Title :
An Improved 9/12 Two-Phase E-Core Switched Reluctance Machine
Author :
Eskandari, Hani ; Mirsalim, Mojtaba
Author_Institution :
Dept. of Electr. Eng., Amirkabir Univ. of Technol., Tehran, Iran
Abstract :
There has always been a high demand for cost-efficient, reliable, low-noise, and durable low-maintenance motors, especially in high-quantity applications. A switched reluctance motor (SRM) can be a great candidate because of its rigid and simple construction. Among different SRMs, the two-phase type has the simple power converter, control unit, and geometry. In this paper, a short-flux two-phase SRM (2-phase SRM) known as E-Core 6/10 is modified to produce higher torque. The formulas for the number of rotor and stator poles have been amended, and in addition to alleviating some mechanical issues, the empty adjacent-pole spaces have been fully utilized. Comparisons are made based on simulations by 2-D finite-element analysis method and experimental results. It is obtained that for the same main dimensions, the average torque in the modified 6/10 two-phase SRM improves by about 35% that validates the new proposed motor.
Keywords :
finite element analysis; machine control; power convertors; reluctance machines; rotors; stators; 2D finite element analysis; E-Core 6/10; control unit; durable low-maintenance motors; low-noise motors; power converter; rotor poles; short-flux two-phase SRM; stator poles; switched reluctance machine; switched reluctance motor; two-phase E-core machine; Finite element analysis; Reluctance machines; Stator windings; Switched reluctance motors; Torque; E-core two-phase switched reluctance motor (SRM); finite-element methods (FEMs); phase switched reluctance machine (two-phase SRM);
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2013.2279344
