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Architecture for Electromechanical Model with Control Devices

Vladimir Karailiev and Valentina Rankovska
Faculty of Electrical Engineering at Technical University of Sofia 8 Kl. Ohridski Blvd, Sofia 1000 Bulgaria., 2Faculty of Electrical Engineering and Electronics at Technical University of Gabrovo 4H. Dimitar str., Gabrovo 5300, Bulgaria

Abstract: We have developed a new architecture for an electromechanical model. We have explained the primary and auxiliary functions of the control device. We have given the appropriate components of efficient control devices. We have used the programmable logic devices to develop the architecture. Besides, we have presented the hardware and software part of the system in detail.

Keywords: Electromechanical System (EMS), Electrical drives, Field-Programmable Gate Arrays (FPGA), Design, Simulation Architecture for Electromechanical Model with Control Devices

DOI:https://doi.org/10.6025/jet/2023/14/1/1-8

Full_Text PDF 1.14 MB Download: 115 times

References:

[1] Bazzi, A. & Krein, P. (2010). A Complete Implementation Procedure for State Estimation in Induction Machines on the eZdsp F2812. University of Illinois at Urbana-Champaign.
[2] Rankovska, V. & Karailiev, H. (2011). (in Bulgarian). Digital Devices and Systems Design Using Field-Programmable Gate Arrays, Vol. 1–2, pp. 8–15.
[3] Woods, R. et al. (2008). FPGA-Based Implementation of Signal Processing Systems. John Wiley & Sons: New York, USA.
[4] Quartus, I.I. (2012). Design & Synthesis, version 12.1 [Handbook], Vol. 1. Altera, Corp.
[5] Cofer, R.C., and and Ben Harding. Rapid System Prototyping with FPGAs: Accelerating the Design Process (2006). Elsevier: Oxford.
[6] Kilts, S. (2007). Advanced FPGA Design: Architecture, Implementation, and Optimization. John Wiley & Sons: New York, USA.
[7] Implementation of a Speed Field Orientated Control of Three Phase AC Induction Motor Using TMS320F240 (1998). Texas Instruments.
[8] www.altera.com.

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