论文信息 - Computationally efficient method and investigation of operational envelopes of hybrid and electrically excited machines

Computationally efficient method and investigation of operational envelopes of hybrid and electrically excited machines

In this paper, an investigation on the operational envelopes of electrically excited (EE) and hybrid excitation (HE) machines for electric vehicles (EV) is highlighted. A computationally efficient calculation method utilising 2D scanning of finite element analyses (FEA) having different d- and q-axis currents is developed. Compared with the conventional method, which typically requires 3D scanning of FEA having different excitation, d- and q-axis currents, the proposed method significantly reduces the complexity and the computation time. The accuracy of the new method is validated by direct FE results. It is further found that even for EE and HE machines the maximum constant power operation in the high speed range is achieved by employing flux weakening control by the armature current instead of applying a lower excitation current, which is also validated by analytical analyses.

[1] D. Howe,et al. Influence of Skew and Cross-Coupling on Flux-Weakening Performance of Permanent-Magnet Brushless AC Machines , 2009, IEEE Transactions on Magnetics.

[2] Lionel Vido,et al. Hybrid Excitation Synchronous Machines: Energy-Efficient Solution for Vehicles Propulsion , 2009, IEEE Transactions on Vehicular Technology.

[3] Chester Coomer,et al. Evaluation of the 2010 Toyota Prius Hybrid Synergy Drive System , 2011 .

[4] Kais Atallah,et al. Design Optimization of a Surface-Mounted Permanent-Magnet Motor With Concentrated Windings for Electric Vehicle Applications , 2013, IEEE Transactions on Vehicular Technology.

[5] Rafal Wrobel,et al. The design of AC permanent magnet motors for electric vehicles: a computationally efficient model of the operational envelope , 2012 .

[6] Ion Boldea. Design of Synchronous Generators , 2015 .