Vinay T. Kumar and Srinivasa S. Rao
[1] F. Blaschke, The principle of field-orientation as applied to the transvector closed-loop control system for rotating-field machines, Siemens Review, 34, 1972, 217–220. [2] I. Takahashi and T. Noguchi, A new quick-response and high-efficiency control of an induction motor, IEEE Transactions on Industry Applications, 22(5), 1986, 820–827. [3] D. Casadei, F. Profumo, G. Serra, and A. Tani, FOC andDTC: Two viable schemes for induction motors torquecontrol, IEEE Transactions on Power Electronics, 17, 2002,779–787. [4] D. Telford, M.W. Dunnigan, and B.W. Williams, A comparison of vector control and direct torque control of an induction machine, Proc. IEEE PESC’00, 2000, Galway, Ireland, 421–426. [5] J.N. Nash, Direct torque control, induction motor vector control without an encoder, IEEE Transactions on Industry Applications, 33, 1997, 333–341. [6] J.-K. Kang and S.-K. Sul, New direct torque control of induction motor for minimum torque ripple and constant switching frequency, IEEE Transactions on Industry Applications, 35(5), 1999, 1076–1082. [7] T.G. Habetler, F. Profumo, M. Pastorelli, and L.M. Tolbert, Direct torque control of induction motor using space vector modulation, IEEE Transactions on Industry Applications, 28, 1992, 1045–1053. [8] X. Xu, R. DeDoncker, and D.W. Novotny, A stator flux oriented induction machine drive, PESC 1988 Conf Rec., Kyoto, Japan, 870–876. [9] X. Xue, X. Xu, T.G. Habetler, and D.M. Divan, A low cost stator flux oriented voltage source variable speed drive, IEEE IAS Ann. Mtg. Conf Rec., 1990, 410–415. [10] Y. Kumsuwana, S. Premrudeepreechacharna, and H.A. Toliyatb, Modified direct torque control method for induction motor drives based on amplitude and angle control of stator flux, Electric Power Systems Research, 78(10), 2008, 1712–1718. [11] K.-B. Lee, J.-H. Song, I. Choy, and J.-Y. Yoo, Improvement of low-speed operation performance of DTC for three-level inverter-fed induction motors, IEEE Transactions on Industry Electronics, 48(5), 2001, 1006–1014. [12] T. Noguchi, M. Yamamoto, S. Kondo, and I. Takahashi, Enlarging switching frequency in direct torque-controlled inverter by means of dithering, IEEE Transactions on Industry Applications, 35(6), 1999, 1358–1366. [13] N.R.N. Idri and A.H.M. Yatim, Direct torque control of induction machines with constant switching frequency and reduced torque ripple, IEEE Transactions on Industrial Electronics, 51(4), 2004, 758–767. [14] Y.-S. Lai, W.-K. Wang, and Y.-C. Chen, Novel switching techniques for reducing the speed ripple of AC drives with direct torque control, IEEE Transactions on Industrial Electronics, 51(4), 2004, 768–775. [15] G.S. Buja and M.P. Kazmierkowski, Direct torque control of PWM inverter-fed AC motors – A survey, IEEE Transactions on Industrial Electronics, 51(4), 2004, 744–757. [16] Ma.´A.M. Prats, G. Escobar, E. Galvan, J.M. Carrasco, and R. Portillo, A switching control strategy based on output regulation subspaces for the control of induction motors using a three-level inverter, IEEE Power Electronics Letters, 1(2), 2003, 29–32. [17] A. Nabae, I. Takahashi, and H. Agaki, A new neutral point-clamped PWM inverter, IEEE Transactions on Industrial Applications, 17, 1981, 518–523. [18] S. Mukherjee and G. Poddar, Direct torque control of squirrel cage induction motor for optimum current ripple using three-level inverter, IET Power Electronics, 3(6), 2010, 904–914. [19] V.T. Somasekhar and K. Gopakumar, Three-level inverter configuration cascading two two-level inverters, IEE Proceedings of Electric Power Applications, 151(2), 2003, 230–238. [20] V. Kumar and S. Rao, Modified direct torque control of three phase induction motor drives with low ripple in flux and torque, Leonardo Journal of Sciences (LJS), 18, 2011, 27–44. [21] J. Zhang and M.F. Rahman, Analysis and design of a novel direct flux control scheme for induction machine, International Conference on IEMDC, San Antonio, TX, 2005, 426–430. [22] T.V. Kumar and S.S. Rao, Direct torque control method for induction motor drives based on modified amplitude and angle decoupled control of stator flux, IEEE Conference PEDES-2010, India, 2010.
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