Abstract
This paper proposes a novel multiphase transformer connection scheme which converts three phase balanced AC input to seven phase balanced AC output. Generalized theory to convert a three phase utility supply into any number of phases is presented. Based on the proposed generalized principle, a three phase to seven phase power converting transformer design is presented with connection scheme, analysis and simulation and experimental results of the proposed three phase to seven phase conversion transformer. The proposed transformer in this paper is analyzed and compared with the connection scheme for seven phase available in the literature. The connection scheme is found to have higher power density, lower core area and lower core requirement as compared to the available connection scheme of the same rating. Impedance mismatching between different phases of the transformer is observed in the three phase to seven phase transformer available in the literature. As this mismatching introduces error in study of per phase equivalent circuit diagrams as well as imbalance in voltage and currents. The present design also addresses the impedance mismatching issue and reduces mismatching in the proposed transformer design. A prototype of the proposed system is developed and waveforms are presented. The proposed design is verified using simulation and validated using experimental approach.
Highlights
Multiphase systems are known for reliability, fault tolerance and high power carrying capabilities [1]
The output is a balanced seven phase supply for a balanced three-phase input (Figures 7-8) and an unbalanced output is a seen for an unbalanced three-phase input
A general equation of phase transformation from three phase supply to n-phase supply using primary winding Scott connection based on vector/graphical approach is given
Summary
Multiphase systems are known for reliability, fault tolerance and high power carrying capabilities [1]. There are papers about this application reagarding power generation [2, 3], transmission [4, 5] and utilization [6, 7]. The numerous advantages offered by multiphase systems have attracted researchers’ interest that include higher machine torque density, reduced torque ripples, reduced harmonic currents, better transient and steady-state performance, and more robust control of multiphase based drives. Multi-phase AC power is generated from three phase power by two methods. The other one is through multiphase power converting transformers. The second method utilizes transformer winding in a special connection and turns ratios while the first method needs rectifiers and inverters.
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