Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive

Alecksey Anuchin; Valentina  Podzorova; Mario Hirz; Christoph Datlinger; Lassi Aarniovuori; Viktoriya  Popova; Galina  Demidova; Chen  Hao

doi:10.1109/ICEPDS47235.2020.9249077

Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive

Alecksey Anuchin, Valentina Podzorova, Mario Hirz, Christoph Datlinger, Lassi Aarniovuori, Viktoriya Popova, Galina Demidova, Chen Hao

Institut für Fahrzeugtechnik (3310)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

The problem of torque pulsation and its stabilization by means of control is typical for switched reluctance drives. This drives usually controlled using hysteresis current regulators, which produce audible noise and torque ripple. The method of model predictive control with reduced integration step size was introduced in order to implement precise torque stabilization using pulse width modulation. Active thermal control was developed as well to increase the continuous output power of the drive. The developed control strategy was simulated and shows accurate torque regulation even when only few integration steps inside single PWM cycle are used for duty cycle evaluation. Active thermal control reduced the temperature of the hottest power module by 7.4%, which allows to increase the continuous output power of the drive.

Originalsprache	englisch
Titel	2020 11th International Conference on Electrical Power Drive Systems, ICEPDS 2020 - Proceedings
Untertitel	Moscow Power Engineering Institute
ISBN (elektronisch)	9781728165387
DOIs	https://doi.org/10.1109/ICEPDS47235.2020.9249077
Publikationsstatus	Veröffentlicht - 4 Okt. 2020
Veranstaltung	11th International Conference on Electrical Power Drive Systems - Virtuell, Russland Dauer: 5 Okt. 2020 → 6 Okt. 2020

Konferenz

Konferenz	11th International Conference on Electrical Power Drive Systems
Kurztitel	ICEPDS 2020
Land/Gebiet	Russland
Ort	Virtuell
Zeitraum	5/10/20 → 6/10/20

ASJC Scopus subject areas

Steuerung und Optimierung
Maschinenbau
Elektrotechnik und Elektronik
Fahrzeugbau

Fields of Expertise

Mobility & Production

Zugriff auf Dokument

10.1109/ICEPDS47235.2020.9249077

Andere Dateien und Links

http://www.scopus.com/inward/record.url?scp=85097850695&partnerID=8YFLogxK

Dieses zitieren

Anuchin, A., Podzorova, V., Hirz, M., Datlinger, C., Aarniovuori, L., Popova, V., Demidova, G., & Hao, C. (2020). Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive. in 2020 11th International Conference on Electrical Power Drive Systems, ICEPDS 2020 - Proceedings: Moscow Power Engineering Institute Artikel 9249077 https://doi.org/10.1109/ICEPDS47235.2020.9249077

Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive. / Anuchin, Alecksey; Podzorova, Valentina ; Hirz, Mario et al.
2020 11th International Conference on Electrical Power Drive Systems, ICEPDS 2020 - Proceedings: Moscow Power Engineering Institute. 2020. 9249077.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Anuchin, A, Podzorova, V, Hirz, M, Datlinger, C, Aarniovuori, L, Popova, V, Demidova, G & Hao, C 2020, Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive. in 2020 11th International Conference on Electrical Power Drive Systems, ICEPDS 2020 - Proceedings: Moscow Power Engineering Institute., 9249077, 11th International Conference on Electrical Power Drive Systems, Virtuell, Russland, 5/10/20. https://doi.org/10.1109/ICEPDS47235.2020.9249077

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title = "Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive",

abstract = "The problem of torque pulsation and its stabilization by means of control is typical for switched reluctance drives. This drives usually controlled using hysteresis current regulators, which produce audible noise and torque ripple. The method of model predictive control with reduced integration step size was introduced in order to implement precise torque stabilization using pulse width modulation. Active thermal control was developed as well to increase the continuous output power of the drive. The developed control strategy was simulated and shows accurate torque regulation even when only few integration steps inside single PWM cycle are used for duty cycle evaluation. Active thermal control reduced the temperature of the hottest power module by 7.4%, which allows to increase the continuous output power of the drive.",

keywords = "active thermal control, model predictive control, reduced integration step size, switched reluctance motor",

author = "Alecksey Anuchin and Valentina Podzorova and Mario Hirz and Christoph Datlinger and Lassi Aarniovuori and Viktoriya Popova and Galina Demidova and Chen Hao",

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doi = "10.1109/ICEPDS47235.2020.9249077",

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AU - Anuchin, Alecksey

AU - Podzorova, Valentina

AU - Hirz, Mario

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AU - Aarniovuori, Lassi

AU - Popova, Viktoriya

AU - Demidova, Galina

AU - Hao, Chen

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N2 - The problem of torque pulsation and its stabilization by means of control is typical for switched reluctance drives. This drives usually controlled using hysteresis current regulators, which produce audible noise and torque ripple. The method of model predictive control with reduced integration step size was introduced in order to implement precise torque stabilization using pulse width modulation. Active thermal control was developed as well to increase the continuous output power of the drive. The developed control strategy was simulated and shows accurate torque regulation even when only few integration steps inside single PWM cycle are used for duty cycle evaluation. Active thermal control reduced the temperature of the hottest power module by 7.4%, which allows to increase the continuous output power of the drive.

AB - The problem of torque pulsation and its stabilization by means of control is typical for switched reluctance drives. This drives usually controlled using hysteresis current regulators, which produce audible noise and torque ripple. The method of model predictive control with reduced integration step size was introduced in order to implement precise torque stabilization using pulse width modulation. Active thermal control was developed as well to increase the continuous output power of the drive. The developed control strategy was simulated and shows accurate torque regulation even when only few integration steps inside single PWM cycle are used for duty cycle evaluation. Active thermal control reduced the temperature of the hottest power module by 7.4%, which allows to increase the continuous output power of the drive.

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KW - model predictive control

KW - reduced integration step size

KW - switched reluctance motor

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DO - 10.1109/ICEPDS47235.2020.9249077

M3 - Conference paper

BT - 2020 11th International Conference on Electrical Power Drive Systems, ICEPDS 2020 - Proceedings

T2 - 11th International Conference on Electrical Power Drive Systems

Y2 - 5 October 2020 through 6 October 2020

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Model Predictive Control with Reduced Integration Step Size of a Switched Reluctance Drive

Abstract

Konferenz

ASJC Scopus subject areas

Fields of Expertise

Zugriff auf Dokument

Andere Dateien und Links

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