Abstract: The high speed maglev train adopts linear synchronous motor as its driving device, whose current control effect directly affects the stability and comfort of the train. In view of the characteristics of large power of linear motor, the multi H-bridge series scheme is used in single-phase drive, and the drive topology switching can be realized when running at high and low speeds, and there is serious cross-coupling of the dq axis current after the coordinate transformation of the motor current in vector control, and the coupling component increases with the increase of vehicle speed, thereby reducing the current control performance. In order to improve the effect of motor dynamic control, a complex vector current control method is proposed, and the current oscillation under different modulation methods is solved by virtual resistance.The control performance is verified by the semi-physical simulation platform, and the simulation and experimental results show the feasibility and effectiveness of the current control strategy.

    Key words: high speed maglev; linear synchronous motor; complex vector current control; virtual resistance; H-bridge series