Title :
Estimation of Airgap Length in Magnetically Levitated Systems
Author :
Ranjbar, A.H. ; Noboa, R. ; Fahimi, B.
Author_Institution :
Univ. of Texas at Dallas, Richardson, TX, USA
Abstract :
In this paper, a new technique for estimation of airgap length in magnetically levitated systems (MagLev) is introduced. The proposed method makes use of the embedded airgap information in the inductance of an active phase in a hybrid MagLev system. Terminal measurements are used along with the phase voltage equation to estimate airgap length by the virtue of an existing one-to-one correspondence between inductance and airgap length. Sensitivity analysis will be carried out to illustrate the impact of changes in MagLev´s geometry and current sensor resolution on the accuracy of the proposed method. Based on experimental results, it will be shown that the proposed sensorless method performs well both at standstill and moving conditions.
Keywords :
air gaps; geometry; magnetic levitation; sensitivity analysis; sensors; active phase; airgap length estimation; current sensor resolution; geometry; hybrid MagLev system; inductance length; magnetically levitated systems; moving conditions; phase voltage equation; sensitivity analysis; sensorless method; standstill conditions; terminal measurements; Coils; Estimation; Inductance; Magnetic circuits; Magnetic flux; Magnetic hysteresis; Magnetic levitation; Airgap; flux linkage; inductance; magnetically levitated system; sensorless;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2012.2226855
