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Vol. 162, Issue 1, January 2014, pp. 258-265




Transient Simulation Study of Slip-Frequency Vector Control for Variable Speed Doubly-Fed Brushless Motor
with Magnetic Barrier Rotor

Jingxiong ZHANG, Huijuan LIU, Yiduan CHEN

School of Electrical Engineering, Beijing Jiaotong University, Beijing, 100044, China
Tel.: +8618611926825, +86-10-51684831

E-mail: 12125890@bjtu.edu.cn


Received: 15 October 2013 /Accepted: 9 January 2014 /Published: 31 January 2014

Digital Sensors and Sensor Sysstems


Abstract: In this paper, a transient simulation model of a variable speed doubly fed brushless motor (DFBM) using back-to-back converter is described. Based on analysis of rotor flux oriented vector control theory of doubly fed induction motor, the control of the currents in DFBM that produce the magnetic flux and the torque is achieved by a digital controller, the speed is regulated by a PI controller which is tuned by a genetic algorithm. According to the state equation of DFBM and the control schemes, the system simulation module is established in MATLAB/ SIMULINK. An extensive simulation study is performed to examine the control characteristics of the machine-side converter under different operation conditions in variable-speed DFBM driver system.


Keywords: Doubly-fed brushless motor (DFBM), Rotor flux oriented vector control, Slip-frequency, MATLAB/SIMULINK simulation, Space vector pulse width modulated (SVPWM) converter.


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