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Electrical Engineering
Erschienen in: Electrical Engineering 2/2018

13.05.2017 | Original Paper

Implementation and experimental investigation of a sensorless field-oriented control scheme for permanent-magnet synchronous generators

verfasst von: Mohamed Abdelrahem, Christoph Michael Hackl, Ralph Kennel

Erschienen in: Electrical Engineering | Ausgabe 2/2018

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Abstract

Variable-speed wind energy conversion systems based on permanent-magnet synchronous generators (PMSGs) are typically controlled using the field-oriented control (FOC) principles. Therefore, accurate information of the rotor speed and position are essential to perform the required reference frame transformations. These signals can be obtained by mechanical sensors (e.g., position encoders or speed transducers) or via estimation schemes. This paper proposes a sensorless FOC strategy for direct-driven PMSGs in variable-speed wind turbines. A synchronously rotating reference frame phase-locked loop (PLL) that utilizes a model-based back elector-motive force (back-EMF) estimation is employed to estimate the rotor speed and position of the PMSG. The proposed sensorless FOC strategy is experimentally implemented, and its performance is investigated for all operation conditions and under parameter variations of the PMSG.
Vorheriger Artikel Location estimation of partial discharge-based electromagnetic source using multilateration with time difference of arrival method
Nächster Artikel A control method for operation of a power conditioner system based on fuel cell/supercapacitor

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Literatur
1.
Liserre M, Cardenas R, Molinas M, Rodriguez J (2011) Overview of multi-MW wind turbines and wind parks. IEEE Trans. Ind Electron 58(4):1081–1095CrossRef
2.
Jeong HG, Lee KB (2014) A control scheme to fulfill the grid-code under various fault conditions in the grid-connected wind turbines. Electr Eng J 96(2):199–210CrossRef
3.
Abdelrahem M, Kennel R (2016) Fault-ride through strategy for permanent-magnet synchronous generators in variable-speed wind turbines. Energies 9(12):1–15CrossRef
4.
Abdel-Salam M, Ahmed A, Abdel-Sater M (2011) Harmonic mitigation, maximum power point tracking and dynamic performance of variable speed grid connected wind turbine. J Electr Power Compon Syst 39(2):176–190CrossRef
5.
Zhang Z, Hackl C, Abdelrahem M, Kennel R (2016) Voltage sensorless direct model predictive control of 3L-NPC back-to-back power converter PMSG wind turbine systems with fast dynamics. In: Proceedings of power and energy student summit (PESS 2016)
6.
Zhao Y, Wei C, Zhang Z, Qiao W (2013) A review on position/speed sensorless control for permanent-magnet synchronous machine-based wind energy conversion systems. IEEE J Emerg Sel Topics Power Electron 1(4):203–216CrossRef
7.
Benadja M, Chandra A (2015) Adaptive sensorless control of PMSGs-based offshore wind farm and VSC-HVdc stations. IEEE J Emerg Sel Topics Power Electron 3(4):918–931CrossRef
8.
Abdelrahem M, Hackl C, Kennel R (2017) Simplified model predictive current control without mechanical sensors for variable-speed wind energy conversion systems. Electr Eng J 99(1):367–377CrossRef
9.
Abdelrahem M, Hackl C, Zhang Z, Kennel R (2016) Sensorless control of permanent magnet synchronous generators in variable-speed wind turbine systems. In: Proceedings of power and energy student summit (PESS 2016), Aachen, Germany, 19–20 January 2016
10.
Rigatos G, Siano P, Zervos N (2014) Sensorless control of distributed power generators with the derivative-free nonlinear Kalman filter. IEEE Trans Ind Electron 61(11):6369–6382CrossRef
11.
Yan J, Lin H, Feng Y, Guo X, Huang Y, Zhu ZQ (2013) Improved sliding mode model reference adaptive system speed observer for fuzzy control of direct-drive permanent magnet synchronous generator wind power generation system. IET Renew Power Gener 7(1):28–35CrossRef
12.
Abdelrahem M, Hackl C, Kennel R (2016) Model predictive control of permanent magnet synchronous generators in variable-speed wind turbine systems. In: Proceedings of power and energy student summit (PESS 2016), Aachen, Germany, 19–20 January 2016
13.
Liu W, Chen L, Ou J, Cheng S (2011) Simulation of PMSG wind turbine system with sensor-less control technology based on model reference adaptive system. In: International conference on electrical machines and systems, Beijing, 2011, pp. 1–3
14.
Zhang Z, Zhao Y, Qiao W, Qu L (2014) A space-vector-modulated sensorless direct-torque control for direct-drive PMSG wind turbines. IEEE Trans Ind Appl 50(4):2331–2341 July-Aug. 2014CrossRef
15.
Koch G, Gabbi T, Henz G, Vieira RP, Pinheiro H (2015) Sensorless technique applied to PMSG of WECS using sliding mode observer. In: IEEE 13th Brazilian power electronics conference and 1st southern power electronics conference (COBEP/SPEC), Fortaleza, 2015, pp. 1–6
16.
Huang K, Zheng L, Huang S, Xiao L, Li W (2011) Sensorless control for direct-drive PMSG wind turbines based on sliding mode observer. In: International conference on electrical machines and systems, Beijing, pp. 1–5
17.
Hui Li, Shi KL, McLaren PG (2005) Neural-network-based sensorless maximum wind energy capture with compensated power coefficient. IEEE Trans Ind Appl 41(6):1548–1556CrossRef
18.
Singh M, Chandra A (2011) Application of adaptive network-based fuzzy inference system for sensorless control of PMSG-based wind turbine with nonlinear-load-compensation capabilities. IEEE Trans Power Electron 26(1):165–175CrossRef
19.
Golestan S, Guerrero JM, Vasquez JC (2017) Three-phase PLLs: a review of recent advances. IEEE Trans Power Electron 32(3):1894–1907CrossRef
20.
Comanescu M, Xu L (2006) An improved flux observer based on PLL frequency estimator for sensorless vector control of induction motors. IEEE Trans Ind Electron 53(1):50–56CrossRef
21.
Preindl M, Schaltz E (2011) Sensorless model predictive direct current control using novel second-order PLL observer for PMSM drive systems. IEEE Trans Ind Electron 58(9):4087–4095CrossRef
22.
Tong L et al (2014) An SRF-PLL-based sensorless vector control using the predictive deadbeat algorithm for the direct-driven permanent magnet synchronous generator. IEEE Trans Power Electron 29(6):2837–2849CrossRef
23.
Fan S, Wang P, Wen C (2010) A new sensorless control strategy used in direct-drive PMSG wind power system. In: 2nd international symposium on power electronics for distributed generation systems. China, Hefei, pp 611–615
24.
Dirscherl C, Hackl C, Schechner K (2015) Modellierung und Regelung von modernen Windkraftanlagen: Eine Einführung” (Chapter 24). In: Schröder D (ed) Elektrische Antriebe - Regelung von Antriebssystemen. Springer, New York, pp 1540–1614CrossRef
25.
Hackl C, Kamper M, Kullick J, Mitchel J (2016) Current control of reluctance synchronous machines with online adjustment of the controller parameters. In: Proceedings of the 2016 IEEE international symposium on industrial electronics (ISIE 2016), Santa Clara, USA, p. 153–160,
26.
Shi T, Wang Z, Xia C (2015) Speed measurement error suppression for PMSM control system using self-adaption Kalman observer. IEEE Trans Ind Electron 62(5):2753–2763CrossRef
Metadaten
Titel
Implementation and experimental investigation of a sensorless field-oriented control scheme for permanent-magnet synchronous generators
verfasst von
Mohamed Abdelrahem
Christoph Michael Hackl
Ralph Kennel
Publikationsdatum
13.05.2017
Verlag
Springer Berlin Heidelberg
Erschienen in
Electrical Engineering / Ausgabe 2/2018
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI
https://doi.org/10.1007/s00202-017-0554-y

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