Dc‐link voltage stability analysis technique for hybrid five‐phase open‐end winding drives

Abstract

The dc-link voltage stability for a hybrid five-phase open-end winding (OeW) drive operating under carrier-based pulse-width modulation is studied. The drive consists of a five-phase induction machine, supplied using one three-level and one two-level voltage source inverter. This configuration is analysed for the case of isolated dc-link rails, while the dc-link voltage ratio is considered as an additional degree of freedom. It is demonstrated that different dc-link voltage ratios lead to the different overall number of voltage levels across stator windings. Modulation strategies are investigated and their performances are analysed from the dc-link voltages stability point of view. An analytical method for dc-link voltage stability analysis is presented. Results show that the four-level configuration always leads to stable dc-link voltages, regardless of the modulation strategy. On the other hand, if the six-level configuration is combined with modulation strategies that lead to optimal harmonic performance, not all dc-link capacitor voltages will be in the balance depending on the operating conditions.