Title :
Modeling and Prediction of Structure-Borne Seek Noise of Hard Disk Drives
Author :
Zheng, H. ; Mou, J.Q. ; Lin, W.Z. ; Ong, E.H.
Author_Institution :
A*STAR Inst. Of High Performance Comput., Singapore, Singapore
Abstract :
A numerical approach is presented for modeling and predicting the structure-borne seek noise in hard disk drives (HDDs) in time-domain. Rayleigh integral is adopted to relate the transient acceleration of top cover to its radiated sound pressure. A finite element modeling and simulation technique is employed to arrive at the transient vibration response, which is further used as the input for acoustic noise level calculation. The calculations of structure-borne seek noise from a 1.8" HDD are conducted by using the developed numerical approach. The results reveal high dependency of the structure-borne seek noise on the current profile applied to VCM.
Keywords :
acoustic noise; disc drives; finite element analysis; hard discs; time-domain analysis; vibrations; Rayleigh integral; acoustic noise level calculation; finite element modeling; hard disk drives; structure-borne seek noise; time-domain modeling; transient vibration response; voice coil motor; Acceleration; Acoustic noise; Actuators; Assembly; Finite element methods; Hard disks; Noise level; Noise reduction; Predictive models; Vibrations; Acoustic noise; finite element methods; hard disks; modeling;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2009.2029396
