application areas include:
Laser Printing: For precise graphic rendering on paper.
Display Technology: For generating high-definition images on large screens.
Medical Field: For precise treatments in laser surgeries and cosmetic procedures.
Measurement and Cutting: For precision measurement and material cutting in industrial manufacturing, improving efficiency and accuracy.
Designed for high speed and precision, Galvo scanning mirrors use closed-loop servo control systems to ensure predictable, stable, and reliable performance across various applications.
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