IEEE Access (Jan 2024)
DQ Analysis of Fractional-Slot Machines With Star-Delta Concentrated Winding
Abstract
This paper presents a novel method for addressing the challenge of dq-transformation in fractional-slot machines with star-delta connected concentrated windings. These machines have no neutral point, preventing direct measurement of mutual inductance between phases. This complicates the calculation of d- and q-axis inductances, which are crucial for modern control techniques such as field-oriented and sensorless control. The proposed method derives d- and q-axis inductances as functions of individual star and delta coil inductances, which can easily be measured. Moreover, it demonstrates that the d- and q-axis inductances can be calculated using measurements from just two adjacent coils. The method begins with constructing a decomposed coil-by-coil inductance matrix, separating each phase winding into individual star and delta coil inductances. This matrix is then transformed into the dq-frame using a three-step process: firstly, summing individual flux linkages to derive line flux linkage based on circuit configuration; secondly, decomposing 3-phase abc supply currents into individual currents within the star and delta coils to address phase shift and amplitude differences; and finally, transforming line flux linkage into the dq-frame using a modified power-invariant Park transformation. The proposed method is validated by simulations and experiments on both surface mounted and interior permanent magnet machines.
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