dSPACE Implementation for Speed Regulation of Three-Phase Induction motor Based on Indirect Vector Control Technique

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Chakkapong charumit
Sathien Thanyasrirat

Abstract

This paper proposes the control technique for 4hp, 4 poles three-phase induction motor based on an indirect flux vector control technique (IFOC). This technique is emphasized on speed control, electromagnetic torque and parameter changing for steady and dynamic conditions. Rotor flux and electromagnetic torque are controlled by currents in terms of rotating reference frame. These currents are controlled by current controlled voltage source inverter with ratings of 25A, 1200V. The overall drive system is implemented on a real-time DSP TMS320F240 board via dSPACE DS1104 interface card. The proposed system provides good response for both dynamic and steady state conditions.

Article Details

How to Cite
charumit, C., & Thanyasrirat, S. (2023). dSPACE Implementation for Speed Regulation of Three-Phase Induction motor Based on Indirect Vector Control Technique. Journal of Advanced Development in Engineering and Science, 1(1), 53–58. Retrieved from https://ph03.tci-thaijo.org/index.php/pitjournal/article/view/749
Section
Research Article

References

Andrzej M. Trzynadlowski, (2000). Control of Induction Motors. Academic Press.

Masoudi, S.; Feyzi, M.R.; Sharifian, M.B.B.; (2009), Speed Control in Vector Controlled induction Motors, IEEE Conferences.

Khater, F.M.H.; Ahmed, F.I.; El-Sousy, (1999), Analysis and Design of Indirect Field Orientation Control for Induction Machine Drive System, IEEE Conferences.