Analysis of Different Switching Patterns to Minimize Losses in a Six- Phase Drive for Marine Application
Abstract: Multiphase machines have gained a lot of popularity during the recent years, as they offer certain benefits over their three- phase counterparts. This work investigates the losses of a six- phase drive system for a marine application when supplied by four different switching patterns (also referred to as modulators). Using MATLAB/SIMULINK, a model was built for the machine featuring three independent frames and a nonlinear, cross coupled flux relation. It has been connected with the corresponding modulator models, where two carrier based modulators have been developed as well as two space vector modulators. The simulation data was then fed into the loss model to calculate the corresponding losses in both machine and converter. This work shows that control of the harmonics – mainly the fifth – is beneficial to reduce losses, mainly in the machine. Without control, harmonic currents cause unnecessary losses. As none of the investigated modulators strictly dominates all others, this work suggests a combination of the two carrier based methods to create a simple and robust modulator, which offers both a high voltage magnitude and control over the fifth harmonic.
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