Enhance Parameter Speed Estimation of Induction Motor Using Modified Voltage Model Flux Estimation
Abstract
Enhance Parameter Speed Estimation of Induction Motor Using Modified Voltage Model Flux Estimation
References
[1] B. R. Williams, W. R. Schmus and D. C. Dawson, “Transmission voltage recovery delayed by stalled air conditioner compressors,” IEEE Trans. on Power Systems, vol. 7, no. 3, Aug. 1992, pp. 1173-1181.
[2] F. P. de Mello, and J. W. Feltes, “Voltage oscillatory instability caused by induction motor loads,” IEEE Trans. on Power Systems, vol. 11, no. 3, Aug. 1996, pp. 1279-1285.
[3] N. Martins, S. Gomes Jr., R. M. Henriques, C. B. Gomes, A. de Andrade Barbosa, and A. C. B. Martins, “Impact of induction motor loads in system loadability margins and damping of inter-area modes,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[4] J. Undrill, A. Renno, and G. Drobnjak, “Dynamics of a large induction motor load system,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[5] K. Morison, H. Hamadani, and L. Wang, “Practical issues in load modeling for voltage stability studies,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[6] K. Tomiyama, S. Ueoka, T. Takano, I. Iyoda, K. Matsuno, K. Temma, and J. J. Paserba, “Modeling of Load During and After System Faults Based on Actual Field Data,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[7] I. R. Navarro, O. Samuelsson, and S. Lindahi, “Automatic determination of parameters in dynamic load models from normal operation data,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
34
[8] I. R. Navarro, O. Samuelsson, and S. Lindahi, “Influence of normalization in dynamics reactive load models,” IEEE Trans. Power Systems, vol. 18, issue 2, May 2003, pp. 972-973
[9] Z. Zhang, G. E. Dawson, and T. R. Eastham, “Evaluation of dynamic parameters and performance of deep-bar induction machines,” in Proc. IEEE-IAS Annu. Meeting, 1993, pp. 62-66.
[10] S. I. Moon and A. Keyhani, “Estimation of induction machine parameters from standstill time domain data,” in Proc. IEEE-IAS Annu. Meeting, 1993, pp. 336-342.
[11] J. R. Willis, G. J. Brock, and J. S. Edmonds, “Derivation of induction motor models form standstill frequency response tests,” IEEE Trans. Energy Conversion, vol. 4, pp. 608-615, Dec. 1989.
[12] T. A. Lipo and A. Consoli, “Modeling and simulation of induction motors with saturable leakage reactances,” IEEE Trans. Ind. Applications, vol. IA-21, pp. 180-189, Jan./Feb. 1984.
[13] A. Keyani and H. Tsai, “IGSPICE simulation of induction machines with saturable inductances,” IEEE Trans. Energy Conversion, vol. 4, pp. 118-125, Mar. 1989.
[14] L. Zai, C. L. de Marco, and T. A. Lipo, “An extended Kalman filter approach to rotor time constant measurement in PWM induction motor drives,” IEEE Trans. Ind. Applications, vol. 28, pp. 96-104, Jan./Feb. 1992.
[15] J. Holtz and T. Thim, “Identification of the machine parameters in a vector controlled induction motor drive,” Ieee Trans. Ind. Applications,
vol. 27, pp. 1111-1118, Nov./Dec., 1991.
[16] J. A. de Koch, F. S. van der Merwe, and H. J. Vermeuler, “Induction motor parameter estimation through and output error technique,” presented at the IEEE-PES Winter Meeting, Columbus, OH, 1993, Paper 93-WM 01909 EC.
[17] P. Pillay, R. Nolan, and T. Haque, “Application of genetic algorithm to motor parameter determination for transient torque calculations,” IEEE Trans. Ind. Applications, vol. 33, no 5, pp. 1273-1282, Sept./Oct. 1997.
[18] T. Phumiphak and C. Chatuthai, “Estimation of induction motor parameters based on field test coupled with genetic algorithm,” in Proc. Int. Conf. Power System Technology 2002 (PowerCon 2002), pp. 1199-1203.
[19] H. Weatherford and C. W. Brice, “Estimation of induction motor parameters by a genetic algorithm,” in Proc. 2003 Annu. Pulp and Paper Industry Technical Conference, pp. 21-28.
[20] P. Nangsue, P. Pillay, S. Conry, “Evolutionary algorithms for induction motor parameter determinations,” IEEE Trans. Energy Conversion, vol. 14, no 3, pp. 447-453, Sept./1999.
[21] B. K. Johnson and J. R. Willis, “Tailoring induction motor analytical models to fit known motor performance characteristics and satisfy particular study needs,” IEEE Trans. Power Systems, vol. 6, no 3, pp. 959-965, Aug. 1991.
[22] J. Pedra and F. Corcoles, “Estimation of induction motor double-cage model parameters from manufacturer data,” IEEE Trans. Energy Conversion, vol. 19, no 2, June 2004.
[23] M. Cirrincione, M. Pucci, G. Cirrincione, and G-A Capolino, “A new experimental application of least squares techniques for the estimation of the induction motor parameters,” IEEE Trans. Ind. Applications, vol. 39, no 5, pp. 1247-1256, Sept./Oct. 2003
[24] P. Ju, E. Handschin, Z. N. Wei, U. Schluecking, “Sequential parameter estimation of a simplified induction motor load model,” IEEE Trans. Power Systems, vol. 11, no 1, pp. 319-324, Feb. 1996.
[25] A. P. Sakis Meliopoulos, Wenzhong Gao, Shengyuan Li, G. J. Cokkinides and Roger Dougal, “Quadratized induction machine model for power flow analysis,” Proceedings of the Second IASTED International Conference, EuroPES, Crete, Greece, pp 194-199, June 25-28, 2002.
[26] G. K. Stefopoulos and A. P. Meliopoulos, “Induction motor load dynamics: Impact on voltage recovery phenomena,” Proceedings of the 2005/2006 IEEE Transmission and Distribution Conference and
Exposition, Dallas, TX, May 21-25, 2006.
[27] A. P. Meliopoulos, G. J. Cokkinides, and G. K. Stefopoulos, “Voltage stability and voltage recovery: Effects of electric load dynamics,” in Proc. of the 2006 IEEE International Symposium on Circuits and
Systems, Island of Kos, Greece, May 21-24, 2006.
[28] G. K. Stefopoulos and A. P. Meliopoulos, “Quadratized Three-Phase Induction Motor Model for Steady-State and Dynamic Analysis,” in Proc. of the 38th North America Power Symposium, Carbondale, IL, USA, Sept. 17-19, 2006, pp. 79-89.
[29] J. E. Dennis, Jr., R. B. Schnabel, Numerical methods for unconstrained optimization and nonlinear equations. SIAM 1996.
[2] F. P. de Mello, and J. W. Feltes, “Voltage oscillatory instability caused by induction motor loads,” IEEE Trans. on Power Systems, vol. 11, no. 3, Aug. 1996, pp. 1279-1285.
[3] N. Martins, S. Gomes Jr., R. M. Henriques, C. B. Gomes, A. de Andrade Barbosa, and A. C. B. Martins, “Impact of induction motor loads in system loadability margins and damping of inter-area modes,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[4] J. Undrill, A. Renno, and G. Drobnjak, “Dynamics of a large induction motor load system,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[5] K. Morison, H. Hamadani, and L. Wang, “Practical issues in load modeling for voltage stability studies,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[6] K. Tomiyama, S. Ueoka, T. Takano, I. Iyoda, K. Matsuno, K. Temma, and J. J. Paserba, “Modeling of Load During and After System Faults Based on Actual Field Data,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
[7] I. R. Navarro, O. Samuelsson, and S. Lindahi, “Automatic determination of parameters in dynamic load models from normal operation data,” in Proc. 2003 IEEE-PES General Meeting, Toronto, Canada, July 13-17, 2003.
34
[8] I. R. Navarro, O. Samuelsson, and S. Lindahi, “Influence of normalization in dynamics reactive load models,” IEEE Trans. Power Systems, vol. 18, issue 2, May 2003, pp. 972-973
[9] Z. Zhang, G. E. Dawson, and T. R. Eastham, “Evaluation of dynamic parameters and performance of deep-bar induction machines,” in Proc. IEEE-IAS Annu. Meeting, 1993, pp. 62-66.
[10] S. I. Moon and A. Keyhani, “Estimation of induction machine parameters from standstill time domain data,” in Proc. IEEE-IAS Annu. Meeting, 1993, pp. 336-342.
[11] J. R. Willis, G. J. Brock, and J. S. Edmonds, “Derivation of induction motor models form standstill frequency response tests,” IEEE Trans. Energy Conversion, vol. 4, pp. 608-615, Dec. 1989.
[12] T. A. Lipo and A. Consoli, “Modeling and simulation of induction motors with saturable leakage reactances,” IEEE Trans. Ind. Applications, vol. IA-21, pp. 180-189, Jan./Feb. 1984.
[13] A. Keyani and H. Tsai, “IGSPICE simulation of induction machines with saturable inductances,” IEEE Trans. Energy Conversion, vol. 4, pp. 118-125, Mar. 1989.
[14] L. Zai, C. L. de Marco, and T. A. Lipo, “An extended Kalman filter approach to rotor time constant measurement in PWM induction motor drives,” IEEE Trans. Ind. Applications, vol. 28, pp. 96-104, Jan./Feb. 1992.
[15] J. Holtz and T. Thim, “Identification of the machine parameters in a vector controlled induction motor drive,” Ieee Trans. Ind. Applications,
vol. 27, pp. 1111-1118, Nov./Dec., 1991.
[16] J. A. de Koch, F. S. van der Merwe, and H. J. Vermeuler, “Induction motor parameter estimation through and output error technique,” presented at the IEEE-PES Winter Meeting, Columbus, OH, 1993, Paper 93-WM 01909 EC.
[17] P. Pillay, R. Nolan, and T. Haque, “Application of genetic algorithm to motor parameter determination for transient torque calculations,” IEEE Trans. Ind. Applications, vol. 33, no 5, pp. 1273-1282, Sept./Oct. 1997.
[18] T. Phumiphak and C. Chatuthai, “Estimation of induction motor parameters based on field test coupled with genetic algorithm,” in Proc. Int. Conf. Power System Technology 2002 (PowerCon 2002), pp. 1199-1203.
[19] H. Weatherford and C. W. Brice, “Estimation of induction motor parameters by a genetic algorithm,” in Proc. 2003 Annu. Pulp and Paper Industry Technical Conference, pp. 21-28.
[20] P. Nangsue, P. Pillay, S. Conry, “Evolutionary algorithms for induction motor parameter determinations,” IEEE Trans. Energy Conversion, vol. 14, no 3, pp. 447-453, Sept./1999.
[21] B. K. Johnson and J. R. Willis, “Tailoring induction motor analytical models to fit known motor performance characteristics and satisfy particular study needs,” IEEE Trans. Power Systems, vol. 6, no 3, pp. 959-965, Aug. 1991.
[22] J. Pedra and F. Corcoles, “Estimation of induction motor double-cage model parameters from manufacturer data,” IEEE Trans. Energy Conversion, vol. 19, no 2, June 2004.
[23] M. Cirrincione, M. Pucci, G. Cirrincione, and G-A Capolino, “A new experimental application of least squares techniques for the estimation of the induction motor parameters,” IEEE Trans. Ind. Applications, vol. 39, no 5, pp. 1247-1256, Sept./Oct. 2003
[24] P. Ju, E. Handschin, Z. N. Wei, U. Schluecking, “Sequential parameter estimation of a simplified induction motor load model,” IEEE Trans. Power Systems, vol. 11, no 1, pp. 319-324, Feb. 1996.
[25] A. P. Sakis Meliopoulos, Wenzhong Gao, Shengyuan Li, G. J. Cokkinides and Roger Dougal, “Quadratized induction machine model for power flow analysis,” Proceedings of the Second IASTED International Conference, EuroPES, Crete, Greece, pp 194-199, June 25-28, 2002.
[26] G. K. Stefopoulos and A. P. Meliopoulos, “Induction motor load dynamics: Impact on voltage recovery phenomena,” Proceedings of the 2005/2006 IEEE Transmission and Distribution Conference and
Exposition, Dallas, TX, May 21-25, 2006.
[27] A. P. Meliopoulos, G. J. Cokkinides, and G. K. Stefopoulos, “Voltage stability and voltage recovery: Effects of electric load dynamics,” in Proc. of the 2006 IEEE International Symposium on Circuits and
Systems, Island of Kos, Greece, May 21-24, 2006.
[28] G. K. Stefopoulos and A. P. Meliopoulos, “Quadratized Three-Phase Induction Motor Model for Steady-State and Dynamic Analysis,” in Proc. of the 38th North America Power Symposium, Carbondale, IL, USA, Sept. 17-19, 2006, pp. 79-89.
[29] J. E. Dennis, Jr., R. B. Schnabel, Numerical methods for unconstrained optimization and nonlinear equations. SIAM 1996.
Published
2021-07-24
How to Cite
ARYZA, Solly; LUBIS, zulkarnain.
Enhance Parameter Speed Estimation of Induction Motor Using Modified Voltage Model Flux Estimation.
Jurnal Elektro dan Telkomunikasi, [S.l.], v. 7, n. `1, p. 30-35, july 2021.
Available at: <https://jurnal.pancabudi.ac.id/index.php/elektrotelkomunikasi/article/view/3884>. Date accessed: 05 nov. 2024.
Section
Articles