Title :
Design perspectives of a low acoustic noise switched reluctance machine
Author :
Anwar, M.N. ; Husain, Iqbal
Author_Institution :
Dept. of Electr. Eng., Akron Univ., OH, USA
Abstract :
Stator vibrations due to magnetic radial force are the dominant source of acoustic noise in the switched reluctance machine (SRM). The intensity of this noise is related to stator mode frequencies, operating speed and magnetomotive force (amp-turns) of the machine. The higher the dominant mode frequencies, the lower is the noise intensity. The factors related to noise generation in the SRM are functions of machine geometry, configuration and material properties. A set of guidelines to select configuration, geometry, internal dimensions and stator pole shapes to reduce acoustic noise is presented with supporting simulations. The proposed design considerations have been applied to a 4-phase, 8/6 (1-repetition) and a 3-phase, 12/8 (2-repetition) 1.0 kW SRM with low acoustic noise requirement. The static and magneto-dynamic finite element analysis (FEA) have been made to compare the results of the two low-noise SRM designs
Keywords :
acoustic noise; finite element analysis; machine theory; magnetic forces; noise abatement; reluctance machines; stators; vibrations; 1 kW; SRM; amp-turns; configuration; design perspectives; finite element analysis; low-acoustic noise switched reluctance machine; machine geometry; magnetic radial force; magnetomotive force; material properties; noise generation; operating speed; simulation; stator mode frequencies; stator pole shape; stator vibrations; Acoustic noise; Frequency; Geometry; Magnetic noise; Magnetic switching; Material properties; Noise generators; Noise shaping; Reluctance machines; Stators;
Conference_Titel :
Industry Applications Conference, 2000. Conference Record of the 2000 IEEE
Conference_Location :
Rome
Print_ISBN :
0-7803-6401-5
DOI :
10.1109/IAS.2000.881032
