Rotor-Position Phase Lock Loop for Decoupled P-Q Control of DFIG for Wind Power Generation

Mwinyiwiwa, Bakari M. M.; Shein, B.; Zhang, Y.; Ooi, B. T.

Rotor-Position Phase Lock Loop for Decoupled P-Q Control of DFIG for Wind Power Generation

Files

Rotor Position Phase.pdf (7.81 KB)

Date

2009

Authors

Mwinyiwiwa, Bakari M. M.

Shein, B.

Zhang, Y.

Ooi, B. T.

Publisher

IEEE Transactions on Power Electronics

Abstract

Implementation of decoupled P-Q control of doubly fed induction generators requires the positions of the rotors to be known. The rotor position phase-lock loop (PLL) is an invention that extracts rotor position and speed simultaneously by Â¿sensorlessÂ¿ means. The rotor position PLL is parameter-insensitive because, apart from an approximate value of the magnetization reactance, knowledge of the other parameters is not required for it to function. Experimental results obtained under noisy conditions demonstrate that it is also insensitive to noise.

Description

Full text available at http://ieeexplore.ieee.org/xpl/articleDetails.jsp?tp=&arnumber=5224010&url=http%3A%2F%2Fieeexplore.ieee.org%2Fiel5%2F60%2F5224009%2F05224010

Keywords

asynchronous generators, phase locked loops, rotors, Wind Power, decoupled P-Q control, rotor position phase-locked loop

Citation

Mwinyiwiwa, B., Zhang, Y., Shen, B. and Ooi, B.T., 2009. Rotor Position Phase-Locked Loop for Decoupled Control of DFIG for Wind Power Generation. Energy Conversion, IEEE Transactions on, 24(3), pp.758-765.

URI

http://hdl.handle.net/123456789/1177

Collections

Department of Electrical Engineeering

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