Abstract
Vector-controlled induction motor drives are quite popular in the industry in applications that demand high dynamic performance. This paper describes the implementation of a complete industrial vector-controlled drive for a 30 kW induction motor. The control algorithms for the drive are implemented using a TMS320F28335 Digital Signal Controller (DSC). Various monitoring and protection functions for the drive are implemented using a Cyclone IV FPGA that communicates with the DSC, and acts as the master controller for the drive. The FPGA also communicates with a Human–Machine Interface to provide a simple graphical control interface to the operator.
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Appendix: Machine details
Appendix: Machine details
1.1 Appendix 1: Machine rating
30 kW, 380 V, 1450 rpm, 59 A, 3-\(\phi \) delta connected squirrel cage induction machine.
1.2 Appendix 2: Machine parameters
\(R_S=0.1273\, \Omega \), \(R_r=0.127\, \Omega \), \(L_{ls}=1.34\, \hbox {mH}\), \(L_{lr}=1.34\,\hbox {mH}\), \(L_m=45.219\,\hbox {mH}\).
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Titus, J., Vamshikrishna, M., Sekhar, B. et al. Design and implementation of an industrial vector-controlled induction motor drive. Sādhanā 42, 1335–1341 (2017). https://doi.org/10.1007/s12046-017-0660-6
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DOI: https://doi.org/10.1007/s12046-017-0660-6