Startseite Technik Synthesis of speed controllers by the polynomial equations method for an unstable electromechanical object
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Synthesis of speed controllers by the polynomial equations method for an unstable electromechanical object

  • Vladyslav Markov

    Associate professor. Graduated from NTU «KhPI» in 1994, received a PhD degree in 2001.

     EMAIL logo     und Yevhen Honcharov

    Associate professor. Graduated from NTU «KhPI» in 2006, received a PhD degree in 2016.
Veröffentlicht/Copyright: 5. November 2024
at - Automatisierungstechnik
Aus der Zeitschrift at - Automatisierungstechnik Band 72 Heft 11

Abstract

The article shows the possibility of synthesis of speed controllers by the polynomial equations method for a two-mass initially unstable object. The instability is caused by the non-linear nature of the friction load with so-called falling section. The low – order and full-order speed controllers with motor speed feedback which provide acceptable quality control indicators are synthesized. Analytical expressions for finding the parameters of the controllers are given, and computer simulations are also presented. A conclusion was made about the preference of using the low-order controller.

Zusammenfassung

Der Artikel zeigt die Möglichkeit der Synthese von Geschwindigkeitsreglern nach der Methode der Polynomgleichungen für ein zunächst instabiles Objekt mit zwei Massen. Die Instabilität wird durch die nichtlineare Natur der Reibungslast mit dem sogenannten fallenden Abschnitt verursacht. Es wurden unvollständige und vollständige Drehzahlregler mit Motordrehzahlrückführung synthetisiert, die akzeptable Indikatoren für die Regelqualität liefern. Es werden analytische Ausdrücke zum Ermitteln der Parameter der Regler angegeben und auch die Computermodellierung vorgestellt. Es wurde eine Schlussfolgerung über den Vorteil der Verwendung eines unvollständigen Ordnungsreglers gezogen.

Keywords: polynomial equations; unstable two-mass electromechanical object; synthesis of speed controller; low-order speed controller; full-order speed controller
Schlüsselwörter: Polynomgleichungen; instabiles elektromechanisches Zweimassenobjekt; Geschwindigkeitsregler-Synthese; teilweiser Geschwindigkeitsregler; vollständiger Geschwindigkeitsregler
Corresponding author: Vladyslav Markov, Department оf Applied Electrical Engineering, National Technical University Kharkiv Polytechnic Institute, Kharkiv, Ukraine, E-mail: 

About the authors

Vladyslav Markov

Associate professor. Graduated from NTU «KhPI» in 1994, received a PhD degree in 2001.

Yevhen Honcharov

Associate professor. Graduated from NTU «KhPI» in 2006, received a PhD degree in 2016.

  1. Research ethics: We strictly adhere to research ethics. In particular, we do not allow plagiarism and the use of other people's results without citation.

  2. Informed consent: Not applicable.

  3. Author contributions: Both authors made significant contributions to the work.

  4. Use of Large Language Models, AI and Machine Learning Tools: None declared.

  5. Conflict of interest: No competing interests.

  6. Research funding: No research funding.

  7. Data availability: Yes, all data is available.

References

[1] V. B. Klepikov, Dynamika electromekhanichnykh System z nelyneinym tertyam: monographia/V.B. Klepikov. – Kharkiv: Vydvnytstvo “Pidruchnyk” NTU KhPI, Kharkiv, Vydavnytstvo, 2014, p. 408.Suche in Google Scholar

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[3] M. J. Grimble and V. Kucera, Polynomial Methods for Control Systems Design, Berlin, Springer, 1996.10.1007/978-1-4471-1027-9Suche in Google Scholar

[4] D. Henrion, G. Garcia, and S. Tarbouriech, “Piecewise-linear robust control of systems with input saturation,” Eur. J. Control, vol. 5, no. 1, pp. 157–166, 1995. https://doi.org/10.1016/s0947-3580(99)70149-4.Suche in Google Scholar

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[6] D. Henrion and M. Sebek, “An algorithm for polynomial matrix factor extraction,” Int. J. Control, vol. 73, no. 8, pp. 686–695, 2000. https://doi.org/10.1080/002071700403457.Suche in Google Scholar

[7] M. J. Grimble, Robust Industrial Control Systems: Optimal Design Approach for Polynomial Systems, New York, Wiley, 2006.10.1002/9780470020753Suche in Google Scholar

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Received: 2024-07-09
Accepted: 2024-08-29
Published Online: 2024-11-05
Published in Print: 2024-11-26

© 2024 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Frontmatter
  2. Editorial
  3. Resilient energy supply in times of crises and transition
  4. Methods
  5. Batteries for fast frequency containment response: market impacts on outage dynamics
  6. Synthesis of speed controllers by the polynomial equations method for an unstable electromechanical object
  7. Optimal power dispatch in microgrids using mixed-integer linear programming
  8. Review on peak detect and hold circuits and their applicability in partial discharge detection
  9. Applications
  10. Analysis of the degree of correlation of spatial distribution of electricity theft and exogenous variables: case study of Florianopolis, Brazil
  11. Linear transverse flux generator for wave energy conversion: design optimization and analysis
  12. Improving quality of electricity generated by grid-tied inverters in solar power plants in low generated power mode using frequency adaptive PWM
  13. Survey
  14. Regional marketing mechanisms for industrial energy flexibility enabled by service-oriented IT platforms
https://doi.org/10.1515/auto-2024-0092
Schlagwörter für diesen Artikel
polynomial equations; unstable two-mass electromechanical object; synthesis of speed controller; low-order speed controller; full-order speed controller

Artikel in diesem Heft

  1. Frontmatter
  2. Editorial
  3. Resilient energy supply in times of crises and transition
  4. Methods
  5. Batteries for fast frequency containment response: market impacts on outage dynamics
  6. Synthesis of speed controllers by the polynomial equations method for an unstable electromechanical object
  7. Optimal power dispatch in microgrids using mixed-integer linear programming
  8. Review on peak detect and hold circuits and their applicability in partial discharge detection
  9. Applications
  10. Analysis of the degree of correlation of spatial distribution of electricity theft and exogenous variables: case study of Florianopolis, Brazil
  11. Linear transverse flux generator for wave energy conversion: design optimization and analysis
  12. Improving quality of electricity generated by grid-tied inverters in solar power plants in low generated power mode using frequency adaptive PWM
  13. Survey
  14. Regional marketing mechanisms for industrial energy flexibility enabled by service-oriented IT platforms
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