TY - GEN
T1 - Winding layout for a miniature axial-flux motor using electroforming technology
AU - Hsu, Liang Yi
AU - Tsai, Ming Chin
AU - Chen, Chien Jen
AU - Wu, Chuen Fuu
AU - Tsai, Mi Ching
N1 - Copyright:
Copyright 2008 Elsevier B.V., All rights reserved.
PY - 2005
Y1 - 2005
N2 - This paper uses electroforming technology to Implement the winding of a miniature axial-flux motor. Electroforming is a highly specialized process for fabricating a metal part by electro deposition In a plating bath over a base plate. Unlike radial flux motors, whose windings need to be realized using copper wires, electroforming process carries out the three-phase windings directly. Winding arranement and coll shape are simulated by finite element analysis and designed for better performance. Based the design result and electroforming technology, the copper-electroformed winding Is carried out. Proper electroforming parameters, such as density current, concentrations of components of the bath, temperature and so on, were controlled In electroforming process. Briefly, this paper presents a practical reference of winding layout to be considered In miniature axial-flux motor design.
AB - This paper uses electroforming technology to Implement the winding of a miniature axial-flux motor. Electroforming is a highly specialized process for fabricating a metal part by electro deposition In a plating bath over a base plate. Unlike radial flux motors, whose windings need to be realized using copper wires, electroforming process carries out the three-phase windings directly. Winding arranement and coll shape are simulated by finite element analysis and designed for better performance. Based the design result and electroforming technology, the copper-electroformed winding Is carried out. Proper electroforming parameters, such as density current, concentrations of components of the bath, temperature and so on, were controlled In electroforming process. Briefly, this paper presents a practical reference of winding layout to be considered In miniature axial-flux motor design.
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M3 - Conference contribution
AN - SCOPUS:33846976521
SN - 7506274078
SN - 9787506274074
T3 - ICEMS 2005: Proceedings of the Eighth International Conference on Electrical Machines and Systems
SP - 2324
EP - 2328
BT - ICEMS 2005
ER -