Driving-scenario oriented optimal design of an axialflux permanent-magnet motor for an electric vehicle
Journal
World Electric Vehicle Journal
Journal Volume
8
Journal Issue
2
Pages
483-494
Date Issued
2016
Author(s)
Shih G.-Y
Abstract
This paper proposes a driving-scenario oriented optimal design of an axial-flux permanent-magnet (AFPM) motor for an electric vehicle. The target torque and speed (TN) curve is defined as three operation zones- constant torque, maximum direct current, and maximum voltage-based on the driving scenario. The AFPM motor is designed to minimize energy consumption based on the motor weight and the frequent operating points of a driving cycle. The final result shows that the electric vehicle driven by the proposed AFPM motor consumes about 15% less energy than motors designed using traditional methods. © 2016 WEVA.
Subjects
Brushless motor; Electric vehicle; Motor design; Optimization; Permanent magnet motor
Other Subjects
Electric vehicles; Energy utilization; Optimal systems; Optimization; Permanent magnets; Axial flux permanent magnet; Axial-flux permanent-magnet motors; Brushless motors; Constant torque; Direct current; Motor design; Operating points; Permanent magnet motor; Traction motors
Type
journal article