Nick Simpson scite author profile

In the design of compact, power dense electrical machines found in automotive and aerospace applications it may be preferable to accept a degree of eddy current loss within the winding to realise a low cost high integrity winding. Commonly adopted techniques for analysing AC effects in electrical machine windings tend only to be applicable where the conductor dimensions are smaller than the skin depth and for ideally transposed windings. Further the temperature variation of AC losses is often overlooked. In this paper a more general approach is proposed based on an established analytical model and is equally applicable to windings where the conductor size greatly exceeds the skin depth. The model is validated against test measurements and FE analysis on representative single layer winding arrangements. A case study is used to illustrate the application of the proposed analytical method to the coupled electromagnetic and thermal modelling of a typical slot winding.I.

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Additive Manufacturing of Shaped Profile Windings for Minimal AC Loss in Electrical Machines

Simpson

Mellor

2018

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Concentrated wound, open slot, permanent magnet electrical machines are an attractive topology for automotive and aerospace applications as they exhibit compact end-windings, resulting in high power-density, facilitate fault tolerant operation through, physical, thermal, magnetic and electrical isolation of phase windings, and the open slot structure eases manufacture. However, a significant disadvantage of this topology is the interaction between the armature reaction field and winding conductors leading to elevated AC losses. A common mitigation technique is to reduce the height of the winding in the slot to minimise this interaction, however, the conductor crosssectional area is consequently reduced which compromises lowspeed performance. This paper investigates the use of additive manufacturing to produce shaped profile windings which exhibit minimal AC loss whilst maximising the utilisation of the slot area, thereby improving low-speed performance while maintaining high-speed performance.

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Additive Manufacturing of Shaped Profile Windings for Minimal AC Loss in Electrical Machines

Simpson

North

Collins

et al. 2020

IEEE Trans. on Ind. Applicat.

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Nick Simpson

Estimation of Equivalent Thermal Parameters of Impregnated Electrical Windings

Derivation and Scaling of AC Copper Loss in Thermal Modeling of Electrical Machines

AC losses in high frequency electrical machine windings formed from large section conductors

Additive Manufacturing of Shaped Profile Windings for Minimal AC Loss in Electrical Machines

Additive Manufacturing of Shaped Profile Windings for Minimal AC Loss in Electrical Machines

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