Lee, B.-C.; Song, C.-H.; Kim, D.-H.; Kim, K.-C. Study on Process Derivation and Characteristic Analysis for BLDC Motor Design Using Dual Rotor Structure with High Torque Density. Energies2020, 13, 6745.
Lee, B.-C.; Song, C.-H.; Kim, D.-H.; Kim, K.-C. Study on Process Derivation and Characteristic Analysis for BLDC Motor Design Using Dual Rotor Structure with High Torque Density. Energies 2020, 13, 6745.
Lee, B.-C.; Song, C.-H.; Kim, D.-H.; Kim, K.-C. Study on Process Derivation and Characteristic Analysis for BLDC Motor Design Using Dual Rotor Structure with High Torque Density. Energies2020, 13, 6745.
Lee, B.-C.; Song, C.-H.; Kim, D.-H.; Kim, K.-C. Study on Process Derivation and Characteristic Analysis for BLDC Motor Design Using Dual Rotor Structure with High Torque Density. Energies 2020, 13, 6745.
Abstract
In this paper, the design process of BLDC adopting the dual rotor method that can reduce the overall size of the motor while generating the same torque as the conventional Permanent Magnet BLDC is analyzed. A simple size is selected by obtaining the torque per rotor volume (TRV), and a method of matching the counter electromotive force by selecting the pole arc of the magnet through a magnetic equivalent circuit is analyzed. Since the efficiency is low because the 120-degree commutation method is selected, the middle stator is optimized through detailed design through the experimental design method. Afterwards, it has the advantage of being able to shift without stopping due to the characteristic of a dual rotor. For this, an analysis of the driving characteristics for each mode is performed.
Keywords
BLDC; Dual Rotor; Magnetic Equivalent circuit; Operation mode; TRV
Subject
Engineering, Automotive Engineering
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.