Vector Control Using Series Iron Loss Model of Induction, Motors and Power Loss Minimization
The iron loss is a source of detuning in vector controlled
induction motor drives if the classical rotor vector controller is used for
decoupling. In fact, the field orientation will not be satisfied and the
output torque will not truck the reference torque mostly used by Loss
Model Controllers (LMCs). In addition, this component of loss, among
others, may be excessive if the vector controlled induction motor is
driving light loads. In this paper, the series iron loss model is used to
develop a vector controller immune to iron loss effect and then an LMC
to minimize the total power loss using the torque generated by the speed
controller.
[1] Abrahamsen F., Blaabjerg F., Pederson J. K., Grabowski P. Z. and
Thogersen P., ÔÇÿOn the energy optimized control of standard and high
efficiency induction motors in CT and HVAC applications-, IEEE trans. on
industry applications, vol. 34, No 4, July-August 1998
[2] D.W.Novotny and T.A.Lipo, ÔÇÿVector Control and Dynamics of AC Drives-,
Clarendon Press, Oxford, UK, 1996.
[3] S. Vaez-Zadeh and F. Hendi, ÔÇÿA continuous efficiency optimization
controller for induction motor drives-, Energy Conversion and Management
46 (2005) 701-713
[4] Wang J.B., Liaw C.M., "Indirect field oriented induction drive with fuzzy
detuning correction and efficiency optimization controls", IEE Proc. Electr.
Power. Appl., Vol.144 n┬░.1, January 1997, pp.37-45.
[5] Sousa G.C.D., Bose B.K., "Fuzzy logic based on-line efficiency
optimization control of an indirect vector controlled induction motor drive",
IEEE conference record IAS, pp.1168-1174, 15-19 /Nov, 1993, Hawai,
USA.
[6] Lim S. and Nam K., ÔÇÿLoss-minimising control scheme for induction
motors-, IEE Proc.-Electr. Power Appl., Vol. 151, No. 4, pp. 385-397, July
2004
[7] Nam S. W. and Nasir Uddin M., ÔÇÿModel-Based Loss Minimization Control
of an Induction Motor Drive- IEEE ISIE 2006, July 9-12, 2006, Montreal,
Quebec, Canada
[8] Matsuse K., Yoshizumi T., Katsuta S., Tanigushi S., " High - Response
Flux Control of Direct Field Oriented Induction Motor with High Efficiency
Tacking Core Loss into Account", IEEE Trans. on Indus. Appl., Vol.35, No.
1, JAN./FEB. 1999, pp.62-69.
[9] Dal Y. Ohm, ÔÇÿDynamic Model of Induction Motors for Vector Control-,
Drivetech, Inc., Blacksburg, Virginia, 2000.
[10] Levi E., Boglietti A., and Lazzar M. ÔÇÿPerformance Deterioration in Indirect
Vector Controlled Induction Motor Drives due to Iron Losses-, IEEE trans.
on Indus. Appl., pp. 1312-1318, 1995.
[11] Jinh w. J., Nam K., ÔÇÿA Vector Control Scheme for EV Induction Motors
with Series Iron Loss Model-, IEEE trans. Ind. Electron. Vol. 45, No. 4, pp.
617-624, August 1998.
[1] Abrahamsen F., Blaabjerg F., Pederson J. K., Grabowski P. Z. and
Thogersen P., ÔÇÿOn the energy optimized control of standard and high
efficiency induction motors in CT and HVAC applications-, IEEE trans. on
industry applications, vol. 34, No 4, July-August 1998
[2] D.W.Novotny and T.A.Lipo, ÔÇÿVector Control and Dynamics of AC Drives-,
Clarendon Press, Oxford, UK, 1996.
[3] S. Vaez-Zadeh and F. Hendi, ÔÇÿA continuous efficiency optimization
controller for induction motor drives-, Energy Conversion and Management
46 (2005) 701-713
[4] Wang J.B., Liaw C.M., "Indirect field oriented induction drive with fuzzy
detuning correction and efficiency optimization controls", IEE Proc. Electr.
Power. Appl., Vol.144 n┬░.1, January 1997, pp.37-45.
[5] Sousa G.C.D., Bose B.K., "Fuzzy logic based on-line efficiency
optimization control of an indirect vector controlled induction motor drive",
IEEE conference record IAS, pp.1168-1174, 15-19 /Nov, 1993, Hawai,
USA.
[6] Lim S. and Nam K., ÔÇÿLoss-minimising control scheme for induction
motors-, IEE Proc.-Electr. Power Appl., Vol. 151, No. 4, pp. 385-397, July
2004
[7] Nam S. W. and Nasir Uddin M., ÔÇÿModel-Based Loss Minimization Control
of an Induction Motor Drive- IEEE ISIE 2006, July 9-12, 2006, Montreal,
Quebec, Canada
[8] Matsuse K., Yoshizumi T., Katsuta S., Tanigushi S., " High - Response
Flux Control of Direct Field Oriented Induction Motor with High Efficiency
Tacking Core Loss into Account", IEEE Trans. on Indus. Appl., Vol.35, No.
1, JAN./FEB. 1999, pp.62-69.
[9] Dal Y. Ohm, ÔÇÿDynamic Model of Induction Motors for Vector Control-,
Drivetech, Inc., Blacksburg, Virginia, 2000.
[10] Levi E., Boglietti A., and Lazzar M. ÔÇÿPerformance Deterioration in Indirect
Vector Controlled Induction Motor Drives due to Iron Losses-, IEEE trans.
on Indus. Appl., pp. 1312-1318, 1995.
[11] Jinh w. J., Nam K., ÔÇÿA Vector Control Scheme for EV Induction Motors
with Series Iron Loss Model-, IEEE trans. Ind. Electron. Vol. 45, No. 4, pp.
617-624, August 1998.
@article{"International Journal of Electrical, Electronic and Communication Sciences:57851", author = "Kheldoun Aissa and Khodja Djalal Eddine", title = "Vector Control Using Series Iron Loss Model of Induction, Motors and Power Loss Minimization", abstract = "The iron loss is a source of detuning in vector controlled
induction motor drives if the classical rotor vector controller is used for
decoupling. In fact, the field orientation will not be satisfied and the
output torque will not truck the reference torque mostly used by Loss
Model Controllers (LMCs). In addition, this component of loss, among
others, may be excessive if the vector controlled induction motor is
driving light loads. In this paper, the series iron loss model is used to
develop a vector controller immune to iron loss effect and then an LMC
to minimize the total power loss using the torque generated by the speed
controller.", keywords = "Field Oriented Controller, Induction Motor, Loss ModelController, Series Iron Loss.", volume = "3", number = "4", pages = "813-7", }