Floating Fields for Fine Fabrication
May 18, 2017 | A*STAREstimated reading time: 2 minutes
Magnetic levitation (Maglev) is well known for its use in high-speed rail networks, but could also be applied at smaller scales in medicine and electronics. To do so, researchers must be able to precisely control electromagnetic fields so that they can move and rotate objects without touching them.
The levitating platform developed by Teo and co-workers contains arrays of permanent magnets floating above several coils of wire. The movement of the platform is controlled by varying the current in the coils.
Now, Teo Tat Joo and co-workers at the A*STAR Singapore Institute of Manufacturing Technology (SIMTech) and National University of Singapore have developed a Maglev system that can produce linear and rotational motion in all three dimensions1. This system provides nanometer-scale precision in these movements, and is simpler and potentially less energy-intensive than other recent attempts.
“Today’s existing precision mechatronics systems can only be classified as having one micrometer positioning accuracy over one meter — one part-per-million or 1 PPM,” says Teo. “On the other hand, Maglev technology has the potential to achieve a truly nanometer positioning system — 0.001 PPM.”
To build their new Maglev system, Teo and co-workers employed a special arrangement of permanent magnets called a Halbach array, which produces a strong magnetic field on one side but not the other. They positioned four Halbach arrays on a square platform above several energized coils of wire (see image), and used analytical force modeling to work out how the magnets and coils would interact. Then, by carefully controlling the electrical current in different coils, they were able to move or rotate the square platform at several different speeds (see video), with a positional error of just 50 nanometers.
The video demonstrates precisely-controlled linear and circular motion of the levitating platform at various speeds.
“One of the main technical challenges we faced was that the large number of coils, with high electrical resistance, require a high power supply,” says Teo. “We are currently developing a scheme that allows selective switching of the coils; this will improve the energy efficiency and significantly reduce the cost of the Maglev system.”
Perhaps the most promising uses of the Maglev system developed by the A*STAR team would be in processes that require a particle-free or vacuum environment, as Teo explains: “The contactless nature of Maglev ensures that no contaminating particles are generated from friction between surfaces. For example, future wafer lithography processes such as extreme UV lithography, which operates in a vacuum, will require a Maglev system to handle the wafer.”
Teo also suggests that Maglev technology could replace conventional conveyor belts in factories. Unlike traditional conveyors that can only move objects on pre-defined tracks, Maglev could move several objects simultaneously to different desired locations.
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