A FUZZY LOGIC CONTROLLER TO LINE STARTING PERFORMANCE SYNCHRONOUS MOTOR FOR A CRANE SYSTEM USING VECTOR CONTROL
DOI:
https://doi.org/10.11113/jt.v78.9029Keywords:
Synchronous motor, line starting current, crane, vector control, d-qAbstract
This paper presents the design process of a synchronous motor of crane system using vector control of line starting [1]. The preliminary design is d-q model armature rotor line start synchronous motor with vector control for decreasing a starting current and torque. The design allows the synchronous motor to operate at both starting and synchronous speed. The basic equations for park transformation of the rotor-stator for proposed vector control to synchronous motor are presented [2]. The starting performance of synchronous motor, for example in crane application, requires rapid dynamics and precise regulation; hence the need of direct control is becoming an urgent demand. This type of control providesanindependent vector control of torqueand current, whichis similar to a separatelyexcited synchronous motor and offersa number ofattractivefeatures. Synchronous motorhasahighstartingtorquewhileseparately synchronous motorcanoperate abovethebase low speedinthe line starting current [3]. This paper designs study and highlights the effectiveness of the proposed vector control methods for a line starting performance of synchronous motor model parameter, using a fuzzy logic controller methods both simulation and manufacturers measured experimental data. Asteady state and transient analysis of the synchronous motor is performed belowand abovebase line starting current.
References
Slemon, G. R. 2012. Electric Machines and Drives. Four- edition. Addison Wesley.
Vas, P. 2011. Vector Control of AC Drives. Five-edition. Englewood Cliffs, New Jersey: Prentice Hall.
Mahmoud, I., Masoud, Jhon E. Flecher, and Barry William, W. March 2010. Decoupled Control ofRotorTorque and Rotor Electric Power Delivered in a Salient Pole, Synchronous Machine. IEEE Trans. Energy Conv. 20(1).
Mehta S. and Chiasson, J. Feb.2011. Nonlinear Control Of A Series DC Motor: Theory And Experiment. IEEE Transaction on Industrial Electronics. 45(1): 134-141.
Zong Liu, Z., Lin Luo, F. and Rashid, M. H. March- April. 2013. Speed Nonlinear Control of DC Motor Drive with Field Weakening. IEEE Transactions on Industry Applications. 39(2): 417-423.
VerschoofIng, J. 2012. Cranes Design, Practice, and Maintenamce. Four-edition. London: Professional Engineering Publishing Limited.
Alaa A. Al-Saffar. 2014. PI-Like Fuzzy Logic Direct Torque Control of PMSM. International Journal of Current Engineering and Technology. 4(1).
Rashid Muhammad, H. 2012. Circuits, Devices, and Applications in Power Electronics. Four editions. Upper Saddle River, NJ: Prentice-Hall.
T. Wildi. 2012. Electrical Machines Drives, and Power Systems. Fifth edition. Prentice Hall.
N. Mohan, T. M. Undeland and W. P. Robbins. 2010. Power Electronics Converter, Applications and Design. Third edition. New York: Wiley Press.
R. Krishnan. 2011. Electrical Motor Drives: Modeling, Analysis, and Control. Four edition. Prentice Hall.
Zeid, Saad M. December 2010. An Analysis of Permanent Magnet Synchronous Motor Drives. Master thesis. Memorial University, New Foundland.
Sen, P. C. 2010. Principles of Electric Machines and Power Electronics. six-edition. John Wiley & Sons, Inc.
Sarma, M. 2011. Electric Machines. Six edition. PWS Publishing Company.
Thaler, G., Wilcox, M. I. 2010. Electric Machines Dynamics and Steady State. Five edition, John Wiley & Sons Inc.
Krause, P. C., O. Wasynczuk, S. D, Sudhoff. 2010. Analysis of Electric Machinary and Driver Systems. Four edition. IEEE Press and Wiley Interscience.
Dewantoro, G. 2011. Robust Speed Controlled Permanent Magnet Synchronous Motor Drive Using Fuzzy Logic Control. International Conference on Fuzzy Systems. June 27-30. Taipei, Taiwan.
Maamound, A. and Alsayed, Y. M. 2013. Fuzzy Logic Based Speed Controller for Permanent Magnet Synchronous Motor Drive. International Conference on Mechatronics and Automation. August 4-7. Takamatzu, Japan.
Aissoui, A. G.2011. Fuzzy Logic Controller for Synchronous Motor. Journal of Electrical Engineering. 58(5): 285-290.
Mishra, S. and Tomer, A. S. 2014. Speed Control of PMSM Drives by Using Neural Network Controller. Advance in Electronic and Electric Engineering. ISSN 2231-1297. 4(4): 353-360.
Al-Harthi Mosleh, M. 2012. Control of PMSM Using Artificial Neural Networks. Advances in Electrical Engineering. 1(3).
Sudhakar, A. 2013. Neural network controller in direct Torque controlled Synchronous Motor. International Journal of Power Electronic and Drive System (IJPEDS). 3(3): 311-320.
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