PERFORMANCE ANALYSIS AND DYNAMIC CHARACTERISTICS OF HYSTERESIS-BASED INDIRECT FIELD-ORIENTED CONTROL OF INDUCTION MOTOR DRIVES

Walid Emar, Rami A. Maher, and Musbah J. Aqel

References

  1. [1] A.M. Trzynadlowski, Control of induction motors, Ph.D. thesis,Department of Electrical Engineering, University of Nevada,Reno, Nevada, 2001.
  2. [2] A. Ouhrouche, EKF-based on-line tuning of rotor time-constantin an induction machine motor vector control. InternationalJournal of Power and Energy Systems, 20(2), 2000, 107–176.
  3. [3] E. Walid, A.M. Rami, and J. Amjad, Constant frequencydigital hysteresis-band current controller for a three phasevoltage inverter, Control and Intelligent Systems, 39(2), 2011,108–115.
  4. [4] C.N. Bhendi, S. Mishra, and S.K. Jain, TS-fuzzy controlledactive power filter for load compensation, IEEE Transactionson Power Delivery, 21(33), 2006, 1459–1465.
  5. [5] A.J. Amjad, Fuzzy learning enhanced speed control of indirectfield orientation controlled induction machine with adaptivehysteresis band current controller, Doctoral Thesis, Universityof Technology, Baghdad, Iraq, Al-Rashid College of Engineeringand Science, 2005.
  6. [6] E. EL-Kholy, A. EL-Sabbe, A. EL.Hefnawy, and M. Mharous,Three phase active power filter based on current controlledvoltage source inverter, International Journal of ElectricalPower and Energy Systems, 28, 2006, 537–547.
  7. [7] S. Chattopadhyay and V. Ramanarayanan, A voltage-sensorlesscontrol method to balance the input currents of a three-wire boost rectifier under unbalanced voltage condition, IEEETransactions Industrial Electronics, 52, 2005, 386–398.
  8. [8] M.I. Masoud, J.E. Fletcher, and B.W. Williams, Decoupledcontrol of rotor torque and rotor electric power deliveredina salient-pole, synchronous machine, IEEE Transactions onEnergy Conversion, 20(1), 2005, 45–52.

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