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The Potential of Switched Reluctance Motor Technology for Electro-Mechanical Brake Applications
Technical Paper
2006-01-0296
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Electro-mechanical brakes (EMBs) are emerging as a new approach to enhance brake system features as well as braking performance. This paper takes a fresh look at the switched reluctance (SR) drive as a possible prime mover technology for EMB applications. The switched reluctance motor has attractive potential, in view of its robustness, dynamic bandwidth and fault tolerance. An overall assessment of the approach is made based on bench performance of a prototype EMB caliper with an SR drive executing typical braking patterns. It is shown that the SR motor can provide the required overall brake actuator performance. Various implementation options are examined to lower cost, with particular focus on electronic design, control algorithms and motor position sensing.
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Citation
Klode, H., Omekanda, A., Lequesne, B., Gopalakrishnan, S. et al., "The Potential of Switched Reluctance Motor Technology for Electro-Mechanical Brake Applications," SAE Technical Paper 2006-01-0296, 2006, https://doi.org/10.4271/2006-01-0296.Also In
References
- Schwarz, R. Isermann, R. Böhm, J. Nell, J. Rieth, P. “Modeling and control of an electromechanical brake” SAE Paper 980600 1998
- Schwarz, R. Isermann, R. Böhm, J. Nell, J. Rieth, P. “Clamping force estimation for a brake-by-wire actuator” SAE Paper 1999-01-0482 1999
- Scobie, J. Maiolani, M. Jordan, M. “A cost efficient fault tolerant brake by wire architecture” SAE Paper 2000-01-1054 2000
- Kees, M. Burnham, K.J. Lockett, F.P. Tabor, J.H. Williams, R.A. “Hydraulic actuated brake and electromechanically actuated brake systems” 2001 International Conference on Advanced Driver Assistance Systems Sept. 17–18 2001 43 47
- Underwood, S. Khalil, A. Husain, I. Klode, H. Lequesne, B. Gopalakrishnan, S. Omekanda, A.M. “Switched reluctance motor based electromechanical brake-by-wire system” Int. J. Vehicle Autonomous Systems 2 Nos. 3/4 2004
- Miller, T.J.E. Switched reluctance motors and their control Magna Physics Publishing and Oxford Science Publications 1993
- Richter, E. Ferreira, C. “Performance evaluation of a 250 kW switched reluctance starter generator” Proc. of the 30th IEEE Indus. Appl. Soc. Annual Meeting Oct. 1995 1 434 440
- Jack, A.G. Mecrow, B.C. Haylock, J. “A comparative study of PM and SR motors for high performance fault tolerant applications” IEEE Trans. on Indus. Appl. 32 No. 4 July/Aug. 1996
- Atallah, K. Caparrelli, F. Bingham, C.M. Mellor, P.H. Cossar, C. Kelly, L. Kjaer, P. Gribble, J. Miller, T.J.E. Capewell, R. Whitley, C. “Comparison of electrical drive technologies for aircraft flight control actuation” 9th Intern. Conf. on Electrical Machines and Drives, IEE Conf. Publ. No. 468 1999
- Cai, W. “Comparison and review of electric machines for integrated starter-alternator applications” Proc. of the 39th IEEE Indus. Appl. Soc. Annual Meeting Oct. 2004
- Vukosavic, S. Stefanovic, V.R. “SRM inverter topologies: A comparative evaluation” IEEE Trans. on Indus. Appl. 27 No. 6 Nov.–Dec. 1991 1034 1047
- Barnes, M. Pollock, C. “Power electronic converters for SR drives” IEEE Trans. on Power Electronics 13 No. 6 Nov. 1998 1100
- Khalil, A. Husain, I. Hossain, S. Gopalakrishnan, S. Omekanda, A.M. Lequesne, B. Klode, H. “Low-cost hybrid sensorless SRM drive with eight and six-switch converter topologies” IEEE Trans. on Indus. Appl. 41 No. 6 xx Nov./Dec. 2005
- Acarnley, P.P. Hill, R. J. Hooper, C. W. “Detection of rotor position in stepping and switched reluctance motors by monitoring of current waveforms,” IEEE Trans. on Indus. Electronics 32 215 222 1985
- Ehsani, M. Husain, I. Mahajan S. Ramanim, K. “New modulation techniques for rotor position sensing in switched reluctance motors,” IEEE Trans. on Indus. Appl. 30 85 91 1994
- Lumsdaine, A. Lang, J.H. “State observers for variable reluctance motors,” IEEE Trans. on Indus. Electronics IE-37 No. 2 133 142 1990
- Brosse, A. Henneberger, G. “Sensorless Control of a switched reluctance motor using Kalman filter,” Proc. of 7th EPE 4 561 566 1997
- Husain, I. Sodhi S. Ehsani, M. “Sliding mode observer based control for SR motors,” Proc. of the 29th IEEE Indus. Appl. Soc. Annual Meeting Denver, CO Oct. 1994 635 643
- Hossain, S.A. Husain, I. Klode, H. Lequesne, B. Omekanda, A.M. Gopalakrishnan, S. “Four-quadrant and zero-speed sensorless control of a switched reluctance motor” IEEE Trans. on Indus. Appl. 39 No. 5 1343 1349 Sept. Oct. 2003
- Khalil, A. Underwood, S. Husain, I. Klode, H. Gopalakrishnan, S. Omekanda, A.M. Lequesne, B. “Four quadrant pulse injection and sliding mode observer based sensorless operation of a switched reluctance machine over entire speed range including zero speed” Proc. of the 40th IEEE Indus. Appl. Soc. Annual Meeting Oct. 2005
- Hossain, S.A. Husain, I. Klode, H. Lequesne, B. Omekanda, A.M. “Four quadrant control of a switched reluctance motor for a highly dynamic actuator load” Proc. of the 17 th Annual Applied Power Electronics Conference and Exposition Dallas, TX March 2002
- Hossain, S.A. Husain, I. Lequesne, B. Omekanda, A. Klode, H. “Controlling an electric motor” Patent application # 20030201749 Apr. 30 2002
- Islam, M.S. Mir, S.A. Sebastian, T. Husain, I. “Sensorless control of switched reluctance machines” US Patent # 6,801,012 Oct. 5 2004
- Ilic-Spong, M. Marino, R. Peresada, S. Taylor, D. “Feedback linearizing control of switched reluctance motors,” IEEE Trans. on Automatic Control AC-32 No. 5 371 379 1987
- McCann, R.A. Islam, M.S. Husain, I. “Application of a sliding-mode observer for position and speed estimation in SR motor drives” IEEE Trans. on Indus. Appl. 37 No. 1 51 Jan./Feb. 2001
- Lequesne, B. Omekanda, A. Hossain, S.A. Klode, H. Chen, J.-J. “Switched reluctance motor control” Patent application # 20030042864 Aug. 22 2001