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Inicio Revista Iberoamericana de Automática e Informática Industrial RIAI Métodos de control de motores de inducción: síntesis de la situación actual
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Vol. 13. Núm. 4.
Páginas 381-392 (octubre - diciembre 2016)
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15589
Vol. 13. Núm. 4.
Páginas 381-392 (octubre - diciembre 2016)
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Métodos de control de motores de inducción: síntesis de la situación actual
Methods for induction motor control: state of art
Visitas
15589
Roberto Arnanzb, F. Javier Garcíaa,*, Luis J. Miguelc
a ITAP, C/ Paseo del Cauce n°.59, 47011 Valladolid, España
b CARTIF, Parque Tecnológico de Boecillo, 205, 47151 Boecillo, España
c Departamento de Ingeniería de Sistemas y Automática, Escuela de Ingenierías Industriales, C/ Paseo del Cauce,S/N, 47011 Valladolid, España
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Este trabajo describe y analiza la situación actual de los métodos de control de motores de inducción que se aplican en la industria, desde los métodos clásicos hasta los más modernos. Además se da una visión general de las tendencias de control actuales en cada uno de los métodos.

Palabras clave:
Motor de Inducción
Variación de frecuencia
Control Escalar
Control Vectorial
Control Directo de Par
Abstract

This paper describes and analyzes the current situation of the control methods of induction motors applied in the industry, from classic to the most modern methods. In addition an overview of the current trends of control is given in each of the methods.

Keywords:
Induction motor
Variation of frequency
Scalar Control
Vectorial control
Direct torque control
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Ahammad et al., 2014, Alepuz, 2004, Ambrozic et al., 2004, Ameur et al., 2012, Blaschke, 1972, Bose, 1986, Bose y Patel, 1998, Bowes y Lai, 1997, Buja y Kazmierkowski, 2004, Carmeli y Mauri, 2011, Casadei et al., 1994, Casadei et al., 2000, Casadei et al., 2003, Cortáquinas Elés Cherta, 1994, Depenbrock, 1988, Dharmaprakash y Henry, 2014, Escalante et al., 2002, Gallegos-Lara et al., 2010, Grabowski et al., 2000, Guidi y Umida, 2000, Ha and Lee, 2000, Habetler et al., 1998, Habetler et al., 1992, Hamed y Al-Mobaied, 2010, Hasse, 1969, Holtz et al., 1993, Holtz y Quan, 2002, Idris y Yatim, 2002, Idris y Yatim, 2004, Kang et al., 1999, Karpe et al., 2013, Kazmierkowski et al., 2002, Kwasinski et al., 2003, Lai et al., 2000, Lai et al., 2004, Lascu et al., 2000, Lascu et al., 2004, Lascu y Trzynadlowski, 2004a, Lascu y Trzynadlowski, 2004b, Lee y Lee, 1998, Leonhard, 2001, Maes y Melkebeek, 2000, Melfi y Hart, 1992, Mendoza, 2004, Menghal y Laxmi, 2012, Mitronikas et al., 2001, Monmasson et al., 2001, Mora et al., 2001, Moustafa, 2002, Nekoei et al., 2011, Ortega et al., 2001, Purcell y Acarnley, 2001, Riveros et al., 2013, Riveros et al., 2010, Rodríguez et al., 2004, Shaw y Leeb, 1999, Shyu et al., 2004, Stearns, 2007, Sun y Xue, 2014, Tai et al., 2000, Takahashi y Noguchi, 1984, Takahashi y Noguchi, 1985, Teixidó et al., 2003, Tsuji et al., 2001, Vas, 1992, Vas, 1993, Vas, 1998, Vasic et al., 2003, Walczyna y Hill, 1993, Yang y Chin, 1993, Zamora y Garcia-Cerrada, 2000, Zhang et al., 2012 and Zhou y Wang, 2002.

REFERENCIAS
[Ahammad et al., 2014]
N. Ahammad, S. Khan, R. Reddy, Prasanthi.
Novel dtc-svm for an adjustable speed sensorless induction motor drive.
International Journal of Science Engineering and Advance Technology, 2 (2014), pp. 31-36
[Alepuz, 2004]
Alepuz, S., Noviembre 2004. Aportación al control del convertidor CC/CA de tres niveles. Ph.D. thesis, Universidad Politécnica de Cataluña.
[Ambrozic et al., 2004]
V. Ambrozic, G.S. Buja, R. Menis.
Band-constrained techinque for direct torque control of induction motor.
IEEE Trans. on Industrial Electronics, 51 (2004, Agosto), pp. 776-784
[Ameur et al., 2012]
A. Ameur, B. Mokhtari, N. Essounbouli, L. Mokrani.
Speed sensorless direct torque control of a pmsm drive using space vector modulation based mras and stator resistance estimator.
World Academy of Science, Engineering and Technology, 6 (2012), pp. 198-203
[Blaschke, 1972]
F. Blaschke.
The principle of field orientation as applied to the new transvector closed-loop control system for rotating field machines.
Siemens Review, 39 (1972, Mayo), pp. 217-220
[Bose, 1986]
B.K. Bose.
Power Electronics and AC Drives.
Prentice-Hall, (1986),
[Bose y Patel, 1998]
B.K. Bose, N.R. Patel.
Quasi-fuzzy estimation of stator resistance of induction motor.
IEEE Trans. on Power Electronics, 13 (1998), pp. 279-287
[Bowes y Lai, 1997]
S.R. Bowes, Y. Lai.
The relationship between Space-Vector Modulation and regular sampled PWM.
IEEE Trans. on Industrial Electronics, 44 (1997 Octubre), pp. 670-679
[Buja y Kazmierkowski, 2004]
G.S. Buja, M.P. Kazmierkowski.
Direct torque control of PWM inverter-fed AC motors -a survey.
IEEE Trans. on Industrial Electronics, 51 (2004 Agosto), pp. 744-757
[Carmeli y Mauri, 2011]
M. Carmeli, M. Mauri.
Direct torque control as variable structure control: Existence conditions verification and analysis.
Electric Power Systems Research, 81 (2011), pp. 1188-1196
[Casadei et al., 1994]
Casadei, D., Grandi, G., Serra, G., Tani, A., Septiembre 1994. Effect of flux and torque hysteresis band amplitude in direct torque control of induction motor.
[Casadei et al., 2000]
D. Casadei, G. Serra, A. Tani.
Implementation of a direct torque control algorithm for induction motors based on discrete Space Vector Modulation.
IEEE Trans. on Power Electronics, 15 (2000 Julio), pp. 769-777
[Casadei et al., 2003]
D. Casadei, G. Serra, A. Tani, L. Zarri, F. Profumo.
Performance analysis of a speed-sensorless induction motor drive based on a constant-switching-frequency DTC scheme.
IEEE Trans. on Industry Applications, 39 (2003 Marzo/Abril), pp. 476-484
[Cortáquinas Elés Cherta, 1994]
M. Cortés Cherta.
Curso Moderno de Méctricas Rotativas.
Editores Técnicos Asociados, (1994),
[Depenbrock, 1988]
M. Depenbrock.
Direct self-control (DSC) of inverter-fed induction machine.
IEEE Trans. on Power Electronics, 3 (1988 Octubre), pp. 420-429
[Dharmaprakash y Henry, 2014]
R. Dharmaprakash, J. Henry.
Direct torque control of induction motor using three level diode clamped multilevel inverter.
International Conference on Computation of Power, Energy, Information and C, 2014., IEEE Annual, pp. 206-212
[Escalante et al., 2002]
M.F. Escalante, J. Vannier, A. Arzandé.
Flying capacitor multilevel inverters and DTC motor drive applications.
IEEE Trans. on Industrial Electronics, 49 (2002 Agosto), pp. 809-815
[Gallegos-Lara et al., 2010]
M. Gallegos-Lara, R. Alvares-Salas, J. Moreno, G. Espinosa-Pérez.
Control vectorial de un motor de inducción con carga desconocida basado en un nuevo observador no lineal.
RIAI - Revista Iberoamericana de Automática e Informática Industrial, 7 (2010), pp. 74-82
[Grabowski et al., 2000]
P. Grabowski, M.P. Kazmierkowski, B.K. Bose, F. Blaabjerg.
A simple direct-torque neuro-fuzzy control of pwm-inverter-fed induction motor drive.
IEEE Trans. on Industrial Electronics, 47 (2000 Agosto), pp. 863-870
[Guidi y Umida, 2000]
G. Guidi, H. Umida.
A novel stator resistance estimation method for speed sensorless induction motor drives.
IEEE Trans. on Industry Applications, 36 (2000), pp. 1619-1627
[Ha and Lee, 2000]
I.-J. Ha, S.-H. Lee.
An online identification method for both stator and rotor resistances of induction motors without rotational transducers.
IEEE Trans. on Industrial Electronics, 47 (2000 Agosto), pp. 842-853
[Habetler et al., 1998]
T.G. Habetler, F. Profumo, G. Griva, M. Pastorelli, A. Bettini.
Stator resistance tuning in a stator flux field oriented drive using an instantaneous hybrid flux estimator.
IEEE Trans. on Power Electronics, 13 (1998 Enero), pp. 125-133
[Habetler et al., 1992]
T.G. Habetler, F. Profumo, M. Pastorelli, L.M. Tolbert.
Direct torque control of induction machines using space vector modulation.
IEEE Trans. on Industry Applications, 28 (1992 Septiembre/Octubre), pp. 1045-1053
[Hamed y Al-Mobaied, 2010]
B. Hamed, M. Al-Mobaied.
Fuzzy logic speed controllers using fpga technique for three-phase induction motor drives.
Dirasat, Engineering Sciences, 37 (2010), pp. 194-205
[Hasse, 1969]
K. Hasse.
Zur Dynamik Drehzahlgeregelter Antriebe Mit Stromrichtergespeisten Asynchron Kurzshlusslaufer Maschinen, (1969),
[Holtz et al., 1993]
J. Holtz, W. Lotzkat, A.M. Khambadkone.
On continuous control of PWM inverters in the overmodulation range including the six-step mode.
IEEE Trans. on Power Electronics, 8 (1993 Octubre), pp. 546-553
[Holtz y Quan, 2002]
J. Holtz, J. Quan.
Sensorless vector control of induction motors at very low speed using a nonlinear inverter model and parameter identification.
IEEE Trans. on Industry Applications, 38 (2002 Julio/Agosto), pp. 1087-1095
[Idris y Yatim, 2002]
N. Idris, A.H.M. Yatim.
An improved stator flux estimation in steady state operation for direct torque control of induction machines.
IEEE Trans. on Industry Applications, 38 (2002 Enero/Febrero), pp. 110-116
[Idris y Yatim, 2004]
N. Idris, A.H.M. Yatim.
Direct torque control of induction machines with constant switching frequency and reduced torque ripple.
IEEE Trans. on Industrial Electronics, 51 (2004 Agosto), pp. 758-767
[Kang et al., 1999]
J.-W. Kang, D.-W. Chung, S.K. Sul.
Direct torque control of induction machine with variable amplitude control of flux and torque hysteresis bands, (1999),
[Karpe et al., 2013]
S. Karpe, R. Suryawanshi, S. Markad.
Direct torque control of induction motors.
International Journal of Application or Innovation in Engineering and Management, 2 (2013 Octubre), pp. 11-16
[Kazmierkowski et al., 2002]
M. Kazmierkowski, P.R. Krishnan, F. Blaabjerg.
Control in Power Electronics. Selected Problems.
Academic Press, (2002),
[Kwasinski et al., 2003]
A. Kwasinski, P.T. Krein, P.L. Chapman.
Time domain comparison of Pulse-Width Modulation schemes.
IEEE Power Electronics Letters, 1 (2003 Septiembre), pp. 64-68
[Lai et al., 2000]
Y.-S. Lai, J.-C. Lin, J.-J. Wang.
Direct torque control induction motor drives with self commissioning based on Taguchi methodology.
IEEE Trans. on Power Electronics, 15 (2000 Noviembre), pp. 1065-1071
[Lai et al., 2004]
Y.-S. Lai, W.-K. Wang, Y.-C. Chen.
Novel switching techniques for reducing the speed ripple of AC drives with direct torque control.
IEEE Trans. on Industrial Electronics, 51 (2004 Agosto), pp. 768-775
[Lascu et al., 2000]
C. Lascu, I. Boldea, F. Blaabjerg.
A modified direct torque control for induction motor sensorless drive.
IEEE Trans. on Industry Applications, 36 (2000 Enero/Febrero), pp. 122-130
[Lascu et al., 2004]
C. Lascu, I. Boldea, F. Blaabjerg.
Direct torque control of sensorless induction motor drives: A sliding-mode approach.
IEEE Trans. on Industry Applications, 40 (2004 Marzo/Abril), pp. 582-590
[Lascu y Trzynadlowski, 2004a]
C. Lascu, A.M. Trzynadlowski.
Combining the principles of sliding mode, direct torque control, and Space-Vector Modulation in a high-performance sensorless AC drive.
IEEE Trans. on Industry Applications, 40 (2004 a Enero/Febrero), pp. 170-177
[Lascu y Trzynadlowski, 2004b]
C. Lascu, A.M. Trzynadlowski.
A sensorless hybrid DTC drive for high-volume low-cost applications.
IEEE Trans. on Industrial Electronics, 51 (2004 b Octubre), pp. 1048-1055
[Lee y Lee, 1998]
D. Lee, G. Lee.
A novel overmodulation technique for Space-Vector PWM inverters.
IEEE Trans. on Power Electronics, 13 (1998 Noviembre), pp. 1144-1150
[Leonhard, 2001]
W. Leonhard.
Control of Electrical Drives.
3rd Edition, Springer Verlag, (2001),
[Maes y Melkebeek, 2000]
J. Maes, J.A. Melkebeek.
Speed-sensorless direct torque control of induction motors using an adaptive flux observer.
IEEE Trans. on Industry Applications, 36 (2000 Mayo/Junio), pp. 778-784
[Melfi y Hart, 1992]
M. Melfi, R. Hart.
Considerations for the use of ac induction motors on variable frequency controllers in high performance applications.
Textile, Fiber and Film Industry Technical Conference, 1992,
[Mendoza, 2004]
A. Mendoza.
Sistema de control vectorial y diagnóstico automático de fallos para motores de jaula de ardilla..
Universidad de Valladolid, (2004),
[Menghal y Laxmi, 2012]
P. Menghal, A.J. Laxmi.
State of the art of intelligent control of induction motor drives, (2012),
[Mitronikas et al., 2001]
E.D. Mitronikas, A. Safacas, E. Tatakis.
A new stator resistance tuning method for stator flux oriented vector controlled induction motor drive.
IEEE Trans. on Industrial Electronics, 48 (2001 Diciembre), pp. 1148-1157
[Monmasson et al., 2001]
E. Monmasson, A.A. Naassani, J. Louis.
Extension of the DTC concept.
IEEE Trans. on Industrial Electronics, 48 (2001 Junio), pp. 715-717
[Mora et al., 2001]
J. Mora, F. Barrero, E. Galvan, F. Colodro, J. Tombs, M. Barranco, A. Torralba, L. Franquelo.
Asitron: Asic for indirect vector control of induction motors with fuzzy logic based speed regulation, PCIM, 2001.
Conference on Power Electronics, pp. 471-475
[Moustafa, 2002]
M.A. Moustafa.
Estudio y realización del control directo del par (DTC) para accionamientos de motores de inducción con inversores de diferentes topologías.
Universidad Politécnica de Cataluña, (2002),
[Nekoei et al., 2011]
F. Nekoei, Y. Kavian, A. Mahani.
Three-phase induction motor drive by fpga.
19th Iranian Conference on Electrical Engineering (ICEE), (2011), pp. 1-6
[Ortega et al., 2001]
R. Ortega, N. Barabanov, G. Escobar.
Direct torque control of induction motors: Stability analysis and performance improvement.
IEEE Trans. on Automatic Control, 46 (2001 Agosto), pp. 1209-1222
[Purcell y Acarnley, 2001]
A. Purcell, P.P. Acarnley.
Enhanced inverter switching for fast response direct torque control.
IEEE Trans. on Power Electronics, 16 (2001 Mayo), pp. 382-389
[Riveros et al., 2013]
J. Riveros, F. Barrero, E. Levi, M. Duran, M. Jones.
Variable-speed five-phase induction motor drive based on predictive torque control.
IEEE Transactions on Industrial Electronics, 60 (2013), pp. 2957-2968
[Riveros et al., 2010]
J. Riveros, J. Prieto, F. Barrero, S. Toral, M. Jones, E. Levi.
Multi-phase machines in propulsion drives of electric vehicles, (2010),
[Rodríguez et al., 2004]
J. Rodríguez, J. Pontt, S. Kouro, P. Correa.
Direct torque control with imposed switching frequency in an 11-level cascaded inverter.
IEEE Trans. on Industrial Electronics, 51 (2004 Agosto), pp. 827-833
[Shaw y Leeb, 1999]
S.R. Shaw, S.B. Leeb.
Identification of induction motor parameters from transient stator current measurements.
IEEE Trans. on Industrial Electronics, 46 (1999 Febrero), pp. 139-149
[Shyu et al., 2004]
K. Shyu, L. Shang, H. Chen, K. Jwo.
Flux compensated direct torque control of induction motor drives for low speed operation.
IEEE Trans. on Power Electronics, 19 (2004 Noviembre), pp. 1608-1613
[Stearns, 2007]
Stearns, T., July 2007. Replacing your dc motors?. think ac. url-http:// http://www.reliableplant.com/Magazine/Issue/Reliable07.
[Sun y Xue, 2014]
D. Sun, H. Xue.
Speed sensorless control system of induction motor.
Sixth International Conference on Intelligent Human-Machine Systems and Cybernetics, 2014, pp. 100-103
[Tai et al., 2000]
Z. Tai, Y. Li, Z. Ji.
Speed sensorless DTC and parameters estimation of induction motor based on a full order MRAS method, (2000),
[Takahashi y Noguchi, 1984]
I. Takahashi, T. Noguchi.
Quick torque response control of an induction motor using a new concept.
IEEE J. Tech. Meeting on Rotating Machines, (1984), pp. 61-70
[Takahashi y Noguchi, 1985]
I. Takahashi, T. Noguchi.
A new quick response and high effciency control strategy of an induction motor.
IEEE IAS Anual Meeting, (1985), pp. 496-502
[Teixidó et al., 2003]
M. Teixidó, A. Sumper, A. Sudriá, J. Sánchez.
Convertidores de frecuencia.
Automática e Instrumentación, 341 (2003 Junio), pp. 84-103
[Tsuji et al., 2001]
M. Tsuji, S. Chen, K. Izumi, E. Yamada.
A sensorless vector control system for induction motors using q-axis flux with stator resistance identification.
IEEE Trans. on Industrial Electronics, 48 (2001 Febrero), pp. 185-194
[Vas, 1992]
P. Vas.
Electrical Machines and Drives: A Space-Vector Theory Approach.
Oxford University Press, (1992),
[Vas, 1993]
P. Vas.
Parameter Estimation, Condition Monitoring, and Diagnosis of Electrical Machines.
Oxford University Press, (1993),
[Vas, 1998]
P. Vas.
Sensorless Vector and Direct Torque Control.
Oxford Science Publications, (1998),
[Vasic et al., 2003]
V. Vasic, S. Vukosavic, E. Levi.
A stator resistance estimation scheme for speed sensorless rotor flux oriented induction motor drives.
IEEE Trans. on Energy Conversion, 18 (2003 Diciembre), pp. 476-483
[Walczyna y Hill, 1993]
A.M. Walczyna, R.J. Hill.
Space vector PWM strategy for 3-level inverter with direct self control, (1993),
[Yang y Chin, 1993]
G. Yang, T.-H. Chin.
Adaptive-speed identification scheme for a vector-controlled speed sensorless inverter-induction motor drive.
IEEE Trans. on Industry Applications, 29 (1993 Julio/Agosto), pp. 820-825
[Zamora y Garcia-Cerrada, 2000]
J.L. Zamora, A. Garcia-Cerrada.
On line estimation of the stator parameters in an induction motor using only voltage and current measurements.
IEEE Trans. on Industry Applications, 36 (2000), pp. 805-816
[Zhang et al., 2012]
Y. Zhang, J. Zhu, Z. Zhao, W. Xu, D. Dorrell.
An improved direct torque control for three-level inverter-fed induction motor sensorless drive.
IEEE Transactions on power electronics, 27 (2012), pp. 1502-1513
[Zhou y Wang, 2002]
K. Zhou, D. Wang.
Relationship between Space-Vector Modulation and three-phase carrier-based PWM: A comprehensive analysis.
IEEE Trans. on Industrial Electronics, 49 (2002 Febrero), pp. 186-196
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