Title :
Effect of machine design on performance of reluctance synchronous machine
Author :
Bomela, X.B. ; Kamper, M.J.
Author_Institution :
Dept. of Electr. & Electron. Eng., Stellenbosch Univ., South Africa
Abstract :
Low torque ripple in electrical machines is generally required to reduce acoustic noise and mechanical resonance vibration. To design for low torque ripple, however, affects the average torque and the power rating of the machine. In this paper the effect of stator winding chording and rotor skewing on the average torque and torque ripple of the normal laminated, internal flux barrier rotor reluctance synchronous machine is investigated. The 2-D finite element time-step method together with the basic machine equations are used in the analysis. It is shown that to design in general for low torque ripple and minimal effect on power rating of the reluctance synchronous machine, full-pitch stator windings must be used and the rotor must be skewed by a stator slot pitch. A low number of stator slots must be avoided
Keywords :
acoustic noise; finite element analysis; laminations; machine theory; magnetic flux; noise abatement; reluctance motors; rotors; stators; torque; vibrations; 2-D finite element time-step method; acoustic noise reduction; average torque; full-pitch stator windings; internal flux barrier rotor; low torque ripple; machine design; machine equations; mechanical resonance vibration reduction; normal laminated machine; power rating; reluctance motors; reluctance synchronous machine performance; rotor skewing; stator slot pitch; stator winding chording; torque ripple; AC machines; Acoustical engineering; Magnetic circuits; Magnetic flux; Power engineering and energy; Saturation magnetization; Stator cores; Stator windings; Synchronous machines; Torque;
Conference_Titel :
Industry Applications Conference, 2000. Conference Record of the 2000 IEEE
Conference_Location :
Rome
Print_ISBN :
0-7803-6401-5
DOI :
10.1109/IAS.2000.881159
