Title :
Robust torque optimization for BLDC spindle motors
Author :
Low, Teck-Seng ; Chen, Shixin ; Gao, Xianke
Author_Institution :
Data Storage Inst., Singapore
fDate :
6/1/2001 12:00:00 AM
Abstract :
A robust design for torque optimization of brushless DC spindle motors applied in a hard disk drive, using the Taguchi method, is described and illustrated in this paper. The optimal design process takes into consideration noises that arise in the manufacturing process, such as manufacturing tolerances for the stator tooth shape and variation of the rotor magnet magnetization distribution due to the magnetization fixture and process. The objective of the optimal design using the combined Taguchi´s design of experiment (DOE) and finite-element analysis (FEA) approach is to ensure that the spindle motor torque performance is insensitive to the noise, with moderate computational effort. The optimization is realized by a simulation and analysis tool that integrates Taguchi´s DOE with the FEA. In this paper, the design optimization process is described and the results are presented
Keywords :
DC motor drives; brushless DC motors; design of experiments; disc drives; finite element analysis; hard discs; machine theory; magnetisation; rotors; stators; BLDC spindle motors; Taguchi method; brushless DC spindle motors; design of experiment; design optimization process; finite-element analysis; hard disk drive; magnetization fixture; manufacturing tolerances; optimal design; optimal design process; robust torque optimization; rotor magnet magnetization distribution; stator tooth shape; Brushless DC motors; DC motors; Design optimization; Magnetic analysis; Magnetization; Manufacturing processes; Noise robustness; Noise shaping; Torque; US Department of Energy;
Journal_Title :
Industrial Electronics, IEEE Transactions on
