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Ferreira, F., Silva, A.M. and de Almeida, A.T. (2017) Software Tool for Fast and Optimized Design of Three-Phase Stator Windings of Induction Motors. EEMODS 2017, Rome, 6-7 September 2017, 370-389.

has been cited by the following article:

• TITLE: Comparative Analysis of Single-Layer and Double-Layer Windings in Three-Phase Squirrel-Cage Induction Machines Using FEA and d-q Modelling

  AUTHORS: David Yapele, Andre Youmssi, Andre Boussaibo, Golam Guidkaya, Jean Claude Kamgang

  KEYWORDS: Induction Machine, Winding Configuration, Finite Element Analysis, d-q Model, Flux Distribution, Saturation

  JOURNAL NAME: Journal of Electromagnetic Analysis and Applications, Vol.17 No.2, February 28, 2025

  ABSTRACT: This paper presents a comprehensive multi-method comparative study on the influence of single-layer and double-layer winding configurations on the static performance of three-phase squirrel-cage induction machines. By integrating high-fidelity finite element analysis (FEA) with dynamic modeling in the d-q reference frame using the Park transformation, we quantify their effects on magnetic flux distribution, magnetizing and leakage inductances, and core saturation behavior. The results reveal that double-layer windings provide superior flux homogeneity and improved inductive linearity, thus simplifying vector control. Despite increased manufacturing complexity and higher end-winding losses, this configuration improves overall electromagnetic performance, justifying its suitability for industrial applications requiring high efficiency and torque stability.