Stator inductance matrix diagonalization algorithms for different multi-phase winding schemes of round-rotor electric machines part II. Examples and validations

The stator winding of multi-phase machines can be designed according to different schemes, which differ by either the number or the spatial arrangement of phases. For control and analysis purposes, it is often useful that the stator inductance matrix is reduced to a diagonal form. This allows for the multiphase machine to be split into independently-controllable systems and directly leads to stator harmonic impedance determination. Simple and compact diagonalization algorithms have been established in a companion paper covering all possible multiphase schemes of practical importance with a unified approach, under the hypothesis of uniform air-gap and negligible magnetic saturation. In this paper, the theory and algorithms proposed for inductance matrix diagonalizations are illustrated and validated by applying them on a on several multi-phase winding schemes implemented in a prototype machine with a reconfigurable stator winding.

[1]  P. Viarouge,et al.  Generalized transformations for polyphase phase-Modulation motors , 2006, IEEE Transactions on Energy Conversion.

[2]  Y. Zhao,et al.  Space vector PWM control of dual three phase induction machine using vector space decomposition , 1994, Proceedings of 1994 IEEE Industry Applications Society Annual Meeting.

[3]  Lorenzo Branz,et al.  Stator inductance matrix diagonalization algorithms for different multi-phase winding schemes of round-rotor electric machines part I. theory , 2015, IEEE EUROCON 2015 - International Conference on Computer as a Tool (EUROCON).

[4]  Alberto Tessarolo,et al.  On the modeling of poly-phase electric machines through Vector-Space Decomposition: Theoretical considerations , 2009, 2009 International Conference on Power Engineering, Energy and Electrical Drives.

[5]  S. Williamson,et al.  Pulsating torque and losses in multiphase induction machines , 2001, Conference Record of the 2001 IEEE Industry Applications Conference. 36th IAS Annual Meeting (Cat. No.01CH37248).

[6]  D. White,et al.  Electromechanical energy conversion , 1959 .

[7]  H. Jordan,et al.  Nine-phase armature windings design, test, and harmonic analysis , 2005, IEEE Transactions on Magnetics.

[8]  E. Klingshirn,et al.  High Phase Order Induction Motors - Part II-Experimental Results , 1983, IEEE Transactions on Power Apparatus and Systems.

[9]  Alberto Tessarolo On the modeling of poly-phase electric machines through Vector-Space Decomposition: Numeric application cases , 2009, 2009 International Conference on Power Engineering, Energy and Electrical Drives.

[10]  Xiaofeng Zhang,et al.  Improvement of low-speed operation performance of DTC for three-level inverter-fed multi-phase synchronous motor , 2005, 2005 International Conference on Electrical Machines and Systems.

[11]  Paul C. Krause,et al.  Induction Machine Analysis for Arbitrary Displacement Between Multiple Winding Sets , 1974 .

[12]  H. Razik,et al.  On the modeling and design of dual-stator windings to minimize circulating harmonic currents for VSI fed AC machines , 2004, IEEE Transactions on Industry Applications.

[13]  E. Klingshirn,et al.  High Phase Order Induction Motors - Part I-Description and Theoretical Considerations , 1983, IEEE Transactions on Power Apparatus and Systems.

[14]  Emil Levi,et al.  Multiphase Electric Machines for Variable-Speed Applications , 2008, IEEE Transactions on Industrial Electronics.

[15]  M. Jones,et al.  Independent vector control of asymmetrical nine-phase machines by means of series connection , 2005, IEEE International Conference on Electric Machines and Drives, 2005..

[16]  R.A. McMahon,et al.  Analysis and Performance Assessment of Six-Pulse Inverter-Fed Three-Phase and Six-Phase Induction Machines , 2006, IEEE Transactions on Industry Applications.

[17]  F. Terrien,et al.  Multiphase induction motor sensorless control for electric ship propulsion , 2004 .

[18]  L.F.A. Pereira,et al.  General Model of a Five-Phase Induction Machine Allowing for Harmonics in the Air Gap Field , 2006, IEEE Transactions on Energy Conversion.

[19]  Hamid A. Toliyat,et al.  Multiphase induction motor drives - : a technology status review , 2007 .