Paper Info
Title
High-Speed Drive for Textile Rotor Spinning Applications
Abstract
This paper presents a novel high-speed drive and frictionless suspension system for a rotor spinning unit which opens up the field for further textile technology development, potentially leading to higher productivity, reduced power consumption, and dust deposit. In contrast to conventional rotor spinning machines, individually driven rotors are open on both sides, which allows better arrangement of related spinning components. To achieve a very high lifetime, the rotor is suspended by means of active magnetic bearing. Outstanding energy efficiency can be achieved due to the frictionless magnetic suspension of the rotor and a slotless electronically commutated permanent-magnet motor in conjunction with an optimized frequency inverter.
Year
DOI
Venue
2014
10.1109/TIE.2013.2258308
IEEE Transactions on Industrial Electronics
Keywords
Field
DocType
active magnetic bearing,high-speed drive,quasi-current source inverter (qsci),dust,power consumption,slotless permanent magnet (pm) synchronous motor (pmsm),magnetic bearing,magnetic bearings,spinning machines,suspensions (mechanical components),rotors,frequency inverter,slotless electronically commutated permanent-magnet motor,electric drives,rotor spinning,permanent magnet motors,textile rotor spinning machine application,frictionless magnetic suspension system,dust deposit,magnetic fluids,spinning (textiles),invertors,energy efficiency
Suspension (vehicle),Inverter,Electromagnetic suspension,Spinning,Control theory,Efficient energy use,Control engineering,Rotor (electric),Textile,Magnetic bearing,Engineering
Journal
Volume
Issue
ISSN
61
6
0278-0046
Citations 
PageRank 
References 
8
0.72
2
Authors
6
Name
Order
Citations
PageRank
Siegfried Silber1392.48
Jiri Sloupensky280.72
Peter Dirnberger380.72
Milan Moravec480.72
Wolfgang Amrhein5788.29
Martin Reisinger680.72