Title :
Maximum-Torque-per-Ampere Control of Phase Advance Modulation of an SPM Wind Generator
Author :
Pathmanathan, Mehanathan ; Soong, Wen L. ; Ertugrul, Nesimi
Author_Institution :
Sch. of Electr. & Electron. Eng., Univ. of Adelaide, Adelaide, SA, Australia
Abstract :
Surface permanent-magnet (SPM) machines are normally operated by controlling the d- and q-axis currents. This paper examines the control of SPM generators based on controlling the terminal voltage magnitude V and power-factor angle 8. This is well suited for generator operation when using a switched-mode rectifier and avoids the need for a rotor position sensor. The parameters required for generating a given value of torque with minimum phase current in order to minimize copper losses are derived in this paper. This will be achieved by controlling V and 8 to keep the d-axis current equal to zero at low speed, before switching to field-weakening control at higher speeds. Simulated and experimental results will be used to verify the control strategy and the efficiency achieved.
Keywords :
electric current control; machine vector control; permanent magnet generators; rectifying circuits; torque control; voltage control; wind power plants; SPM wind generator; copper losses; d-q-axis currents; field-weakening control; maximum-torque-per-ampere control; phase advance modulation; power-factor angle; rotor position sensor; surface permanent-magnet machine; switched-mode rectifier; terminal voltage magnitude control; Equations; Generators; Inverters; Phase modulation; Torque; Trajectory; Voltage control; AC–DC power conversion; permanent-magnet generators; pulsewidth-modulated power converters;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2012.2209169
