Title :
Prediction of electromagnetic forces and vibrations in SRMs operating at steady-state and transient speeds
Author :
Tang, Zhangjun ; Pillay, Pragasen ; Chen, Yicheng ; Omekanda, Avoki M.
Author_Institution :
Stryker Instruments, Kalamazoo, MI, USA
Abstract :
Although some research has been conducted on vibrations in switched reluctance motors (SRMs), the response during transients, which may occur during sudden load changes or braking, has not received much investigation. In this paper, a simulation model to predict the transient vibration of SRMs is developed. The vibration prediction model is built based on the detailed normal force versus phase current and rotor position lookup table using finite-element calculations. The model is then verified by a running motor test, which shows acceptable accuracy. The results reveal that there are abundant harmonics of transient force during transients and, thus, resonance may be excited. This model allows the possibility of improved design of SRMs from a vibration and acoustic noise point of view.
Keywords :
acoustic noise; electromagnetic forces; finite element analysis; harmonics; reluctance motors; rotors; table lookup; transients; vibrations; SRM; acoustic noise; electromagnetic forces; finite element calculations; lookup tables; rotor position; running motor test; steady-state speeds; switched reluctance motors; transient speeds; transient vibration prediction; Acoustic testing; Electromagnetic forces; Electromagnetic transients; Finite element methods; Predictive models; Reluctance machines; Reluctance motors; Rotors; Steady-state; Table lookup; Electromagnetic force; finite-element calculation; normal force; switched reluctance motor (SRM); transient; vibration; vibration simulation;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2005.851032
