Title :
Acoustic noise signal generation due to magnetostrictive effects in electrical equipment
Author :
Mohammed, Osania A. ; Abed, Nagy Y. ; Liu, Shuo ; Ganu, Shreerang
Author_Institution :
Dept. of Electr. & Comput. Eng., Florida Int. Univ., Miami, FL
Abstract :
The inverse magnetostriction effect (IME) is investigated for noise generation, identification and evaluation in shipboard propulsion machinery applications. The finite element (FE) implementation is performed on an example drive motor in two dimensions. The FE implementation results show an increase in the forces acting on the ferromagnetic region causing more deformation in the stationary core center and in the back iron. This deformation causes increased vibration and hence an audible noise propagation. Wavelet analysis of displacement waveforms at selected points shows the involved frequency range causing noise during the operation. The results confirm the magnetostrictive origin of noise production. The importance of such information realized and utilized for the reduction of noise in machinery problems especially in sensitive applications
Keywords :
acoustic noise; finite element analysis; magnetostriction; magnetostrictive devices; marine systems; motor drives; noise generators; wavelet transforms; FE implementation; IME; acoustic noise signal generation; audible noise propagation; back iron; electrical equipment; ferromagnetic region; finite elements; inverse magnetostriction effect; magnetostrictive effect; shipboard propulsion machinery application; stationary core center; wavelet analysis; Acoustic noise; Finite element methods; Machinery; Magnetic cores; Magnetic devices; Magnetostriction; Magnetostrictive devices; Noise generators; Propulsion; Signal generators;
Conference_Titel :
Radio Science Conference, 2005. NRSC 2005. Proceedings of the Twenty-Second National
Conference_Location :
Cairo
Print_ISBN :
977-503183-4
DOI :
10.1109/NRSC.2005.193984
