Title :
Dual AC-drive system with a reduced switch count
Author :
Ledezma, Enrique ; McGrath, Brendan ; Muñoz, Alfredo ; Lipo, Thomas A.
Author_Institution :
Dept. of Electr. & Comput. Eng., Wisconsin Univ., Madison, WI, USA
Abstract :
A dual current-regulated pulsewidth-modulated voltage-source inverter based on multiple two-phase PWM inverters, also called a B4 topology, requiring a dual AC-drive system with reduced switch count is proposed. The drive utilizes a total of only eight switches to produce two sets of three-phase or two-phase sinusoidal output currents that can be employed to feed three-phase or two-phase induction motors. A suitable control strategy of this new scheme is shown to minimize the single-phase current now through the DC-link capacitors, which is a common problem in reduced-switch-count topologies. In order to verify the performance of the motor drive system, an application on traction of an electric vehicle is carried out. Results show that the AC current through the DC link can be minimized, and when utilizing two-phase motors on the proposed dual drive, the reduced voltage gain problem, also common in B4 topologies feeding three-phase motors, can be solved
Keywords :
PWM invertors; electric current control; electric vehicles; induction motor drives; machine control; switching circuits; traction motor drives; 230 V; 3 hp; AC current minimisation; B4 topology; DC-link capacitors; control strategy; dual AC-drive system; dual current-regulated PWM VSI; electric vehicle traction; multiple two-phase PWM inverters; reduced switch count; reduced voltage gain; reduced-switch-count topologies; single-phase current minimisation; three-phase induction motors; three-phase sinusoidal output currents; two-phase induction motors; two-phase sinusoidal output currents; voltage-source inverter; AC motors; DC motors; Feeds; Induction motors; Pulse inverters; Pulse width modulation inverters; Switches; Topology; Traction motors; Voltage;
Journal_Title :
Industry Applications, IEEE Transactions on
