This paper carries work on  application of direct torque control for Five-Phase permanent magnet synchronous motor drives. In recent years, only voltage source inverters (VSIs) have been used to supply five-phase drives, but Matrix converters (MCs) pose many advantages over conventional VSIs, such as lack of dc bulk capacitors, high quality power output waveform and higher number of output voltages. Due to some special applications of multiphase machines such as ship propulsion and aerospace, the volume of these drives is an important challenging problem. In this paper, direct torque control (DTC) algorithm using a three-to-five phase Matrix Converter is proposed for five-phase permanent magnet synchronous motors (PMSMs).  Because of higher number of output voltages in MCs, there is a greater degree of freedom to control the torque and flux. In other words, this proposed method use the advantages of both DTC method and MCs. Simulation results show the effectiveness of presented method.

Rohan M.Ingle, Dr.S.B.Bodkhe. Multiphase Permanent Magnet Synchronous Motor Drive—A Comparative Study. IJERA, ICLAC, ISSN:2248-9622 April 2014.

E. Levi, R. Bojoi, F. Profumo, H.A. Toliyat. S. Williamson, Multiphase induction motor drives—a technology status review. IEE Elec. Power Appl. 1 (4) (2007) 489–516.

Thomas Friedli, Johann W.Kolar.Milestones in Matrix converter Research.in: IEEJ Journal of Industry Applications, vol.1 No.1 pp.2-14(2012).

L. Parsa, H.A. Toliyat. Five-phase permanent magnet motor drives for ship propulsion applications.in: Proc. IEEE Electric Ship Technologies Symposium, Philadelphia, US, 2005, pp. 371–378.

Azeddine BENDIABDELLAH, Ghanem BACHIR A Comparative Performance Study Between A Matrix Converter And A Three-Level Inverter Fed Induction Motor. Accta Electrotechnica of Informatiion No.2,Vol.6,2006.

SANDA VICTORINNE PATURCA, MIRCEA COVRIG, LEONARD MELCESCU. Direct Torque Control of Permanent Magnet Synchronous Motor (PMSM) – an approach by using Space Vector Modulation (SVM)Conf. Rec. WSEAS/IASME, Spain, Dec2006..

L.Zhong, M.F. Rahman, K.W. Lim. Analysis of Direct Torque Control in Permanent Magnet Synchronous Motor Drives. IEEE Trans. Power Elec. Vol. 12, No. 3, May. 1997, pp. 528-536.

Samir Kouro, Mariusz Malinowski, K.Gopakumar. Recent Advances and Industrial Applications of MultilevelConverters.In IEEE Transactions on Indusrial Electronics, vol.57 No.8, August2010.

Bojoi R, farina F, Griva G, Profumo F, Tenconi A. Direct torque control for dual three-phase induction motor drives. IEEE Trans IndAppl 2005;41(6):627–1636.

P.Chlebis, P.Simonik, and M.Kabasta. The Comparison of Direct and Indirect Matrix Converters. PIERS Proceedings. USA. Appl., vol. 43,no. 4, pp.310-314, Jul. 2010.

P. Wheeler, J. Rodriguez, J. Clare, L.Empringham, and A. Weinstein. Matrix converters: A technology review. IEEE Trans. Ind. Electron., vol. 49, no. 2, pp. 276–288, Apr. 2002.

P. Wheeler, J. Clare, M. Apap, and K. J. Bradley. Harmonic loss due to operation of induction machines from matrix converters. IEEE Trans. Ind. Electron., vol. 55, no. 2, pp. 809–816, Feb. 2008.

Djahbar, B. Mazari. Performances Evaluation of Two-Motor Drive with Matrix Converter Supply and Series Connection of Stator Windings. IREE 2010; V0l: 5(4); pp. 1504-1511.

D. Casadei, G. Serra, and A. Tani. The use of matrix converters in direct torque control of induction machines. IEEE Trans. Ind. Electron., vol. 48, no. 6, pp. 1057–1064, Dec. 2001.

C. Ortega, A. Arias, C. Caruana, J. Balcells, and M. Asher. Improved Waveform Quality in the Direct TorqueControl of Matrix-Converter-Fed PMSM Drives. IEEE Trans. Ind. Electron., Vol. 57, no. 6, pp. 2101-2110, June 2010.