Their small size and low mass also contribute to their high dynamic performance. Compact and Lightweight: Piezo motors can be designed to be more compact and lightweight compared to traditional motors, making them well-suited for applications with limited space or weight restrictions.Non-Magnetic and Vacuum Compatibility: Piezo motors are non-magnetic and do not generate magnetic fields during operation, making them suitable for applications where magnetic interference is a concern.This results in reduced friction, backlash, and improved precision and reliability. Direct Drive: Piezo motors are direct drive mechanisms, eliminating the need for gears, belts, or other mechanical power conversion components.Ultrasonic motors can achieve high velocities, enabling dynamic and high-speed motion. Fast Response: Piezo motors can provide exceptional response times, allowing for rapid acceleration, deceleration and step & settle.They excel in applications that require high forces and nanometer-level or even higher resolution. High Precision: Piezo-Walk motors provide extremely precise positioning and motion control, with sub-nanometer resolution and high repeatability. All piezoceramic motors offer several certain advantages over traditional motors, including: These advantages make these ceramic motors a great choice in various fields, including microscopy, nanotechnology, semiconductor manufacturing, optics, and biomedical applications.įor ultra-precise, short travel and high-speed scanning operation, piezo flexure stages and mechanisms are recommended.There are several types of piezo motors, each with distinctive performance features (watch the video at the top of the page for operating principle) and use cases.
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