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Coupled-Circuit Modeling of 3, 6, and 9-Phase Induction Machine Drive Systems
Technical Paper
2006-01-3048
ISSN: 0148-7191, e-ISSN: 2688-3627
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Event:
Power Systems Conference
Language:
English
Abstract
This paper describes a coupled-circuit physical-variable modeling of multiphase induction motors. The presented modeling interface makes it straightforward to implement an induction machine with arbitrary number of phases and/or phase groups on the stator and the rotor. The 3-, 6-, and 9-phase motors are simulated and compared. It is shown that machines with higher number of phases have less severe torque pulsation and the stator current increase following a loss of one phase. For the 9-phase machine, several studies involving loss of multiple phases are also presented, wherein the relative location of the faulted phases is shown to have a significant impact on redistribution of currents and resulting electromagnetic torque. The proposed models can be used to represent induction motors and generators for transient studies involving multiple faults, system-level reconfiguration, and survivability.
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Citation
Jatskevich, J., Walters, E., and Lucas, C., "Coupled-Circuit Modeling of 3, 6, and 9-Phase Induction Machine Drive Systems," SAE Technical Paper 2006-01-3048, 2006, https://doi.org/10.4271/2006-01-3048.Also In
References
- Lewis C. “The Advanced Induction Motor,” Proc. IEEE Power Engineering Society Summer Meeting 1 2002 250 253
- Smith A. C. Williamson S. Hodge C. G. “High torque dense naval propulsion motors,” proc. IEEE Electric Machines and Drives Conf. (IEMDC'03) 3 1-4 June 2003 1421 1427
- Elbuluk M.E. Kankam M.D. “Motor drive technologies for the power-by-wire (PBW) program: options, trends and tradeoffs. Part I. Motors and controllers,” IEEE Aerospace and Electronic Systems Magazine 10 11 Nov. 1995 37 42
- Wang D. Ma W. Xiao F. Zhang B. Liu D. Hu A. “A novel stand-alone dual stator-winding induction generator with static excitation regulation,” IEEE Transactions on Energy Conversion 20 4 Dec. 2005 826 835
- Williamson S. Smith A. C. “Induction motor modelling-choosing the tool to do the job,” IEE Colloquium on Modelling the Performance of Electrical Machines (Digest No: 1997/166) April 1997 1/1 1/4
- Williamson S. Smith S. “Pulsating torque and losses in multiphase induction machines,” IEEE Trans. on Industry Applications 39 4 July-Aug. 2003 986 993
- Apsley J. Williamson S. “Analysis of multiphase induction machines with winding faults,” IEEE Transactions on Industry Applications 42 2 Mar-Apr 2006 465 472
- Salon S. J. Finite Element Analysis of Electrical Machines Kluwer Academic Publishers 1995
- Krause P. C. Wasynczuk O. Sudhoff S. D. Analysis of Electric Machinery and Drive Systems IEEE Press, Wiley 2002
- Wasynczuk O. Sudhoff S.D. “Automated state model generation algorithm for power circuits and systems,” IEEE Trans. on Power Systems 11 4 Nov. 1996 1951 1956
- Jatskevich J. Pekarek S. D. Skvarenina T. Sudhoff S. D. Walters E. A. Wasynczuk O. “Dynamic Simulation of High-Power Machinery Systems,” Final Report Naval Surface Warfare Center (NSWC) May 1999
- Jatskevich J. Wasynczuk O. Lucas C. E. Walters E. A. “Automated State Model Generator for Simulation and Analysis of Electric Power Systems,” 6th International Conf. on Computational Methods in Electrical and Electromagnetic Engineering (ElectroComp 2003) Sep. 10-12 2003 Split, Croatia
- Huangsheng Xu Toliyat H. A. Petersen L. J. “Five-phase induction motor drives with DSP-based control system,” IEEE Transactions on Power Electronics 17 4 Jul. 2002 524 533
- Fu J. R. Lipo T. A. “Disturbance-free operation of a multiphase current-regulated motor drive with an opened phase,” IEEE Transactions on Industry Applications 30 5 Sept.-Oct. 1994 1267 1274
- Automated State Model Generator (ASMG), Reference Manual, Version 2 PC Krause and Associates Inc. 2002 www.pcka.com
- “Simulink: Dynamic System Simulation for Matlab” The MathWorks Inc. 2005 www.mathworks.com