TY - GEN
T1 - Implementation of fractional slot concentrated windings to Induction Machines
AU - Gundogdu, Tayfun
AU - Komurgoz, Guven
AU - Mantar, Burcu
PY - 2014
Y1 - 2014
N2 - The performance of an induction machine (IM), whose stator windings have been designed by using fractional slot concentrated winding (FSCW) technique, is investigated. Well known several advantages of FSCWs, including higher slot fill factor, better flux-weakening capability, higher power density, non-overlapping end turns, higher efficiency, are attempted to bring in IMs. However, detailed performance analyses including 3-phase short circuit fault analysis of the IMs designed with FSCWs have not been addressed in literature. In order to reveal the potential merits and demerits of the FSCWs when used in IMs, a conventional slot distributed winding (CSDW) IM having the same rated output values has also been designed and all results obtained from simulation have been compared. The comparison includes detailed machine dimensions, weights, magnetic flux density and line distributions, losses, efficiency, torque-speed curves, torque ripple levels, and also magnitude of forces acting on the stator and rotor windings under the steady-state and fault conditions. All simulations have been built in ANSYS Maxwell® electromagnetic field simulation software based on finite element method. This study will assist in answering lots of the questions raised about the advantages and disadvantages of using FSCWs in the IMs.
AB - The performance of an induction machine (IM), whose stator windings have been designed by using fractional slot concentrated winding (FSCW) technique, is investigated. Well known several advantages of FSCWs, including higher slot fill factor, better flux-weakening capability, higher power density, non-overlapping end turns, higher efficiency, are attempted to bring in IMs. However, detailed performance analyses including 3-phase short circuit fault analysis of the IMs designed with FSCWs have not been addressed in literature. In order to reveal the potential merits and demerits of the FSCWs when used in IMs, a conventional slot distributed winding (CSDW) IM having the same rated output values has also been designed and all results obtained from simulation have been compared. The comparison includes detailed machine dimensions, weights, magnetic flux density and line distributions, losses, efficiency, torque-speed curves, torque ripple levels, and also magnitude of forces acting on the stator and rotor windings under the steady-state and fault conditions. All simulations have been built in ANSYS Maxwell® electromagnetic field simulation software based on finite element method. This study will assist in answering lots of the questions raised about the advantages and disadvantages of using FSCWs in the IMs.
KW - Electromagnetic forces
KW - Fractional slots concentrated windings
KW - Induction machines
KW - Short-circuit fault
KW - Torque ripple
UR - http://www.scopus.com/inward/record.url?scp=84901844126&partnerID=8YFLogxK
U2 - 10.1049/cp.2014.0258
DO - 10.1049/cp.2014.0258
M3 - Conference contribution
AN - SCOPUS:84901844126
SN - 9781849198158
T3 - IET Conference Publications
BT - 7th IET International Conference on Power Electronics, Machines and Drives, PEMD 2014
PB - Institution of Engineering and Technology
T2 - 7th IET International Conference on Power Electronics, Machines and Drives, PEMD 2014
Y2 - 8 April 2014 through 10 April 2014
ER -