LAUSR

A novel digital controller for the space-vector pulsewidth modulation (SVPWM) algorithm used in three-phase power inverters is shown. From an analysis of the vector representation of the three-phase triad, the dwell-times evaluation is optimized reducing the needed resource of the hardware. Our proposal is based on the use of only one-sixth of the vectorial plane and on a precalculation of the dwell-times in terms of the maximum modulation index and the minimum carrier frequency. Once obtained the normalized dwell-times, an optimized hardware architecture is proposed to evaluate the effective dwell-times by changing in real time the wanted values of the carrier frequency and of the amplitude. Our architecture excludes the use of external reference signals or processors. We experimentally implement it both on a low-cost field programmable gate array Artix-VII and on a more performing Cyclone-V. Finally, classical and advanced SVPWM techniques are proposed to show the flexibility of our architecture.