What sets magnetic levitation apart is the ability to create a contactless, ultra-high-precision virtual bearing within our control system”. Dr. Christian Rudolf provides a glimpse into the exciting development journey of PI's magnetic levitation solutions.

Elevating Precision Motion and Control with Magnetic Levitation to New Heights

Article from | PI USA

“What makes magnetic levitation so unique is the contactless virtual bearing we can achieve within our control system.” Our expert on parallel kinematics and magnetic drives, Dr. Christian Rudolf, gives insights into the thrilling development process of PI's magnetic levitation solutions.

When we first spoke about that technology and the development, my first thoughts were “how cool is that - we will make objects fly!” You know those things only from science fiction.

 

Contactless, Friction, and Vibration Free

What makes magnetic levitation technology so unique is the contactless, virtual bearing we can create in our mechanical system without any contact. Magnetic levitation can overcome many of the disadvantages we see in existing solutions. For example, we do not have any kind of stick slip effects within the system, so the performance and precision solely depend on the sensors and control electronics we use. Combining the latest generation nanopositioning sensors and control algorithms, we can achieve precision not only in the nanometer but also in the picometer range. 

XY scanning stage with magnetically guided platform allows for full control of all 6 degrees of freedom to reduce pitch, yaw, roll, flatness, and straightness errors.

In addition to a complete lack of abrasion and particle generation in the system, due to the contactless magnetic guides, we do not see any kind of wear and tear over its lifetime. This lack of wear leads to constant performance, without degradation, over the whole lifetime even in high duty cycle, high dynamics applications. The lack of mechanical contact also eliminates vibrations and particle generation, allowing us to place the system in such delicate environments like ultra-high vacuum and high-class clean rooms.  
 

Overcoming Limitations of Conventional Bearings and Guiding Systems

There are solutions on the market being precise enough and clean enough but not fast enough, and we see solutions that are fast and clean but not precise enough. With this new kind of magnetic levitation technology, we see a solution for serving all these needs together.

When we finally assembled the first functional model and took it into operation, we saw a lot of very promising results but seeing the system finally fly in a stable manner, was really exciting, especially because it was performing according to our requirements.

Magnetic levitation principle – the platform is supported by magnetic fields only.

 

For the best results, we always seek collaboration with our customers, aligning our technology roadmap to provide maximum value to their specific application needs.

 

Magnetic Levitation Technology in Brief

Picometer Resolution: The combination of magnetic guiding technology and dedicated high precision drive and sensor technologies provides high dynamics and highest resolutions down to the picometer range.

Active Control in 6 Degrees of Freedom: Active control and definition of guiding characteristics in up to 6 degrees of freedom can enable performing additional correction tasks, such as focusing in Z or adjusting tip/tilt, during operation.

Contactless Operation:  The frictionless guiding principle free of rolling elements, lubrication, and air flow will ensure highest precision over the entire service life and allows use in cleanroom environments.

 

 

The content & opinions in this article are the author’s and do not necessarily represent the views of RoboticsTomorrow
PI USA (Physik Instrumente)

PI USA (Physik Instrumente)

PI is a privately held company that designs and manufactures world-class precision motion and automation systems including air bearings, hexapods and piezo drives at locations in North America, Europe, and Asia. The company was founded 5 decades ago and today employs more than 1700 people worldwide. PI's customers are leaders in high-tech industries and research institutes in fields such as photonics, life-sciences, semiconductors and aerospace.

Other Articles

Fast Hexapod Improves Aircraft Manufacturing Process
PI presented a new, high-speed hexapod at the International Aerospace Exhibition ILA Berlin in June 2024, as a partner in the LuFo VI-1: ADMAS (Advanced Machining and Sealing) research project.
Fiber Alignment and Photonic Chip Test & Assembly Just Got Easier
The new algorithm and technology have the potential to drastically reduce complex fiber alignment and photonics alignment procedure times by several orders of magnitude, surpassing any other existing technique used for automated fiber optic alignment in the market.
Nanopositioning and Motion Control Solutions for the Semiconductor Industry
Recently, the convergence of photonics and electronics, known as Silicon Photonics, has marked a significant advancement in both performance and the reduction of power consumption.
More about PI USA (Physik Instrumente)

Comments (0)

This post does not have any comments. Be the first to leave a comment below.


Post A Comment

You must be logged in before you can post a comment. Login now.

Featured Product

Bota Systems - The SensONE 6-axis force torque sensor for robots

Bota Systems - The SensONE 6-axis force torque sensor for robots

Our Bota Systems force torque sensors, like the SensONE, are designed for collaborative and industrial robots. It enables human machine interaction, provides force, vision and inertia data and offers "plug and work" foll all platforms. The compact design is dustproof and water-resistant. The ISO 9409-1-50-4-M6 mounting flange makes integrating the SensONE sensor with robots extremely easy. No adapter is needed, only fasteners! The SensONE sensor is a one of its kind product and the best solution for force feedback applications and collaborative robots at its price. The SensONE is available in two communication options and includes software integration with TwinCAT, ROS, LabVIEW and MATLAB®.