Investigation of Additional Radial Air Gaps on Cogging Torque in Modular Permanent Magnet Machines Based on Taguchi Method

Abstract

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This paper investigates the influence of randomly distributed additional air gaps (AAGs) between stator teeth and back-iron on cogging torque in 12-slot/10-pole modular permanent magnet machines by using Taguchi method. It has been observed that with uniform AAGs, a maximum cogging torque exists, while non-uniform AAGs significantly affect cogging torque, particularly resulting in the worst-case scenario with the highest cogging torque due to random non-uniform AAG distributions. In comparing uniform and non-uniform AAGs, two key findings are: (a) main harmonic order of pole number of cogging torque in non-uniform AAGs is much lower than that of least common multiple of slot and pole numbers in uniform AAGs; (b) amplitude of cogging torque in non-uniform AAGs is much higher than that in uniform AAGs. Hence, special attention should be paid to controlling non-uniform AAGs in mass production. The correctness of the results is validated by experiments based on the prototype in mass production.

Keywords

• Additional air gaps
• cogging torque
• finite element analysis
• modular permanent magnet machines
• Taguchi method