Synergetic and sliding mode

Synergetic and sliding mode controls of a PMSM: A comparative study

Journal of Electrical and Electronic Engineering Volume 3, Issue 1-1, January 2015, Pages: 22-26 Received: Dec. 30, 2014; Accepted: Jan. 4, 2015; Published: Feb. 5, 2015

Authors

Nourdine Bounasla, Laboratory of Automatic, Department of Electrical Engineering, Ferhat Abbas University Setif-1, Sétif 19000, Algeria

Kamel Eddine Hemsas, Laboratory of Automatic, Department of Electrical Engineering, Ferhat Abbas University Setif-1, Sétif 19000, Algeria

Hacene Mellah, Department of Electrical Engineering, Hassiba Benbouali University Chlef, Chlef 02000, Algeria

Cited by  

Mars, N., Houcine, L., Zaafouri, A., & Chaari, A. (2021). Effect of synergetic control in hybrid PV‐Wind system response. IET Renewable Power Generation.

Zhu, W., Zheng, Y., Dai, J., & Zhou, J. (2017). Design of integrated synergetic controller for the excitation and governing system of hydraulic generator unit. Engineering Applications of Artificial Intelligence, 58, 79-87.

Ni​​​​​​​cola, M., & Nicola, C. I. (2020). Sensorless fractional order control of PMSM based on synergetic and sliding mode controllers. Electronics, 9(9), 1494.

Datlinger, C., & Hirz, M. (2020). Benchmark of rotor position sensor technologies for application in automotive electric drive trains. Electronics, 9(7), 1063.

NICOLA, M., & NICOLA, C. I. (2020, October). Sensorless Control of PMSM Based on Fractional Order Synergetic Control. In 2020 International Conference and Exposition on Electrical And Power Engineering (EPE) (pp. 308-313). IEEE.

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Гуськов, А. М. РАЗРАБОТКА МЕТОДОВ ОБЕСПЕЧЕНИЯ ТРЕБУЕМОЙ ДИНАМИКИ РОТОРА АКСИАЛЬНОГО НАСОСА ВСПОМОГАТЕЛЬНОГО КРОВООБРАЩЕНИЯ НА АКТИВНЫХ МАГНИТНЫХ ОПОРАХ.

 

 

 

 

Abstract

Permanent magnet Synchronous machines (PMSM) provide high efficiency, compact size, robustness, lightweight, and low noise; these features qualify them as the best suitable machine for medical applications. Without forgetting its simple structure, high thrust, ease of maintenance, and controller feedback, make it possible to take the place of steam catapults in the future. This paper presents the synergetic control approach for PMSM. Synergetic control theory is purely analytical and is based on nonlinear models, provide asymptotic stability. This approach allows to reduce the chattering phenomenon. To verify the performance characteristics of this approach, we compare it with sliding mode. Simulation results are presented to show the effectiveness of the proposed control method.

N. Bounasla, K E. Hemsas, H. Mellah, Synergetic and sliding mode controls of a PMSM: A comparative study Journal of Electrical and Electronic Engineering. Special Issue:Sustainable and Renewable Energies and Systems Vol. 3, No. 1-1, pp. 22-26, .ISSN,2329-1613, 2015

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Keywords

PMSM, Synergetic Control, Sliding Mode Control, Asymptotic Stability

References

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CITEDIN:

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Zhu, W., Zheng, Y., Dai, J., & Zhou, J. (2017). Design of integrated synergetic controller for the excitation and governing system of hydraulic generator unit. Engineering Applications of Artificial Intelligence, 58, 79-87.

MDPI | Institutional Open Access Program

Datlinger, C., & Hirz, M. (2020). Benchmark of rotor position sensor technologies for application in automotive electric drive trains. Electronics, 9(7), 1063.

Nicola, M., & Nicola, C. I. (2020). Sensorless fractional order control of PMSM based on synergetic and sliding mode controllers. Electronics, 9(9), 1494.

Industry Update: IEEE Xplore Digital Library – 50th LIBER Annual Conference

NICOLA, M., & NICOLA, C. I. (2020, October). Sensorless Control of PMSM Based on Fractional Order Synergetic Control. In 2020 International Conference and Exposition on Electrical And Power Engineering (EPE) (pp. 308-313). IEEE.

 

 

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