trends in automation

: What attracted you both to this

technology – how did you first come into contact with it?

Dr. Susanne Krichel:

The first time I saw a superconductor was at

an open day hosted by the physics institute at my university. It

was wrapped in a cooling nitrogen package and moved

contactlessly over a magnetic rail. At the time I could never have

imagined that one day I would be working with this technology at

Festo, with the aim of actually developing a product. So I am

delighted to have the opportunity to exploit the potential of this

technology together with my colleagues.

Stephan Schauz:

Before SupraMotion, my department was

working on new processes in technical ceramics, among other

things. Because the semiconductors we were using at the time

are also made of a ceramic material, preparing a study of this

technology became part of my responsibilities, which now also

include other areas of superconductivity and magnet technology.

trends in automation

: What are the technical characteristics

of this technology and what is the development goal? What

types of products are you hoping to create?

Schauz:

SupraMotion utilises the effect of saving spatial fields,

specifically in the case of so-called second-generation

superconductors. The position of any magnetic field relative to

the superconductor can thus be saved by the superconductor

and used without the need for additional sensors or controllers.

The development goal is to provide our customers with

products and functional units that enable them to enjoy the

benefits of this technology in new applications without having to

understand its complexity. They should in principle be able to

integrate our SupraMotion products into their automation

environment just as they could any other product from Festo.

Stephan Schauz and Dr. Susanne Krichel

head the SupraMotion project team.

Issue 32

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Impulse

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