Bearingless synchronous machine (BSM) is an electrical machine which rotor is suspended by electromagnetic forces (not ball bearings). It allows achieving ultra-high rotation speed and significantly extending area of electric drive application. Nowadays there are different variants of the machines with the structural design and the searching of optimal solution is going on. The basic calculation parameters of bearingless machines are radial forces that can withstand the rotor from external load and torque produced on the shaft. This article describes the theoretical results based on a computer model that produces the finite element method and experimental study of the BSM prototype
Defence is held on 21.1.2022 9:15 – 12:15 https://aalto.zoom.us/j/66451602661Bearingless motors i...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Bearingless permanent magnet synchronous motor (BPMSM) is known as both conventional permanent magne...
Bearingless synchronous machine (BSM) is an electrical machine which rotor is suspended by electroma...
Magnetically levitated rotor electric machines can be used under such conditions wherein application...
A doctoral dissertation completed for the degree of Doctor of Science (Technology) to be defended, w...
This paper presents results of a general analysis of the radial force production capabilities of bea...
Electromagnetic bearings allow the suspension of solids. For rotary applications, the most important...
The concept of bearingless motors, which combine both motoring and rotor bearing capabilities, is ap...
The radial force control has been widely investigated for a variety of machine topologies aiming at ...
The paper presents an alternative radial force control technique for a Multi-Sector Permanent Magnet...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Bearingless switched reluctance motors (BSRMs) have both magnetic bearing as well as conventional mo...
This paper examines synchronous machines, whose excitation axis and reluctance axis can have an arbi...
Bearingless permanent magnet synchronous motors (BPMSMs), with all advantages of permanent magnet mo...
Defence is held on 21.1.2022 9:15 – 12:15 https://aalto.zoom.us/j/66451602661Bearingless motors i...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Bearingless permanent magnet synchronous motor (BPMSM) is known as both conventional permanent magne...
Bearingless synchronous machine (BSM) is an electrical machine which rotor is suspended by electroma...
Magnetically levitated rotor electric machines can be used under such conditions wherein application...
A doctoral dissertation completed for the degree of Doctor of Science (Technology) to be defended, w...
This paper presents results of a general analysis of the radial force production capabilities of bea...
Electromagnetic bearings allow the suspension of solids. For rotary applications, the most important...
The concept of bearingless motors, which combine both motoring and rotor bearing capabilities, is ap...
The radial force control has been widely investigated for a variety of machine topologies aiming at ...
The paper presents an alternative radial force control technique for a Multi-Sector Permanent Magnet...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Bearingless switched reluctance motors (BSRMs) have both magnetic bearing as well as conventional mo...
This paper examines synchronous machines, whose excitation axis and reluctance axis can have an arbi...
Bearingless permanent magnet synchronous motors (BPMSMs), with all advantages of permanent magnet mo...
Defence is held on 21.1.2022 9:15 – 12:15 https://aalto.zoom.us/j/66451602661Bearingless motors i...
Radial force control in electrical machines has been widely investigated for a variety of bearingles...
Bearingless permanent magnet synchronous motor (BPMSM) is known as both conventional permanent magne...