| Abstract |
In this paper, two different schemes for three-level voltage space vector generation for induction motor drives are proposed. In a conventional 3-phase four-pole induction motor, there exist two identical winding coil groups per phase
around the stator, which are connected in series and spatially apart by two pole pitches. In this work, these two identical
voltage profile pole pair winding coils in each phase of the induction motor are disconnected and reconnected appropriately to achieve a drive scheme with reduced dc-link voltage. Two different schemes are proposed in the present work. In the first scheme the identical pole phase winding groups are connected in two star groups and fed from the independently controlled (decoupled control) two two-level inverters from both sides of the motor with the same dc-link voltage with
half the magnitude compared to conventional NPC three-level inverter. The phase windings are connected in two star groups, so there will not be any path for zero sequence currents. Thereby requirement of isolated voltage sources is eliminated compared to the previous open-end winding multilevel inverter schemes. In the second scheme the identical pole phase winding groups are connected in parallel and fed from the two two-level inverters from both sides of the motor with one fourth the dc-link voltage (compared to the conventional NPC three-level inverter) resulting in a three-level voltage space vector across the motor phase windings. The schemes presented in this paper, does not require any special design modification for the induction machine. For the present study, a four pole IM drive is used, and the scheme can be easily extended to induction motors with more than four poles. The proposed scheme is experimentally verified on a four pole, 5HP induction motor drive. |
